CRISPRimmunity

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Overview of predicted results

Overview of the results

Contig_ID	Contig_def	CRISPR array number	Contig Signature genes	Self targeting spacer number	Target MGE spacer number	Prophage number	Anti-CRISPR protein number
NZ_CP007141	Pseudothermotoga hypogea DSM 11164 = NBRC 106472 strain DSM 11164 chromosome, complete genome	4 crisprs	cas14k,csx1,cas2,cas6,csm5gr7,csm4gr5,csm3gr7,csm2gr11,cas10,cas1,cmr6gr7,cmr5gr11,cmr4gr7,cmr3gr5,cmr1gr7,DEDDh,cas3,cas5,cas7,cas8b1,cas4,csa3,Cas14b_CAS-V-F	0	3	1	0

Results visualization

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CRISPR-Cas detection and classification

Crispr_ID: NZ_CP007141_1

CRISPR_ID

CRISPR_location

CRISPR_type

Repeat_type

Spacer_info

Cas_protein_info

CRISPR-Cas_info

NZ_CP007141_1

1057312-1058399

TypeIII

Consensus_repeat	Method
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	CRT
AGTTTCCATCCCTCATAGGAGCCTTCTAAAC	PILER-CR
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	CRISPRCasFinder
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	PILER-CR

15 spacers

csx1,cas2,cas6,csm5gr7,csm4gr5

The CRISPR arrays of NZ_CP007141_1

>merge|NZ_CP007141|1|1057312-1058399|CRT,PILER-CR,CRISPRCasFinder,PILER-CR
ATTTCCAGCCATTATAAGGCCTTCCAAACCCGGCCCGATTCAAAGAAACAGAAGCCATTACAATCTTGACGGCAGTTTCCATCCCTCATAGGAGCCTTCTAAACTTTGGTTCCTGCAATAGCAAAGAGAAGAAGCACTGGAAGTTTCCATCCCTCATAGGAGCCTTCTAAACTCTTAAATTGTTTCGTGAGCTCAAAGTGTCTTGATCCCGAGTTTCCATCCCTCATAGGAGCCTTCTAAACGGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTTGTTTCCATCCCTCATAGGAGCCTTCTAAACATCTTGAAGATCTAAAGGCGTGAGCGGAAACGCTCAGTTTCCATCCCTCATAGGAGCCTTCTAAACACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTGGTTTCCATCCCTCATAGGAGCCTTCTAAACTCCTTTTTCCTTATGGCGTGTACTATGGGATAGTGAAGAAGGGTTTCCATCCCTCATAGGAGCCTTCTAAACACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTGGTTTCCATCCCTCATAGGAGCCTTCTAAACATTTTCACAGCGAACGCGGTTCTTTGGGTATTTCTTCAGTTTCCATCCCTCATAGGAGCCTTCTAAACTCCCGAGTCCTATTATGACGTTGTTTTGTGCCATGAGTTTCCATCCCTCATAGGAGCCTTCTAAACGCGTTTGAAATCGCCATGTTGTTCGCCAAACTCGGCATGAACTTGTTTCCATCCCTCATAGGAGCCTTCTAAACTTTTAAATGCACGGTTGAAAACATAGTTCATACTGATGTTTCCATCCCTCATAGGAGCCTTCTAAACGCGGAGGTATGATGAGAGTACGAGAGATTCAGGATTGGATGTTTCCATCCCTCATAGGAGCCTTCTAAACGGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTTGTTTCCATCCCTCATAGGAGCCTTCTAAACAAGAACTTGCAAGAAAAAAGAACTACGATCTAAATTGCATGTTGCGTTTCCATCCCTCATAGGAGCCTTCTAAAC

>NZ_CP007141|1|1|1057312-1058399|CRT
ATTTCCAGCCATTATAAGGCCTTCCAAACC	CGGCCCGATTCAAAGAAACAGAAGCCATTACAATCTTGACGGCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTGGTTCCTGCAATAGCAAAGAGAAGAAGCACTGGAA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCTTAAATTGTTTCGTGAGCTCAAAGTGTCTTGATCCCGA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ATCTTGAAGATCTAAAGGCGTGAGCGGAAACGCTCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCCTTTTTCCTTATGGCGTGTACTATGGGATAGTGAAGAAGG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ATTTTCACAGCGAACGCGGTTCTTTGGGTATTTCTTCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCCCGAGTCCTATTATGACGTTGTTTTGTGCCATGA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGTTTGAAATCGCCATGTTGTTCGCCAAACTCGGCATGAACTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTTAAATGCACGGTTGAAAACATAGTTCATACTGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGGAGGTATGATGAGAGTACGAGAGATTCAGGATTGGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	AAGAACTTGCAAGAAAAAAGAACTACGATCTAAATTGCATGTTGC
GTTTCCATCCCTCATAGGAGCCTTCTAAAC

>NZ_CP007141|1|1|1057385-1057629|PILER-CR
AGTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTGGTTCCTGCAATAGCAAAGAGAAGAAGCACTGGA
AGTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCTTAAATTGTTTCGTGAGCTCAAAGTGTCTTGATCCCG
AGTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGT
TGTTTCCATCCCTCATAGGAGCCTTCTAAACATCTTGAAGATCTAAAGGCGTGAGCGGAAACGCTCAGTTTCCATCCCTCATAGGAGCCTTCTAAACACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTGGTTTCCATCCCTCATAGGAGCCTTCTAAACTCCTTTTTCCTTATGGCGTGTACTATGGGATAGTGAAGAAGGGTTTCCATCCCTCATAGGAGCCTTCTAAAC	ACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ATTTTCACAGCGAACGCGGTTCTTTGGGTATTTCTTCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCCCGAGTCCTATTATGACGTTGTTTTGTGCCATGA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGTTTGAAATCGCCATGTTGTTCGCCAAACTCGGCATGAACTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTTAAATGCACGGTTGAAAACATAGTTCATACTGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGGAGGTATGATGAGAGTACGAGAGATTCAGGATTGGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	AAGAACTTGCAAGAAAAAAGAACTACGATCTAAATTGCATGTTGC


>NZ_CP007141|1|1|1057386-1058399|CRISPRCasFinder
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTGGTTCCTGCAATAGCAAAGAGAAGAAGCACTGGAA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCTTAAATTGTTTCGTGAGCTCAAAGTGTCTTGATCCCGA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ATCTTGAAGATCTAAAGGCGTGAGCGGAAACGCTCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCCTTTTTCCTTATGGCGTGTACTATGGGATAGTGAAGAAGG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ATTTTCACAGCGAACGCGGTTCTTTGGGTATTTCTTCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCCCGAGTCCTATTATGACGTTGTTTTGTGCCATGA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGTTTGAAATCGCCATGTTGTTCGCCAAACTCGGCATGAACTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTTAAATGCACGGTTGAAAACATAGTTCATACTGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGGAGGTATGATGAGAGTACGAGAGATTCAGGATTGGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	AAGAACTTGCAAGAAAAAAGAACTACGATCTAAATTGCATGTTGC
GTTTCCATCCCTCATAGGAGCCTTCTAAAC

>NZ_CP007141|1|2|1057806-1058399|PILER-CR
	TTTGGTTCCTGCAATAGCAAAGAGAAGAAGCACTGGA
AGTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCTTAAATTGTTTCGTGAGCTCAAAGTGTCTTGATCCCG
AGTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGT
TGTTTCCATCCCTCATAGGAGCCTTCTAAACATCTTGAAGATCTAAAGGCGTGAGCGGAAACGCTCAGTTTCCATCCCTCATAGGAGCCTTCTAAACACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTGGTTTCCATCCCTCATAGGAGCCTTCTAAACTCCTTTTTCCTTATGGCGTGTACTATGGGATAGTGAAGAAGGGTTTCCATCCCTCATAGGAGCCTTCTAAAC	ACGAGAAGGCGCAGTTACTTAAGGAGATTGAAAGACTG
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	ATTTTCACAGCGAACGCGGTTCTTTGGGTATTTCTTCA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TCCCGAGTCCTATTATGACGTTGTTTTGTGCCATGA
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGTTTGAAATCGCCATGTTGTTCGCCAAACTCGGCATGAACTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	TTTTAAATGCACGGTTGAAAACATAGTTCATACTGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GCGGAGGTATGATGAGAGTACGAGAGATTCAGGATTGGAT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	GGGAATTTGACAGAGTGTGTTGGTGAAAGGAGGCGAATAGCATGTT
GTTTCCATCCCTCATAGGAGCCTTCTAAAC	AAGAACTTGCAAGAAAAAAGAACTACGATCTAAATTGCATGTTGC
GTTTCCATCCCTCATAGGAGCCTTCTAAAC

Protein	Signature genes	Signature genes Name	Protein_function
NZ_CP007141.1\|WP_031505222.1\|1062664_1063417_-\|CRISPR-associated-endoribonuclease-Cas6	cas6	COG1583_cas6_CAS-I:CAS-III:CAS-IV	gnl\|CDD\|273848
NZ_CP007141.1\|WP_051368702.1\|1041677_1043456_+\|hypothetical-protein	unknown	unknown	gnl\|CDD\|225942
NZ_CP007141.1\|WP_031505226.1\|1060923_1061610_-\|hypothetical-protein	unknown	unknown	gnl\|CDD\|274376
NZ_CP007141.1\|WP_031505007.1\|1047431_1049354_-\|penicillin-binding-protein	unknown	unknown	gnl\|CDD\|223815
NZ_CP007141.1\|WP_031505011.1\|1052366_1054712_+\|phosphoketolase-family-protein	unknown	unknown	gnl\|CDD\|235379
NZ_CP007141.1\|WP_038059871.1\|1058674_1060102_-\|hypothetical-protein	csx1	cd09747_csx1_CAS-III	gnl\|CDD\|187878
NZ_CP007141.1\|WP_144316855.1\|1063413_1063845_-\|hypothetical-protein	cas6	mkCas0166_cas6_CAS-I:CAS-III	unknown
NZ_CP007141.1\|WP_031505012.1\|1054758_1056162_-\|MFS-transporter	unknown	unknown	gnl\|CDD\|225121
NZ_CP007141.1\|WP_031505005.1\|1043472_1045302_+\|hypothetical-protein	unknown	unknown	gnl\|CDD\|379709
NZ_CP007141.1\|WP_031505227.1\|1060098_1060896_-\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_051368703.1\|1050055_1050301_+\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_031505223.1\|1062378_1062651_-\|CRISPR-associated-endonuclease-Cas2	cas2	cd09725_cas2_CAS-I:CAS-II:CAS-III:CAS-V	gnl\|CDD\|187856
NZ_CP007141.1\|WP_162181441.1\|1061587_1061767_-\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_031505010.1\|1050297_1050636_+\|sigma-70-family-RNA-polymerase-sigma-factor	unknown	unknown	gnl\|CDD\|274357
NZ_CP007141.1\|WP_031505006.1\|1045355_1047407_-\|MMPL-family-transporter	unknown	unknown	gnl\|CDD\|223964
NZ_CP007141.1\|WP_157724357.1\|1064039_1065200_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm5	csm5gr7	mkCas0182_csm5gr7_CAS-III-A	gnl\|CDD\|273863
NZ_CP007141.1\|WP_096325184.1\|1049335_1049878_-\|methylated-DNA--[protein]-cysteine-S-methyltransferase	unknown	unknown	gnl\|CDD\|223427
NZ_CP007141.1\|WP_031505013.1\|1056191_1057106_-\|alpha/beta-hydrolase	unknown	unknown	gnl\|CDD\|223669
NZ_CP007141.1\|WP_031505219.1\|1065189_1066149_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm4	csm4gr5	cd09663_csm4gr5_CAS-III-A	gnl\|CDD\|273866
NZ_CP007141.1\|WP_031505224.1\|1062118_1062382_+\|CRISPR-associated-endonuclease-Cas2	cas2	cd09725_cas2_CAS-I:CAS-II:CAS-III:CAS-V	gnl\|CDD\|187856

Protein	Function_ID	Function_description	E-value
NZ_CP007141.1\|WP_051368702.1\|1041677_1043456_+\|hypothetical-protein	gnl\|CDD\|225942	COG3408, GDB1, Glycogen debranching enzyme [Carbohydrate transport and metabolism].	3.23693e-09
NZ_CP007141.1\|WP_031505006.1\|1045355_1047407_-\|MMPL-family-transporter	gnl\|CDD\|223964	COG1033, COG1033, Predicted exporters of the RND superfamily [General function prediction only].	1.17571e-71
NZ_CP007141.1\|WP_031505007.1\|1047431_1049354_-\|penicillin-binding-protein	gnl\|CDD\|223815	COG0744, MrcB, Membrane carboxypeptidase (penicillin-binding protein) [Cell envelope biogenesis, outer membrane].	1.37476e-149
NZ_CP007141.1\|WP_031505011.1\|1052366_1054712_+\|phosphoketolase-family-protein	gnl\|CDD\|235379	PRK05261, PRK05261, phosphoketolase.	0
NZ_CP007141.1\|WP_038059871.1\|1058674_1060102_-\|hypothetical-protein	gnl\|CDD\|187878	cd09747, Csx1_III-U, CRISPR/Cas system-associated protein Csx1. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Protein of this family often fused to HTH domain; Some proteins could have an additional fusion with RecB-family nuclease domain; Core domain appears to have a Rossmann-like fold; loosely associated with CRISPR/Cas systems; also known as Cas02710 family.	1.37326e-68
NZ_CP007141.1\|WP_031505012.1\|1054758_1056162_-\|MFS-transporter	gnl\|CDD\|225121	COG2211, MelB, Na+/melibiose symporter and related transporters [Carbohydrate transport and metabolism].	3.50234e-109
NZ_CP007141.1\|WP_031505005.1\|1043472_1045302_+\|hypothetical-protein	gnl\|CDD\|379709	pfam14871, GHL6, Hypothetical glycosyl hydrolase 6. GHL6 is a family of hypothetical glycoside hydrolases.	8.90585e-07
NZ_CP007141.1\|WP_031505222.1\|1062664_1063417_-\|CRISPR-associated-endoribonuclease-Cas6	gnl\|CDD\|273848	TIGR01877, CRISPR-associated_endoribonuclease_Cas6_1, CRISPR-associated endoribonuclease Cas6. CRISPR is a term for Clustered, Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR-Associated) proteins. This broadly distributed, highly divergent Cas family is now characterized as an endoribonuclease that generates guide RNAs for host defense against phage and other invaders. The family contains a C-terminal motif GXGXXXXXGXG, where the each X between two Gly is hydrophobic and the spacer XXXXX contains (usually) one Arg or Lys. The seed alignment for the current version of this model has gappy columns removed. Members of this protein family are found associated with several different CRISPR/cas system subtypes, and consequently we designate this family Cas6.	1.17134e-29
NZ_CP007141.1\|WP_031505223.1\|1062378_1062651_-\|CRISPR-associated-endonuclease-Cas2	gnl\|CDD\|187856	cd09725, Cas2_I_II_III, CRISPR/Cas system-associated protein Cas2. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas2 is present in majority of CRISPR/Cas systems along with Cas1; RNAse specific to U-rich regions; Possesses an RRM/ferredoxin fold.	1.40114e-17
NZ_CP007141.1\|WP_031505010.1\|1050297_1050636_+\|sigma-70-family-RNA-polymerase-sigma-factor	gnl\|CDD\|274357	TIGR02937, RNA_polymerase_sigma_factor, RNA polymerase sigma factor, sigma-70 family. This model encompasses all varieties of the sigma-70 type sigma factors including the ECF subfamily. A number of sigma factors have names with a different number than 70 (i.e. sigma-38), but in fact, all except for the Sigma-54 family (TIGR02395) are included within this family. Several Pfam models hit segments of these sequences including Sigma-70 region 2 (pfam04542) and Sigma-70, region 4 (pfam04545), but not always above their respective trusted cutoffs.	0.00148811
NZ_CP007141.1\|WP_031505226.1\|1060923_1061610_-\|hypothetical-protein	gnl\|CDD\|274376	TIGR02985, Sig70_bacteroi1, RNA polymerase sigma-70 factor, Bacteroides expansion family 1. This group of sigma factors are members of the sigma-70 family (TIGR02937) and are found primarily in the genus Bacteroides. This family appears to have resulted from a lineage-specific expansion as B. thetaiotaomicron VPI-5482, Bacteroides forsythus ATCC 43037, Bacteroides fragilis YCH46 and Bacteroides fragilis NCTC 9343 contain 25, 12, 24 and 23 members, respectively. There are currentlyonly two known members of this family outside of the Bacteroides, in Rhodopseudomonas and Bradyrhizobium.	0.000203991
NZ_CP007141.1\|WP_157724357.1\|1064039_1065200_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm5	gnl\|CDD\|273863	TIGR01899, cas_TM1807_csm5, CRISPR type III-A/MTUBE-associated RAMP protein Csm5. CRISPR is a term for Clustered Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR associated) proteins. Members of this cas gene family are found in the mtube subtype of CRISPR/cas locus and designated Csm5, for CRISPR/cas Subtype Mtube, protein 5.	9.51572e-17
NZ_CP007141.1\|WP_096325184.1\|1049335_1049878_-\|methylated-DNA--[protein]-cysteine-S-methyltransferase	gnl\|CDD\|223427	COG0350, Ada, Methylated DNA-protein cysteine methyltransferase [DNA replication, recombination, and repair].	1.04881e-44
NZ_CP007141.1\|WP_031505013.1\|1056191_1057106_-\|alpha/beta-hydrolase	gnl\|CDD\|223669	COG0596, MhpC, Predicted hydrolases or acyltransferases (alpha/beta hydrolase superfamily) [General function prediction only].	4.32959e-42
NZ_CP007141.1\|WP_031505219.1\|1065189_1066149_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm4	gnl\|CDD\|273866	TIGR01903, Hypothetical_protein., CRISPR type III-A/MTUBE-associated RAMP protein Csm4. CRISPR is a term for Clustered Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR associated) proteins. Members of this cas gene family are found in the mtube subtype of CRISPR/cas locus and designated Csm4, for CRISPR/cas Subtype Mtube, protein 4.	6.2126e-52
NZ_CP007141.1\|WP_031505224.1\|1062118_1062382_+\|CRISPR-associated-endonuclease-Cas2	gnl\|CDD\|187856	cd09725, Cas2_I_II_III, CRISPR/Cas system-associated protein Cas2. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas2 is present in majority of CRISPR/Cas systems along with Cas1; RNAse specific to U-rich regions; Possesses an RRM/ferredoxin fold.	5.52865e-22

