CRISPRimmunity

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_AP019829	Leptotrichia wadei strain JCM16777	1 crisprs	cas14k,cas3,cas14j,csa3,PD-DExK,WYL,cas2,DEDDh,DinG	0	0	0	1
NZ_AP019830	Leptotrichia wadei strain JCM16777 plasmid pJCM16777-1, complete sequence	0 crisprs	NA	0	0	0	0

1. NZ_AP019829

CRISPR-Cas detection and classification

Crispr_ID: NZ_AP019829_1

• CRISPR_ID: NZ_AP019829_1
• CRISPR_location: 413263-413381
• CRISPR_type: Orphan
• Repeat_type: NA
• Spacer_info: 1 spacers

Consensus repeat of NZ_AP019829_1

Consensus_repeat	Method
AAAGAAAGTGTAATTACAGCAGACAGTGCTGT	CRISPRCasFinder

spacers of NZ_AP019829_1

>1.1|413295|55|NZ_AP019829|CRISPRCasFinder
GTATTTCATCAAGAAAAAACAAATTAATGGAAATGGACATGTTGTTTATAAGAGT

CRISPR arrays and Neighbor proteins around NZ_AP019829_1

CRISPR arrays

The CRISPR arrays of NZ_AP019829_1

>merge|NZ_AP019829|1|413263-413381|CRISPRCasFinder
AAAGAAAGTGTAATTACAGCAGACAGTGCTGTGTATTTCATCAAGAAAAAACAAATTAATGGAAATGGACATGTTGTTTATAAGAGTAAAGAAAGTGTAATTACAGGAGACAGTGCTGT

>NZ_AP019829|1|1|413263-413381|CRISPRCasFinder
AAAGAAAGTGTAATTACAGCAGACAGTGCTGT	GTATTTCATCAAGAAAAAACAAATTAATGGAAATGGACATGTTGTTTATAAGAGT
AAAGAAAGTGTAATTACAGGAGACAGTGCTGT

Neighbor Proteins Overview

Protein	Signature genes	Signature genes Name	Protein_function
NZ_AP019829.2|WP_018499534.1|402550_403963_+|O-antigen-polysaccharide-polymerase-Wzy	unknown	unknown	gnl|CDD|373001
NZ_AP019829.2|WP_146997872.1|418347_418569_-|hypothetical-protein	unknown	unknown	unknown
NZ_AP019829.2|WP_026239116.1|403979_404909_+|hypothetical-protein	unknown	unknown	unknown
NZ_AP019829.2|WP_018499532.1|404930_405404_+|GNAT-family-N-acetyltransferase	unknown	unknown	gnl|CDD|379326
NZ_AP019829.2|WP_018499519.1|420446_421106_+|FHA-domain-containing-protein	unknown	unknown	gnl|CDD|238017
NZ_AP019829.2|WP_018499535.1|401236_402172_+|thioredoxin-disulfide-reductase	unknown	unknown	gnl|CDD|273540
NZ_AP019829.2|WP_018499523.1|417451_418093_+|Holliday-junction-branch-migration-protein-RuvA	unknown	unknown	gnl|CDD|234645
NZ_AP019829.2|WP_018499531.1|405413_406202_+|glycosyl-transferase	unknown	unknown	gnl|CDD|226297
NZ_AP019829.2|WP_018499525.1|415206_416508_+|D-alanyl-D-alanine-carboxypeptidase	unknown	unknown	gnl|CDD|224600
NZ_AP019829.2|WP_018499518.1|421274_423677_+|protein-phosphatase-2C-domain-containing-protein	unknown	unknown	gnl|CDD|223704
NZ_AP019829.2|WP_018499530.1|406303_407077_+|endonuclease/exonuclease/phosphatase-family-protein	unknown	unknown	gnl|CDD|226098
NZ_AP019829.2|WP_018499520.1|419456_420275_+|FHA-domain-containing-protein	unknown	unknown	gnl|CDD|238017
NZ_AP019829.2|WP_018499516.1|425073_425973_+|protein-kinase	unknown	unknown	gnl|CDD|270916
NZ_AP019829.2|WP_018499517.1|423692_425108_+|hypothetical-protein	unknown	unknown	unknown
NZ_AP019829.2|WP_018499527.1|409792_412468_+|DNA-mismatch-repair-protein-MutS	unknown	unknown	gnl|CDD|235444
NZ_AP019829.2|WP_018499528.1|407967_409161_+|CDP-glycerol--glycerophosphate-glycerophosphotransferase	unknown	unknown	gnl|CDD|367953
NZ_AP019829.2|WP_018499521.1|418806_419256_+|DnaJ-domain-containing-protein	unknown	unknown	gnl|CDD|236757
NZ_AP019829.2|WP_018499529.1|407117_407951_+|glycosyltransferase-family-2-protein	unknown	unknown	gnl|CDD|132997
NZ_AP019829.2|WP_018499524.1|416584_417370_+|glutamate-racemase	unknown	unknown	gnl|CDD|234851
NZ_AP019829.2|WP_010137541.1|400709_401021_+|thioredoxin	unknown	unknown	gnl|CDD|200072

