The following contents displays predicted prophage regions
first line of each prophage describes the prophage information and the following lines describe the proteins and homology proteins in uniprot database
bacteria_id bac_def genome_size prophage_start  prophage_end    key_proteins    best_hit_species    CDS_number  attl_region attr_region
>prophage 1
NZ_CP009826	Xylella fastidiosa strain Pr8x, complete genome	2666242	407486	420312	2666242	terminase,protease,portal	Burkholderia_phage(11.11%)	13	NA	NA
WP_031336253.1|407486_407939_-	hypothetical protein	NA	C7BGF7	Burkholderia_phage	47.1	6.0e-11
WP_010893028.1|408053_408485_-	transcriptional regulator	NA	A0A2D1GNH0	Pseudomonas_phage	57.4	3.8e-15
WP_023907299.1|408561_408858_+	transcriptional regulator	NA	D0UIL8	Aggregatibacter_phage	57.1	1.9e-13
WP_023907300.1|408844_409195_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907301.1|409252_409870_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907302.1|409904_410306_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907303.1|410304_411360_+	Zn-finger, CHC2 type	NA	A0A1S5RF89	Helicobacter_phage	41.8	6.7e-13
WP_023907304.1|411356_412823_+	virulence factor	NA	A0A2D1GN57	Marinobacter_phage	31.9	3.3e-58
WP_023907305.1|413219_413828_+	hypothetical protein	NA	A0A2I7S8M0	Vibrio_phage	40.7	6.6e-05
WP_088572679.1|413824_415924_+|terminase	phage terminase large subunit family protein	terminase	A0A1B2LRQ2	Wolbachia_phage	30.2	9.7e-72
WP_157288617.1|416000_416447_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907307.1|416443_418006_+|portal	phage portal protein	portal	K7PHM5	Enterobacterial_phage	39.2	2.4e-91
WP_023907308.1|418002_420312_+|protease	Clp protease ClpP	protease	B7SYD7	Stenotrophomonas_phage	42.8	6.1e-83
>prophage 2
NZ_CP009826	Xylella fastidiosa strain Pr8x, complete genome	2666242	994316	1007807	2666242	terminase,portal	Pseudomonas_phage(22.22%)	17	NA	NA
WP_023907540.1|994316_995372_+	Zn-finger, CHC2 type	NA	A0A1S5RF89	Helicobacter_phage	43.0	3.9e-13
WP_023907541.1|995368_996832_+	virulence factor	NA	A0A2D1GN57	Marinobacter_phage	32.3	1.6e-57
WP_031336493.1|997225_997834_+	hypothetical protein	NA	A0A2I7S8M0	Vibrio_phage	40.7	6.6e-05
WP_088572686.1|997830_999924_+|terminase	phage terminase large subunit family protein	terminase	A0A1B2LRQ2	Wolbachia_phage	30.0	6.7e-73
WP_042462770.1|1000000_1000213_+	hypothetical protein	NA	NA	NA	NA	NA
WP_010893037.1|1000209_1000446_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907544.1|1000442_1000922_+|portal	phage portal protein	portal	K7PHM5	Enterobacterial_phage	32.1	1.5e-12
WP_023907545.1|1001074_1001365_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336503.1|1001491_1001920_+	hypothetical protein	NA	NA	NA	NA	NA
WP_010894569.1|1001916_1002153_+	hypothetical protein	NA	A0A0A1IV01	Pseudomonas_phage	50.7	1.6e-12
WP_023907547.1|1002142_1004968_+	VWA domain-containing protein	NA	J9RWA5	Pseudomonas_phage	36.5	1.7e-71
WP_023907548.1|1004960_1005473_+	hypothetical protein	NA	G8CLC0	Synechococcus_phage	31.4	2.2e-09
WP_010894565.1|1005808_1006201_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023906405.1|1006251_1006551_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023906406.1|1006645_1006897_-	glycine zipper family protein	NA	NA	NA	NA	NA
WP_075584631.1|1006909_1007152_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336505.1|1007474_1007807_+	DNA-binding transcriptional regulator	NA	A0A0P0IRJ4	Acinetobacter_phage	39.8	5.4e-17
>prophage 3