>NZ_CP007141.1|WP_031505013.1|1056191_1057106_-|alpha/beta-hydrolase
MKKIFFSFVALLLLLMLFSCDPKIAEEGKKHLDVTSYRFEQLDGLKIAYREFSDPSKPTLVLIHGFMGNTTNFEKLFPHLAENFHLLVVDLPGFGLSDKQINKPLSRRYMAWVVGELLKKKGIVRYHVLGHSMGSEVAAWLALDRPENVASLILVSSSICVDSSNQTRNFSDNVFVRIFLRLAFLNYTNTKNTFKNLLVVKENFDEKQFLSNYYLVYQTPVKVVFQLAQAVDTEELRELLPSLNLPTLIIWGLQDNATPVEGASCLAQKIANSRVVLLDQAGHLPMIDQPEKMVRAIEQFLLGL
>NZ_CP007141.1|WP_031505012.1|1054758_1056162_-|MFS-transporter
MQTEKLSLKTKIGYGLGDLYGGGAFIILGTYYLHFLTDVVKIAPVLAGLIIMISKIWDAVTDPLMGMISDRTRTRFGRRRPYFLLGIPLIFISFWLLWYPVGFAQEWQRFAYMLFSYLFFVTVITMVMIPYNALAPELTLDYNERTSLTAFRMFFSMLSSVICAILPLEIVKRFDSPKTGYTAMATFFGAFFAIPFLFTFLATKERKEFQQPVFKFNFKEFVEPFKNKTFVYVLLMYLFSFLTMDVIMSILIYYMTYYIKKGNITNLALGVLLISEIVFIPFWSFVAKKYGKRVAFLSSVMVWIVAMFYSLTITPASPTALIYFFAVFTGIGTGGVVITIYSIFADVPDVDELKSGRRREGIYSGLFTFMRKLSSAVGLFLVSSLISVAGYRPAQEQTETFLFVLRLMFAFLPVVLLTFALIFALKYPLTKQLHETLKKILQLKRQNLELSEELRAQEENLKAKLIG
>NZ_CP007141.1|WP_031505011.1|1052366_1054712_+|phosphoketolase-family-protein
MELKNLHLYWKASCYIATGMIYLWDNVLLKEPLKPEHIKRRLLGHWGASPGISFIYAHTNRIIEKYDLDCLFVVGPGHGAPGYIAPLYLDQTLVKYYPHFTLDEEGLKKLFRSFSFPAGLGSHCTPELPGSIQEGGELGYVLSHSYGAVLDNPKLLAVAVVGDGEAETGPLATSWHVNKFINPVRDGVVLPVLLLNGYKINNPTILARIDEEELINLFKGYGYEPKLVIAEEPIQAHESMAQAMDWAVERILDIKSHTEPFRPIYPMIILKTPKGWTAPRKVNDRYIEGYWRAHQVPFSDARNNPEHLRILEEWLRSYEPEKLFDQNGRPIDEILRAVPKKKIGESPYANGGMLRVPLKLPKIEAFCIDPANKAENTRPLGMFLREVMRLNPNNFRLFGPDETHSNRLYDVFEFGKAWVAKTLVEDEDEGHLSPFGRTIEMLSEHTVEGLLEGYILTGRHGILNTYEGFAPIISSMVNQFGKWLDISSDIPWRMPVSSLNLLLTSVVWRQDHNGFTHQDPGFINSVVDKWPNVVRVYFPPDANTLLFIVWQCLQSTNRINIIVVDKQKHPQYLNIEEAKEHAMKGLGVWKFASNFPDEEPDVVIASCGDIPTKEAVKAVKILIEHCPDLRIRFVNVVNLFCLTPNQEHPDGLTDKDFDSYFTVDKPVIFNFHGYPWLIHRLTYRRKNHNNLHVRGYRENRKIGIDLTHLTNFLKGRGGITTPMQLAILNQIDRFSIAIDVVQRVPKLSNKAGSFVDEMKNMQIKALEYAYNHGVDMPELDE
>NZ_CP007141.1|WP_031505010.1|1050297_1050636_+|sigma-70-family-RNA-polymerase-sigma-factor
MKTTFSNWEKYEPYLRGLCKVVYERYGWNIESYEDLYQTACYLLLIALDDFDGRGDQAGYVKQYVRRKLFNMLKDGENAPKHNDHPFSFVKQRHQKVQFVLCEEDILELYQF
>NZ_CP007141.1|WP_051368703.1|1050055_1050301_+|hypothetical-protein
MNFVEVLNTVAKLLALAICLVERPKDGAKKKQEVKEMVYSFLKQFNIKLPMPQFVFDWMLDIAIDNIVKYFNQTIWKEKAA
>NZ_CP007141.1|WP_096325184.1|1049335_1049878_-|methylated-DNA--[protein]-cysteine-S-methyltransferase
MFNCCRSRDNGAKERKNARVIIVREGSRRVFVESFTYESIFGPMCVRMKNGRVYGIELGKRCAGAESNPEVFQQLEEYFRGIRKQLDFPVEVRATEFQLRVWQALRNIPYGSTISYGELAKKLGTSPRAVGQALKRNPLPLYFPCHRVVGKTSIGGFSAGLNWKKNLLALERGERCAGKS
>NZ_CP007141.1|WP_031505007.1|1047431_1049354_-|penicillin-binding-protein
MRWKVIGFLCGFLLSVSVLFYLYVDFTKDLDSPESKIPTGFLLLYSDGTFMSLPRSFWVKLEDVPPYFLNALLVSEDKRFYYHAGVDPIGIARAIVRNISSMSINEGGSTITQQLARTLYLTPTVTWQRKLKELFIALWLERHRTKEEILQMYINSVYMGNGLYGFASASRYYFGKELGDVTLNEAAILVAVVRSPENFNPLRNWNISRLKAKTVLDALLKEGYINSLVHKRAVEELEAMTYAGNFKMDMDEEIFWRVVRELQQLGYGLNELRQGYKIYTTLDRNLSQAASSLPRTVVVEAIDPMSGAVLLYRGVGSTYPEGRRLLGSAIKPFYYYLAILEGWSIDSELVDLPLKIGDWTPENFDKGYRGIVTMRQALVDSLNIPSVNLFMQLGKENVVEFLKNELKIAGHYPEDMTIALGTLETAPEEVLKAYSAIFNGGVVLQPYIVKRIEDMNGRTIYEASPKVLNVVKARRLSPMEASMVLLNVMREVVERGTGVRARQRVPVAGKTGTSLKTAWFVGGDQNFIMAVAVDGEDLVGGVHAAPIWSQLVSNYNYLGKMPKWKVQVSLSTKTTLPSLTLDVDRLVQWLQEGTLSIDALVEITSRLDSSALLDFLSSINERSPQLAKELWEKIKLKRSW
>NZ_CP007141.1|WP_031505006.1|1045355_1047407_-|MMPL-family-transporter
MKKYKFTILFLIVCAIFTVIIFFKARINASYFVFLPGYRSGVSIEQIDNEELKSFFKIIQKFNDGSQFVVVLHHPDGFFSPQVLSRAVELQERLSNLSYMKNVLSVINYSFRKPYFDGSTLDAAILEDPEASSFISKDGKYLLLYCTLSVNCDEDKALQEIDKILSDFRDLKAMPFGQLIINKHLFGEIMRQVFVYPAIIFLVILFIFYLQTRSLKASFVSLLIPVFANVIVYGVVSLLGVELNTMSVMCVSFLIIIGSAYGLHFYNGVVRFKDRVRKEMLTPIFFSMFTTSVGFLSFLFVEITAFRHLGLMVSSGLTLVFVILFSSGYELLRSEKPIKRGTLLLRLKSESLGRIMLVFSIVLVTMTFLFIPRIEVGMDQAAYFSKSSAIGQALAILTEKFSYREPVYVMVEKQSIFTMKDSQQIAKLVEDLRRIDGVSSVQFPMAYPIPTLVLMSRLQPAIHHFVADGRTIRIAVNLTEEGYRKAGEMKDRLREVLEEYPEYTFTVASAAFVVDQINSRIVASQVQSLTMSLLFIFGSVLFAFRNVLLSLLIVVPVVLTALSNFFFMGLLGLKLDVATSIVASILVGLVVDYSIHLAHDMRRTKDVFLSIENISMPVLANGLGLIGGFLVLVFSRLALFRDVSLLLILGIGFGVAFTLFSQPILIKSFAKNDVKQETTRKLS
>NZ_CP007141.1|WP_031505005.1|1043472_1045302_+|hypothetical-protein
MVEKWNHFSVYMWAGPGTIRINKVKFPGTAVDEKVHMEGGLRIGARRLKEMGYNWAYCTYNWGFPPEIEHEDHEYFKRTVKEYHEEGLRVLGYVQFSNTVFDGSYVTKRWYAMDQFGNKINYYSGRYLTCPTDEEWKVHLTGIVKEIVEAGADGVFFDNVFGSWFGFRPCYCDRCQKQFREFAKSLSLNVRGIPEYLSENEESRAYLIWRRKVLWETIEELAKLAKSINPNVVVSSNSFEACLSKLAIMAGVDLRNAFEVQDWVMIENHQLPRKFKGLQIFNTMTYRIAHAHSKGKPVTSVPYMLGIGTDAVYPIRNYLQGMAEAYANDSVMVLKGTEYFHDGKWTLITDEKFEEVRKQIADYHSWFKGEKGVWKDCYGKRTTKIAIFHPYDSLTFHWERTYLPFFAAQHELIKNRIDYKVVWDDFENVEVLLVPPIFEKSEMEKIKDFKGKKIFLGYSPFENEKIVWKETYERLAQLSKPEEQLYLEQILSLLNFSAYFNDPSWRKRMEKANFLFFNYLNYCYVFTHPFDAQELIELVKPHQPWTVEADGFIIVSSFEQNGTLKIHLVNLEDRQVNVNLVLPKGWHVERIDNYEYENAFVHRIYTVRF
>NZ_CP007141.1|WP_051368702.1|1041677_1043456_+|hypothetical-protein
MRYTIVDGQVIYEGSNEDYIMSNIELTLRLKNGTPAELFSSKKGLLIEFSKNDLPNPTSCRLWPNGCEFSHEKTTWSFFTSPWIRSVLWQIKGMERLTLSFKAPLEKHFKVPFGPTYNFKKPLNVIVEGSNIDLSNLVRIEVLEGKIEDLQRKDETFTLKLSATNKELKLRFSTQKEIVNERAENLSYNQFLKDHVPRNLNELKKSLALFALHTALSNWKDLGKVHAFAAGVNYSFPPRTYFRDSFWTCLSLLDVRADLVREQILILASAVHDDGCPSGVMFLSDEEKMFLAQLKKEYPALAAGVKYENDWWSGHHDSGFLFVLLVSKYVEKTQDVSILKERIDSDTVLEKILKVLRYAENFVENDLFKKPHDCLDWADNVFRDGFVTYDAALHAAAMREASKLLKMMDMREQAEFWESRYLSTRKKFNEVLFDERKGYFVDFIGSYVEDHLALDTVVSIIFDVADEDKARSTLLKMEKFLETRNNPSQPYGDWGVMTVWPHYKRRSHLFGKSAFPYRYHNGSCWPYLSSIYALAKSRYDLDHEYPLLSWWKYSLENGWVNLVEYYSPCYPRGSLQQAWSSFAFAMVLQIKS
>NZ_CP007141.1|WP_038059871.1|1058674_1060102_-|hypothetical-protein
MNERLGKLWQEYKEKVKAGQDPRTLYQQMVWPILLDSWKKSPVVEPQKFQFDVSIHTLGTSPEATTLAILGTRSSEVYVIHTPETRKYLEQIRRDVGVELYPIEIEKNDVVTIYKRIKEVVERNIGKAVALDVTGGTKAMSAGMASGGFFFRRFFPNIRVVYVDNEEYDEELRRPVAGSEKLVILPSPHEVLGDVDAFFALEHYSKGEFYEAQRYFRETAKKTKDNRYNVLADICVMYHAWYSLDIETAFEKSRKLVEELQTDTWLNHPLGKSRGFFETQSKILEAIKRFLEEKDYTRNKFGVFALAKTLLKKSEKHEMHGETILTALCAYRALELLLQERLSLYNLTPDMPLTDEDKIAIRREMSKILQKPEDQVEMHDKLGLFGMAILLIVKKDSCVQGIFDQKRLKALSLALQSRNSSLLIHGFDFPNEKQVEYIKECARKLLKDLEIRAELRLDPSIDMCFEKAGLDLFKW
>NZ_CP007141.1|WP_031505227.1|1060098_1060896_-|hypothetical-protein
MGYLKRRLEFYKRAQKRIKSLKEGPETTSIRLGDVICVWGDTGPIYGVVTEEGVVKNCILLSPELFLAGDGLLLRVEHLVNLLRVTPINFYLTPSTQRACEVIGKLKQEDLTKVVGNHQKLREENWTGVRKEFFEYETKRIEILYDMFLEFLNQIEQSESQTVTLRWDELKRLFEEKDLELIFPDVPVAQSSAVDLGKFLIVRTESGIRIIFSDELISKTGKLTLVGKTIYSGRIPPELFITFENPPAVEALKNILNVDVGAERE
>NZ_CP007141.1|WP_031505226.1|1060923_1061610_-|hypothetical-protein
MSKELDREILKFLEDRKVTPTLEKMLREIVSFNLVDILGRENVLKIFGNEKSAVDEIFQDVLGAFWEKRSEILTRNIDNLTGYLVKSVENKIYDYARSKKRKKVLSLDSISDSESEESTFLDFIQLEEEARRDPLEQILAEKNFEALRNLFSGKEKDLCDFFYKKLFSDEKTNIFASGKTVQARYKSHERLAKRIRDFVMENGITEAEFSRIVEIYMSEICEKIRQNR
>NZ_CP007141.1|WP_162181441.1|1061587_1061767_-|hypothetical-protein
MKRILKHENYIMCIDSKSVFEFPSFLVEEWRRCGRIKFVVSCFFDLQNWSEECVKRIGS
>NZ_CP007141.1|WP_031505224.1|1062118_1062382_+|CRISPR-associated-endonuclease-Cas2
MYVIMVYDVNVKRVNKVLKISRKYLNWTIRSVLEGFLTKESYESLKRELLKVIDEKEDSVYFYLIDTDRQPHKIVLGEVRTDFKFIG
>NZ_CP007141.1|WP_031505223.1|1062378_1062651_-|CRISPR-associated-endonuclease-Cas2
MSKYHLVVYDVNEKQVGKVHKILSRYLFWQQNSTFEGYLPKSSVKELLRKVRRLLTGEDALVVYFLTSKERLRKEVLGIDKSRTVGKIVV
>NZ_CP007141.1|WP_031505222.1|1062664_1063417_-|CRISPR-associated-endoribonuclease-Cas6
MRLYIDFEFDKLELPVDYNHILHAFVLNLIEDDELRYFIHEEGYRYQKRKYKMYCFSRLLGNFQLNHDRKTIEFDKNVTLIVSSFDDNLIELLVDKLSRFETLHLGENKVRPSKISLFDLPRTNFIQVSTKSPVTVYSTIEERGKRITIYHDPESEDFIRILKENLKRKYLAIFGEEFEHEFDLEIQHVGKQPKKVVMVYKNRKIDGWLTSFDMKGPYKILKLAYDTGIGSKNSVGFGCIELIDSPLGKI
>NZ_CP007141.1|WP_144316855.1|1063413_1063845_-|hypothetical-protein
MKLRLLAGNIGSVLRGILKLSVDGSTPVFADIDDIKPSNTGYLVLESSFGNLDVERLVRDCYQSYSGICREVFNSKPETLNLVPVFTKITENLYRVDLFGSDRMIELWNLIGFRFHDYRSFFYHQTDLPILKEICKKLRRRVE
>NZ_CP007141.1|WP_157724357.1|1064039_1065200_-|type-III-A-CRISPR-associated-RAMP-protein-Csm5
MVIDVNPGFSSWIEIEPVSPVFIGSDEKIERFETIVEGNMVYILDFQKLLGRDDFVELFVAKMQDILDPSVKDRAMKEIFQKLNLKLSEVSLDSFPAQWRNNKPDNLQMKRFVRSAGRYYVPGSSIKGAIRTALIRSDQSLVRRFEDLLKTIVEDSMKESKQGMKREKERNINIKGGIFGSPNQSPFRLLEISDSDFIDKKFVKFKLITVRNLLNVKTKISMMLELWLDKQDESNKVRVLLQSRVDRLSQMKNWITDPGKLLETLGDKGKFIEAVKSATEKIIQLEIERIKKALNSNEFKLILGFYEKLREENKKMRDGFILRLGAQTGFFSKTFFTRFLNRNELEFLKSTHKVYNLFPVSISIAEPSYESPVPKPLGWVRVRFVS
>NZ_CP007141.1|WP_031505219.1|1065189_1066149_-|type-III-A-CRISPR-associated-RAMP-protein-Csm4
MTYRVKLRFRAPLHVGFMDTAYELSDTLIHSDTIFSALICSHALLYGEDCTDELLRALVEGKTRLLISSAFPSVGNVHFFPKPKGEDFGLSKNSLSSSSQFKKLKKVRFVDEDVLFKRAQVSLENVRGQFLTKDREALKEEPFLIIERPRVSVNRYDSSSNLFYFAEVHFNENAGLWFYLSADANIEKEILSALKLLSEEGFGGDRTYGFGTFDFELEQTTVPNSGNRYLLISVCVPNTSEVKAVPEKVLNYDLVHRTGYVHMSDRRAKKVLAFAEGSVFKEPIEGTILDVSPEGFEQQYGHRVFRYARAFLVAYEGGD

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Crispr_ID: NZ_CP007141_2

CRISPR_ID

CRISPR_location

CRISPR_type

Repeat_type

Spacer_info

Cas_protein_info

CRISPR-Cas_info

NZ_CP007141_2

1072723-1073604

TypeIII

Consensus_repeat	Method
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CRT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	PILER-CR
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CRISPRCasFinder

12 spacers

cas1,cas10,csm2gr11,csm3gr7,csm4gr5,csm5gr7,cas6,cas2,cmr6gr7,cmr5gr11,cmr4gr7,cmr3gr5,cmr1gr7,csx1

The CRISPR arrays of NZ_CP007141_2

>merge|NZ_CP007141|2|1072723-1073604|CRT,PILER-CR,CRISPRCasFinder
CAGTTGGGTCCCCATAGGACTTCTCTGAACTTTTTCCGAATCTTCGGAAGGAAACTTTCTGTGTGCTCGTTTCCATCCCTCATAGGACCTCTCTAAACCGGCAACGGCAATGGCTCATACAACAGACCCGCAGAAAATAAGTTTCCATCCCTCATAGGACCTCTCTAAACCGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGTGTTTCCATCCCTCATAGGACCTCTCTAAACGCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAACGTTTCCATCCCTCATAGGACCTCTCTAAACCGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGTGTTTCCATCCCTCATAGGACCTCTCTAAACGCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAACGTTTCCATCCCTCATAGGACCTCTCTAAACTGTGGCTGGAAGAGAATCGAAGTGGGATAAGATAGACGAGCTTTGTTTCCATCCCTCATAGGACCTCTCTAAACATGGAGTATGGACGGGTGAGCGAAACGCTCACCCGTTTGTTTCCATCCCTCATAGGACCTCTCTAAACTGGTACCATTGGCGTATTTCATTGACCCGATAGAGTTTCCATCCCTCATAGGACCTCTCTAAACAGGAATATTTCAGCTGGCTGATAGCTATGTTTTTCAACACCGAGATGTTTCCATCCCTCATAGGACCTCTCTAAACCTTCGATTATTTCAAAAGACTATGTGTTCGACTCTGCAAATCTGGTTTCCATCCCTCATAGGACCTCTCTAAACTGCCAGTTGTGCGTGTCGAAAACGCCGTTCAAACACTCGTTTCCATCCCTCATAGGACCTCTCTAAAC

>NZ_CP007141|2|2|1072723-1073604|CRT
CAGTTGGGTCCCCATAGGACTTCTCTGAAC	TTTTTCCGAATCTTCGGAAGGAAACTTTCTGTGTGCTC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGGCAACGGCAATGGCTCATACAACAGACCCGCAGAAAATAA
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	GCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAAC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	GCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAAC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGTGGCTGGAAGAGAATCGAAGTGGGATAAGATAGACGAGCTTT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	ATGGAGTATGGACGGGTGAGCGAAACGCTCACCCGTTT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGGTACCATTGGCGTATTTCATTGACCCGATAGA
GTTTCCATCCCTCATAGGACCTCTCTAAAC	AGGAATATTTCAGCTGGCTGATAGCTATGTTTTTCAACACCGAGAT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CTTCGATTATTTCAAAAGACTATGTGTTCGACTCTGCAAATCTG
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGCCAGTTGTGCGTGTCGAAAACGCCGTTCAAACACTC
GTTTCCATCCCTCATAGGACCTCTCTAAAC

>NZ_CP007141|2|3|1072791-1073604|PILER-CR
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGGCAACGGCAATGGCTCATACAACAGACCCGCAGAAAATAA
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	GCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAAC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	GCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAAC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGTGGCTGGAAGAGAATCGAAGTGGGATAAGATAGACGAGCTTT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	ATGGAGTATGGACGGGTGAGCGAAACGCTCACCCGTTT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGGTACCATTGGCGTATTTCATTGACCCGATAGA
GTTTCCATCCCTCATAGGACCTCTCTAAAC	AGGAATATTTCAGCTGGCTGATAGCTATGTTTTTCAACACCGAGAT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CTTCGATTATTTCAAAAGACTATGTGTTCGACTCTGCAAATCTG
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGCCAGTTGTGCGTGTCGAAAACGCCGTTCAAACACTC
GTTTCCATCCCTCATAGGACCTCTCTAAAC

>NZ_CP007141|2|2|1072791-1073604|CRISPRCasFinder
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGGCAACGGCAATGGCTCATACAACAGACCCGCAGAAAATAA
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	GCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAAC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CGTAACATTGTATGCGTATTAGACAAAGGAGGCACAGAAGGT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	GCCGCTTTTTCGGCTGGCACTTGCTCGACGTTGAAACTGAAC
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGTGGCTGGAAGAGAATCGAAGTGGGATAAGATAGACGAGCTTT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	ATGGAGTATGGACGGGTGAGCGAAACGCTCACCCGTTT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGGTACCATTGGCGTATTTCATTGACCCGATAGA
GTTTCCATCCCTCATAGGACCTCTCTAAAC	AGGAATATTTCAGCTGGCTGATAGCTATGTTTTTCAACACCGAGAT
GTTTCCATCCCTCATAGGACCTCTCTAAAC	CTTCGATTATTTCAAAAGACTATGTGTTCGACTCTGCAAATCTG
GTTTCCATCCCTCATAGGACCTCTCTAAAC	TGCCAGTTGTGCGTGTCGAAAACGCCGTTCAAACACTC
GTTTCCATCCCTCATAGGACCTCTCTAAAC

Protein	Signature genes	Signature genes Name	Protein_function
NZ_CP007141.1\|WP_031505218.1\|1066164_1066956_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm3	csm3gr7	cd09684_csm3gr7_CAS-III-A:CAS-III-D	gnl\|CDD\|187815
NZ_CP007141.1\|WP_031505215.1\|1069910_1070900_-\|type-I-B-CRISPR-associated-endonuclease-Cas1	cas1	cd09722_cas1_CAS-I-B	gnl\|CDD\|187853
NZ_CP007141.1\|WP_051368706.1\|1080264_1081650_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr1	cmr1gr7	COG1367_cmr1gr7_CAS-III-B	gnl\|CDD\|224286
NZ_CP007141.1\|WP_031505209.1\|1076846_1077881_-\|type-III-B-CRISPR-module-associated-protein-Cmr3	cmr3gr5	COG1769_cmr3gr5_CAS-III-B	gnl\|CDD\|224683
NZ_CP007141.1\|WP_154655783.1\|1074599_1074758_+\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_162181442.1\|1081706_1083077_-\|hypothetical-protein	csx1	cd09728_csx1_CAS-III	gnl\|CDD\|187859
NZ_CP007141.1\|WP_051368704.1\|1074883_1075645_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr6	cmr6gr7	COG1604_cmr6gr7_CAS-III-B	gnl\|CDD\|187792
NZ_CP007141.1\|WP_144316855.1\|1063413_1063845_-\|hypothetical-protein	cas6	mkCas0166_cas6_CAS-I:CAS-III	unknown
NZ_CP007141.1\|WP_157724358.1\|1070940_1072344_-\|SAVED-domain-containing-protein	unknown	unknown	gnl\|CDD\|380122
NZ_CP007141.1\|WP_031505205.1\|1083389_1083701_-\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_031505222.1\|1062664_1063417_-\|CRISPR-associated-endoribonuclease-Cas6	cas6	COG1583_cas6_CAS-I:CAS-III:CAS-IV	gnl\|CDD\|273848
NZ_CP007141.1\|WP_031505223.1\|1062378_1062651_-\|CRISPR-associated-endonuclease-Cas2	cas2	cd09725_cas2_CAS-I:CAS-II:CAS-III:CAS-V	gnl\|CDD\|187856
NZ_CP007141.1\|WP_031505210.1\|1075970_1076840_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr4	cmr4gr7	cd09682_cmr4gr7_CAS-III-B	gnl\|CDD\|274210
NZ_CP007141.1\|WP_031505216.1\|1067452_1069897_-\|type-III-A-CRISPR-associated-protein-Cas10/Csm1	cas10	cd09680_cas10_CAS-III	gnl\|CDD\|187811
NZ_CP007141.1\|WP_031505217.1\|1066952_1067438_-\|type-III-A-CRISPR-associated-protein-Csm2	csm2gr11	pfam03750_csm2gr11_CAS-III-A	gnl\|CDD\|367635
NZ_CP007141.1\|WP_157724357.1\|1064039_1065200_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm5	csm5gr7	mkCas0182_csm5gr7_CAS-III-A	gnl\|CDD\|273863
NZ_CP007141.1\|WP_051368705.1\|1077877_1080268_-\|type-III-B-CRISPR-associated-protein-Cas10/Cmr2	cas10	cls000742_cas10_CAS-III	gnl\|CDD\|187810
NZ_CP007141.1\|WP_031505211.1\|1075651_1075990_-\|type-III-B-CRISPR-module-associated-protein-Cmr5	cmr5gr11	pfam09701_cmr5gr11_CAS-III-B	gnl\|CDD\|378242
NZ_CP007141.1\|WP_031505219.1\|1065189_1066149_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm4	csm4gr5	cd09663_csm4gr5_CAS-III-A	gnl\|CDD\|273866
NZ_CP007141.1\|WP_031505204.1\|1083716_1084112_-\|hypothetical-protein	unknown	unknown	unknown

Protein	Cas_name	Cas_description	E-value	Identity	Coverage
NZ_CP007141.1\|WP_031505218.1\|1066164_1066956_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm3	csm3gr7	cd09684_csm3gr7_CAS-III-A:CAS-III-D	1e-74	245.6	0.1
NZ_CP007141.1\|WP_031505215.1\|1069910_1070900_-\|type-I-B-CRISPR-associated-endonuclease-Cas1	cas1	cd09722_cas1_CAS-I-B	1.5e-105	347.6	9.8
NZ_CP007141.1\|WP_051368706.1\|1080264_1081650_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr1	cmr1gr7	COG1367_cmr1gr7_CAS-III-B	3.3e-63	208.7	2.1
NZ_CP007141.1\|WP_031505209.1\|1076846_1077881_-\|type-III-B-CRISPR-module-associated-protein-Cmr3	cmr3gr5	COG1769_cmr3gr5_CAS-III-B	3.1e-57	188.7	0.0
NZ_CP007141.1\|WP_162181442.1\|1081706_1083077_-\|hypothetical-protein	csx1	cd09728_csx1_CAS-III	5e-38	125.9	6.7
NZ_CP007141.1\|WP_051368704.1\|1074883_1075645_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr6	cmr6gr7	COG1604_cmr6gr7_CAS-III-B	5.6e-49	161.8	0.0
NZ_CP007141.1\|WP_144316855.1\|1063413_1063845_-\|hypothetical-protein	cas6	mkCas0166_cas6_CAS-I:CAS-III	2.6e-72	237.6	0.0
NZ_CP007141.1\|WP_031505222.1\|1062664_1063417_-\|CRISPR-associated-endoribonuclease-Cas6	cas6	COG1583_cas6_CAS-I:CAS-III:CAS-IV	1.5e-40	134.3	4.4
NZ_CP007141.1\|WP_031505223.1\|1062378_1062651_-\|CRISPR-associated-endonuclease-Cas2	cas2	cd09725_cas2_CAS-I:CAS-II:CAS-III:CAS-V	4.4e-21	69.7	0.2
NZ_CP007141.1\|WP_031505210.1\|1075970_1076840_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr4	cmr4gr7	cd09682_cmr4gr7_CAS-III-B	5.8e-81	266.9	0.3
NZ_CP007141.1\|WP_031505216.1\|1067452_1069897_-\|type-III-A-CRISPR-associated-protein-Cas10/Csm1	cas10	cd09680_cas10_CAS-III	1.1e-118	392.2	7.4
NZ_CP007141.1\|WP_031505217.1\|1066952_1067438_-\|type-III-A-CRISPR-associated-protein-Csm2	csm2gr11	pfam03750_csm2gr11_CAS-III-A	1.6e-18	62.0	8.0
NZ_CP007141.1\|WP_157724357.1\|1064039_1065200_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm5	csm5gr7	mkCas0182_csm5gr7_CAS-III-A	9.6e-30	98.5	6.4
NZ_CP007141.1\|WP_051368705.1\|1077877_1080268_-\|type-III-B-CRISPR-associated-protein-Cas10/Cmr2	cas10	cls000742_cas10_CAS-III	3.4e-113	373.9	6.8
NZ_CP007141.1\|WP_031505211.1\|1075651_1075990_-\|type-III-B-CRISPR-module-associated-protein-Cmr5	cmr5gr11	pfam09701_cmr5gr11_CAS-III-B	1.5e-19	65.3	1.1
NZ_CP007141.1\|WP_031505219.1\|1065189_1066149_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm4	csm4gr5	cd09663_csm4gr5_CAS-III-A	1.8e-58	192.9	0.0