HMMScan for Signature genes

rpsblast for functional proteins

Protein	Function_ID	Function_description	E-value
NZ_AP019829.2|WP_018499534.1|402550_403963_+|O-antigen-polysaccharide-polymerase-Wzy	gnl|CDD|373001	pfam14296, O-ag_pol_Wzy, O-antigen polysaccharide polymerase Wzy. This family includes O-antigen polysaccharide polymerases. These enzymes link O-units via a glycosidic linkage to form a long O-antigen. These enzymes vary in specificity and sequence.	6.49404e-27
NZ_AP019829.2|WP_018499519.1|420446_421106_+|FHA-domain-containing-protein	gnl|CDD|238017	cd00060, FHA, Forkhead associated domain (FHA); found in eukaryotic and prokaryotic proteins. Putative nuclear signalling domain. FHA domains may bind phosphothreonine, phosphoserine and sometimes phosphotyrosine. In eukaryotes, many FHA domain-containing proteins localize to the nucleus, where they participate in establishing or maintaining cell cycle checkpoints, DNA repair, or transcriptional regulation. Members of the FHA family include: Dun1, Rad53, Cds1, Mek1, KAPP(kinase-associated protein phosphatase),and Ki-67 (a human nuclear protein related to cell proliferation).	4.27709e-10
NZ_AP019829.2|WP_018499532.1|404930_405404_+|GNAT-family-N-acetyltransferase	gnl|CDD|379326	pfam13673, Acetyltransf_10, Acetyltransferase (GNAT) domain. This family contains proteins with N-acetyltransferase functions such as Elp3-related proteins.	6.15457e-11
NZ_AP019829.2|WP_018499535.1|401236_402172_+|thioredoxin-disulfide-reductase	gnl|CDD|273540	TIGR01292, Thioredoxin_reductase, thioredoxin-disulfide reductase. This model describes thioredoxin-disulfide reductase, a member of the pyridine nucleotide-disulphide oxidoreductases (pfam00070). [Energy metabolism, Electron transport].	1.63676e-141
NZ_AP019829.2|WP_018499523.1|417451_418093_+|Holliday-junction-branch-migration-protein-RuvA	gnl|CDD|234645	PRK00116, ruvA, Holliday junction branch migration protein RuvA.	3.80853e-54
NZ_AP019829.2|WP_018499531.1|405413_406202_+|glycosyl-transferase	gnl|CDD|226297	COG3774, OCH1, Mannosyltransferase OCH1 and related enzymes [Cell envelope biogenesis, outer membrane].	3.07221e-20
NZ_AP019829.2|WP_018499525.1|415206_416508_+|D-alanyl-D-alanine-carboxypeptidase	gnl|CDD|224600	COG1686, DacC, D-alanyl-D-alanine carboxypeptidase [Cell envelope biogenesis, outer membrane].	1.04856e-68
NZ_AP019829.2|WP_018499518.1|421274_423677_+|protein-phosphatase-2C-domain-containing-protein	gnl|CDD|223704	COG0631, PTC1, Serine/threonine protein phosphatase [Signal transduction mechanisms].	2.22791e-21
NZ_AP019829.2|WP_018499530.1|406303_407077_+|endonuclease/exonuclease/phosphatase-family-protein	gnl|CDD|226098	COG3568, ElsH, Metal-dependent hydrolase [General function prediction only].	1.10598e-18
NZ_AP019829.2|WP_018499520.1|419456_420275_+|FHA-domain-containing-protein	gnl|CDD|238017	cd00060, FHA, Forkhead associated domain (FHA); found in eukaryotic and prokaryotic proteins. Putative nuclear signalling domain. FHA domains may bind phosphothreonine, phosphoserine and sometimes phosphotyrosine. In eukaryotes, many FHA domain-containing proteins localize to the nucleus, where they participate in establishing or maintaining cell cycle checkpoints, DNA repair, or transcriptional regulation. Members of the FHA family include: Dun1, Rad53, Cds1, Mek1, KAPP(kinase-associated protein phosphatase),and Ki-67 (a human nuclear protein related to cell proliferation).	0.00018936
NZ_AP019829.2|WP_018499516.1|425073_425973_+|protein-kinase	gnl|CDD|270916	cd14014, STKc_PknB_like, Catalytic domain of bacterial Serine/Threonine kinases, PknB and similar proteins. STKs catalyze the transfer of the gamma-phosphoryl group from ATP to serine/threonine residues on protein substrates. This subfamily includes many bacterial eukaryotic-type STKs including Staphylococcus aureus PknB (also called PrkC or Stk1), Bacillus subtilis PrkC, and Mycobacterium tuberculosis Pkn proteins (PknB, PknD, PknE, PknF, PknL, and PknH), among others. S. aureus PknB is the only eukaryotic-type STK present in this species, although many microorganisms encode