NZ_CP009826	Xylella fastidiosa strain Pr8x, complete genome	2666242	1193074	1201179	2666242		Stenotrophomonas_phage(50.0%)	11	NA	NA
WP_088572689.1|1193074_1194250_+	Replication initiation factor	NA	S0F3F7	Stenotrophomonas_phage	45.8	1.3e-76
WP_075584639.1|1194290_1194605_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336583.1|1194616_1194820_+	hypothetical protein	NA	S0F2M5	Stenotrophomonas_phage	60.0	2.8e-16
WP_038227439.1|1194816_1195062_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907621.1|1196653_1197025_+	DUF2523 domain-containing protein	NA	A0A1D6ZIU0	Xanthomonas_phage	46.8	3.1e-21
WP_023907622.1|1197029_1198181_+	hypothetical protein	NA	S0F3F8	Stenotrophomonas_phage	55.9	1.4e-112
WP_031336586.1|1198414_1198696_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907624.1|1198758_1199106_-	hypothetical protein	NA	Q38057	Xanthomonas_phage	53.1	3.1e-07
WP_075584643.1|1199330_1199618_+	hypothetical protein	NA	NA	NA	NA	NA
WP_010894337.1|1199680_1199929_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907625.1|1200105_1201179_-	zonular occludens toxin	NA	Q6UAZ2	Ralstonia_phage	28.7	2.5e-23
>prophage 4
NZ_CP009826	Xylella fastidiosa strain Pr8x, complete genome	2666242	1391995	1419915	2666242	integrase,terminase,head	Haemophilus_phage(25.0%)	39	1400921:1400934	1420831:1420844
WP_023906641.1|1391995_1392871_+	ABC transporter ATP-binding protein	NA	A0A2H4PQG7	Staphylococcus_phage	25.2	8.3e-09
WP_023907674.1|1392867_1393848_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336674.1|1394089_1394536_+	hypothetical protein	NA	NA	NA	NA	NA
WP_010894094.1|1395136_1395433_+	type II toxin-antitoxin system RelE/ParE family toxin	NA	A0A141GEX6	Brucella_phage	53.7	3.4e-23
WP_004085592.1|1395435_1395729_+	putative addiction module antidote protein	NA	A4JWV1	Burkholderia_virus	37.9	6.2e-09
WP_023907675.1|1395784_1396138_-	hypothetical protein	NA	Q7Y5S5	Haemophilus_phage	47.8	1.8e-23
WP_023907676.1|1396134_1396776_-	hypothetical protein	NA	D0UIH7	Aggregatibacter_phage	40.9	5.7e-31
WP_088572692.1|1396772_1397603_-	hypothetical protein	NA	D0UIH8	Aggregatibacter_phage	52.6	1.8e-77
WP_060870277.1|1397599_1397917_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907680.1|1397916_1398687_-	hypothetical protein	NA	Q7Y5T0	Haemophilus_phage	33.0	2.0e-27
WP_031336679.1|1398797_1399025_+	CopG family transcriptional regulator	NA	NA	NA	NA	NA
WP_023907681.1|1399008_1399275_+	type II toxin-antitoxin system RelE/ParE family toxin	NA	A0A1S5SB46	Streptococcus_phage	42.7	1.3e-13
WP_023907682.1|1399286_1401176_-	hypothetical protein	NA	A0A2I7RBK9	Vibrio_phage	35.2	2.0e-31
1400921:1400934	attL	CATTCAAACGCGCC	NA	NA	NA	NA
WP_023907683.1|1401746_1402184_-	DUF3277 family protein	NA	Q7Y5T4	Haemophilus_phage	62.4	1.8e-44
WP_088572693.1|1402193_1403690_-	DUF3383 domain-containing protein	NA	Q7Y5T5	Haemophilus_phage	47.8	7.3e-122
WP_038227621.1|1403690_1404161_-	hypothetical protein	NA	NA	NA	NA	NA
WP_038227618.1|1404147_1404516_-	hypothetical protein	NA	Q776V7	Haemophilus_phage	37.7	1.0e-16
WP_023907975.1|1404502_1404982_-	hypothetical protein	NA	M4SN98	Psychrobacter_phage	26.7	1.5e-07
WP_023907976.1|1404978_1405347_-	DUF4054 domain-containing protein	NA	Q7Y5T9	Haemophilus_phage	37.4	1.5e-12
WP_023907977.1|1405349_1405649_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907978.1|1405714_1406698_-	DUF2184 domain-containing protein	NA	A0A2R3UA82	Siphoviridae_environmental_samples	39.3	9.9e-51
WP_023907979.1|1406707_1407190_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336977.1|1407217_1408408_-	DUF2213 domain-containing protein	NA	H9C194	Pectobacterium_phage	42.0	2.5e-40