Protein	Function_ID	Function_description	E-value
NZ_CP007141.1\|WP_031505218.1\|1066164_1066956_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm3	gnl\|CDD\|187815	cd09684, Csm3_III-A, CRISPR/Cas system-associated RAMP superfamily protein Csm3. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; RAMP superfamily protein.	9.75631e-85
NZ_CP007141.1\|WP_031505215.1\|1069910_1070900_-\|type-I-B-CRISPR-associated-endonuclease-Cas1	gnl\|CDD\|187853	cd09722, Cas1_I-B, CRISPR/Cas system-associated protein Cas1. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas1 is the most universal CRISPR system protein thought to be involved in spacer integration; Cas1 is metal-dependent deoxyribonuclease, also binds RNA; Shown to possess a unique fold consisting of a N-terminal beta-strand domain and a C-terminal alpha-helical domain.	1.3019e-114
NZ_CP007141.1\|WP_051368706.1\|1080264_1081650_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr1	gnl\|CDD\|224286	COG1367, COG1367, CRISPR system related protein, RAMP superfamily [Defense mechanisms].	2.23785e-48
NZ_CP007141.1\|WP_031505209.1\|1076846_1077881_-\|type-III-B-CRISPR-module-associated-protein-Cmr3	gnl\|CDD\|224683	COG1769, COG1769, CRISPR system related protein, RAMP superfamily [Defense mechanisms].	1.75123e-55
NZ_CP007141.1\|WP_162181442.1\|1081706_1083077_-\|hypothetical-protein	gnl\|CDD\|187859	cd09728, Csx1_III-U, CRISPR/Cas system-associated protein Csx1. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Protein of this family often fused to HTH domain; Some proteins could have an additional fusion with RecB-family nuclease domain; Core domain appears to have a Rossmann-like fold; loosely associated with CRISPR/Cas systems; also known as DxTHG family.	5.66033e-28
NZ_CP007141.1\|WP_051368704.1\|1074883_1075645_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr6	gnl\|CDD\|187792	cd09661, Cmr6_III-B, CRISPR/Cas system-associated RAMP superfamily protein Cmr6. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; RAMP superfamily protein; This protein is a subunit of Cmr complex.	6.95124e-47
NZ_CP007141.1\|WP_157724358.1\|1070940_1072344_-\|SAVED-domain-containing-protein	gnl\|CDD\|380122	pfam18145, SAVED, SMODS-associated and fused to various effectors sensor domain. Predicted to function as a sensor domain, sensing nucleotides or nucleotide derivatives generated by SMODS and other nucleotide synthetase domains. The sensing of ligands by SAVED is predicted to activate effectors deployed by a class of conflict systems which are reliant on the on the production and sensing of the nucleotide second messengers.	1.86674e-09
NZ_CP007141.1\|WP_031505222.1\|1062664_1063417_-\|CRISPR-associated-endoribonuclease-Cas6	gnl\|CDD\|273848	TIGR01877, CRISPR-associated_endoribonuclease_Cas6_1, CRISPR-associated endoribonuclease Cas6. CRISPR is a term for Clustered, Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR-Associated) proteins. This broadly distributed, highly divergent Cas family is now characterized as an endoribonuclease that generates guide RNAs for host defense against phage and other invaders. The family contains a C-terminal motif GXGXXXXXGXG, where the each X between two Gly is hydrophobic and the spacer XXXXX contains (usually) one Arg or Lys. The seed alignment for the current version of this model has gappy columns removed. Members of this protein family are found associated with several different CRISPR/cas system subtypes, and consequently we designate this family Cas6.	1.17134e-29
NZ_CP007141.1\|WP_031505223.1\|1062378_1062651_-\|CRISPR-associated-endonuclease-Cas2	gnl\|CDD\|187856	cd09725, Cas2_I_II_III, CRISPR/Cas system-associated protein Cas2. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas2 is present in majority of CRISPR/Cas systems along with Cas1; RNAse specific to U-rich regions; Possesses an RRM/ferredoxin fold.	1.40114e-17
NZ_CP007141.1\|WP_031505210.1\|1075970_1076840_-\|type-III-B-CRISPR-module-RAMP-protein-Cmr4	gnl\|CDD\|274210	TIGR02580, putative_CRISPR-associated_protein, CRISPR type III-B/RAMP module RAMP protein Cmr4. This model represents a CRISPR-associated protein from the family that includes TM1792 of Thermotoga maritima. This family is part of the broad RAMP superfamily (pfam03787) collection of CRISPR-associated proteins. It is the fourth of a recurring set of six proteins, four of are in the RAMP superfamily, that we designate the CRISPR RAMP module.	2.71367e-81
NZ_CP007141.1\|WP_031505216.1\|1067452_1069897_-\|type-III-A-CRISPR-associated-protein-Cas10/Csm1	gnl\|CDD\|187811	cd09680, Cas10_III, CRISPR/Cas system-associated protein Cas10. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Multidomain protein with permuted HD nuclease domain, palm domain and Zn-ribbon; signature gene for type III; also known as Csm1 family.	3.8586e-105
NZ_CP007141.1\|WP_031505217.1\|1066952_1067438_-\|type-III-A-CRISPR-associated-protein-Csm2	gnl\|CDD\|367635	pfam03750, Csm2_III-A, Csm2 Type III-A. Clusters of short DNA repeats with non-homologous spacers, which are found at regular intervals in the genomes of phylogenetically distinct prokaryotic species, comprise a family with recognisable features. This family is known as CRISPR (short for Clustered Regularly Interspaced Short Palindromic Repeats). A number of protein families appear only in association with these repeats and are designated Cas (CRISPR-associated) proteins. This entry represents Csm2 Type III-A, a family of Cas proteins also known as TM1810/Csm2.	1.85345e-18
NZ_CP007141.1\|WP_157724357.1\|1064039_1065200_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm5	gnl\|CDD\|273863	TIGR01899, cas_TM1807_csm5, CRISPR type III-A/MTUBE-associated RAMP protein Csm5. CRISPR is a term for Clustered Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR associated) proteins. Members of this cas gene family are found in the mtube subtype of CRISPR/cas locus and designated Csm5, for CRISPR/cas Subtype Mtube, protein 5.	9.51572e-17
NZ_CP007141.1\|WP_051368705.1\|1077877_1080268_-\|type-III-B-CRISPR-associated-protein-Cas10/Cmr2	gnl\|CDD\|187810	cd09679, Cas10_III, CRISPR/Cas system-associated protein Cas10. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Multidomain protein with permuted HD nuclease domain, palm domain and Zn-ribbon; MTH326-like has inactivated polymerase catalytic domain; alr1562 and slr7011 - predicted only on the basis of size, presence of HD domain, and location with RAMPs in one operon; signature gene for type III; also known as Crm2 family.	1.14705e-81
NZ_CP007141.1\|WP_031505211.1\|1075651_1075990_-\|type-III-B-CRISPR-module-associated-protein-Cmr5	gnl\|CDD\|378242	pfam09701, Cas_Cmr5, CRISPR-associated protein (Cas_Cmr5). CRISPR is a term for Clustered, Regularly Interspaced Short Palindromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR-Associated) proteins. This family, represented by TM1791.1 of Thermotoga maritima, is found in both archaeal and bacterial species.	7.2378e-17
NZ_CP007141.1\|WP_031505219.1\|1065189_1066149_-\|type-III-A-CRISPR-associated-RAMP-protein-Csm4	gnl\|CDD\|273866	TIGR01903, Hypothetical_protein., CRISPR type III-A/MTUBE-associated RAMP protein Csm4. CRISPR is a term for Clustered Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR associated) proteins. Members of this cas gene family are found in the mtube subtype of CRISPR/cas locus and designated Csm4, for CRISPR/cas Subtype Mtube, protein 4.	6.2126e-52

>NZ_CP007141.1|WP_157724358.1|1070940_1072344_-|SAVED-domain-containing-protein
MSREKLLKDFELLPKDQPNRKLIFYEVFKLFLENRDHANAALLLSKEYSLSFEQSMRVVLSDHKEVKFPVVGGESSDVRRALVFNSNLEFCNLTEHTPKLRIIERLVGFELSVLFDGDFCGDSFMLAVAVGALSKNLPNHVAFSGCLDEHGNVALAESLERKLRVCSEQGLELLTGLDVRNFRDLVDFFDTREHHVPVYLCYKHSERVEDRGWEELRETVERSFPSKSLELYRKIYRVEMFHRRHMLQENEYASELRRAFETLQVVFQSGGVPHLAINGPASFAMALGIAVGAKRRIAVYHYQGGYHLVLDLTGPEKLRKIKALKREEELELLEYELLGDGEEAAFVIHLASHDPLPQVREFLKNRDVFIAYVRSKQPGMLKIGDWTEYVCELFSVTQIVKRRRAYRGASFFLSCPVPIAFGFGVAFGDYASGFVYQYDQASSRYVPIFRIEQLSQTVLSNQGGLVR
>NZ_CP007141.1|WP_031505215.1|1069910_1070900_-|type-I-B-CRISPR-associated-endonuclease-Cas1
METVYVFKNGYLRKKNATLFIEPKDKDEKPVYIPLKNVSSLMVFSEVELNKKTLELFSKAQTPVFFYSYYGDYIGCFYPVEENKTGEVLLLQFKHFEDLERRIFIAKEILLATAENLVRVLEDYLENFSSLDESINYIQKLKDSYHRQNTIASLMAIEGNIKKCYYKALGEILSRKDFKFEERVVRPPKDEINAMLSFGYSVLYNVVLAEIFKTSLEPSISFLHEPNKRKHSLQFDIAEIFKPIIVDKAILTLVNKGMIKKEHFREVEGGVYLNNDGKKILLEEIEERLERTRKNEHGQNLSYRTLIRYECYKLIRHLKGEGTYSAFRL
>NZ_CP007141.1|WP_031505216.1|1067452_1069897_-|type-III-A-CRISPR-associated-protein-Cas10/Csm1
MELETLKDVLYLASLFHDIGKFRQRGKLDEDLKKRIRKEFSYEIKSDPQRGIAHEYVGAYVYKNSKLPFKEEAPILISHHHEQLSNLKTEYDVLTKLLTISDRISASEREEQQTSSERKIKLMRSIISSVSLKGERKPPYYKPISRFSRFEGLMDKDQAEEYDHEEDYERLWKEFEELISQDDLLRSYEDKEKRYLFFERIYHLLKEYTSNIPSAYYYSEPNVSLFSHAISTAAIAISLFKQFEEKLFEKSNDRFVFAERIFSSIESLIRSYSSLRSDQPLPNDEPVLGIIKGDVSGIQNFIYNVPNAHGLKKLRGRSFFIAYLAEVIARYIVEKEGLYIANILFCGGGHFYILVPARAFDRLSKYQKILDEKLFKAFSIDLSVLLVGKELTLYDILNFKVHEELSRKLEAEKNRKFSRILDSLFSRPIDLSGPVCPYCNRRMKQKGPDQELECEFCESFAHIGAELVKKRYMKLLKTSEIENPKSANEVFKMFGYMIEFTDNPNEFSYALNKDEFDPKKSMYFVKTANYISKELVEGMEKTTDLETMAERAKGVKRWGILRGDLDNLGKVFASITNVEENQKSSISMVSTLSSEIELFFGVELEKFVAKEFKNCNVVYSGGDDFMILGPWNELPMLSQGIAKHFADYSRNEELSISMAVAIAPSRKYPVYKLGVEAGEMLEKLAKSYMRNGLEKSALALFSGCVGWEEFADFLEKKKLLEKIVEDHDVTKNLIHTLKVFVERQKKKEPTKIWQLYYYVARLIERQTNNEAKKDIQSFFNDILVGRNRLYEKLDLLLEWVHNETRKVEIKGISN
>NZ_CP007141.1|WP_031505217.1|1066952_1067438_-|type-III-A-CRISPR-associated-protein-Csm2
MGDNKDARQQQTRGNNNLQENFKAVVRLIEQNEVNYDQLHELAEKIAKDLKLNSTKIRKFYNFAKKIKTMKQLGQEVDLKRDLNRFIAILLYDAGREEDKKKKLIMKEFAEGMRQIAEKVKIHSKLEYAYDIFVDFFEALVAYHRYYQAVKKENEREGSER
>NZ_CP007141.1|WP_031505218.1|1066164_1066956_-|type-III-A-CRISPR-associated-RAMP-protein-Csm3
MSNENKIKLVGKYILTADIELVTGLHIGTSKEEVEVGGLDNPVVKDPFGNPYIPGSSLKGKMRMLMEFHEGLVDSSGKVHSCQKKDCKICGLFGRAIEKKEENTQSPPIFNRTRLIVRDAKLDKDSLKDLENLLETRWTEIKYENSINRITSAALPRPQERVPAGARFKAEFVVNIFEGDEGGDKNEDGDKKNPYLDCLLTAMELLEDDYLGGSGTRGYGKIKFKNITIKRRDASYYSGDEKVEEVRVYGDSPKEVRNKLKQS
>NZ_CP007141.1|WP_031505219.1|1065189_1066149_-|type-III-A-CRISPR-associated-RAMP-protein-Csm4
MTYRVKLRFRAPLHVGFMDTAYELSDTLIHSDTIFSALICSHALLYGEDCTDELLRALVEGKTRLLISSAFPSVGNVHFFPKPKGEDFGLSKNSLSSSSQFKKLKKVRFVDEDVLFKRAQVSLENVRGQFLTKDREALKEEPFLIIERPRVSVNRYDSSSNLFYFAEVHFNENAGLWFYLSADANIEKEILSALKLLSEEGFGGDRTYGFGTFDFELEQTTVPNSGNRYLLISVCVPNTSEVKAVPEKVLNYDLVHRTGYVHMSDRRAKKVLAFAEGSVFKEPIEGTILDVSPEGFEQQYGHRVFRYARAFLVAYEGGD
>NZ_CP007141.1|WP_157724357.1|1064039_1065200_-|type-III-A-CRISPR-associated-RAMP-protein-Csm5
MVIDVNPGFSSWIEIEPVSPVFIGSDEKIERFETIVEGNMVYILDFQKLLGRDDFVELFVAKMQDILDPSVKDRAMKEIFQKLNLKLSEVSLDSFPAQWRNNKPDNLQMKRFVRSAGRYYVPGSSIKGAIRTALIRSDQSLVRRFEDLLKTIVEDSMKESKQGMKREKERNINIKGGIFGSPNQSPFRLLEISDSDFIDKKFVKFKLITVRNLLNVKTKISMMLELWLDKQDESNKVRVLLQSRVDRLSQMKNWITDPGKLLETLGDKGKFIEAVKSATEKIIQLEIERIKKALNSNEFKLILGFYEKLREENKKMRDGFILRLGAQTGFFSKTFFTRFLNRNELEFLKSTHKVYNLFPVSISIAEPSYESPVPKPLGWVRVRFVS
>NZ_CP007141.1|WP_144316855.1|1063413_1063845_-|hypothetical-protein
MKLRLLAGNIGSVLRGILKLSVDGSTPVFADIDDIKPSNTGYLVLESSFGNLDVERLVRDCYQSYSGICREVFNSKPETLNLVPVFTKITENLYRVDLFGSDRMIELWNLIGFRFHDYRSFFYHQTDLPILKEICKKLRRRVE
>NZ_CP007141.1|WP_031505222.1|1062664_1063417_-|CRISPR-associated-endoribonuclease-Cas6
MRLYIDFEFDKLELPVDYNHILHAFVLNLIEDDELRYFIHEEGYRYQKRKYKMYCFSRLLGNFQLNHDRKTIEFDKNVTLIVSSFDDNLIELLVDKLSRFETLHLGENKVRPSKISLFDLPRTNFIQVSTKSPVTVYSTIEERGKRITIYHDPESEDFIRILKENLKRKYLAIFGEEFEHEFDLEIQHVGKQPKKVVMVYKNRKIDGWLTSFDMKGPYKILKLAYDTGIGSKNSVGFGCIELIDSPLGKI
>NZ_CP007141.1|WP_031505223.1|1062378_1062651_-|CRISPR-associated-endonuclease-Cas2
MSKYHLVVYDVNEKQVGKVHKILSRYLFWQQNSTFEGYLPKSSVKELLRKVRRLLTGEDALVVYFLTSKERLRKEVLGIDKSRTVGKIVV
>NZ_CP007141.1|WP_154655783.1|1074599_1074758_+|hypothetical-protein
MKERTLFSLFVESIVSLFKDHCDVPRIYNDLHPSLWTQLKANVTSTYMVLSK
>NZ_CP007141.1|WP_051368704.1|1074883_1075645_-|type-III-B-CRISPR-module-RAMP-protein-Cmr6
MSPENLSLFWNKLAFRSLNVNSPNLPFEMLKKVQEIKTKDFIMEANQRRDELLRRTNVVFDVVMRLKGRLLVGVGNASIIEVGMTFSRNYGFPIIPSSSLKGCFSMYLREIAGYDKKKIKDLFGEDVSGDDHIQGRLVFLDAIPVENVTFSLDIVNNHFVPYYSRESPPPNDWYNPVPVVYIVVEGGRFRFTVIEEGGLSVEEKTELQKHFIEMLKWHGLGAKTNYGYGRFEPLDVPKLVREDPSNRFDLRVD
>NZ_CP007141.1|WP_031505211.1|1075651_1075990_-|type-III-B-CRISPR-module-associated-protein-Cmr5
MRNLELEMARRAMEKVKEVANEAQSKQEYLTLARKLGSMIIQNGLIGTITYLKNKSQGFVILGHLYELVSQQIPVDISKPESVPERDYFKVQAVALEASKWLKRYAEILLKE
>NZ_CP007141.1|WP_031505210.1|1075970_1076840_-|type-III-B-CRISPR-module-RAMP-protein-Cmr4
MDKQVYLLYAETQVHAGSGFEIGVVDLPIQRERTTGFPIIQGVKGALRAFFRNTQQDNSKSKIFGDEIVQNNTKETKPGKVAFSEAKILLFPVRSQDKLFIWVTCPLVLSRFLNVAGEKEALEEIVKLELEEDRAIALDGSSRIYIEEISLNARNDVCLEKFREVLSRISTCAPIQSLQTKMSKDVAIVSDTMFCDIVKTMTEVIPRIRINEATKTVEEGALWYEEYLPQDTVMYFVARVMAYGNENLLSKLREKIDGKIVNIGGKETIGKGMMWVNCFGGDEDEKSGT
>NZ_CP007141.1|WP_031505209.1|1076846_1077881_-|type-III-B-CRISPR-module-associated-protein-Cmr3
MKLYAIYFEPEDWVAFREVRRFGPSDRVESVSLPSPFPFYGAVRTALLKKWGIKLELGRFPDIDEKKIEIIGGPDNPGKIKMFGPFIFKRTQKGIEHYFPAPRNIYRFDGKYKTMPILMESDGEFKLPWIGEFSGAVKVEAQYIEASEIKKLKSGQEFQPSDPDCYEVELRLGIGLSKDSKLAEERMIYTMSVYRFRNGGFFMLCDEETCGLVSQLDGVFLGAKQRWAKVWIEEFKETDIFQPLNGNVAVWLLTPAIFDDGMIPKSKQLQDAKILGIVGAKKTVISGWDVANNRSKPIHHAAGVGTVYYLDRPIDSFVLRESKFNEFGFGTVAFMKWDYFEGEE
>NZ_CP007141.1|WP_051368705.1|1077877_1080268_-|type-III-B-CRISPR-associated-protein-Cas10/Cmr2
MIQRDENFWKKKLSAILHDPLTKALNISAHEKISKDLAEKLGLEFQRGPEDTTASAMDRIPLPFEKSREKQIKIEQNLEFLHPFSGEVVKLFDDPSALREILEEKPLFDRFEEFKKKFPDNFEKLYHLVWWVLPYVIPYAQLLPADTRVPNHSIVDHLDTTSALVPCVEGNRVKASLIAMQIGPVQETIVQARKTRDLWAGSYLISYLIYGALEKLGLGLGFDSIIYPYLRNVSFLEETMRKLGINFPNELAKLPKMSDKVACLPNVFVAVVPSSEADEWIKECEKAILDRWNQLAVKTESSILQTTMDFDLDSFDRQINLFPTIVKARFDLISPSEALKKVKRFFKGSDVEAYAQMLKEIQQRDGYAPNEGSYYNYSYRILVSKLTALKNQRLFKPYEEIRNGRILEADDFGAGVKACVEFVEIFENEEKRDLLGAVNAVKRKLPEILQKDVRYESTRDIAQRNVANEDLKASGEDKMKNPYFAVLMMDGDEMGKWVSGEKAPNVDQTFHSKVKDRLEDELPELWEKLRARKLIQPSYHRQLSRTLGIFSSLVESVVERNEGMLVYCGGDDVLALLPADKALKCANELRKLFRGEGIGLEVDGHKYEAENGILHVDGKRFAPLMGERATISAGISVVHHKFPLQVAVKLAREAEEKAKEDYGRDSFVVHFVRRSGQITEVGSKWKVGGLDVVEELECLFNLMIELNVSRRSLYKLLSDDIQILSQDESVLQKFVHYVIRRSIHGETEEKKEKVKMFANRIFTFLNNYKLCCKDSNVEKALELILAFRTMKRGDER
>NZ_CP007141.1|WP_051368706.1|1080264_1081650_-|type-III-B-CRISPR-module-RAMP-protein-Cmr1
MSFERLEVECRVITPMFSRGAQQSSSGQYPFELRPQSIKGVLRFWFRAVAPLVINVYELDVDGLPEKEKKKWRNVKYKGLKFLEGLIFGSQERRAPFGLMVNPFDRVQTKSLGQIEIEYKVKFKNQLIKSMGSGNLITTYDYIFYGLYDTPKMTVSEKGTVSKYLPQDSILTLTFFFHDPKVKEIILSLLQLISIFSGFGAKTRKGFGGFEIVNPQGYQRSVEKYKDVIEKVTKMIKEFIEEHNRKSDVPKLVLGRTNFNGLPEFPSFTHCKVFKLDNLADSAPTEVFKRLYKIQIDKQKRKVVERGWYPELKHKLRRLNGDCVEDLKNALLKGSHQITIPPSILGLPLQYQNLQDKNNPNLFRGIKVILYSSLEEVEQMRNDEIEGRKASPLFISIHKFSDGWKPIVLILESKITSKANLGLEKDVQTMGAISKVFEVIGFENYEKLEKIIEKEMGGVCI
>NZ_CP007141.1|WP_162181442.1|1081706_1083077_-|hypothetical-protein
MSKRKPGETEKLVDFSVDGRIYTESLSGMALKRALSDEGKQTKLVLIYPVSAVLSKDMEPPNDLEQYLRFPKEYLREQLLQENVDDLFVIHSLGTYMYFDREVTFDVKYDDIVLEIFFELVKRYLQEKPEDIYVDVSTGHNISVVALVEAVDHFLNFLAFLHIDREKVPRVFQAFSDPIIDNRSSIFKIHVQPIEHQFHFSSPLLSYMEKNGVKRDDRLNVLKKALKDKAFAEESVEMRTAKRELTNMLLKSVLVFLSISKSLPLPLYYFDRVGTLDPTINVNLDDPDTVKNRLFAFVDYTLQRLQRDYSRSLGLDKEFLIAVVNELALYDGLVSMLFENDIKSFDREKSLAFELLCEKFGQILKKLKIESILFESETSNLKNRFKNSEHLDRWISMSVVYDSDEQMDSKPDQRNFYAHIGLERTITEVRFEGKEVYLRYREDAPFKTIFKYVLEA
>NZ_CP007141.1|WP_031505205.1|1083389_1083701_-|hypothetical-protein
MFVFFKALNGYYDALGSVVRMFESMRKDLENFIQMAEPEDRERYEEALLDLSMKMQNTFADAYAIALEIMDIFLKVNKGGDRGSCLVEELPSAQRTQQELSEN
>NZ_CP007141.1|WP_031505204.1|1083716_1084112_-|hypothetical-protein
MRKDRYTFKPFTLLTEQERELLSSITPTVKLFDAQIWEQNPQKFNVRCERCYIEPHMVFYTEDWYRITGYVVFEAEEDRTLRMIVEGESKGQSLLLWFIMPGEQIQTLLEQIPPYTEITIVPQFLKWYTYV