for several such proteins. It is important for the survival and pathogenesis of S. aureus as it is involved in the regulation of purine and pyrimidine biosynthesis, cell wall metabolism, autolysis, virulence, and antibiotic resistance. M. tuberculosis PknB is essential for growth and it acts on diverse substrates including proteins involved in peptidoglycan synthesis, cell division, transcription, stress responses, and metabolic regulation. B. subtilis PrkC is located at the inner membrane of endospores and functions to trigger spore germination. Bacterial STKs in this subfamily show varied domain architectures. The well-characterized members such as S. aureus and M. tuberculosis PknB, and B. subtilis PrkC, contain an N-terminal cytosolic kinase domain, a transmembrane (TM) segment, and mutliple C-terminal extracellular PASTA domains. The PknB subfamily is part of a larger superfamily that includes the catalytic domains of other protein STKs, protein tyrosine kinases, RIO kinases, aminoglycoside phosphotransferase, choline kinase, and phosphoinositide 3-kinase.	5.97438e-45
NZ_AP019829.2|WP_018499527.1|409792_412468_+|DNA-mismatch-repair-protein-MutS	gnl|CDD|235444	PRK05399, PRK05399, DNA mismatch repair protein MutS; Provisional.	0
NZ_AP019829.2|WP_018499528.1|407967_409161_+|CDP-glycerol--glycerophosphate-glycerophosphotransferase	gnl|CDD|367953	pfam04464, Glyphos_transf, CDP-Glycerol:Poly(glycerophosphate) glycerophosphotransferase. Wall-associated teichoic acids are a heterogeneous class of phosphate-rich polymers that are covalently linked to the cell wall peptidoglycan of gram-positive bacteria. They consist of a main chain of phosphodiester-linked polyols and/or sugar moieties attached to peptidoglycan via a linkage unit. CDP-glycerol:poly(glycerophosphate) glycerophosphotransferase is responsible for the polymerization of the main chain of the teichoic acid by sequential transfer of glycerol-phosphate units from CDP-glycerol to the linkage unit lipid.	2.25256e-38
NZ_AP019829.2|WP_018499521.1|418806_419256_+|DnaJ-domain-containing-protein	gnl|CDD|236757	PRK10767, PRK10767, chaperone protein DnaJ; Provisional.	4.76493e-32
NZ_AP019829.2|WP_018499529.1|407117_407951_+|glycosyltransferase-family-2-protein	gnl|CDD|132997	cd00761, Glyco_tranf_GTA_type, Glycosyltransferase family A (GT-A) includes diverse families of glycosyl transferases with a common GT-A type structural fold. Glycosyltransferases (GTs) are enzymes that synthesize oligosaccharides, polysaccharides, and glycoconjugates by transferring the sugar moiety from an activated nucleotide-sugar donor to an acceptor molecule, which may be a growing oligosaccharide, a lipid, or a protein. Based on the stereochemistry of the donor and acceptor molecules, GTs are classified as either retaining or inverting enzymes. To date, all GT structures adopt one of two possible folds, termed GT-A fold and GT-B fold. This hierarchy includes diverse families of glycosyl transferases with a common GT-A type structural fold, which has two tightly associated beta/alpha/beta domains that tend to form a continuous central sheet of at least eight beta-strands. The majority of the proteins in this superfamily are Glycosyltransferase family 2 (GT-2) proteins. But it also includes families GT-43, GT-6, GT-8, GT13 and GT-7; which are evolutionarily related to GT-2 and share structure similarities.	2.87266e-20
NZ_AP019829.2|WP_018499524.1|416584_417370_+|glutamate-racemase	gnl|CDD|234851	PRK00865, PRK00865, glutamate racemase; Provisional.	6.41973e-117
NZ_AP019829.2|WP_010137541.1|400709_401021_+|thioredoxin	gnl|CDD|200072	TIGR01068, Thioredoxin-like_protein_slr0233, thioredoxin. Several proteins, such as protein disulfide isomerase, have two or more copies of a domain closely related to thioredoxin. This model is designed to recognize authentic thioredoxin, a small protein that should be hit exactly once by this model. Any protein that hits once with a score greater than the second (per domain) trusted cutoff may be taken as thioredoxin. [Energy metabolism, Electron transport].	2.28065e-43