WP_023907981.1|1408407_1409253_-|head	phage head morphogenesis protein	head	Q7Y5U5	Haemophilus_phage	32.7	1.0e-27
WP_075584677.1|1409164_1410511_-	DUF1073 domain-containing protein	NA	H9C106	Vibrio_phage	39.5	2.3e-66
WP_088572694.1|1410591_1412142_-|terminase	phage terminase large subunit	terminase	H9C0C7	Vibrio_phage	44.9	2.1e-111
WP_023907697.1|1412092_1412491_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907698.1|1412795_1413257_-	hypothetical protein	NA	A0A0S0N8C8	Pseudomonas_phage	32.1	3.0e-10
WP_010894063.1|1413246_1413576_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336691.1|1413568_1414069_-	lysozyme	NA	A0A2I7RLY1	Vibrio_phage	49.7	5.6e-26
WP_004085696.1|1414271_1414610_-	BrnA antitoxin family protein	NA	K4NZP3	Burkholderia_phage	54.9	1.0e-07
WP_010894061.1|1414596_1414863_-	hypothetical protein	NA	K4NX81	Burkholderia_phage	40.7	8.1e-08
WP_031336694.1|1415050_1415749_-	hypothetical protein	NA	C8CLH7	Xylella_phage	82.2	1.5e-101
WP_088572716.1|1415745_1416135_-	hypothetical protein	NA	A0A088F6Y8	Sulfitobacter_phage	43.0	3.0e-11
WP_088572695.1|1416182_1416872_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336697.1|1416852_1417704_-	YdaU family protein	NA	A0A142K7R2	Mycobacterium_phage	60.3	2.1e-17
WP_031336699.1|1417700_1418009_-	DUF1376 domain-containing protein	NA	A0A0R6PIU3	Moraxella_phage	45.6	1.4e-14
WP_031336702.1|1418382_1418622_+	single-stranded DNA-binding protein	NA	NA	NA	NA	NA
WP_023907703.1|1418895_1419915_+|integrase	tyrosine-type recombinase/integrase	integrase	C8CLF4	Xylella_phage	93.8	1.0e-183
1420831:1420844	attR	CATTCAAACGCGCC	NA	NA	NA	NA
>prophage 5
NZ_CP009826	Xylella fastidiosa strain Pr8x, complete genome	2666242	1498472	1633535	2666242	integrase,tail,terminase,plate,capsid,portal,tRNA,protease	Xylella_phage(29.89%)	155	1499535:1499594	1542087:1583471
WP_023907725.1|1498472_1499534_-|integrase	tyrosine-type recombinase/integrase	integrase	A0A2H4JDJ8	uncultured_Caudovirales_phage	53.5	5.8e-97
1499535:1499594	attL	GGTGCTGTGCCCTATTCATCTAGCGCAGCAAAATTAGGAAGCTTTACTGGACGTATACCA	NA	NA	NA	NA
WP_023906705.1|1499545_1499842_-	DUF4224 domain-containing protein	NA	A0A2H4JF29	uncultured_Caudovirales_phage	48.1	5.8e-07
WP_023906706.1|1499838_1501257_-	DEAD/DEAH box helicase	NA	C8CLF7	Xylella_phage	93.0	2.9e-261
WP_023907477.1|1501320_1501626_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023906708.1|1501627_1501906_-	VRR-NUC domain-containing protein	NA	C8CLF9	Xylella_phage	96.7	2.5e-44
WP_088572697.1|1501902_1504083_-	DNA polymerase	NA	C8CLG0	Xylella_phage	91.9	0.0e+00
WP_023907727.1|1504084_1505683_-	antirepressor	NA	C8CLG1	Xylella_phage	64.5	9.7e-181
WP_023907728.1|1505673_1506240_-	DUF2815 family protein	NA	C8CLG2	Xylella_phage	96.8	4.1e-102
WP_023907730.1|1507513_1507960_-	hypothetical protein	NA	C8CLG4	Xylella_phage	74.3	1.0e-31
WP_023907731.1|1508012_1508207_-	hypothetical protein	NA	C8CLG5	Xylella_phage	84.4	4.6e-21
WP_023907732.1|1508238_1508430_-	hypothetical protein	NA	C8CLG6	Xylella_phage	71.9	2.0e-16
WP_023907733.1|1508453_1508645_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907734.1|1508641_1509043_-	hypothetical protein	NA	C8CLG7	Xylella_phage	69.2	8.7e-46
WP_023907735.1|1509042_1509510_-	DUF1566 domain-containing protein	NA	NA	NA	NA	NA
WP_023907736.1|1509506_1510064_-	hypothetical protein	NA	C8CLG9	Xylella_phage	37.5	6.2e-10