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Crispr_ID: NZ_CP007141_3

CRISPR_ID

CRISPR_location

CRISPR_type

Repeat_type

Spacer_info

Cas_protein_info

CRISPR-Cas_info

NZ_CP007141_3

1134832-1139908

TypeI-B

Consensus_repeat	Method
GTTTCCATTCCTCATAGATTCGATTGAAC	PILER-CR
GTTTCCATTCCTCATAGATTCGATTGAAC	CRISPRCasFinder
GTTTCCATTCCTCATAGATTCGATTGAAC	CRT

77 spacers

cas3,cas5,cas7,cas8b1,cas2,cas1,cas4,cas6

The CRISPR arrays of NZ_CP007141_3

>merge|NZ_CP007141|3|1134832-1139908|PILER-CR,CRISPRCasFinder,CRT
GTTTCCATTCCTCATAGATTCGATCGAAACCCATCCGCTTTACGAAGTAATTCAAAGTGCCACTGATGTTTCCATTCCTCATAGATTCGATTGAACATGTATACCAGTTTACATACCCGTAATATAGGAACCGGTTTCCATTCCTCATAGATTCGATTGAACGAGAATCGTGTTCGCGTTATTACAAAGTCGATCCTCGGGTTTCCATTCCTCATAGATTCGATTGAACTCAGTCGTTCTATACCACGAATCTATCAATTCTTGCGAGGTTTCCATTCCTCATAGATTCGATTGAACTGGATTGTCACTCTACTCACACGTCCCAGCGGTGTTAGTTTCCATTCCTCATAGATTCGATTGAACGAGGTGTACCACAGCTTTAAAGTTTTCTTCGTCACAGGTTTCCATTCCTCATAGATTCGATTGAACTATGCCCGAAGACATCATCACACCCCCTTAAAAGGGGTTTCCATTCCTCATAGATTCGATTGAACAGCTTTGAGACATCGCCTTTCAAAAAGAAGTCCCAAGTTTCCATTCCTCATAGATTCGATTGAACCCGATTCCCCAGTTGTATGCAAGAACTGCGAGGATAGTTTCCATTCCTCATAGATTCGATTGAACACCACACTCCCTTCAGGTGCGTTGTCGGGTGTGAGAGGTTTCCATTCCTCATAGATTCGATTGAACTAACCACAAGAAGCGTTTACGTGCCCACTAACCTATGTTTCCATTCCTCATAGATTCGATTGAACTCTTCGTGAAGGAAAACGCGCTCATTTGAACTCGGCGTTTCCATTCCTCATAGATTCGATTGAACGCGTCCGCGATATTCGAGAGCATCGCCTCGGAAACAGTTTCCATTCCTCATAGATTCGATTGAACATCACCGCGTGAAGTAACTCGTGAAAGAGGGTTTGGGTTTCCATTCCTCATAGATTCGATTGAACAAGTGATAAGAACCGAACTCGACGAAGATGGAAGAACGGTTTCCATTCCTCATAGATTCGATTGAACGGTGAGAAGCTGGGAGTATTTCGTGAGGAGGGAAAGCAGTTTCCATTCCTCATAGATTCGATTGAACGTCGTGTGACCGCCTCTATCAGTGTCGCGGATATCAGTTTCCATTCCTCATAGATTCGATTGAACTTGAAGTGAGCGTGGGAGTTTGCCCATCATTGTAAGGTGTTTCCATTCCTCATAGATTCGATTGAACGAGTATCCTGATCTTGAGTTCTGGAAAGAATTCTTGTTTCCATTCCTCATAGATTCGATTGAACTCGTAAATGGTATGGTGGAGTACTTGCGCCAAATGGGTTTCCATTCCTCATAGATTCGATTGAACTTGTAGCTTCGTTCGTCTTCACAAAAGATGTGGCATGAGTTTCCATTCCTCATAGATTCGATTGAACCAGGTCGCAAATCGTCATACGCCAGACTAACCCTGGTTTCCATTCCTCATAGATTCGATTGAACTTTCTAACCTTTCTACTTTTTCTACTCTCTTAAGAGGTTTCCATTCCTCATAGATTCGATTGAACTCCTTTGCACTTAAATATTTGAATCTGCGGTGAAAAGTTTCCATTCCTCATAGATTCGATTGAACGCTATCACTTCCTTTCCTCACGACTACACGTTCTCTCGTTTCCATTCCTCATAGATTCGATTGAACTGGAACCCTCGTTCTTTCATTATCTCGACCAATCGTGTTTCCATTCCTCATAGATTCGATTGAACGAGAACCGGCACACGTTCGGGCAACAACGGATACAAGTTTCCATTCCTCATAGATTCGATTGAACCCGATAGCGTTTTGAGATACGAGGTCAACTGATCCGAGTTTCCATTCCTCATAGATTCGATTGAACGAGTACGAGCAAAAGCACAATGAAGGCTTTGTGAACGGTTTCCATTCCTCATAGATTCGATTGAACTATTTGGACGGAGGGATAGGCATGCCAAAACAAAACTAGTTTCCATTCCTCATAGATTCGATTGAACTTGAAGAGTTTTTGAATGAGCTGGAGATGTGGTATCCAGTTTCCATTCCTCATAGATTCGATTGAACATGAGAAATTCGCCTTCGCTCGGTTCGTTAGATATGGTTTCCATTCCTCATAGATTCGATTGAACGAATACGATCCTGCAAAGCACAAGATAAACGTCCTCGGTTTCCATTCCTCATAGATTCGATTGAACTTCCTCTCTTTCAAGCTCGTCAACATTGCTACCTTGTTTCCATTCCTCATAGATTCGATTGAACCGAGATATGTACAAAATGATGAACACCGTCGAATTCCGGTTTCCATTCCTCATAGATTCGATTGAACTCGCTCCGCTTCCGATGCGCATTCGCTCGCGTACGCGTTTCCATTCCTCATAGATTCGATTGAACTTTGCTCCAGCTCTTCAAAACTTGTCGCTTGCGAAAGTTTCCATTCCTCATAGATTCGATTGAACTCAAACCGCTTACAAAGCTCAATCGGAATATCATAAGTTTCCATTCCTCATAGATTCGATTGAACAAATATCTATGGCCCTGAGAGCGTCTTCCTCAGGAAGTTTCCATTCCTCATAGATTCGATTGAACCAAGAATGAAGCTTGTCGACAGGAGCCAACTACCGAGTTTCCATTCCTCATAGATTCGATTGAACATCTTGAGCAACGAACTGGAATGTGATTTCGTAAGCTGTTTCCATTCCTCATAGATTCGATTGAACTTCAATTAAGAGAAAAAGGACTTTCCTGGCGAAGAATGTTTCCATTCCTCATAGATTCGATTGAACATATTCAGCTTCTGGTTCTCTTTTTCCACCACCACAGTTTCCATTCCTCATAGATTCGATTGAACTGAAACGACACAAAATCAACATCCTCACACGGTGCGGTTTCCATTCCTCATAGATTCGATTGAACACGTCTCCGATATCTACGTGGGAGATTCTATTCAACTGTTTCCATTCCTCATAGATTCGATTGAACGTGTTCGCGGAATAGTTAGATAGCGAGATGTTTCCGTTTCCATTCCTCATAGATTCGATTGAACTATTCAAGCTGCTTCTTATATTCCTCTGTGTCAACTCGTTTCCATTCCTCATAGATTCGATTGAACGGAGGGGGAACATGAAAGTCTCTTTAGAAACGTTGGAGTTTCCATTCCTCATAGATTCGATTGAACATGATCGCGAACACGTCCTGAAGCAAAGGAAAGTCCTGTTTCCATTCCTCATAGATTCGATTGAACCCCGCAGTTCCGTCGTCGGGAGTGATCGTTAGGCCTTGTTTCCATTCCTCATAGATTCGATTGAACCGTATTTGGGTCTATTTCAAGGATCTGTGTAGCATTAGTTTCCATTCCTCATAGATTCGATTGAACTTTTAGCAAACTGTTCGAGCACGCGCGTTAGTCCGAGTTTCCATTCCTCATAGATTCGATTGAACATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCAGTTTCCATTCCTCATAGATTCGATTGAACGTCTCCCCCACCACGTTCCACGAACACGTCTAAATCGGTTTCCATTCCTCATAGATTCGATTGAACTGGACAACAGCTAAGGAACCCGTTCTCCAGCGCAGTGTTTCCATTCCTCATAGATTCGATTGAACGATCACCATAGAGAGTGGACTCGAGCTTTTCAACTGGTTTCCATTCCTCATAGATTCGATTGAACTTCCGTTGCTTGAAGATGTTTTCGCAATCATCTCAAGTTTCCATTCCTCATAGATTCGATTGAACTCTCGTAAAAATAGGCATCTTTACTGCACAGGAACAAGTTTCCATTCCTCATAGATTCGATTGAACTTTCAAAGCCCGCATCAAAGCGGGCTTTTCTTTTGTTGTTTCCATTCCTCATAGATTCGATTGAACATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCAGTTTCCATTCCTCATAGATTCGATTGAACCGTATATTCCCAGCCGTAGACGGTACCGATTCTGGAAGTTTCCATTCCTCATAGATTCGATTGAACCGGAACTGCCAAGTGGGTTGGTGGAGTTTTAGCTCCGTTTCCATTCCTCATAGATTCGATTGAACCTTATCCGCGGCGGTGTAATCCACGTGTCCTCGCCCGGTTTCCATTCCTCATAGATTCGATTGAACCCTTCACTTCCTGCCATGTTGCTTTGAGTTTATTTTGTTTCCATTCCTCATAGATTCGATTGAACTTGGGATCCGGAAGCGAAGTCTCCGGCAGGAGCAATGTTTCCATTCCTCATAGATTCGATTGAACTAGTGCATAGTGCATACTTTCCACGGGATAACTATTGTTTCCATTCCTCATAGATTCGATTGAACGTGTTATTTGGCTGAACACGAACAACGTATCCGCGAGTTTCCATTCCTCATAGATTCGATTGAACCAAGCGTCGGCGAACTCATTAACACATACGTTGCTGGTTTCCATTCCTCATAGATTCGATTGAACTTAATCTGCTCGATATTTGCTTGTATTTTCTCGGGTGGTTTCCATTCCTCATAGATTCGATTGAACCGGGTTTAAGGAACTGTACAGGTGGCTGAACGGAAAGTTTCCATTCCTCATAGATTCGATTGAACTTAGAGAGGGGGAGAAAGTATGAGGAGTTTCAAGATGTTTCCATTCCTCATAGATTCGATTGAACGGCATACAGCGGAGATACGGAACTGTGTAATATGCTTGTTTCCATTCCTCATAGATTCGATTGAACAACATTTTTGAATGCGAAGGAAATCTACACAAGAGAGTTTCCATTCCTCATAGATTCGATTGAACGAAACGAGCCGGTAGCGGTTGCGTACAAGAGAGAGCTGTTTCCATTCCTCATAGATTCGATTGAACTCTTTTCGGCAATAAGAAGCGGAGTGGTTGATTTTTGTTTCCATTCCTCATAGATTCGATTGAACCGTTTAGATAGCCGATTAGCTCTGAACCTTTCTCCTTAGTTTCCATTCCTCATAGATTCGATTGAACTAAGAAAGTTGTAGACACAGCAACCGAGACGTGGATGTTTCCATTCCTCATAGATTCGATTGAAC

>NZ_CP007141|3|4|1134832-1139908|PILER-CR
GTTTCCATTCCTCATAGATTCGATCGAAA	CCCATCCGCTTTACGAAGTAATTCAAAGTGCCACTGAT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGTATACCAGTTTACATACCCGTAATATAGGAACCG
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGAATCGTGTTCGCGTTATTACAAAGTCGATCCTCGG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCAGTCGTTCTATACCACGAATCTATCAATTCTTGCGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGATTGTCACTCTACTCACACGTCCCAGCGGTGTTA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGGTGTACCACAGCTTTAAAGTTTTCTTCGTCACAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TATGCCCGAAGACATCATCACACCCCCTTAAAAGGG
GTTTCCATTCCTCATAGATTCGATTGAAC	AGCTTTGAGACATCGCCTTTCAAAAAGAAGTCCCAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CCGATTCCCCAGTTGTATGCAAGAACTGCGAGGATA
GTTTCCATTCCTCATAGATTCGATTGAAC	ACCACACTCCCTTCAGGTGCGTTGTCGGGTGTGAGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TAACCACAAGAAGCGTTTACGTGCCCACTAACCTAT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTTCGTGAAGGAAAACGCGCTCATTTGAACTCGGC
GTTTCCATTCCTCATAGATTCGATTGAAC	GCGTCCGCGATATTCGAGAGCATCGCCTCGGAAACA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATCACCGCGTGAAGTAACTCGTGAAAGAGGGTTTGG
GTTTCCATTCCTCATAGATTCGATTGAAC	AAGTGATAAGAACCGAACTCGACGAAGATGGAAGAACG
GTTTCCATTCCTCATAGATTCGATTGAAC	GGTGAGAAGCTGGGAGTATTTCGTGAGGAGGGAAAGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	GTCGTGTGACCGCCTCTATCAGTGTCGCGGATATCA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGAAGTGAGCGTGGGAGTTTGCCCATCATTGTAAGGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGTATCCTGATCTTGAGTTCTGGAAAGAATTCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCGTAAATGGTATGGTGGAGTACTTGCGCCAAATGG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGTAGCTTCGTTCGTCTTCACAAAAGATGTGGCATGA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAGGTCGCAAATCGTCATACGCCAGACTAACCCTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTCTAACCTTTCTACTTTTTCTACTCTCTTAAGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCCTTTGCACTTAAATATTTGAATCTGCGGTGAAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	GCTATCACTTCCTTTCCTCACGACTACACGTTCTCTC
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGAACCCTCGTTCTTTCATTATCTCGACCAATCGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGAACCGGCACACGTTCGGGCAACAACGGATACAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CCGATAGCGTTTTGAGATACGAGGTCAACTGATCCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGTACGAGCAAAAGCACAATGAAGGCTTTGTGAACG
GTTTCCATTCCTCATAGATTCGATTGAAC	TATTTGGACGGAGGGATAGGCATGCCAAAACAAAACTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGAAGAGTTTTTGAATGAGCTGGAGATGTGGTATCCA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGAGAAATTCGCCTTCGCTCGGTTCGTTAGATATG
GTTTCCATTCCTCATAGATTCGATTGAAC	GAATACGATCCTGCAAAGCACAAGATAAACGTCCTCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCCTCTCTTTCAAGCTCGTCAACATTGCTACCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGAGATATGTACAAAATGATGAACACCGTCGAATTCCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCGCTCCGCTTCCGATGCGCATTCGCTCGCGTACGC
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTGCTCCAGCTCTTCAAAACTTGTCGCTTGCGAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TCAAACCGCTTACAAAGCTCAATCGGAATATCATAA
GTTTCCATTCCTCATAGATTCGATTGAAC	AAATATCTATGGCCCTGAGAGCGTCTTCCTCAGGAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAAGAATGAAGCTTGTCGACAGGAGCCAACTACCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATCTTGAGCAACGAACTGGAATGTGATTTCGTAAGCT
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCAATTAAGAGAAAAAGGACTTTCCTGGCGAAGAAT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATATTCAGCTTCTGGTTCTCTTTTTCCACCACCACA
GTTTCCATTCCTCATAGATTCGATTGAAC	TGAAACGACACAAAATCAACATCCTCACACGGTGCG
GTTTCCATTCCTCATAGATTCGATTGAAC	ACGTCTCCGATATCTACGTGGGAGATTCTATTCAACT
GTTTCCATTCCTCATAGATTCGATTGAAC	GTGTTCGCGGAATAGTTAGATAGCGAGATGTTTCC
GTTTCCATTCCTCATAGATTCGATTGAAC	TATTCAAGCTGCTTCTTATATTCCTCTGTGTCAACTC
GTTTCCATTCCTCATAGATTCGATTGAAC	GGAGGGGGAACATGAAAGTCTCTTTAGAAACGTTGGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGATCGCGAACACGTCCTGAAGCAAAGGAAAGTCCT
GTTTCCATTCCTCATAGATTCGATTGAAC	CCCGCAGTTCCGTCGTCGGGAGTGATCGTTAGGCCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTATTTGGGTCTATTTCAAGGATCTGTGTAGCATTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTTAGCAAACTGTTCGAGCACGCGCGTTAGTCCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	GTCTCCCCCACCACGTTCCACGAACACGTCTAAATCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGACAACAGCTAAGGAACCCGTTCTCCAGCGCAGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GATCACCATAGAGAGTGGACTCGAGCTTTTCAACTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCCGTTGCTTGAAGATGTTTTCGCAATCATCTCAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTCGTAAAAATAGGCATCTTTACTGCACAGGAACAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTCAAAGCCCGCATCAAAGCGGGCTTTTCTTTTGTT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTATATTCCCAGCCGTAGACGGTACCGATTCTGGAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CGGAACTGCCAAGTGGGTTGGTGGAGTTTTAGCTCC
GTTTCCATTCCTCATAGATTCGATTGAAC	CTTATCCGCGGCGGTGTAATCCACGTGTCCTCGCCCG
GTTTCCATTCCTCATAGATTCGATTGAAC	CCTTCACTTCCTGCCATGTTGCTTTGAGTTTATTTT
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGGGATCCGGAAGCGAAGTCTCCGGCAGGAGCAAT
GTTTCCATTCCTCATAGATTCGATTGAAC	TAGTGCATAGTGCATACTTTCCACGGGATAACTATT
GTTTCCATTCCTCATAGATTCGATTGAAC	GTGTTATTTGGCTGAACACGAACAACGTATCCGCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAAGCGTCGGCGAACTCATTAACACATACGTTGCTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTAATCTGCTCGATATTTGCTTGTATTTTCTCGGGTG
GTTTCCATTCCTCATAGATTCGATTGAAC	CGGGTTTAAGGAACTGTACAGGTGGCTGAACGGAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTAGAGAGGGGGAGAAAGTATGAGGAGTTTCAAGAT
GTTTCCATTCCTCATAGATTCGATTGAAC	GGCATACAGCGGAGATACGGAACTGTGTAATATGCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	AACATTTTTGAATGCGAAGGAAATCTACACAAGAGA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAAACGAGCCGGTAGCGGTTGCGTACAAGAGAGAGCT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTTTTCGGCAATAAGAAGCGGAGTGGTTGATTTTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTTTAGATAGCCGATTAGCTCTGAACCTTTCTCCTTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TAAGAAAGTTGTAGACACAGCAACCGAGACGTGGAT
GTTTCCATTCCTCATAGATTCGATTGAAC