Protein sequences

>NZ_AP019829.2|WP_018499527.1|409792_412468_+|DNA-mismatch-repair-protein-MutS
MADTPLMKQYKEIKSNFEDSILFFRLGDFYEMFFEDAVKASRELGLTLTSRNKEKNVDVPLAGVPFHSADSYITKLVSKGYKVAICEQTEDPKMAKGIVKREVVKIITPGTVVDVEALDAKSNNYLMSILKIENKLGIAYIDITTGEFKVTEVEKDDDFVKLFNEINKIEPKEVLVTEDFYGEIKEKLDDFLQKNDSVVTFVNKVRDSAKYLMDYFEIVSLESYGIKDKKAIIGAAAMALDYAATMQVEHELTVEKIEFVNISNYAEINAITSRNLELLKNQREKTVYGSLLWVLDECKTSMGTRLLKRFINNPLLNIEKIQKRQEDVQYFIDNILIREDLREKLENIYDLERLLGKIIFGSENGKDLTALKKTIKSAVEIMKILENTDFFKDIDANILFECYKIIDDSINEDAPFSVREGGIIKSGYNAELDEIRNIMNSGKDFLLDIEQREREATGIRNMKIKFNKVFGYFIEITKANLDMVPEHYIRKQTLSNSERYITPELKKYEDTIINSKAKIEDLEYHLFKEISGKLKEHRKILSELAERLAYIDVMVSFAVSAIENDYAKPEMNEEYSFEIEGGRHPVVEKLIGRTDYVSNDTVFTEKESFVVLTGPNMSGKSTYMKQIALISIMAQIGSFVPAKKANLSIIDKYLTRIGASDDILTGQSTFMVEMSEVSNILNNATEKSLIILDEVGRGTSTTDGVSIATAISMYIHDKIGAKTVFATHYHELTDLENKFAHIVNYRIEVDEKQGKVMFLRNIVKGGADKSYGIEVAKLAGLPKEILVESKKVLKRLEQKKELIEKTVDVHQLSLFGGNLEFEDNFDEAEKDFKNVENNQLYEEKLAQIEEEKEKLRKIMNKIEDYDINNITPMDAMKFLFELKENMKKDNK
>NZ_AP019829.2|WP_018499528.1|407967_409161_+|CDP-glycerol--glycerophosphate-glycerophosphotransferase
MDKIKCLINMIIAYLIYPFNKGNFKNRNIWLVGGNAGELFVDNGRAMYEYLRSKQQEEVYWVINRNAKIAKKIPGEKLIKGSVKSYLYFMNAKVALFSHSISADIVPYLFVVPLINKFHKKVFKVFLNHGTVGFKVRQAMNPKTAKVAEALVKSYDLNICDSEFERKVKTETWWEVPKETAVITGYPRYDKLYNLKITEKQIFFMPTWRNWLKSENSENQKFEDTKYFQNISNLITDKKLNDYLEKNNIKLNVYIHQLMQDHLKNFGNIKLGKNIRILPKEVNITEELQKSKLLITDYSSVAYDFYYLNKPIIFFQFDKREYEEKVGSYVDLDKDLFGKQAKTVEKCVEEIIEISENNFHYDKDMKQKSDKLREKFLKYVDKGNCERVYDEILKRIN
>NZ_AP019829.2|WP_018499529.1|407117_407951_+|glycosyltransferase-family-2-protein
MKVSLVMPTINVTTELELFLKSLRTQTYKDFELIVVDQNEGNEAFEIVKDYEEEFKIKYAKSDEKGLSLNRNRGLVLMEGEIVGFPDDDCEYQPDTLEKVVAFFERKKNYRIYSCRTLERGKTYGTGVMEKKDMEITKDNVDKTVKSITFFVNYKKDDIILFDENLGVGATFGSGEETDYVLTLLHKGYKGRYFANDIIFHPAKKGNYSDLDRAYKYALGFGALVKKEVKGRKNRFYILKYWKRQFRSFVGMIVTRNRAYHRVVMKGRKIGYTKYKI