WP_038227519.1|1510352_1510613_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336741.1|1510784_1511381_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907739.1|1511395_1512166_-	helix-turn-helix transcriptional regulator	NA	C8CLH0	Xylella_phage	35.1	4.6e-27
WP_023907740.1|1512239_1512440_+	Rha family transcriptional regulator	NA	NA	NA	NA	NA
WP_023907741.1|1512436_1512742_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907743.1|1513027_1513519_-	hypothetical protein	NA	A0A127KNL4	Pseudomonas_phage	28.6	1.5e-15
WP_023907744.1|1513560_1513866_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907746.1|1514245_1514434_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907747.1|1514430_1514679_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907748.1|1514739_1515003_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907749.1|1515292_1515892_+	phage antirepressor	NA	C8CLH5	Xylella_phage	44.1	6.5e-29
WP_023907750.1|1516026_1518558_+	primase	NA	C8CLH6	Xylella_phage	72.7	0.0e+00
WP_031336745.1|1519049_1519667_+	hypothetical protein	NA	V5YTF6	Pseudomonas_phage	50.0	8.1e-27
WP_023907752.1|1519633_1520122_+	lysozyme	NA	A0A2I7RLY1	Vibrio_phage	52.4	2.6e-28
WP_010893232.1|1520141_1520453_+	hypothetical protein	NA	A0A172PZR6	Pseudomonas_phage	43.0	2.0e-18
WP_031336749.1|1520442_1520904_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907754.1|1520905_1521130_+	hypothetical protein	NA	NA	NA	NA	NA
WP_051372732.1|1521302_1521854_+	DNA-packaging protein	NA	A0A193GYK5	Enterobacter_phage	61.3	3.7e-47
WP_023907756.1|1521846_1523799_+|terminase	phage terminase large subunit family protein	terminase	D5LH04	Escherichia_phage	67.8	1.5e-252
WP_023907757.1|1523802_1524351_+	hypothetical protein	NA	V5YTG8	Pseudomonas_phage	50.0	1.1e-38
WP_023907758.1|1524347_1525946_+|portal	phage portal protein	portal	A0A088FVG5	Escherichia_phage	51.1	9.2e-131
WP_023907020.1|1525929_1527810_+|capsid	phage major capsid protein	capsid	V5YSS9	Pseudomonas_phage	48.6	1.9e-167
WP_010893239.1|1527827_1528088_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336752.1|1528087_1528411_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907759.1|1528407_1528929_+	hypothetical protein	NA	D5LGZ7	Escherichia_phage	35.4	1.9e-13
WP_023907873.1|1528904_1529447_+	hypothetical protein	NA	D5LGZ6	Escherichia_phage	42.9	4.5e-37
WP_031336754.1|1529443_1530031_+|plate	phage baseplate assembly protein V	plate	NA	NA	NA	NA
WP_023907761.1|1530035_1530335_-	HigA family addiction module antidote protein	NA	M9MUN2	Rhodococcus_phage	49.4	4.1e-16
WP_023907014.1|1530346_1530628_-	XRE family transcriptional regulator	NA	NA	NA	NA	NA
WP_023907013.1|1530629_1530944_-	hypothetical protein	NA	O64357	Escherichia_phage	30.4	6.2e-07
WP_031336756.1|1531077_1531416_+|plate	phage baseplate protein	plate	A0A088FV58	Escherichia_phage	58.6	1.9e-30
WP_023907762.1|1531415_1532309_+|plate	baseplate assembly protein	plate	V9IQV9	Stenotrophomonas_phage	45.4	8.1e-68
WP_031336758.1|1532301_1532859_+|tail	phage tail protein I	tail	V9IQK7	Stenotrophomonas_phage	54.4	5.1e-52
WP_023907764.1|1532866_1534459_+	hypothetical protein	NA	V9IQX0	Stenotrophomonas_phage	36.2	6.7e-81
WP_023907007.1|1534523_1535702_+|tail	phage tail sheath family protein	tail	A0A088FVH5	Escherichia_phage	56.3	4.4e-138
WP_023907765.1|1535701_1536211_+|tail	phage major tail tube protein	tail	A0A088FRU2	Escherichia_phage	52.7	2.6e-47
WP_023907766.1|1536213_1536501_+|tail	phage tail assembly protein	tail	A0A193GYZ8	Enterobacter_phage	44.6	1.8e-13
WP_023907767.1|1536627_1538847_+|tail	phage tail tape measure protein	tail	V5YUN9	Pseudomonas_phage	49.1	3.1e-116