>NZ_CP007141|3|3|1134832-1139908|CRISPRCasFinder
GTTTCCATTCCTCATAGATTCGATCGAAA	CCCATCCGCTTTACGAAGTAATTCAAAGTGCCACTGAT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGTATACCAGTTTACATACCCGTAATATAGGAACCG
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGAATCGTGTTCGCGTTATTACAAAGTCGATCCTCGG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCAGTCGTTCTATACCACGAATCTATCAATTCTTGCGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGATTGTCACTCTACTCACACGTCCCAGCGGTGTTA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGGTGTACCACAGCTTTAAAGTTTTCTTCGTCACAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TATGCCCGAAGACATCATCACACCCCCTTAAAAGGG
GTTTCCATTCCTCATAGATTCGATTGAAC	AGCTTTGAGACATCGCCTTTCAAAAAGAAGTCCCAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CCGATTCCCCAGTTGTATGCAAGAACTGCGAGGATA
GTTTCCATTCCTCATAGATTCGATTGAAC	ACCACACTCCCTTCAGGTGCGTTGTCGGGTGTGAGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TAACCACAAGAAGCGTTTACGTGCCCACTAACCTAT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTTCGTGAAGGAAAACGCGCTCATTTGAACTCGGC
GTTTCCATTCCTCATAGATTCGATTGAAC	GCGTCCGCGATATTCGAGAGCATCGCCTCGGAAACA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATCACCGCGTGAAGTAACTCGTGAAAGAGGGTTTGG
GTTTCCATTCCTCATAGATTCGATTGAAC	AAGTGATAAGAACCGAACTCGACGAAGATGGAAGAACG
GTTTCCATTCCTCATAGATTCGATTGAAC	GGTGAGAAGCTGGGAGTATTTCGTGAGGAGGGAAAGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	GTCGTGTGACCGCCTCTATCAGTGTCGCGGATATCA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGAAGTGAGCGTGGGAGTTTGCCCATCATTGTAAGGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGTATCCTGATCTTGAGTTCTGGAAAGAATTCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCGTAAATGGTATGGTGGAGTACTTGCGCCAAATGG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGTAGCTTCGTTCGTCTTCACAAAAGATGTGGCATGA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAGGTCGCAAATCGTCATACGCCAGACTAACCCTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTCTAACCTTTCTACTTTTTCTACTCTCTTAAGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCCTTTGCACTTAAATATTTGAATCTGCGGTGAAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	GCTATCACTTCCTTTCCTCACGACTACACGTTCTCTC
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGAACCCTCGTTCTTTCATTATCTCGACCAATCGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGAACCGGCACACGTTCGGGCAACAACGGATACAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CCGATAGCGTTTTGAGATACGAGGTCAACTGATCCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGTACGAGCAAAAGCACAATGAAGGCTTTGTGAACG
GTTTCCATTCCTCATAGATTCGATTGAAC	TATTTGGACGGAGGGATAGGCATGCCAAAACAAAACTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGAAGAGTTTTTGAATGAGCTGGAGATGTGGTATCCA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGAGAAATTCGCCTTCGCTCGGTTCGTTAGATATG
GTTTCCATTCCTCATAGATTCGATTGAAC	GAATACGATCCTGCAAAGCACAAGATAAACGTCCTCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCCTCTCTTTCAAGCTCGTCAACATTGCTACCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGAGATATGTACAAAATGATGAACACCGTCGAATTCCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCGCTCCGCTTCCGATGCGCATTCGCTCGCGTACGC
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTGCTCCAGCTCTTCAAAACTTGTCGCTTGCGAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TCAAACCGCTTACAAAGCTCAATCGGAATATCATAA
GTTTCCATTCCTCATAGATTCGATTGAAC	AAATATCTATGGCCCTGAGAGCGTCTTCCTCAGGAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAAGAATGAAGCTTGTCGACAGGAGCCAACTACCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATCTTGAGCAACGAACTGGAATGTGATTTCGTAAGCT
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCAATTAAGAGAAAAAGGACTTTCCTGGCGAAGAAT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATATTCAGCTTCTGGTTCTCTTTTTCCACCACCACA
GTTTCCATTCCTCATAGATTCGATTGAAC	TGAAACGACACAAAATCAACATCCTCACACGGTGCG
GTTTCCATTCCTCATAGATTCGATTGAAC	ACGTCTCCGATATCTACGTGGGAGATTCTATTCAACT
GTTTCCATTCCTCATAGATTCGATTGAAC	GTGTTCGCGGAATAGTTAGATAGCGAGATGTTTCC
GTTTCCATTCCTCATAGATTCGATTGAAC	TATTCAAGCTGCTTCTTATATTCCTCTGTGTCAACTC
GTTTCCATTCCTCATAGATTCGATTGAAC	GGAGGGGGAACATGAAAGTCTCTTTAGAAACGTTGGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGATCGCGAACACGTCCTGAAGCAAAGGAAAGTCCT
GTTTCCATTCCTCATAGATTCGATTGAAC	CCCGCAGTTCCGTCGTCGGGAGTGATCGTTAGGCCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTATTTGGGTCTATTTCAAGGATCTGTGTAGCATTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTTAGCAAACTGTTCGAGCACGCGCGTTAGTCCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	GTCTCCCCCACCACGTTCCACGAACACGTCTAAATCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGACAACAGCTAAGGAACCCGTTCTCCAGCGCAGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GATCACCATAGAGAGTGGACTCGAGCTTTTCAACTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCCGTTGCTTGAAGATGTTTTCGCAATCATCTCAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTCGTAAAAATAGGCATCTTTACTGCACAGGAACAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTCAAAGCCCGCATCAAAGCGGGCTTTTCTTTTGTT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTATATTCCCAGCCGTAGACGGTACCGATTCTGGAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CGGAACTGCCAAGTGGGTTGGTGGAGTTTTAGCTCC
GTTTCCATTCCTCATAGATTCGATTGAAC	CTTATCCGCGGCGGTGTAATCCACGTGTCCTCGCCCG
GTTTCCATTCCTCATAGATTCGATTGAAC	CCTTCACTTCCTGCCATGTTGCTTTGAGTTTATTTT
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGGGATCCGGAAGCGAAGTCTCCGGCAGGAGCAAT
GTTTCCATTCCTCATAGATTCGATTGAAC	TAGTGCATAGTGCATACTTTCCACGGGATAACTATT
GTTTCCATTCCTCATAGATTCGATTGAAC	GTGTTATTTGGCTGAACACGAACAACGTATCCGCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAAGCGTCGGCGAACTCATTAACACATACGTTGCTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTAATCTGCTCGATATTTGCTTGTATTTTCTCGGGTG
GTTTCCATTCCTCATAGATTCGATTGAAC	CGGGTTTAAGGAACTGTACAGGTGGCTGAACGGAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTAGAGAGGGGGAGAAAGTATGAGGAGTTTCAAGAT
GTTTCCATTCCTCATAGATTCGATTGAAC	GGCATACAGCGGAGATACGGAACTGTGTAATATGCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	AACATTTTTGAATGCGAAGGAAATCTACACAAGAGA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAAACGAGCCGGTAGCGGTTGCGTACAAGAGAGAGCT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTTTTCGGCAATAAGAAGCGGAGTGGTTGATTTTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTTTAGATAGCCGATTAGCTCTGAACCTTTCTCCTTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TAAGAAAGTTGTAGACACAGCAACCGAGACGTGGAT
GTTTCCATTCCTCATAGATTCGATTGAAC

>NZ_CP007141|3|3|1134832-1139908|CRT
GTTTCCATTCCTCATAGATTCGATCGAAA	CCCATCCGCTTTACGAAGTAATTCAAAGTGCCACTGAT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGTATACCAGTTTACATACCCGTAATATAGGAACCG
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGAATCGTGTTCGCGTTATTACAAAGTCGATCCTCGG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCAGTCGTTCTATACCACGAATCTATCAATTCTTGCGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGATTGTCACTCTACTCACACGTCCCAGCGGTGTTA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGGTGTACCACAGCTTTAAAGTTTTCTTCGTCACAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TATGCCCGAAGACATCATCACACCCCCTTAAAAGGG
GTTTCCATTCCTCATAGATTCGATTGAAC	AGCTTTGAGACATCGCCTTTCAAAAAGAAGTCCCAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CCGATTCCCCAGTTGTATGCAAGAACTGCGAGGATA
GTTTCCATTCCTCATAGATTCGATTGAAC	ACCACACTCCCTTCAGGTGCGTTGTCGGGTGTGAGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TAACCACAAGAAGCGTTTACGTGCCCACTAACCTAT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTTCGTGAAGGAAAACGCGCTCATTTGAACTCGGC
GTTTCCATTCCTCATAGATTCGATTGAAC	GCGTCCGCGATATTCGAGAGCATCGCCTCGGAAACA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATCACCGCGTGAAGTAACTCGTGAAAGAGGGTTTGG
GTTTCCATTCCTCATAGATTCGATTGAAC	AAGTGATAAGAACCGAACTCGACGAAGATGGAAGAACG
GTTTCCATTCCTCATAGATTCGATTGAAC	GGTGAGAAGCTGGGAGTATTTCGTGAGGAGGGAAAGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	GTCGTGTGACCGCCTCTATCAGTGTCGCGGATATCA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGAAGTGAGCGTGGGAGTTTGCCCATCATTGTAAGGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGTATCCTGATCTTGAGTTCTGGAAAGAATTCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCGTAAATGGTATGGTGGAGTACTTGCGCCAAATGG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGTAGCTTCGTTCGTCTTCACAAAAGATGTGGCATGA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAGGTCGCAAATCGTCATACGCCAGACTAACCCTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTCTAACCTTTCTACTTTTTCTACTCTCTTAAGAG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCCTTTGCACTTAAATATTTGAATCTGCGGTGAAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	GCTATCACTTCCTTTCCTCACGACTACACGTTCTCTC
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGAACCCTCGTTCTTTCATTATCTCGACCAATCGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGAACCGGCACACGTTCGGGCAACAACGGATACAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CCGATAGCGTTTTGAGATACGAGGTCAACTGATCCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAGTACGAGCAAAAGCACAATGAAGGCTTTGTGAACG
GTTTCCATTCCTCATAGATTCGATTGAAC	TATTTGGACGGAGGGATAGGCATGCCAAAACAAAACTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGAAGAGTTTTTGAATGAGCTGGAGATGTGGTATCCA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGAGAAATTCGCCTTCGCTCGGTTCGTTAGATATG
GTTTCCATTCCTCATAGATTCGATTGAAC	GAATACGATCCTGCAAAGCACAAGATAAACGTCCTCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCCTCTCTTTCAAGCTCGTCAACATTGCTACCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGAGATATGTACAAAATGATGAACACCGTCGAATTCCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TCGCTCCGCTTCCGATGCGCATTCGCTCGCGTACGC
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTGCTCCAGCTCTTCAAAACTTGTCGCTTGCGAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TCAAACCGCTTACAAAGCTCAATCGGAATATCATAA
GTTTCCATTCCTCATAGATTCGATTGAAC	AAATATCTATGGCCCTGAGAGCGTCTTCCTCAGGAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAAGAATGAAGCTTGTCGACAGGAGCCAACTACCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATCTTGAGCAACGAACTGGAATGTGATTTCGTAAGCT
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCAATTAAGAGAAAAAGGACTTTCCTGGCGAAGAAT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATATTCAGCTTCTGGTTCTCTTTTTCCACCACCACA
GTTTCCATTCCTCATAGATTCGATTGAAC	TGAAACGACACAAAATCAACATCCTCACACGGTGCG
GTTTCCATTCCTCATAGATTCGATTGAAC	ACGTCTCCGATATCTACGTGGGAGATTCTATTCAACT
GTTTCCATTCCTCATAGATTCGATTGAAC	GTGTTCGCGGAATAGTTAGATAGCGAGATGTTTCC
GTTTCCATTCCTCATAGATTCGATTGAAC	TATTCAAGCTGCTTCTTATATTCCTCTGTGTCAACTC
GTTTCCATTCCTCATAGATTCGATTGAAC	GGAGGGGGAACATGAAAGTCTCTTTAGAAACGTTGGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATGATCGCGAACACGTCCTGAAGCAAAGGAAAGTCCT
GTTTCCATTCCTCATAGATTCGATTGAAC	CCCGCAGTTCCGTCGTCGGGAGTGATCGTTAGGCCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTATTTGGGTCTATTTCAAGGATCTGTGTAGCATTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTTAGCAAACTGTTCGAGCACGCGCGTTAGTCCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	ATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	GTCTCCCCCACCACGTTCCACGAACACGTCTAAATCG
GTTTCCATTCCTCATAGATTCGATTGAAC	TGGACAACAGCTAAGGAACCCGTTCTCCAGCGCAGT
GTTTCCATTCCTCATAGATTCGATTGAAC	GATCACCATAGAGAGTGGACTCGAGCTTTTCAACTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTCCGTTGCTTGAAGATGTTTTCGCAATCATCTCAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTCGTAAAAATAGGCATCTTTACTGCACAGGAACAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTTCAAAGCCCGCATCAAAGCGGGCTTTTCTTTTGTT
GTTTCCATTCCTCATAGATTCGATTGAAC	ATTTCAAGGATCTGTGTAGCATGAGAAGGAATGGCA
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTATATTCCCAGCCGTAGACGGTACCGATTCTGGAA
GTTTCCATTCCTCATAGATTCGATTGAAC	CGGAACTGCCAAGTGGGTTGGTGGAGTTTTAGCTCC
GTTTCCATTCCTCATAGATTCGATTGAAC	CTTATCCGCGGCGGTGTAATCCACGTGTCCTCGCCCG
GTTTCCATTCCTCATAGATTCGATTGAAC	CCTTCACTTCCTGCCATGTTGCTTTGAGTTTATTTT
GTTTCCATTCCTCATAGATTCGATTGAAC	TTGGGATCCGGAAGCGAAGTCTCCGGCAGGAGCAAT
GTTTCCATTCCTCATAGATTCGATTGAAC	TAGTGCATAGTGCATACTTTCCACGGGATAACTATT
GTTTCCATTCCTCATAGATTCGATTGAAC	GTGTTATTTGGCTGAACACGAACAACGTATCCGCGA
GTTTCCATTCCTCATAGATTCGATTGAAC	CAAGCGTCGGCGAACTCATTAACACATACGTTGCTG
GTTTCCATTCCTCATAGATTCGATTGAAC	TTAATCTGCTCGATATTTGCTTGTATTTTCTCGGGTG
GTTTCCATTCCTCATAGATTCGATTGAAC	CGGGTTTAAGGAACTGTACAGGTGGCTGAACGGAAA
GTTTCCATTCCTCATAGATTCGATTGAAC	TTAGAGAGGGGGAGAAAGTATGAGGAGTTTCAAGAT
GTTTCCATTCCTCATAGATTCGATTGAAC	GGCATACAGCGGAGATACGGAACTGTGTAATATGCTT
GTTTCCATTCCTCATAGATTCGATTGAAC	AACATTTTTGAATGCGAAGGAAATCTACACAAGAGA
GTTTCCATTCCTCATAGATTCGATTGAAC	GAAACGAGCCGGTAGCGGTTGCGTACAAGAGAGAGCT
GTTTCCATTCCTCATAGATTCGATTGAAC	TCTTTTCGGCAATAAGAAGCGGAGTGGTTGATTTTT
GTTTCCATTCCTCATAGATTCGATTGAAC	CGTTTAGATAGCCGATTAGCTCTGAACCTTTCTCCTTA
GTTTCCATTCCTCATAGATTCGATTGAAC	TAAGAAAGTTGTAGACACAGCAACCGAGACGTGGAT
GTTTCCATTCCTCATAGATTCGATTGAAC

Protein	Signature genes	Signature genes Name	Protein_function
NZ_CP007141.1\|WP_031505535.1\|1144133_1145867_-\|TIGR02556-family-CRISPR-associated-protein	cas8b1	cd09730_cas8b1_CAS-I-B	gnl\|CDD\|187861
NZ_CP007141.1\|WP_031505537.1\|1142564_1143263_-\|type-I-B-CRISPR-associated-protein-Cas5	cas5	cls001430_cas5_CAS-I-B	gnl\|CDD\|131641
NZ_CP007141.1\|WP_031505531.1\|1146219_1147203_-\|type-I-B-CRISPR-associated-endonuclease-Cas1	cas1	cd09722_cas1_CAS-I-B	gnl\|CDD\|274695
NZ_CP007141.1\|WP_031505154.1\|1131169_1132051_-\|signal-recognition-particle-docking-protein-FtsY	unknown	unknown	gnl\|CDD\|236686
NZ_CP007141.1\|WP_051368954.1\|1147212_1147701_-\|CRISPR-associated-protein-Cas4	cas4	pfam01930_cas4_CAS-I	gnl\|CDD\|366863
NZ_CP007141.1\|WP_031505158.1\|1127382_1128339_-\|GAF-domain-containing-protein	unknown	unknown	gnl\|CDD\|224867
NZ_CP007141.1\|WP_038059905.1\|1143259_1144144_-\|type-I-B-CRISPR-associated-protein-Cas7/Csh2	cas7	cd09690_cas7_CAS-I-B	gnl\|CDD\|274217
NZ_CP007141.1\|WP_051368711.1\|1147709_1148492_-\|CRISPR-associated-endoribonuclease-Cas6	cas6	COG1583_cas6_CAS-I:CAS-III:CAS-IV	gnl\|CDD\|224499
NZ_CP007141.1\|WP_031505161.1\|1125586_1125862_+\|hypothetical-protein	unknown	unknown	gnl\|CDD\|188120
NZ_CP007141.1\|WP_031505153.1\|1132054_1133779_-\|proline--tRNA-ligase	unknown	unknown	gnl\|CDD\|236405
NZ_CP007141.1\|WP_081708837.1\|1140342_1142580_-\|CRISPR-associated-helicase/endonuclease-Cas3	cas3	COG1203_cas3_CAS-I	gnl\|CDD\|224124
NZ_CP007141.1\|WP_038059903.1\|1149910_1150930_-\|flippase-like-domain-containing-protein	unknown	unknown	gnl\|CDD\|377103
NZ_CP007141.1\|WP_031505156.1\|1128757_1130473_-\|peptidoglycan-DD-metalloendopeptidase-family-protein	unknown	unknown	gnl\|CDD\|270619
NZ_CP007141.1\|WP_031505526.1\|1148850_1149909_+\|sensor-domain-containing-diguanylate-cyclase	unknown	unknown	gnl\|CDD\|143635
NZ_CP007141.1\|WP_162181443.1\|1134136_1134637_+\|DUF342-domain-containing-protein	unknown	unknown	gnl\|CDD\|377177
NZ_CP007141.1\|WP_031505155.1\|1130469_1131126_-\|DUF2225-domain-containing-protein	unknown	unknown	gnl\|CDD\|378340
NZ_CP007141.1\|WP_031505159.1\|1126246_1127386_-\|type-III-PLP-dependent-enzyme	unknown	unknown	gnl\|CDD\|143482
NZ_CP007141.1\|WP_031505157.1\|1128335_1128752_-\|Rrf2-family-transcriptional-regulator	unknown	unknown	gnl\|CDD\|224870
NZ_CP007141.1\|WP_031505533.1\|1145882_1146146_-\|CRISPR-associated-endonuclease-Cas2	cas2	cd09725_cas2_CAS-I:CAS-II:CAS-III:CAS-V	gnl\|CDD\|187856
NZ_CP007141.1\|WP_031505160.1\|1125869_1126271_+\|YjbQ-family-protein	unknown	unknown	gnl\|CDD\|376651

Protein	Function_ID	Function_description	E-value
NZ_CP007141.1\|WP_031505535.1\|1144133_1145867_-\|TIGR02556-family-CRISPR-associated-protein	gnl\|CDD\|187861	cd09730, Cas8a1_I-A, CRISPR/Cas system-associated protein Cas8a1. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Large proteins, some contain Zn-finger domain; signature gene for I-A subtype; also known as TM1802 family.	5.22263e-112
NZ_CP007141.1\|WP_031505537.1\|1142564_1143263_-\|type-I-B-CRISPR-associated-protein-Cas5	gnl\|CDD\|131641	TIGR02592, hypothetical_protein_CTC_01466, CRISPR-associated protein Cas5, subtype I-B/HMARI. This is a CRISPR-associated protein unique to the hmari subtype of cas genes and CRISPR repeat, which is the only subtype present in Haloarcula marismortui ATCC 43049. The hmari type, though uncommon, is also found in the Aquificae, Thermotogae, Firmicutes, and Dictyoglomi.	7.34254e-41
NZ_CP007141.1\|WP_031505531.1\|1146219_1147203_-\|type-I-B-CRISPR-associated-endonuclease-Cas1	gnl\|CDD\|274695	TIGR03641, cas1_HMARI, CRISPR-associated endonuclease Cas1, subtype I-B/HMARI/TNEAP. The CRISPR-associated protein Cas1 is virtually universal to CRISPR systems. CRISPR, an acronym for Clustered Regularly Interspaced Short Palindromic Repeats, is prokaryotic immunity system for foreign DNA, mostly from phage. CRISPR systems belong to different subtypes, distinguished by both nature of the repeats, the makeup of the cohort of associated Cas proteins, and by molecular phylogeny within the more universal Cas proteins such as this one. This model is of type EXCEPTION and provides more specific information than the EQUIVALOG model TIGR00287. It describes Cas1 subgroup that includes Cas1 proteins of the related HMARI and TNEAP subtypes of CRISPR/Cas system.	2.42124e-160
NZ_CP007141.1\|WP_031505154.1\|1131169_1132051_-\|signal-recognition-particle-docking-protein-FtsY	gnl\|CDD\|236686	PRK10416, PRK10416, signal recognition particle-docking protein FtsY; Provisional.	3.79603e-171
NZ_CP007141.1\|WP_051368954.1\|1147212_1147701_-\|CRISPR-associated-protein-Cas4	gnl\|CDD\|366863	pfam01930, Cas_Cas4, Domain of unknown function DUF83. This domain has no known function. The domain contains three conserved cysteines at its C-terminus.	4.56881e-57
NZ_CP007141.1\|WP_031505158.1\|1127382_1128339_-\|GAF-domain-containing-protein	gnl\|CDD\|224867	COG1956, COG1956, GAF domain-containing protein [Signal transduction mechanisms].	4.96545e-54
NZ_CP007141.1\|WP_038059905.1\|1143259_1144144_-\|type-I-B-CRISPR-associated-protein-Cas7/Csh2	gnl\|CDD\|274217	TIGR02590, hypothetical_protein_MM_0563, CRISPR-associated protein Cas7/Csh2, subtype I-B/HMARI. This model represents one of two closely related CRISPR-associated proteins that belong to the larger family of TIGR01595. Members are the Csh2 protein of the Hmari subtype of CRISPR/cas system. CRISPR stands for Clustered Regularly Interspaced Short Palindromic Repeats. The related model is TIGR02589, the Csd3 protein of the Dvulg CRISPR subtype.	5.36149e-102
NZ_CP007141.1\|WP_051368711.1\|1147709_1148492_-\|CRISPR-associated-endoribonuclease-Cas6	gnl\|CDD\|224499	COG1583, COG1583, CRISPR system related protein, RAMP superfamily [Defense mechanisms].	1.30009e-55
NZ_CP007141.1\|WP_031505161.1\|1125586_1125862_+\|hypothetical-protein	gnl\|CDD\|188120	TIGR01215, Cell_division_topological_specificity_factor, cell division topological specificity factor MinE. This protein is involved in the process of cell division. This protein prevents the proteins MinC and MinD to inhibit cell division at internal sites, but allows inhibiton at polar sites. This allows for correct cell division at the proper sites. [Cellular processes, Cell division].	0.00178926
NZ_CP007141.1\|WP_031505153.1\|1132054_1133779_-\|proline--tRNA-ligase	gnl\|CDD\|236405	PRK09194, PRK09194, prolyl-tRNA synthetase; Provisional.	0
NZ_CP007141.1\|WP_081708837.1\|1140342_1142580_-\|CRISPR-associated-helicase/endonuclease-Cas3	gnl\|CDD\|224124	COG1203, COG1203, CRISPR-associated helicase Cas3 [Defense mechanisms].	1.03879e-47
NZ_CP007141.1\|WP_038059903.1\|1149910_1150930_-\|flippase-like-domain-containing-protein	gnl\|CDD\|377103	pfam03706, LPG_synthase_TM, Lysylphosphatidylglycerol synthase TM region. LPG_synthase_TM is the N-terminal region of this family of bacterial phosphatidylglycerol lysyltransferases. The function of the family is to add lysyl groups to membrane lipids, and this region is the transmembrane domain of 7xTMs. In order to counteract attack by membrane-damaging external cationic antimicrobial molecules - from host immune systems, bacteriocins, defencins, etc - bacteria modify their anionic membrane phosphatidylglycerol with positively-charged L-lysine; this results in repulsion of the foreign cationic peptides.	1.32579e-25
NZ_CP007141.1\|WP_031505156.1\|1128757_1130473_-\|peptidoglycan-DD-metalloendopeptidase-family-protein	gnl\|CDD\|270619	cd14486, 3D_domain, 3D domain, named for 3 conserved aspartate residues, is found in mltA-like lytic transglycosylases and numerous other contexts. This family contains the 3D domain, named for its 3 conserved aspartates. It is found in conjunction with numerous other domains such as MltA (membrane-bound lytic murein transglycosylase A). These aspartates are critical active site residues of mltA-like lytic transglycosylases. Escherichia coli peptidoglycan lytic transglycosylase (LT) initiates cell wall recycling in response to damage, during bacterial fission, and cleaves peptidoglycan (PG) to create functional spaces in its wall. MltA has 2 domains, separated by a large groove, where the peptidoglycan strand binds. The C-terminus has a double-psi beta barrel fold within the 3D domain, which forms the larger A domain along with the N-terminal region of Mlts, but is also found in various other domain architectures. Peptigoglycan (also known as murein) chains, the primary structural component of bacterial cells walls, are comprised of alternating beta-1-4-linked N-acetylmuramic acid (MurNAc) and N-acetyl-D-glucosamine (GlcNAc); lytic transglycosylases (LTs) cleave this beta-1-4 bond. Typically, LTs are exolytic, releasing Metabolite 1 (GlcNAc-anhMurNAc-L-Ala-D-Glu-m-Dap-D-Ala-D-Ala) from the ends of the PG strands. In contrast, membrane-bound lytic murein transglycosylase E (MltE) is endolytic , cleaving in the middle of PG strands, with further processing to Metabolite 1 accomplished by other LTs. In E. coli, there are six membrane- bound LTs: MltA-MltF and soluble Slt70. Slt35 is a soluble fragment cleaved from MltB. Bacterial LTs are classified in 4 families: Family 1 includes slt70 MltC-MltF, Family 2 includes MltA, Family 3 includes MltB, and family 4 of bacteriophage origin. While most LTs are related members of the lysozyme-like lytic transglycosylase family, MltA represents a distinct fold and sequence conservation.	4.37125e-39
NZ_CP007141.1\|WP_031505526.1\|1148850_1149909_+\|sensor-domain-containing-diguanylate-cyclase	gnl\|CDD\|143635	cd01949, GGDEF, Diguanylate-cyclase (DGC) or GGDEF domain. Diguanylate-cyclase (DGC) or GGDEF domain: Originally named after a conserved residue pattern, and initially described as a domain of unknown function 1 (DUF1). This domain is widely present in bacteria, linked to a wide range of non-homologous domains in a variety of cell signaling proteins. The domain shows homology to the adenylyl cyclase catalytic domain. This correlates with the functional information available on two GGDEF-containing proteins, namely diguanylate cyclase and phosphodiesterase A of Acetobacter xylinum, both of which regulate the turnover of cyclic diguanosine monophosphate. Together with the EAL domain, GGDEF might be involved in regulating cell surface adhesion in bacteria.	1.40663e-66
NZ_CP007141.1\|WP_162181443.1\|1134136_1134637_+\|DUF342-domain-containing-protein	gnl\|CDD\|377177	pfam03961, FapA, Flagellar Assembly Protein A. Members of this family include FapA (flagellar assembly protein A), found in Vibrio vulnificus. The synthesis of flagella allows bacteria to respond to chemotaxis by facilitating motility. Studies examining the role of FapA show that the loss or delocalization of FapA results in a complete failure of the flagellar biosynthesis and motility in response to glucose mediated chemotaxis. The polar localization of FapA is required for flagellar synthesis, and dephosphorylated EIIAGlc (Glucose-permease IIA component) inhibited the polar localization of FapA through direct interaction.	1.99358e-39
NZ_CP007141.1\|WP_031505155.1\|1130469_1131126_-\|DUF2225-domain-containing-protein	gnl\|CDD\|378340	pfam09986, DUF2225, Uncharacterized protein conserved in bacteria (DUF2225). This domain, found in various hypothetical bacterial proteins, has no known function.	1.43644e-39
NZ_CP007141.1\|WP_031505159.1\|1126246_1127386_-\|type-III-PLP-dependent-enzyme	gnl\|CDD\|143482	cd00622, PLPDE_III_ODC, Type III Pyridoxal 5-phosphate (PLP)-Dependent Enzyme Ornithine Decarboxylase. This subfamily is composed mainly of eukaryotic ornithine decarboxylases (ODC, EC 4.1.1.17) and ODC-like enzymes from prokaryotes represented by Vibrio vulnificus LysineOrnithine decarboxylase. These are fold type III PLP-dependent enzymes that differ from most bacterial ODCs which are fold type I PLP-dependent enzymes. ODC participates in the formation of putrescine by catalyzing the decarboxylation of ornithine, the first step in polyamine biosynthesis. Members of this subfamily contain an N-terminal PLP-binding TIM-barrel domain and a C-terminal beta-sandwich domain, similar to bacterial alanine racemases. They exist as homodimers with active sites that lie at the interface between the TIM barrel domain of one subunit and the beta-sandwich domain of the other subunit. Homodimer formation and the presence of the PLP cofactor are required for catalytic activity. Also members of this subfamily are proteins with homology to ODC but do not possess any catalytic activity, the Antizyme inhibitor (AZI) and ODC-paralogue (ODC-p). AZI binds to the regulatory protein Antizyme with a higher affinity than ODC and prevents ODC degradation. ODC-p is a novel ODC-like protein, present only in mammals, that is specifically exressed in the brain and testes. ODC-p may function as a tissue-specific antizyme inhibitory protein.	5.26678e-171
NZ_CP007141.1\|WP_031505157.1\|1128335_1128752_-\|Rrf2-family-transcriptional-regulator	gnl\|CDD\|224870	COG1959, COG1959, Predicted transcriptional regulator [Transcription].	3.64895e-36
NZ_CP007141.1\|WP_031505533.1\|1145882_1146146_-\|CRISPR-associated-endonuclease-Cas2	gnl\|CDD\|187856	cd09725, Cas2_I_II_III, CRISPR/Cas system-associated protein Cas2. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas2 is present in majority of CRISPR/Cas systems along with Cas1; RNAse specific to U-rich regions; Possesses an RRM/ferredoxin fold.	1.21819e-30
NZ_CP007141.1\|WP_031505160.1\|1125869_1126271_+\|YjbQ-family-protein	gnl\|CDD\|376651	pfam01894, UPF0047, Uncharacterized protein family UPF0047. This family has no known function. The alignment contains a conserved aspartate and histidine that may be functionally important.	1.63851e-69