>NZ_AP019829.2|WP_018499530.1|406303_407077_+|endonuclease/exonuclease/phosphatase-family-protein
MSKLKKVLLSLMICGATVSWAKEFKMMTYNIYGARLTNGQKLGESIKPYAPDFVSLQEVDKFTKRSNFRDVTSDIAKVLGYDYYFFKKSRDYDGGEYGISFISKYPLEKIYTYELPSEGEERRQLVVAELSKKTFGKKVLVMNTHLDFKPSIKPEEMESLDLLTKFFDKDDIKFISGDFNFLPSTKYYGQMTKDWRDTYMEANFSGARSLSDPRIDYIFGSQSKKWKVKSSYFINDATQDWTKLSDHLPYITTVDIK
>NZ_AP019829.2|WP_018499531.1|405413_406202_+|glycosyl-transferase
MIEKKIYYVWVGNAKKPDIFYKCLESWKKNLPDFEIIEINEKNFDMETHLAKNRFFRECYERRLWAYVSDYMRVHFMYENSGIYVDTDMEIIKNLTPILEEKDSFFKNPKNEKLKKMDFFIGYEDEKHISVGIFGTSKHNEVLKDIKEFYEKEIWEKPVWTIPKIFTYVFEKKYNLSGKRENLLKDGEIVIFPKEYFYPYGFHEKYTDDCIKPETYGIHWWNDSWSSLKARLFLEAKHLSGIKKLVKKTRIIARYYLKEKHK
>NZ_AP019829.2|WP_018499532.1|404930_405404_+|GNAT-family-N-acetyltransferase
MEVENIKIINGINDNNKNDIVKWTNEKGKDFLEQWAGKSLDFPLTESQIDDLKDIYSIFCENEFVGIIQKIRKEMNNIHIGRFLINPELTGKGLGKRALIEFINLIFQDEGVNSITLNVFDYNVGAKKLYEKVGFIVVNVVENPMKKYMMIMKKGEK
>NZ_AP019829.2|WP_026239116.1|403979_404909_+|hypothetical-protein
MKLGEKEQVFKVHWVEKLKMVFNLIYIPVLFFYGWRFSLDFSINEIFFKCFLTVLLSIIIFLILSIFVFNKKIEVLENILTYYERGKEVLCVRIEKDNIRILYEKHWSSELKHLSVDYYDVPIYLFGKKNCLKLEKIICKFQLEKKEIENIVFEISKKELFIEKYKDIFKNAIIIIIFIFIVVKYSDNIFLNYFLIIIILGVIILEIISLIRMKICTPKIIKIFNNFISIDDEKYSKYDIKKLMFTSPNTKSGTIDFGYRILKIFGNDEKKFFTLITSKNSEFKNEDYETFYGEIVKFCIVNGIEYELV
>NZ_AP019829.2|WP_018499534.1|402550_403963_+|O-antigen-polysaccharide-polymerase-Wzy
MKRNNFIKEDKIGFLIFHMFVIAFVLFLKSMVTFPNDALKMKFLECLLMGVYIYTFFTAKIYLEWLNSYMIFLYTLFLFNFTRIFLDIVNYKEFGWATKFANFYFYYDVRNEIITVFLLVLLFTHLGFFIGISNEKISEIRSSITLESRRMFTDIGMALFIISLPALAYKMFIQLRVILHAGYEAYYTGILKGVDYPAFTKGSGTVMTIGFLIFLISIPSKRKFLTISSLYLMVKLLDSFKGARAIFLTQLLFIMWYYAKVYGIRIKAKTMVKLVGFTVIFSQILVSIRSKKIFSLDLINTIYNFLFSQGVSYLVLGYTINFKHNIVGHGSYPYILQGLLGFQPQSLETLETTNSLADRLTYYLNSGAYLKGEGIGSNYIAEMYDLGYIWLIIISILLGIAIIKYEKYVVKNRFLLLTSYYFIPNLFYIPRGSFFGEGLIKNMAMLIAVYVLVFSFDYMYRKIEEKKELI