>NZ_CP007141.1|WP_162181443.1|1134136_1134637_+|DUF342-domain-containing-protein
MSEDKMTASVMIIPGFKRVMPTVEEIKQALSDAKVVYGIDEGAIEKIVKEQRIFSEIPVAFGKKPILPKDASVEFLFPASGFVLEKPQEGESVDPASLYKIFTCNKGDVLAIKRKAFEGEDRLTVTGELVKVQEPKDVNLASFIGENLRLSPDGMQILANCDGQPY
>NZ_CP007141.1|WP_031505153.1|1132054_1133779_-|proline--tRNA-ligase
MRFSQLYAPTVKEAPADAEVVSHALLYRAGFIRKAAAGVYTYLPLAKRTLSKIENIVREEMNKIGAQEISMPIIHPAELWQMTGRWDDYGDEMMKLKDRHGRDFALGPTHEEMVTFLVKDEVRSYKQLPLFLYQIGPKYRDEIRPRFGLLRAREFIMKDGYSFHDSEESLDEAYKACSDAYSKIVERINLKYMIVEAASGAIGGSQSHEFVSFAQVGETNLLRCNSCGYSSSDEQAPYRGEYEKIEEDEKLIQLVHTPNVRTVQQVADFLSVEPKRIVKSLLFVGRNGFVMALIQGDRELNVEKLKVFMKDQSLRLATPDEVFETFKVPIGFVGPVGVNVPIVADHGVRHLKNVVVGGMKEDYHYVNANVGRDFNPDHYTDLVLVVENDPCPVCGKPLQAMKGIELGHVFKLGTKYSQSMGAYYMDREGNLKPFIMGCYGWGVSRTMAAVVEQLNDEDGIIWPRSIAPYEVIVTVVSMNDERQKKFAESLYRELNNKGIEALLDDREISPGMKFKDADLIGFPLRITVGKSLQDGFVELKLRNEKNQTRIEADVSKVVQTCVNMLDSYDPQRGR
>NZ_CP007141.1|WP_031505154.1|1131169_1132051_-|signal-recognition-particle-docking-protein-FtsY
MGFFERLKKGLEKTRKSFFDGIKQLLKVGRIDEEMLQELEELLIAADVGHQTTTWIIEKLKQERPDDPIVSLKKILVELLEADTALNLTGSPSVISVVGVNGSGKTTTVAKLASQFQAMGKSVVMAAADTFRAAAIEQLKVWGERINCTVIAHEEGSDPAAVAYDAVNHAKSKSKDIVIIDTAGRLHTKKNLMEELRKIHRVVAKLVDGAPHEVLLVIDATTGQNGLMQARIFKEMVNVTGIVITKLDGTAKGGIALAIKHELSLPIKFIGVGESVDDLKPFDAKQFVEALLS
>NZ_CP007141.1|WP_031505155.1|1130469_1131126_-|DUF2225-domain-containing-protein
MRTFWRKRYVCPVCKSQFEAVRIFSDAIRIKNRESDLKPIYDGVNALMFQLVSCPKCLYTSFEDDFENLTSSQAETIARMHEKLEQIEIDLSESKKVRDAAVQYNIAAVMYVAREKLFRAAESLLKLAWLYRDAGAPDEEKKALERAKELFLKSYTEEDLSEDRQIAALFYLGEIEKRLGNRRESVRWFSEMFRRFSKSDSIYVKQARQEWQEVSLEK
>NZ_CP007141.1|WP_031505156.1|1128757_1130473_-|peptidoglycan-DD-metalloendopeptidase-family-protein
MKTLRWLLILSIAMLPFACSQYNQDILAQINRKLDDFEYRLAALERSVYSNQKAVESLQSDVKKISDELTTAKRLISEQRSIPTVSQDDVNQILARITSLEMRFNQLSVALNVSDIRQLIYKISDLETAQKQQQIAYERFVRSTEELLSQVNAEETAKRLSSLENNLTSISNQIGELIELSSRLNALEKAFDTLSTTPQATIVNVSAIERELFQVRSRMQEIEINLKREMERKFEEFSSKQIVASPADLQTYIANTTALVRQLSLELETLRGTVREYDRERFLRLDQEYITYVVKPNDTLSSIMRAYGLGQDKLRLIMELNNIQDPNKLLVGQRIKIPIMDRSSLFAYPLEKPLSLEDVVSTFGRPASGGVTTGITISLQSGSRVFSILPGRIVSILQDEKGYHVRIDHGNGVLAVYGNLSTLNVTANSWVSRGQVIGMVNNLFHFEIWIDGEPKDPLRILLKYVGRFEATFYSEWDDGKLPEHPTFRITALGTIPKEWRTLAADPSVIPLGSIVYIPQFADKPNFGLFVVEDTGLLIKGNIVDVYVNNPKQALQNMREEVDVYLVTSKMR
>NZ_CP007141.1|WP_031505157.1|1128335_1128752_-|Rrf2-family-transcriptional-regulator
MGITVKSEYAFKILLSIGGCGELTSLTKVSQGANVPKEFAEKIVLQLRKAGIVKARRGRKGGYELAKDPSQITAYDIVTAVDELDKIVKCDPDICNCDDRESCVIKNMIWDRLMSCIKETLMSVTLRDLLAACGREDT
>NZ_CP007141.1|WP_031505158.1|1127382_1128339_-|GAF-domain-containing-protein
MRKVVQNIADDFFEILRYDKNRWFEYWKIYRAKNEPLIDEYEKTLNLSEEWIVTLLKNMERRNLDRLMQYWHSISHEQKYHCSKLITAKHELFELSREEFVIVLTGLLGVKDWVAVKGKREWVIMIDLLSLWNNKKLDELAYVAYQAALGFKRGERYGDYVPKEELFARLWNRIEEALAHEELEKTMEQVCRILYENVPHYNWVGFYLTDPSKRDELVLGPFVGEPTEHVRIPFGRGICGQAAERRVTFVVQDVSKETNYLSCSPKVESEIVVPIVVNGEVLGELDIDSHVLNSFDENDRNFLERICEKISQKVRMKG
>NZ_CP007141.1|WP_031505159.1|1126246_1127386_-|type-III-PLP-dependent-enzyme
MTVNELVRKAAKKLETPFLLIDLDIVEENYRKLANAIPDCRIFYAVKANSHPRIIERLRDLGSSFDVASVGEINKLLSLNVTPDRMIFANPIKREKDIAYAYDIGLNLFAADSPMELEKIAENAPGSQVVIRVAVENRHSDWPLSRKFGADPMTAVQLIEQAARLRLKPVGVSFHVGSQNYDPKSWWNAIESVARVFYWAEKLHGINLNVLDIGGGIPVKHVKPIPTVDEIGNIVEQAINEYLGGVKDLQIFAEPGRSMVGDSAILVTRVLLRCQRGSEEWVYIDAGVFHGLMETIENFRYEIVVEGKEDEQKMPFVLAGPTCDSVDKVYDDAMLPYNITLDDIVYFINAGAYTVEYATNFNGIPGPKVYFVQDLASTI
>NZ_CP007141.1|WP_031505160.1|1125869_1126271_+|YjbQ-family-protein
MKSFSLRTKQRIEMIDVTDQVQQIVRESGVKSGVCFVFVPHTTAAITINEGADSSVRLDIIEKLSELVPFRANYHHLEGNSDAHIKASLIGPSVTILIENGKLALGTWQRVFFCEFDGPRARQVFVQIVEAKS
>NZ_CP007141.1|WP_031505161.1|1125586_1125862_+|hypothetical-protein
MWFFGLFSRKKKREKSRDTAYKRLEAILERRRPVSVTEIVPKAEFEENSEKIKEKIVTWVSDTFKVSPERVKVEFEEHNGYIVIITNVMFE
>NZ_CP007141.1|WP_081708837.1|1140342_1142580_-|CRISPR-associated-helicase/endonuclease-Cas3
MLDRLKSHPDRLLLDHLIGTAERATKKAELIRWEPFGINKESAVRLVQLCALCHDFGKASNEFQNYILHPGRGHTTHAPLSSLVTYQTLLGNGFESKLAVFGYFAVRYHHGHLPNFGFVEENPSELEKQFRSVPPSLIEWFEKETGTNLMNFDVKAICRKVQSQISKLSFFTDFTMKDYILLHTLISILVSSDKEDAALKDMIVEIEPKITLDLVQGYIRNIAKDNPMYSLRQRFHEEIDRSLSRIDSKILSITAPTGLGKTLANIKVALSLAKKDTLIVYALPFINIIDQTMELMYKILDGVDHDATVLLPYHHLADPLFSSREYEQSSIQRVIVECWHTQMVITTFVSLFESLFTNRRIPFFYKLLNSVIILDEVQSIPHKYWEPISRILSELTEFGSVVILSTATRPALLKNATSIVKENYGVDLNRTRIHFHGEVGYEEFFDVVEENVKEALRLGQKLLIILNTIKHSREIFEYVLKRFKFDQLFYLSSNVIPKQRLERLRRMKQIDRGPLICVSTQVIEAGVDISFDKVIRDDAPLDSIIQAAGRCNRHFENRMGEVNVYVVKKSENKRSLASYVYDSMLLGITKEVTSNRQVCEEREFSDLVQEYFQKVDNRGNTDKKNLINSFKTLKFEEISNFHLIEDGAQSVPVYVEYDDFAVQLREELNSIMNKDHGLGKFDKLSSIKRILQKMALYTIDVRMSREELTSALIVENGFVVVTRDNLSHWYNDQTGFQRSSSVLMF
>NZ_CP007141.1|WP_031505537.1|1142564_1143263_-|type-I-B-CRISPR-associated-protein-Cas5
MKVLVFDVFGKYALFRRSYTTTSSTSYSFPPRTAICGLLGAILGIQNDTTESSEHLRTFDDAHFAVKLLNPIKKINIATNYVETKSGQKHARIQIVLELIKNPAYRIYVSEFGKYEELQYCLKNKISVFTPYLGQAQMIANFSYVGSFDAEPVSTPLEVHTVIKVLDGTKIFPQKGQLFIKERMTLNMDNERTPTAFASYWVEKNATPIKLVHYVEQVYRIKELGENICWID
>NZ_CP007141.1|WP_038059905.1|1143259_1144144_-|type-I-B-CRISPR-associated-protein-Cas7/Csh2
MNNRSEILFLYDVKWANPNGDPLDENKPRIDEETERCIVTDVRLKRTIRDEWLSWGETIWVSGEAVSPDKRREELKIEKKEDALKCLDVRLFGAVIPISKQADTSYTGPVQFRPGTSLHAVKVVFQQGTAAFTSQDQAQQRSFREEYLIPYALIAFYGVANETAAKITNATEEDLQKLLKAIWDGTKNLITRSKMEHNPRLLMRVVYKENVKYHIGELDSYLEIQSSVDEKSIRDISEIQLKIDKLLEKLDQSKDLIKRVELKQSDRLTVLKNNAPVKINEVLERMNIEVVNLP
>NZ_CP007141.1|WP_031505535.1|1144133_1145867_-|TIGR02556-family-CRISPR-associated-protein
MLTKVIEIGRLMRQSEYYRNFTKAVKQDKGLALLVSLEPLEYKGVVALETPGPDQAHLLLYTDQLGQVSGKSPTVNLTVSGKSLEKIKEAIEKALRKFRRFFEDEEVLRDFVKLFEKNHLQIVEDLEKQLMTMEEKGTYLTIILIKNGQEMMPAEYEPFKEVFIKRALEKATSTGVQGTCHFCGKSRLVSATVNEVFKFATFDKPGFSPSLKIEGAVKVLPICEECKTDLQNGANIVTRDLTFNFLGRTIWLIPSLMHKNDSILSRVIERVKENSKTLKDFARNEEEIEEALADEDPFVHYDFLFMEINKNQQRIELHLTEVSPTRLRKLVTERKEAAKRIAVENVPEPTLGLLWDLYEKPTSKSEARKDYLQLIRSIFHGESYNLQRFLWYCMRKIRKAVQEIDSKQTRNFHWRTLTYLSFAAVLFLSQIEVFHLRKEGESVVSSEVSEFFQRYPEFFNEPWKKAVFLTGVLAGKVLAVQYAKRQAAPFFNKLKGLKMNMRDVQGLLPEIRNKLEQYKSYGQRTDLIMKVAAEYYLSAGEKNITIDELNFVFTLGLAYSNKEPFKIEVEEVEQNEQ
>NZ_CP007141.1|WP_031505533.1|1145882_1146146_-|CRISPR-associated-endonuclease-Cas2
MYVIVTYDIEQERVGKILKVCRKYLNWVQNSVFEGEITQAKFEKLKLELQENIERSRDSVRFYIISDKTLVTVEVLGQEKGSTSFMY
>NZ_CP007141.1|WP_031505531.1|1146219_1147203_-|type-I-B-CRISPR-associated-endonuclease-Cas1
MAEPIYIFSDGILKRKENTILLETKDGKRHIPVENVSEINIFSEVDLNKRLLEFLTEKQIIVHFFNHFGYYVGSYYPREFLNSGLVILKQAEHYLNSEKRLLLARMFVKGALCNIINTLKKYNDDDQFAERIQSIRNHVENLILCSEVNQLMALEGNAREIYYSCFDRMIKSEHFQFGSRTKRPPENELNALMSFANSLLYTTVLSQIYRTHLDPRIGYLHSTNNRRFTLNLDIAEIFKPVLVDRMILTLVNRKQIKPTDFHQIAGGISMKESAKKLLVQTFEERLQDTIHHAKLKRQVSYRSLIRMEAYKIEKHILEDEEYEPYLG
>NZ_CP007141.1|WP_051368954.1|1147212_1147701_-|CRISPR-associated-protein-Cas4
MTGTVLLSSTVCEREAWLIAHQIEPDQYNPFIEIGRLIHTESYKNNRIREISLPGIKIDMIYEQGEMVVVGEIKKSSKFLKGARVQLLYYLSEIKKRGVQAVGKILIPKEKKQITVVLDEQSSTELNEAIKKAEEIISLPKPPQRRRSSFCSKCGYQEFCWS
>NZ_CP007141.1|WP_051368711.1|1147709_1148492_-|CRISPR-associated-endoribonuclease-Cas6
MRLEIVFRTYTCSIPINYHYQLCSFVYKRLMHVDRDFESFLHEKGYKGFKLFTFSQLFFERSAVRFDSLLIWPAMGRWYISSVSEEFITNFFSSLIQVPQIEIEGTVFPIEQINLLQEPSFEGYAEFFMLSPLVVSVPIERNGKLYHKYLLPSDEQFEQVLNKNLIKKYEAFYGEAIDASITIEPDWDYIKRRNRITKLIDIRGIKIKGAVFPFKVRGDSRLIKLGYEVGFGERNSLGFGMVAPMVSEVPLKKIFEINRG
>NZ_CP007141.1|WP_031505526.1|1148850_1149909_+|sensor-domain-containing-diguanylate-cyclase
MSKFETCVEILQYLGEIASKLLSGQTENVYQDVLEKAMKIVPGAQAGSILVRENDRFVYVAAVGYELEELQKVSFTVEEEEEWVGRDRSYAIVLREDIERFDEALLKSDKRVGILANFGGIKKIKATLIIPVRIKNELALVLNLDNFERSDAFNEDSIVLAKVLANVLGIIFNRLELENQLRVKNQLLEYMSYHDTLTNLPNRRLLEEFAEKMLKLAKRENKPLSILFMDLDKFKPINDTYGHQVGDEVMKLVAARLERFTRSNDMVSRFGGDEFVISAYDCSKQDAKAFAERLIKAMEEPMKIDQLTLQLSASVGIATFPEDGDELTKLIRVADERLYMAKKSGSKIVTQG
>NZ_CP007141.1|WP_038059903.1|1149910_1150930_-|flippase-like-domain-containing-protein
MAKKLSNLTKATLILLASLLIVFLIAGFTDLRATLDAMKRISFEWIFAILLLVLFDWFSETLTVWLFARSYKAKVSLIYLFKNTLVGRFFSAITPFSTGGQPAQIAFLGKRGVEYGQATAMLVSRFLFYQIVVTGASVFGLLRAYSMFAKRISNLALLAFFGFALNGFVLFLLFLFTLNRSLAEKTISKVSKLFVSLRIVKRKELFQQKLLEQTRLFHDCMTQSAKNPLISVLALLMALLEVVAKISVTYFVARSLNITSSYFNVAMTQLVVFLVASFVPTPGATGASEGVYTLFFKFLFGPKTVAALLVWRFFTYYLNIIVGGLTTAHELGWMKNKKS

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Crispr_ID: NZ_CP007141_4

CRISPR_ID

CRISPR_location

CRISPR_type

Repeat_type

Spacer_info

Cas_protein_info

CRISPR-Cas_info

NZ_CP007141_4

1233417-1235361

TypeV

Consensus_repeat	Method
GTTTGATCTGAACTATGTGGGATGTGAAC	PILER-CR
GTTTGATCTGAACTATGTGGGATGTGAAC	CRISPRCasFinder
GTTTGATCTGAACTATGTGGGATGTGAAC	CRT