>NZ_AP019829.2|WP_018499535.1|401236_402172_+|thioredoxin-disulfide-reductase
MYDSVIIGSGPAGLTAAIYLSRAGLKNIVINGMEPGGQLTTTTEVENFPGFPQGISGPQLMEDIKSQSQNFGTEFLQAVVKDIKDVENNGKKTFELHLDNGNIVETKTIILSTGASAKYLGIENERENIGKGVSACATCDGFFYRGKEVVVIGGGDTAMEEALFLTKFVNKVTIINRREFLRASAIMQKRAKDNDKIEWKLDYTPKKVLADEKVTGIELINNKTGKTETLATDGIFVAIGRTPNTKFLEGKVEIDDRGYIVTKGKSSKTSTSGIFAAGDVQDSKYQQAIVAAGSGAIAALDVEEYLRENNL
>NZ_AP019829.2|WP_010137541.1|400709_401021_+|thioredoxin
MALNLNKDNFEQSIANGVALVDFWASWCGPCKMQLPIIEEFSGEMEGKATVGKVNVDEELELAQSFGIQSIPTLILFKDGKPVKKLVGLHSKEALYEEVNQVL
>NZ_AP019829.2|WP_018499525.1|415206_416508_+|D-alanyl-D-alanine-carboxypeptidase
MRKKVKIGIKSKKMVLSMAFLAISAFSFADGENYHDYKALLIGDVNGNIIKEDNSLAVRPLASVTKIMTSILTLDKIKTGQISYDDKVTISSKAASVPYGVKLTAGKQYTVRDLLKATIIKSSNNAAYALAEYVGGDVPSFVHSMNEKAKSYGLDSLRYCSPNGLPPSYTGSCMDQGNARDLYKLAQITLKDYSEYLNFSKNKVEYIDNGNTKVTSTNTLLGNVQGVDGLKTGYHDAAGSNIVLTASRGDDRMIAVILGSNHAKDRNAIGAREINDYYINGYAKKNGGNSYAYAGDNSNKNRRNYNNNQNSNRNSNNNGNEFNNNNAENNNAQKGNKIEQFFNSIFGKNNNNNSAKKMKIISKNDIVAVAEIGEKKYNLYPTKDVEITATQRPNLTYTVNLNSGVNKNSRGKIVGTYIATDGTLTYSGELIMK
>NZ_AP019829.2|WP_018499524.1|416584_417370_+|glutamate-racemase
MSIGVFDSGIGGLTVLKEIRKVLPDEKIYYLGDTARVPYGEKTKELIIRYSKEIVEFLLEKNVSAIVVACNTATALALKELKETFKIPIIGVIEAGARTAIEATKSGKIGVIGTKATIQSGKYEEEIKLFNKKVEVLQKACPLFVPAVEEGILSGKLVNQIIKTYLDDFKGKVDTLILGCTHYPLLKDAISKIYPDIKIVDPAKETALDLKEILEQNEFLKNDAKKDEEVKYYVTDGQEKFKEIGIMFLEEDIPKVELVKL
>NZ_AP019829.2|WP_018499523.1|417451_418093_+|Holliday-junction-branch-migration-protein-RuvA
MFEYILGKLAVKKIDYVALEINGLAYKIHISLKTFEKIGNIGNDEKLYIFTNVKEDDISLYGFKTQNERELFKALISISGVGPKLAIAILSTFNMREIIEIVTEDESKIFTRVPGLGIKKAQKIILDLKDKVKKIDISEMLEETSNLSNGKLITSESFDPKISLMKEDLKLALESLGYTNTDISKWIKDSELAQLKDISEAIKIVLQKIQNKK
>NZ_AP019829.2|WP_146997872.1|418347_418569_-|hypothetical-protein
MKNTFKKMVAILGITGISIVSLAMPPKPKNPKPKPMIVQPERKKTNKILEKKRTVNFQEKRNNKKTMVKKHGK
>NZ_AP019829.2|WP_018499521.1|418806_419256_+|DnaJ-domain-containing-protein
MNYYELLGVSENADISEIKKKYRKLAMKYHPDRNSGDENATKKFREVTEAYEVLGDEKKREEYDCKRKNVQSQRRNKNKKENVKDEFSQNDFTFGRDFFKSAKEMKGMFENSFRMDKMGEKRARSEKENIKSRFDQFFDVKKKNNDNFR
>NZ_AP019829.2|WP_018499520.1|419456_420275_+|FHA-domain-containing-protein
MLWGIRRLLSNFRSIFRQPFGRGSIYRLERLKSVVRMKENGENRSEKNGLGVDKGIRKYEKRKLNARSQKAYKFFNVKNILIILILIFTFIFVHFSGYSTKSLYFSIFIYIGVTLYLLILERFFEKVEVQEEIKNIKNDREREHNVFLERVKEIEDLEKNQIEHIFLKDSEDYDMKIWKVGRATSLLIGKQSPRNRVDIDVSEGIYSNLVSRAHGILNRVNGIWYYEDLGSQNGSGIEKSLDKRKMKLKKNIPVKVESGDIIYLATTKILLK
>NZ_AP019829.2|WP_018499519.1|420446_421106_+|FHA-domain-containing-protein
MKLDRCKNGHIYDVSRYSSCPYCKSEGLETEVQDDKINLVEQMEDEDRTTAYWSKDSTVDPVVGWLTCIEGHDKGKDYRIVSERNFIGRGENMDIQILGDTMISRKNHCSISYNPKQRKFMLTPGDSNGLIYLNGEAVYNTVELRAYSVVEMGESKFVFVNLCGDYFDWEKEKARDENVKRKYEKNLDNKKIDENINFVNRNSRNGDLEVKIEDYEENL
>NZ_AP019829.2|WP_018499518.1|421274_423677_+|protein-phosphatase-2C-domain-containing-protein
MRKDEAKFITEFLSEAGTKTENSDYFGYVLLDNYAIWAVADGFDEEEGAKVAARIAVESVIEYFMLCPRFNYDVIKEMMDYANLKVKEKQEEAQKYSLMHTSLLIVISNYNSILYGNVGNTRFYHIRGGYIVSQSKDDTIAQLLVDEEALNVSDIRFHRQRNDLLQAIGDFGKINPNIIRSPVELMEKDIFCLTTVGFWENIDEHDMENDLSRFEDKKQWLNSLEKRILASLRDNIENYTIAQVEVQAVASPEPMEKDRSKIIKKILLIIMIVVVIILFIVIWNVKRRNGILQAATQYEKLADEEILKKNFNNSIDDLKLEIGEYEKLKPKSRGIIGFFTNAEKKRNDADKKIDEINKKIGEIEKIKEAFTDIDEGNELFNNGNYDEANVKYQQAKYNLNDNTYKRDELNTEEILTTLDSRINSAVKLKEAKALEMAGDNAVNEGSFNLAKVSYKNAMDIYLANGKADYVSQIEKKIEEISDKEKTAYNGAMLAENKGDSLAQSNINSSREAYYQARQMYQVLGDTVKVGEVDNKIQELNSQQNADLQTANNLVQEGLSQITANNPAQAISILTQAKNIYQKMKDTNNVNIVGKYINQAQEFIKFESQNVEKLKAQKLEYSEKLKSQETEYSEKLKQQEIQLQQQLQAKEMEIKVQQEQMEQERQKREEISRKIENALNLEMQADQLAIDEKFEESIAKYEETKKILEEVNTDGNFGNQVAKIEGLNKKIEKIEGYLLKKNGEEDLKNKRWKDAVEKLTQAKEKLEKSGTKQNEIAEIEKKLKKAEKKANKKWWQFWKIF