29 spacers

cas2,cas1,cas4,cas3,cas5,cas7,cas6

The CRISPR arrays of NZ_CP007141_4

>merge|NZ_CP007141|4|1233417-1235361|PILER-CR,CRISPRCasFinder,CRT
GTTTGATCTGAACTATGTGGGATGTGAACTTCCCAAAGCGTAGTAGTTCAGCTCGCCTGAATTAGGTTTGATCTGAACTATGTGGGATGTGAACCGTGAGGCGAGAAAGAGGTTTGGGCACAACATTGCTTGTTTGATCTGAACTATGTGGGATGTGAACACTTATGAAAAGAGGTGGGAAGATGATCTTGTCTACGTTTGATCTGAACTATGTGGGATGTGAACCAGGTTGAAGAACGTAGTACACGTCCGTTGTGTTGCGTTTGATCTGAACTATGTGGGATGTGAACGAGTCAAGGGCGAAGGGAGAGAAAAGTCCACGTAACCACGTTTGATCTGAACTATGTGGGATGTGAACCCGTCCGTTCGGCTGGATTACAAGCACAGACACAAGTTTGATCTGAACTATGTGGGATGTGAACCTGTCATGTCTATAGTCTTCCAAGGTACGTCAGAGACGTTTGATCTGAACTATGTGGGATGTGAACAAAATGATGTACTCAGATCCCGCAACAGGAGCCCAAGGTTTGATCTGAACTATGTGGGATGTGAACTAATGGGATTGATCGTCAACGGGGTGGACTTAAAAAGTTTGATCTGAACTATGTGGGATGTGAACAAACAGGTCAACATCTCTGTCAAGGTTGAAGAAGTGAGTTTGATCTGAACTATGTGGGATGTGAACTTAGATCAAGTCATCGAGGGTGTGACAGGATACCAGGTTTGATCTGAACTATGTGGGATGTGAACCTGTGTTCACTACTTGCTCTTTGGTCAACAGCTTTGGTTTGATCTGAACTATGTGGGATGTGAACCTGGGAGTGCCCTTCCAGCTTACGAAAGGTGTATTAGGGTTTGATCTGAACTATGTGGGATGTGAACAGCGCGGTGGCGACAATCACGGAAGAGACCGCGAACAGTTTGATCTGAACTATGTGGGATGTGAACGTCCGTCCATCTATCAGGAGCGCGGTTCTTGAGGAAGAGTTTGATCTGAACTATGTGGGATGTGAACCTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGGGTTTGATCTGAACTATGTGGGATGTGAACACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAGGTTTGATCTGAACTATGTGGGATGTGAACCTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGGGTTTGATCTGAACTATGTGGGATGTGAACACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAGGTTTGATCTGAACTATGTGGGATGTGAACCATAAAGAACGTTGACGGGCTCTTGCTGGTGGTAATTCAGTTTGATCTGAACTATGTGGGATGTGAACCAATCTTTTCGATGATTCCATACTTTTGCTGTGCGGTTGGTTTGATCTGAACTATGTGGGATGTGAACGCAGTGTGTATGTGCTTTTGATTGACAAGCGTGATTATAAGGTTTGATCTGAACTATGTGGGATGTGAACCTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTTGTTTGATCTGAACTATGTGGGATGTGAACCTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTTGTTTGATCTGAACTATGTGGGATGTGAACACTTTCAGAAAGTAATCTTCCGTTGCGTTTGTCAGGTGTTTGATCTGAACTATGTGGGATGTGAACTTGAGTGTGTTTAGAACATGTTTATTGGTATCAGAGTTTGATCTGAACTATGTGGGATGTGAACACAGGCAAGAGCTAATTGCCAGCGCCAGACATGACCATGTTTGATCTGAACTATGTGGGATGTGAACTCGGTCTGATTTACAAAATCAAGGTACAGCCTTTTCGTTTGATCTTAACTATGTGGGATGTGAACTTGGCAACATAACGAGCCATCTGATCTTGTCTCAATCGCGTTTGATCTGAACTATGTGGTATGTAACC

>NZ_CP007141|4|5|1233417-1235293|PILER-CR
GTTTGATCTGAACTATGTGGGATGTGAAC	TTCCCAAAGCGTAGTAGTTCAGCTCGCCTGAATTAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CGTGAGGCGAGAAAGAGGTTTGGGCACAACATTGCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	ACTTATGAAAAGAGGTGGGAAGATGATCTTGTCTAC
GTTTGATCTGAACTATGTGGGATGTGAAC	CAGGTTGAAGAACGTAGTACACGTCCGTTGTGTTGC
GTTTGATCTGAACTATGTGGGATGTGAAC	GAGTCAAGGGCGAAGGGAGAGAAAAGTCCACGTAACCAC
GTTTGATCTGAACTATGTGGGATGTGAAC	CCGTCCGTTCGGCTGGATTACAAGCACAGACACAA
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGTCATGTCTATAGTCTTCCAAGGTACGTCAGAGAC
GTTTGATCTGAACTATGTGGGATGTGAAC	AAAATGATGTACTCAGATCCCGCAACAGGAGCCCAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	TAATGGGATTGATCGTCAACGGGGTGGACTTAAAAA
GTTTGATCTGAACTATGTGGGATGTGAAC	AAACAGGTCAACATCTCTGTCAAGGTTGAAGAAGTGA
GTTTGATCTGAACTATGTGGGATGTGAAC	TTAGATCAAGTCATCGAGGGTGTGACAGGATACCAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGTGTTCACTACTTGCTCTTTGGTCAACAGCTTTG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGGGAGTGCCCTTCCAGCTTACGAAAGGTGTATTAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	AGCGCGGTGGCGACAATCACGGAAGAGACCGCGAACA
GTTTGATCTGAACTATGTGGGATGTGAAC	GTCCGTCCATCTATCAGGAGCGCGGTTCTTGAGGAAGA
GTTTGATCTGAACTATGTGGGATGTGAAC	CTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CATAAAGAACGTTGACGGGCTCTTGCTGGTGGTAATTCA
GTTTGATCTGAACTATGTGGGATGTGAAC	CAATCTTTTCGATGATTCCATACTTTTGCTGTGCGGTTG
GTTTGATCTGAACTATGTGGGATGTGAAC	GCAGTGTGTATGTGCTTTTGATTGACAAGCGTGATTATAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	CTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	ACTTTCAGAAAGTAATCTTCCGTTGCGTTTGTCAGGT
GTTTGATCTGAACTATGTGGGATGTGAAC	TTGAGTGTGTTTAGAACATGTTTATTGGTATCAGA
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGGCAAGAGCTAATTGCCAGCGCCAGACATGACCAT
GTTTGATCTGAACTATGTGGGATGTGAAC	TCGGTCTGATTTACAAAATCAAGGTACAGCCTTTTC
GTTTGATCTTAACTATGTGGGATGTGAAC

>NZ_CP007141|4|4|1233417-1235361|CRISPRCasFinder
GTTTGATCTGAACTATGTGGGATGTGAAC	TTCCCAAAGCGTAGTAGTTCAGCTCGCCTGAATTAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CGTGAGGCGAGAAAGAGGTTTGGGCACAACATTGCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	ACTTATGAAAAGAGGTGGGAAGATGATCTTGTCTAC
GTTTGATCTGAACTATGTGGGATGTGAAC	CAGGTTGAAGAACGTAGTACACGTCCGTTGTGTTGC
GTTTGATCTGAACTATGTGGGATGTGAAC	GAGTCAAGGGCGAAGGGAGAGAAAAGTCCACGTAACCAC
GTTTGATCTGAACTATGTGGGATGTGAAC	CCGTCCGTTCGGCTGGATTACAAGCACAGACACAA
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGTCATGTCTATAGTCTTCCAAGGTACGTCAGAGAC
GTTTGATCTGAACTATGTGGGATGTGAAC	AAAATGATGTACTCAGATCCCGCAACAGGAGCCCAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	TAATGGGATTGATCGTCAACGGGGTGGACTTAAAAA
GTTTGATCTGAACTATGTGGGATGTGAAC	AAACAGGTCAACATCTCTGTCAAGGTTGAAGAAGTGA
GTTTGATCTGAACTATGTGGGATGTGAAC	TTAGATCAAGTCATCGAGGGTGTGACAGGATACCAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGTGTTCACTACTTGCTCTTTGGTCAACAGCTTTG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGGGAGTGCCCTTCCAGCTTACGAAAGGTGTATTAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	AGCGCGGTGGCGACAATCACGGAAGAGACCGCGAACA
GTTTGATCTGAACTATGTGGGATGTGAAC	GTCCGTCCATCTATCAGGAGCGCGGTTCTTGAGGAAGA
GTTTGATCTGAACTATGTGGGATGTGAAC	CTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CATAAAGAACGTTGACGGGCTCTTGCTGGTGGTAATTCA
GTTTGATCTGAACTATGTGGGATGTGAAC	CAATCTTTTCGATGATTCCATACTTTTGCTGTGCGGTTG
GTTTGATCTGAACTATGTGGGATGTGAAC	GCAGTGTGTATGTGCTTTTGATTGACAAGCGTGATTATAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	CTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	ACTTTCAGAAAGTAATCTTCCGTTGCGTTTGTCAGGT
GTTTGATCTGAACTATGTGGGATGTGAAC	TTGAGTGTGTTTAGAACATGTTTATTGGTATCAGA
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGGCAAGAGCTAATTGCCAGCGCCAGACATGACCAT
GTTTGATCTGAACTATGTGGGATGTGAAC	TCGGTCTGATTTACAAAATCAAGGTACAGCCTTTTC
GTTTGATCTTAACTATGTGGGATGTGAAC	TTGGCAACATAACGAGCCATCTGATCTTGTCTCAATCGC
GTTTGATCTGAACTATGTGGTATGTAACC

>NZ_CP007141|4|4|1233417-1235361|CRT
GTTTGATCTGAACTATGTGGGATGTGAAC	TTCCCAAAGCGTAGTAGTTCAGCTCGCCTGAATTAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CGTGAGGCGAGAAAGAGGTTTGGGCACAACATTGCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	ACTTATGAAAAGAGGTGGGAAGATGATCTTGTCTAC
GTTTGATCTGAACTATGTGGGATGTGAAC	CAGGTTGAAGAACGTAGTACACGTCCGTTGTGTTGC
GTTTGATCTGAACTATGTGGGATGTGAAC	GAGTCAAGGGCGAAGGGAGAGAAAAGTCCACGTAACCAC
GTTTGATCTGAACTATGTGGGATGTGAAC	CCGTCCGTTCGGCTGGATTACAAGCACAGACACAA
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGTCATGTCTATAGTCTTCCAAGGTACGTCAGAGAC
GTTTGATCTGAACTATGTGGGATGTGAAC	AAAATGATGTACTCAGATCCCGCAACAGGAGCCCAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	TAATGGGATTGATCGTCAACGGGGTGGACTTAAAAA
GTTTGATCTGAACTATGTGGGATGTGAAC	AAACAGGTCAACATCTCTGTCAAGGTTGAAGAAGTGA
GTTTGATCTGAACTATGTGGGATGTGAAC	TTAGATCAAGTCATCGAGGGTGTGACAGGATACCAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGTGTTCACTACTTGCTCTTTGGTCAACAGCTTTG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTGGGAGTGCCCTTCCAGCTTACGAAAGGTGTATTAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	AGCGCGGTGGCGACAATCACGGAAGAGACCGCGAACA
GTTTGATCTGAACTATGTGGGATGTGAAC	GTCCGTCCATCTATCAGGAGCGCGGTTCTTGAGGAAGA
GTTTGATCTGAACTATGTGGGATGTGAAC	CTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTATAAGCTCCGCTCGTACCGCCTGTAACCGAAGG
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGCCGGGCGAAATCATCGAAATACCCGTCGAAAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CATAAAGAACGTTGACGGGCTCTTGCTGGTGGTAATTCA
GTTTGATCTGAACTATGTGGGATGTGAAC	CAATCTTTTCGATGATTCCATACTTTTGCTGTGCGGTTG
GTTTGATCTGAACTATGTGGGATGTGAAC	GCAGTGTGTATGTGCTTTTGATTGACAAGCGTGATTATAAG
GTTTGATCTGAACTATGTGGGATGTGAAC	CTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	CTTGGATACGTTTGTCTGAAACGCATCTTCAGATTCTT
GTTTGATCTGAACTATGTGGGATGTGAAC	ACTTTCAGAAAGTAATCTTCCGTTGCGTTTGTCAGGT
GTTTGATCTGAACTATGTGGGATGTGAAC	TTGAGTGTGTTTAGAACATGTTTATTGGTATCAGA
GTTTGATCTGAACTATGTGGGATGTGAAC	ACAGGCAAGAGCTAATTGCCAGCGCCAGACATGACCAT
GTTTGATCTGAACTATGTGGGATGTGAAC	TCGGTCTGATTTACAAAATCAAGGTACAGCCTTTTC
GTTTGATCTTAACTATGTGGGATGTGAAC	TTGGCAACATAACGAGCCATCTGATCTTGTCTCAATCGC
GTTTGATCTGAACTATGTGGTATGTAACC

Protein	Signature genes	Signature genes Name	Protein_function
NZ_CP007141.1\|WP_031505404.1\|1238217_1239870_+\|FAD-dependent-oxidoreductase	unknown	unknown	gnl\|CDD\|273584
NZ_CP007141.1\|WP_031505401.1\|1243130_1243847_+\|GntR-family-transcriptional-regulator	unknown	unknown	gnl\|CDD\|225099
NZ_CP007141.1\|WP_031505418.1\|1226933_1228088_+\|type-I-B-CRISPR-associated-protein-Cas7/Cst2/DevR	cas7	pfam01905_cas7_CAS-I	gnl\|CDD\|376656
NZ_CP007141.1\|WP_031505394.1\|1246173_1246488_+\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_031505409.1\|1232936_1233203_+\|CRISPR-associated-endonuclease-Cas2	cas2	cd09725_cas2_CAS-I:CAS-II:CAS-III:CAS-V	gnl\|CDD\|187856
NZ_CP007141.1\|WP_031505403.1\|1239844_1241401_+\|FGGY-family-carbohydrate-kinase	unknown	unknown	gnl\|CDD\|212662
NZ_CP007141.1\|WP_144316857.1\|1245994_1246144_+\|ATP-binding-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_051368725.1\|1236515_1238225_+\|NAD(P)/FAD-dependent-oxidoreductase	unknown	unknown	gnl\|CDD\|223652
NZ_CP007141.1\|WP_031505402.1\|1241411_1243115_+\|FAD-binding-oxidoreductase	unknown	unknown	gnl\|CDD\|223354
NZ_CP007141.1\|WP_031505399.1\|1243865_1244456_+\|ThuA-domain-containing-protein	unknown	unknown	gnl\|CDD\|377643
NZ_CP007141.1\|WP_031505414.1\|1231434_1231947_+\|CRISPR-associated-protein-Cas4	cas4	pfam01930_cas4_CAS-I	gnl\|CDD\|366863
NZ_CP007141.1\|WP_031505397.1\|1244474_1245533_+\|DUF2961-domain-containing-protein	unknown	unknown	gnl\|CDD\|378582
NZ_CP007141.1\|WP_031505411.1\|1231953_1232937_+\|type-I-B-CRISPR-associated-endonuclease-Cas1	cas1	cd09722_cas1_CAS-I-B	gnl\|CDD\|274695
NZ_CP007141.1\|WP_157724359.1\|1223461_1224034_-\|restriction-endonuclease-subunit-S	unknown	unknown	gnl\|CDD\|341198
NZ_CP007141.1\|WP_051368724.1\|1228910_1231415_+\|CRISPR-associated-helicase/endonuclease-Cas3	cas3	COG1203_cas3_CAS-I	gnl\|CDD\|273707
NZ_CP007141.1\|WP_031505424.1\|1224427_1225246_+\|CRISPR-associated-endoribonuclease-Cas6	cas6	cd09652_cas6_CAS-I:CAS-III	gnl\|CDD\|187783
NZ_CP007141.1\|WP_031505416.1\|1228105_1228909_+\|type-I-B-CRISPR-associated-protein-Cas5	cas5	cd09658_cas5_CAS-I-B	gnl\|CDD\|273860
NZ_CP007141.1\|WP_031505408.1\|1235961_1236219_+\|hypothetical-protein	unknown	unknown	unknown
NZ_CP007141.1\|WP_031505422.1\|1225247_1226399_+\|type-I-B-CRISPR-associated-protein-Cas8b1/Cst1	unknown	unknown	gnl\|CDD\|187884
NZ_CP007141.1\|WP_051368723.1\|1226395_1226950_+\|hypothetical-protein	unknown	unknown	unknown

Protein	Function_ID	Function_description	E-value
NZ_CP007141.1\|WP_031505404.1\|1238217_1239870_+\|FAD-dependent-oxidoreductase	gnl\|CDD\|273584	TIGR01372, sarcosine_oxidase_alpha_subunit, sarcosine oxidase, alpha subunit family, heterotetrameric form. This model describes the alpha subunit of a family of known and putative heterotetrameric sarcosine oxidases. Five operons of such oxidases are found in Mesorhizobium loti and three in Agrobacterium tumefaciens, a high enough copy number to suggest that not all members are share the same function. The model is designated as subfamily rather than equivalog for this reason.Sarcosine oxidase catalyzes the oxidative demethylation of sarcosine to glycine. The reaction converts tetrahydrofolate to 5,10-methylene-tetrahydrofolate. The enzyme is known in monomeric and heterotetrameric (alpha,beta,gamma,delta) forms [Energy metabolism, Amino acids and amines].	2.23252e-27
NZ_CP007141.1\|WP_031505401.1\|1243130_1243847_+\|GntR-family-transcriptional-regulator	gnl\|CDD\|225099	COG2188, PhnF, Transcriptional regulators [Transcription].	8.09496e-46
NZ_CP007141.1\|WP_031505418.1\|1226933_1228088_+\|type-I-B-CRISPR-associated-protein-Cas7/Cst2/DevR	gnl\|CDD\|376656	pfam01905, DevR, CRISPR-associated negative auto-regulator DevR/Csa2. This group of families is one of several protein families that are always found associated with prokaryotic CRISPRs, themselves a family of clustered regularly interspaced short palindromic repeats, DNA repeats found in nearly half of all bacterial and archaeal genomes. These DNA repeat regions have a remarkably regular structure: unique sequences of constant size, called spacers, sit between each pair of repeats. It has been shown that the CRISPRs are virus-derived sequences acquired by the host to enable them to resist viral infection. The Cas proteins from the host use the CRISPRs to mediate an antiviral response. After transcription of the CRISPR, a complex of Cas proteins termed Cascade cleaves a CRISPR RNA precursor in each repeat and retains the cleavage products containing the virus-derived sequence. Assisted by the helicase Cas3, these mature CRISPR RNAs then serve as small guide RNAs that enable Cascade to interfere with virus proliferation. Cas5 contains an endonuclease motif, whose inactivation leads to loss of resistance, even in the presence of phage-derived spacers. This family used to be known as DUF73. DevR appears to be negative auto-regulator within the system.	4.34099e-41
NZ_CP007141.1\|WP_031505409.1\|1232936_1233203_+\|CRISPR-associated-endonuclease-Cas2	gnl\|CDD\|187856	cd09725, Cas2_I_II_III, CRISPR/Cas system-associated protein Cas2. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas2 is present in majority of CRISPR/Cas systems along with Cas1; RNAse specific to U-rich regions; Possesses an RRM/ferredoxin fold.	1.55987e-26
NZ_CP007141.1\|WP_031505403.1\|1239844_1241401_+\|FGGY-family-carbohydrate-kinase	gnl\|CDD\|212662	cd07779, FGGY_ygcE_like, uncharacterized ygcE-like proteins. This subfamily consists of uncharacterized hypothetical bacterial proteins with similarity to Escherichia coli sugar kinase ygcE , whose functional roles are not yet clear. Escherichia coli ygcE is recognized by this model, but is not present in the alignment as it contains a deletion relative to other members of the group. These proteins belong to the FGGY family of carbohydrate kinases, the monomers of which contain two large domains, which are separated by a deep cleft that forms the active site. This model includes both the N-terminal domain, which adopts a ribonuclease H-like fold, and the structurally related C-terminal domain.	0
NZ_CP007141.1\|WP_031505416.1\|1228105_1228909_+\|type-I-B-CRISPR-associated-protein-Cas5	gnl\|CDD\|273860	TIGR01895, conserved_hypothetical_protein, CRISPR-associated protein Cas5, subtype I-B/TNEAP. CRISPR is a term for Clustered Regularly Interspaced Short Palidromic Repeats. A number of protein families appear only in association with these repeats and are designated Cas (CRISPR associated) proteins. This family is represented by TM1800 from Thermotoga maritima. It is related to TIGR01868 (CRISPR-associated protein, CT1976 family).	5.15059e-25
NZ_CP007141.1\|WP_031505402.1\|1241411_1243115_+\|FAD-binding-oxidoreductase	gnl\|CDD\|223354	COG0277, GlcD, FAD/FMN-containing dehydrogenases [Energy production and conversion].	8.22707e-66
NZ_CP007141.1\|WP_031505399.1\|1243865_1244456_+\|ThuA-domain-containing-protein	gnl\|CDD\|377643	pfam06283, ThuA, Trehalose utilisation. This family consists of several bacterial ThuA like proteins. ThuA appears to be involved in utilisation of trehalose. The thuA and thuB genes form part of the trehalose/sucrose transport operon thuEFGKAB, which is located on the pSymB megaplasmid. The thuA and thuB genes are induced in vitro by trehalose but not by sucrose and the extent of its induction depends on the concentration of trehalose available in the medium.	9.41343e-09
NZ_CP007141.1\|WP_031505414.1\|1231434_1231947_+\|CRISPR-associated-protein-Cas4	gnl\|CDD\|366863	pfam01930, Cas_Cas4, Domain of unknown function DUF83. This domain has no known function. The domain contains three conserved cysteines at its C-terminus.	2.13013e-60
NZ_CP007141.1\|WP_031505397.1\|1244474_1245533_+\|DUF2961-domain-containing-protein	gnl\|CDD\|378582	pfam11175, DUF2961, Protein of unknown function (DUF2961). This family of proteins has no known function.	2.01522e-117
NZ_CP007141.1\|WP_031505411.1\|1231953_1232937_+\|type-I-B-CRISPR-associated-endonuclease-Cas1	gnl\|CDD\|274695	TIGR03641, cas1_HMARI, CRISPR-associated endonuclease Cas1, subtype I-B/HMARI/TNEAP. The CRISPR-associated protein Cas1 is virtually universal to CRISPR systems. CRISPR, an acronym for Clustered Regularly Interspaced Short Palindromic Repeats, is prokaryotic immunity system for foreign DNA, mostly from phage. CRISPR systems belong to different subtypes, distinguished by both nature of the repeats, the makeup of the cohort of associated Cas proteins, and by molecular phylogeny within the more universal Cas proteins such as this one. This model is of type EXCEPTION and provides more specific information than the EQUIVALOG model TIGR00287. It describes Cas1 subgroup that includes Cas1 proteins of the related HMARI and TNEAP subtypes of CRISPR/Cas system.	2.20348e-169
NZ_CP007141.1\|WP_157724359.1\|1223461_1224034_-\|restriction-endonuclease-subunit-S	gnl\|CDD\|341198	cd17517, RMtype1_S_EcoKI_StySPI-TRD2-CR2_like, Type I restriction-modification system specificity (S) subunit Target Recognition Domain-ConseRved domain (TRD-CR),similar to Escherichia coli str. K-12 substr. MG1655 S subunit (S.EcoKI) TRD2-CR2, Salmonella enterica subsp. enterica serovar Potsdam S subunit (S.StySPI) TRD2-CR2, and other TRD-CR's. Escherichia coli str. K-12 substr. MG1655 S subunit (S.EcoKI) recognizes 5'... AACNNNNNNGTGC ... 3' and Salmonella enterica subsp. enterica serovar Potsdam S subunit (S.StySPI) recognizes 5'... AACNNNNNNGTRC ... 3'. The restriction-modification (RM) system S subunit consists of two variable target recognition domains (TRD1 and 2) and two conserved regions (CR1 and CR2) which separate the TRDs. The TRDs each bind to different specific sequences in the DNA. For example, S.EcoKI-TRD1 and S.StySPI-TRD1 both recognize AAC/GTT, S.EcoKI-TRD2 recognizes GCAC/GTGC and S.StySPI-TRD2 recognizes GYAC/GTRC. RM systems protect a bacterial cell against invasion of foreign DNA by endonucleolytic cleavage of DNA that lacks a site specific modification. The host genome is protected from cleavage by methylation of specific nucleotides in the target sites. In type I systems, both restriction and modification activities are present in one enzyme complex composed of one DNA specificity (S) subunit (this family), two modification (M) subunits and two restriction (R) subunits. This model contains both TRD1-CR1 and TRD2-CR2.It also includes TRD-CR-like sequence-recognition domains of various type II restriction enzymes and methyltransferases, such as Pseudomonas putida Jo 4-731 Type IIG restriction enzyme/N6-adenine DNA methyltransferase (RM.PpiI), and type I DNA methyltransferases such as Bacillus cereus BDRD-ST24 M subunit of Type I N6-adenine DNA methyltransferase (M.Bce24ORF51270P). RM.PpiI recognizes 5' ... GAACNNNNNCTC ... 3'.	2.61876e-29
NZ_CP007141.1\|WP_051368724.1\|1228910_1231415_+\|CRISPR-associated-helicase/endonuclease-Cas3	gnl\|CDD\|273707	TIGR01587, CRISPR-associated_endonuclease/helicase_Cas3, CRISPR-associated helicase Cas3. This model represents the highly conserved core region of an alignment of Cas3, a protein found in association with CRISPR repeat elements in a broad range of bacteria and archaea. Cas3 appears to be a helicase, with regions found by pfam00270 (DEAD/DEAH box helicase) and pfam00271 (Helicase conserved C-terminal domain). Some but not all members have an N-terminal HD domain region (pfam01966) that is not included within this model.	4.14433e-69
NZ_CP007141.1\|WP_031505424.1\|1224427_1225246_+\|CRISPR-associated-endoribonuclease-Cas6	gnl\|CDD\|187783	cd09652, Cas6-I-III, CRISPR/Cas system-associated RAMP superfamily protein Cas6. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Cas6 is an endoribonuclease that generates crRNAs, predicted subunit of Cascade complex; RAMP superfamily protein; Possesses double RRM/ferredoxin fold.	9.03007e-24
NZ_CP007141.1\|WP_051368725.1\|1236515_1238225_+\|NAD(P)/FAD-dependent-oxidoreductase	gnl\|CDD\|223652	COG0579, COG0579, Predicted dehydrogenase [General function prediction only].	3.62903e-84
NZ_CP007141.1\|WP_031505422.1\|1225247_1226399_+\|type-I-B-CRISPR-associated-protein-Cas8b1/Cst1	gnl\|CDD\|187884	cd09754, Cas8a1_I-A, CRISPR/Cas system-associated protein Cas8a1. CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) and associated Cas proteins comprise a system for heritable host defense by prokaryotic cells against phage and other foreign DNA; Large proteins, some contain Zn-finger domain; signature gene for I-A subtype; also known as CXXC_CXXC family.	0.000382794

>NZ_CP007141.1|WP_031505409.1|1232936_1233203_+|CRISPR-associated-endonuclease-Cas2
MPYYVITYDVSEQRVNKVRKILKKYFVWVQNSVFEGEISLGKLEKCKQELLQVIDQREDSIYIYKVHRLTDLDKQVIGVEKEFTDNFL
>NZ_CP007141.1|WP_031505411.1|1231953_1232937_+|type-I-B-CRISPR-associated-endonuclease-Cas1
MTLRPYYIFSSGRIMRRENTIYVENEKGEKKALPIEEVESLHIFGEVEMNTKFLNFLSQHGKPIHFYNYYGFYSGSFVPRSKNISGELLVKQVEYYLDNEKRLYLAKAFVEGATFHMLRNLRNYDGTEEFVRIISEEQAKSFEAKTVPELMGCEGRAREAYYQAFNTITSGRLAMNKREKRPPKDPINALISFGNSVMYSVVLSEIYKTELNPTISYLHEPRERRFSLSLDISEIFKPLIVDPIIFKLINNSMLKEEDFEDELDFCYLTSSGKKKFLKEFEEKLETTIKHRKLKRSVSYRTLIRLECYKLIRHLLQDEFYKPLKAWW
>NZ_CP007141.1|WP_031505414.1|1231434_1231947_+|CRISPR-associated-protein-Cas4
MFDRTDLQRLKINGVKINYLYVCERKLWLFDRGIQLEENSEKVLLGKLLSEYSYPSETRREVLIDDLIKIDVMGEEEIREIKYSNSLASANRIQILYYLYYLKMLGIERKGIINYPKMRRMEEVSLTPEAEREVEQAIKRVEEVLSSPRPPEVKRKSYCPKCAYYEFCFG
>NZ_CP007141.1|WP_051368724.1|1228910_1231415_+|CRISPR-associated-helicase/endonuclease-Cas3
MNANATEKVKILAKTTDPRAGEVTLSRHVKDVLKVFEALRETLKIEEDLSEAVRIAIFLHDLGKVLPAFQIKQLRNRNYEPWDVVYEIPHSLFSIFLLNVDRLKKKLEEKFKERAEDLFNFLISSIAYHHWREGYEAFLISNKRELVAVCQKLKGEWEEPLLRNLRQELQDFEDYYLDLVGTNNELVEAILNGRKLVKLVVPPYKFDYEPLRKQMKKEWILISGILQRCDHFASWCEMEGFDELGKIEQKVEVNVRENIEKKIGSNAWQFSKINDLTDKNVVLIAPTGYGKTEFAFLWSNSEKLLYTLPLRVAVNQIHDRAEGIFGKDKVGLLHSDADLFLLEKGDEMVDPMKVYELSRQLSYPVIVSTGDQFFPYALRPPGYEKIFATLSHSRLVIDEIQAYDPKACAIIVKLIQWVQKMGGNFLLMTATLPEFVEGELPKEFEKINIYEEKKQDFEKIIKHKVQIEEIENEDSNFDLREKNIDEILRQARKGKRVLVILNTIKLAKKVFERLKSKLRDQGDDCKIFLLHSEFTFGDRRRKEVEILKHFGNPKPKDEKEAKVLVTTQVVEASLDIDADCLFTEICPLDALIQRMGRVIRRYIYANGRVLNKSDGKEYKLHQEIRLYDGSEPNVFVWVFKEGYQSGRGAVYSKDQIEQTKEIIKEEIRRTAEMSEFRKYEIVNDYYRSLRNSKKYLDEFYKTIEILNAGFMSERKSEAFQIFREIYSIPVIPESLEKHFVREIKKYSQKDSLSYSDFKLKVLSHFVVNVDARKYITKKAISLRPTKDLVYEANIEAEKGSRIERWLDGIYLCSGEYDPEEGFTPRETREAHIVD
>NZ_CP007141.1|WP_031505416.1|1228105_1228909_+|type-I-B-CRISPR-associated-protein-Cas5
MDKLRVLKIKIYQPQAHFRIPFTYKRRLTYPIPPYSTVLGLIANMLGVKNVPGQEEPCVRESCECVYHKYKELKISICGKFKVKTTEYVWLRSLEKGWHTKRFGSTTNRCVGGHVEHIGGQMPCYVDVLNDVEILIHLYHRDRDFLELIEKNFLEPKNRTSTLHLGRAEDILVVNKIGFEELEFKPINGQFDYFFWVPQKMFGSSENVFDSIQGLTYDLPTFYRIRNGAREFDYVRVKLNDGDFGGIKAHYDNIEDVPVFLADPRGG
>NZ_CP007141.1|WP_031505418.1|1226933_1228088_+|type-I-B-CRISPR-associated-protein-Cas7/Cst2/DevR
MNSQNDRKLKHVTVTILFEGFALNRDEKIGGNIQSIKKLKQADRTVSFISKPAMRHYLFETLFKAYGWKPSAVSLKGREEENKVVQFDLCKDNILTSPELDAFGYMYTISNEHAITRKSPVGITKAIGLDPYDGDMAFYANHDLVRRAIEQGQDAQPNHYKPNLYNKEEHLSIYKASFTIDVDVLGKDEWIVRQEPTFVDNKLEIVLKEEEKTQKKQKEGRTQETIKVTIDNLRKKNNGENEYEYAIGDKTIGTIRIQNKKVIFELDEKKKKERIRQILEAIKDGLYAQSSGEANTIVPLFMIAAAVKIPSPIFHPFIDVERSADGKLSVIGVKDCLENSWIERCNNKAYVFLKSCERLRVKDFESVEGAIITDWNKFLQMLNL
>NZ_CP007141.1|WP_051368723.1|1226395_1226950_+|hypothetical-protein
MSDVLDLEPVKKELKRGDIKLETVKDAVKKYKDMGFELLKLLEYASKIAKGDERKEIERLYKEFAHKSLSDLCESLRRKARRLRENSKDGVYQRFFKDGSPTGTTFRLLELTRMGKRDEVFHLILREFLSSGEEVPYELMKAFDPIFPIEVFKVFIYSFVGGLSKPAEKPTTSGQGGDQDEQSE
>NZ_CP007141.1|WP_031505422.1|1225247_1226399_+|type-I-B-CRISPR-associated-protein-Cas8b1/Cst1
MEYIELRPKNWFYNLSVTGFLEVLADQNSEEIEKLIRDDGTVLIDRKIFAKHRELDIPEALVRYVNYLVKGENLDEWLEEKKKNDQKTNKEKYKKYHDMFGEFGYKLARSFNKLFRSNTPYQNLVQENEWSHFIELVKNLEKISEKKDTEKCEICGGKWYLDLDKATEFTRRLFRFASAHSSEFGSSVGDFPNAFWNNNSSLLVCPLCVYLIIHSHVAWTRLSDSTSIFINAPSFKVMWHLNKYAKELYGAGKVEGVKELFGMSLIELALKLNLQLGKWTMMNIEVVIKYKDKKGKDKVEFFSIPHEITMLLLDKSVASLLFDIGRTEVLSWFLDGEFDKILRDGERHFREALKSSDAKTLSYSQKLFELYALVNEKRKGGAL
>NZ_CP007141.1|WP_031505424.1|1224427_1225246_+|CRISPR-associated-endoribonuclease-Cas6
MRVRFDFRVDKLPILYRHRIMSLIKEAIQISDPEYKAILYPEGFKRTKPFTFSVYIPPGFKTTKEKFLLDDGLALEETVFLLEREISLFVSSWAPEFIVNLYNGLLKLRKFPLFEFLSESGERQTHHIHLVRAVVLNERKITAEEVPFKTMSPISLEDGNDEPIEILKNDRVDQEELKRFVHHLNVVQDKRFKDLRGYGLKKPLEFVPNKIIRKVVKHALKGFRDETKKPYMFLTTYHGEFVLKGDMEDLRLTYQVGLGLRTGQGFGMLEVV
>NZ_CP007141.1|WP_157724359.1|1223461_1224034_-|restriction-endonuclease-subunit-S
MCDYKSGVWAQADPEGIPVLRSTDFLPDGSLSYGTAIRLALNEKQLRKSILQPGGILLERSGGGPNKPVGRVAYFQGQGTYCFGNFITCLRVSRADVEPKFLFYYLFHFHISGRTEPLQTQTTNIRNLRFNEYLAITIPLPPLEEQKRIVAHLQEVQEKIKALKEAQDQTEEKLKRLEQAILNKAFRGEL
>NZ_CP007141.1|WP_031505408.1|1235961_1236219_+|hypothetical-protein
MNISKLSEPVQGLDLTMLVREIARSLEKSDFETLSAGERDSQKYRATSFETLSMQEVMAGRAEFTIFEVPKRGFYTILSTTQNES
>NZ_CP007141.1|WP_051368725.1|1236515_1238225_+|NAD(P)/FAD-dependent-oxidoreductase
MREIERRLFKKFSVPIQCEERNGALFLYGKVKSWDQVVKIGKFATKFGFRGVVNKIECEDAEPSTPKAPTFRDMNLHGRKVDVLIIGAGVIGCAIARELTKWKLDILVVDKEADVAMHQSSHNAGMMHPPIAPHPKSKKACYNRKGLDMIETLSRELDFPFQRNGMAMLFPSEWFTLLLPFVKMREVQNDVKDTQFLSASKFLKIEPNVKKNFSWAYVIWEAGVVDPFQMTLAFAENAVQNGAKFSFNTFVEDFVVKDDRIEAVVTNRGTIFPRIVVNAAGVWADHIAALANDEFFTIHPRKGEMAIIDKKKSNLSRLTLSKVSLKQLGSVTKGGGLIPTVHGNLLLGPTAVEVPDREDYSTTQEGLDELFNKHAGLVEGLSKKDVINYFAGTRAATYEEDFIVESSQKIQNLIHAAGIQSPGLTSAPAIAVDVAAMCIEKLQKEIKIAPNEKFCPVRKKDPDFKKLSLEEKQRIIEKNPNYGVVICRCETVTKGEVLQALHGNVPATTLDGIKWRTRSGMGRCQGGFCTPFLVELMREVGIDPLTMTKKGPGSELFVAKTRLGGDEHV
>NZ_CP007141.1|WP_031505404.1|1238217_1239870_+|FAD-dependent-oxidoreductase
MYDVAVIGAGPAGLAAAISASKNGSSVVIIEREPELGGILKQCIHDGFGIIHFRKRLTGPEYAEIFIEELLKTDVHVLTSTFLLDVRREQGFFTLTLQNEKGIFSIRSKTIVLATGCRERTSRQVFIHGERPAGIMTAGAAQRFVNMMGLLPFRRCVVLGSGDIGLIMARRLTIEGAKVIGVYEIKFEPAGLLRNVSQCLHDFNIPLYLSHTVSKVFGKNRVEKVEVVRVDQNLSFVAGSERTIECDGLLLAVGLLPENELAERLSLQIDQVTNGPFVDQYFMGTVEGVFSCGNSLHVHDLVDYVTWTGFEAGKWASEYAKGKLKVQKRVPLKFDSSLQYCVPQMLSFPLTGKVRIYFRAKTKLVNAQIAVSQAGQELVSKKFKILRPQQIEFIDVTPRFEDEPLEMSLKHVSSLDEREQPFKSLVCIVCPKGCEIELYGDASNPIFRGYSCEKGLEFAKQDIINPRRVLCTTVLTKDARLLPVRTDREIPLESFEKVMNRVKSIVVKKTVRRGEVIVENIENTNANLVATATLYNLSGGRTNVEARLER
>NZ_CP007141.1|WP_031505403.1|1239844_1241401_+|FGGY-family-carbohydrate-kinase
MSKLVLSVDCGTQSLKALAFDETGNLVDMCKAEYPQTYVSPKPGWAEQDLQVYESALSKACKTLFENGKVKPEEILAISVTSQRDTCVFLAKDGRPLKRAILWLDQRMAQYDAKLPLHFKIGFKIVGMEKAAMISSKKCKANWVRQNEPEIWKETHKFLLLSGWFNYLLTGKFVDSIASQIGHIPFNYKKQTWADPKRDFHPYLFPIDRNKLPELVAPGTIVGGLTSQASKLTGLKEGTPVIASGSDKGCETLGAGCIEESMACASLGTTTTLQITSEKYLEPIKFMPSYPAVIPGKFNPEVEIFRGFWMVTWFKEQFASVEAQIARERNVSTEEVLEELLLQTEPGSFGLVLQPYWGAGLKQPEARGAIVGFGDVHNRAYLYRSIIEGLAYALRDAAEKIEKVSKTAIEKIVATGGGSRSNMVCQILSDVLNRKVLRTHVYEAAGLGSAIVSFCGLGFYKSFEEAVGKMVRYVHECDPNPERTSLYQKLYRSVYKRLYPRLRPLYRAMQRITNYPEM
>NZ_CP007141.1|WP_031505402.1|1241411_1243115_+|FAD-binding-oxidoreductase
MSCPKWIEQVAPEKSYRSIFRWGDPSYFKHPNERLCKLMRQVFELTEEDLKSPKNTGFEIVDVEVPIRLEAKHIEAFQKIVGPENVALDAYSRIKASYGKTQYDVLRLRHKIVENLPDLVIYPRDKKDVVEIVRYCNQHKIPIYPRGGGSGVTRGTECVCGGVSLDLTRHMNRILKLNETNCTVTVEPGIYGPALEEKLNNAPKYFGAKHRYTCGHLPQSFEYSTVGGWVVTRGAGQNSTYYGKIEDLVVCQEYVTPVGEIKTKEYPRAAIGPSIDQIMIGSEGTFGVLVSVTLKIFRYMPQNDQYFSFVFKDFHSAIEACREIMQSNFGFPAVMRLSDPEETDVAFKLYGVEGTVIDKFVTAMGYRPMERCLLLGIAQGEEHFAKNVKRNIKKIAKAHGALYTTGYVAKAWEKGRFTDPYLRDDLNDFGILIDTLECAMAWDQLEYVWKTVREVCKARPKTIVMSHCSHFYPQGTNLYFIFIGKFESIEEFVDYQAKIVDKIVESGASLSHHHGVGRLFAPWFERCIGKNQLEVIRALKRHFDPNNIMNPGGTLALDLSDGEHMVK
>NZ_CP007141.1|WP_031505401.1|1243130_1243847_+|GntR-family-transcriptional-regulator
MLDKSSAVPLYAQLAEKLKEKILRGEWKDGEKIPPEFELMEKYGVSRATVRAAIDTLVAEGFLVKRHGIGTFVRKFRPTFSFEPLISLNYALETFGFVSKNVVLKKGYLKVDENLSCDARWKAVQECFLVKRLRYVDEFPIVVEESYFHPEIAKAIENEDLTKSLAKVFFESLKHIEIARIEQIIEPCTQKEAEDHVQGLIDTDTFLKMSRWIYVKDHTEPVYYLLLFMRADLSRLRG
>NZ_CP007141.1|WP_031505399.1|1243865_1244456_+|ThuA-domain-containing-protein
MKLFSFLGDRYHDKKAFFDVLSEALKKQFGSFQVEEGQNLEEALRENPNSIVIAKWGLSESGTFWLDEELVQLLTRWAENGGRLFVWHSGLARYPQSYAELVGGRFIFHPERTSVRYFTEDGFSFEIFDEHYFVELRGNVEVFLWSESIFGRSTAGWKKLLGSGKILALTPAHDEEALKNEKFKQLLEKSLNWLLS
>NZ_CP007141.1|WP_031505397.1|1244474_1245533_+|DUF2961-domain-containing-protein
MVRELYSLNFGLGSLPLLSDAETRSISAENPTGEKGGGAKAVPDENNPAFLLGKGWKVRPCIDLEPQSTTVLADIAGPGIIQHIWITVDTKAYRDTVLRMYWDEEEKPSVEVPLGDFFCNGHGMRYNVVSIPIAVNPSGGFNCYFPMPFRKRALITIENQRWEKITGFFYQITYALTDLPEKIAYFHAQWRRSMTKREHPEHIIVDGIVGQGHYVGTFIAWTQFSSGWWGEGEVKFYIDGDTEYPTICGTGTEDYFGGAWCFGQTFNAPFSGYPLWHKRFGEAPKHAMYRWHIYDPIRFKQNLKVTIQALGWWPNGRFQPLTDDIASVAYWYQVEPHAPFPQLPSAEERWPR
>NZ_CP007141.1|WP_144316857.1|1245994_1246144_+|ATP-binding-protein
MFFSLEPKTRREDLYDRENELDELERAFENGRIVLLTDTRRIGKTSIYS
>NZ_CP007141.1|WP_031505394.1|1246173_1246488_+|hypothetical-protein
MLDKRTIKDHMIVEIQNVFKKSILKRAARSISNIKTPWLEVELKGKEGLQTSLAHVLNEVNSKLEKSRRKLIVAMDEVQNMRLDGSGGLEFLNLIRSWQTFSER

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Self-targeting detection

CRISPR_ID	Spacer_Info	Spacer_region	Spacer_length	Hit_ID	Protospacer_location	Mismatch	Identity

MGE targeting detection<

CRISPR_ID	Spacer_Info	Spacer_region	Spacer_length	Hit_phage_ID	Hit_phage_def	Protospacer_location	Mismatch	Identity
NZ_CP007141_3	3.59\|1138666\|37\|NZ_CP007141\|PILER-CR,CRISPRCasFinder,CRT	1138666-1138702	37	NZ_CP027853	Plesiomonas shigelloides strain MS-17-188 plasmid pPS-MS-17-188-1, complete sequence	288779-288815	8	0.784
NZ_CP007141_4	4.26\|1235098\|35\|NZ_CP007141\|PILER-CR,CRISPRCasFinder,CRT	1235098-1235132	35	MN856030	Myoviridae sp. isolate 303, complete genome	6324-6358	8	0.771
NZ_CP007141_3	3.36\|1137162\|36\|NZ_CP007141\|PILER-CR,CRISPRCasFinder,CRT	1137162-1137197	36	NZ_CP013104	Paraburkholderia caribensis strain MWAP64 plasmid 1, complete sequence	766857-766892	10	0.722

1. spacer 3.59|1138666|37|NZ_CP007141|PILER-CR,CRISPRCasFinder,CRT matches to NZ_CP027853 (Plesiomonas shigelloides strain MS-17-188 plasmid pPS-MS-17-188-1, complete sequence) position: , mismatch: 8, identity: 0.784

tttcaaagcccgcatcaaagcgggcttttcttttgtt	CRISPR spacer
acaaaaagcccgcatcaatgcgggcttttctttttag	Protospacer
 .  ************** ***************

2. spacer 4.26|1235098|35|NZ_CP007141|PILER-CR,CRISPRCasFinder,CRT matches to MN856030 (Myoviridae sp. isolate 303, complete genome) position: , mismatch: 8, identity: 0.771

ttgagtgtgtttagaacatgtttattggtatcaga--	CRISPR spacer
ttcagtgtgttttgaacatgtttatcag--tcaattc	Protospacer
** ********* ************..*  ***.

3. spacer 3.36|1137162|36|NZ_CP007141|PILER-CR,CRISPRCasFinder,CRT matches to NZ_CP013104 (Paraburkholderia caribensis strain MWAP64 plasmid 1, complete sequence) position: , mismatch: 10, identity: 0.722

tcgctccgcttccgatgcgcattcgctcgcgtacgc	CRISPR spacer
ggaggccgcttccgattcgcatacgctcgcgttcat	Protospacer
  .  *********** ***** ********* *..

Prophage detection

Region

Region Position

Protein_number

Hit_taxonomy

Key_proteins

Att_site

Prophage annotation

DBSCAN-SWA_1

1709941 : 1717290

Synechococcus_phage(33.33%)

The bacterium proteins that are colored denote the protein is present at specific phage-related keywords (such as 'capsid', 'head', 'integrase', 'plate', 'tail', 'fiber', 'coat', 'transposase', 'portal', 'terminase', 'protease' or 'lysin' and 'tRNA')

Protein_ID	Protein_Def	Hit_ID	Hit_Def	E-value	Identity
WP_031505117.1\|1709941_1710406_+	5-(carboxyamino)imidazole ribonucleotide mutase	A0A2P0VNU7	Tetraselmis_virus	3.8e-21	42.1
WP_031505118.1\|1710421_1711126_+	phosphoribosylaminoimidazolesuccinocarboxamide synthase	A0A0E3HI61	Synechococcus_phage	7.6e-37	39.6
WP_031505119.1\|1711131_1711386_+	phosphoribosylformylglycinamidine synthase subunit PurS	NA	NA	NA	NA
WP_031505120.1\|1711382_1712087_+	phosphoribosylformylglycinamidine synthase I	NA	NA	NA	NA
WP_031505121.1\|1712073_1714254_+	phosphoribosylformylglycinamidine synthase subunit PurL	A6N228	Microbacterium_phage	2.5e-155	42.8
WP_031505122.1\|1714250_1715636_+	amidophosphoribosyltransferase	A0A0M3SGR2	Mollivirus	1.3e-56	34.5
WP_144316871.1\|1715641_1716655_+	phosphoribosylformylglycinamidine cyclo-ligase	Q58MH8	Prochlorococcus_phage	7.5e-70	43.9
WP_031505124.1\|1716651_1717290_+	phosphoribosylglycinamide formyltransferase	M4QRX9	Synechococcus_phage	3.5e-25	40.0

Anti-CRISPR protein detection

Acr ID	Acr position	Acr size	Homology with known anti	Neighbor HTH/AcRanker	Neighbor Aca	In prophage	Protospacer in prophage

Overview of predicted results

Overview of the results

Cas Category Instructions

Results visualization

1. NZ_CP007141

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CRISPR-Cas detection and classification

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Self-targeting detection

MGE targeting detection<

Prophage detection

Anti-CRISPR protein detection