>NZ_AP019829.2|WP_018499517.1|423692_425108_+|hypothetical-protein
MIKNIKLNTFFFKEYAQIAEKNTYSAYIPNGNRGIWCIADFEEKIYVQEDIEINQKIENNDIRSKKIKKNIKRKNLAKIGVYKIIEKYLENSSFSIENMKKMIQSSKDKVIFEKSKLLKIEKDNEKNFDLKNFYSQIVVIIEKNNMIVGNMGKTEFVLYRENRIVEKISGEQFKKIRLKKHDYLLAGSPEFWKVVNESEIEEVYVDKKSKENIEQSLSEQIKLAEKKLGKVIPFLSIFVEDIEVEKNYELLESEVSKKNQKREMTVKYIFLSAMFAFMLVSVGKNIQKGNFENRKNENVKNVMAKKISEKSNLLENNLYVKAEIENNKIEQGNLANVKVEVKKTAENENAVENQNVETGNKEIEKNHAKNLEITQNITKSKEKGDKKLNNSRIKKKVSKNKKYNRKNLNADNRNFKKNYKVKSNGISQLEKEIEQNWEVLGRDRNGNNFVKNREFKRENKNGFFVKGNNIE
>NZ_AP019829.2|WP_018499516.1|425073_425973_+|protein-kinase
MDFLLKGTILNRKYKILNYVAKSDFSNIYMCEDRQGEKVIIKECYPSEIVMRNSKEVFTEKYKKDFENLKECFWKEKCILEKFLKKSKRRKRKFVDDVIKFVDFFSENGTNYIVTEYFCGVTLKKYILENRIKNGKLRINHILEIFFKIAEVVCKIHKKGIIHCDLKPSNILIDIRGNIRIIDFGASLKKKEKVEFVKVSDGYSPIEICSEKVEIDERTDVYSLGALLYFMLCGVKVDGAIKRFYKAELEFGREVILGFEKIEIFKEVEEVIKKGLEFDRQKRFGSVREMIEKLRKIFA

Self-targeting detection

MGE targeting detection<

Prophage detection

Anti-CRISPR protein detection

Acr ID	Acr position	Acr size	Homology with known anti	Neighbor HTH/AcRanker	Neighbor Aca	In prophage	Protospacer in prophage
NZ_AP019829.2|WP_018499340.1|315619_315994_-|hypothetical-protein	315619_315994_-	124 aa aa	84	NA	NA	No	NA

Protein sequences of NZ_AP019829.2|WP_018499340.1|315619_315994_-|hypothetical-protein

>NZ_AP019829.2|WP_018499340.1|315619_315994_-|hypothetical-protein
MERNFKKVTENTGRKEVFKVMHDKVEIINDFNTNEKREARIIFHNQKIYVILYQNLNFEELKWLNFYILIYGNQSYGKNTFFEFKLNKNNLIYHLQVWNIIENKKFKSESISLLLKTLSSKAGV

gnl|BL_ORD_ID|84 information

• hit_Aca_id: gnl|BL_ORD_ID|84
• identity: 0.967741935483871
• query_coverage: 1
• hit_coverage: 1.0