WP_023907768.1|1538843_1539326_+|tail	phage tail protein	tail	A0A193GYE0	Enterobacter_phage	46.0	9.8e-28
WP_023906711.1|1539322_1539541_+|tail	tail protein	tail	NA	NA	NA	NA
WP_023907769.1|1539531_1540614_+	phage late control D family protein	NA	A0A088FRU7	Escherichia_phage	48.1	2.0e-92
WP_023907725.1|1541024_1542086_-|integrase	tyrosine-type recombinase/integrase	integrase	A0A2H4JDJ8	uncultured_Caudovirales_phage	53.5	5.8e-97
WP_023906705.1|1542097_1542394_-	DUF4224 domain-containing protein	NA	A0A2H4JF29	uncultured_Caudovirales_phage	48.1	5.8e-07
WP_023906706.1|1542390_1543809_-	DEAD/DEAH box helicase	NA	C8CLF7	Xylella_phage	93.0	2.9e-261
WP_023907477.1|1543872_1544178_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023906708.1|1544179_1544458_-	VRR-NUC domain-containing protein	NA	C8CLF9	Xylella_phage	96.7	2.5e-44
WP_088572697.1|1544454_1546635_-	DNA polymerase	NA	C8CLG0	Xylella_phage	91.9	0.0e+00
WP_023907727.1|1546636_1548235_-	antirepressor	NA	C8CLG1	Xylella_phage	64.5	9.7e-181
WP_023907728.1|1548225_1548792_-	DUF2815 family protein	NA	C8CLG2	Xylella_phage	96.8	4.1e-102
WP_023907730.1|1550065_1550512_-	hypothetical protein	NA	C8CLG4	Xylella_phage	74.3	1.0e-31
WP_023907731.1|1550564_1550759_-	hypothetical protein	NA	C8CLG5	Xylella_phage	84.4	4.6e-21
WP_023907732.1|1550790_1550982_-	hypothetical protein	NA	C8CLG6	Xylella_phage	71.9	2.0e-16
WP_023907733.1|1551005_1551197_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907734.1|1551193_1551595_-	hypothetical protein	NA	C8CLG7	Xylella_phage	69.2	8.7e-46
WP_023907735.1|1551594_1552062_-	DUF1566 domain-containing protein	NA	NA	NA	NA	NA
WP_023907736.1|1552058_1552616_-	hypothetical protein	NA	C8CLG9	Xylella_phage	37.5	6.2e-10
WP_038227519.1|1552904_1553165_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336741.1|1553336_1553933_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907739.1|1553947_1554718_-	helix-turn-helix transcriptional regulator	NA	C8CLH0	Xylella_phage	35.1	4.6e-27
WP_023907740.1|1554791_1554992_+	Rha family transcriptional regulator	NA	NA	NA	NA	NA
WP_023907741.1|1554988_1555294_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907743.1|1555579_1556071_-	hypothetical protein	NA	A0A127KNL4	Pseudomonas_phage	28.6	1.5e-15
WP_023907744.1|1556112_1556418_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907746.1|1556797_1556986_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907747.1|1556982_1557231_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907748.1|1557291_1557555_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907749.1|1557844_1558444_+	phage antirepressor	NA	C8CLH5	Xylella_phage	44.1	6.5e-29
WP_023907750.1|1558578_1561110_+	primase	NA	C8CLH6	Xylella_phage	72.7	0.0e+00
WP_031336745.1|1561601_1562219_+	hypothetical protein	NA	V5YTF6	Pseudomonas_phage	50.0	8.1e-27
WP_023907752.1|1562185_1562674_+	lysozyme	NA	A0A2I7RLY1	Vibrio_phage	52.4	2.6e-28
WP_010893232.1|1562693_1563005_+	hypothetical protein	NA	A0A172PZR6	Pseudomonas_phage	43.0	2.0e-18
WP_031336749.1|1562994_1563456_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907754.1|1563457_1563682_+	hypothetical protein	NA	NA	NA	NA	NA
WP_051372732.1|1563854_1564406_+	DNA-packaging protein	NA	A0A193GYK5	Enterobacter_phage	61.3	3.7e-47
WP_023907756.1|1564398_1566351_+|terminase	phage terminase large subunit family protein	terminase	D5LH04	Escherichia_phage	67.8	1.5e-252
WP_023907757.1|1566354_1566903_+	hypothetical protein	NA	V5YTG8	Pseudomonas_phage	50.0	1.1e-38
WP_023907758.1|1566899_1568498_+|portal	phage portal protein	portal	A0A088FVG5	Escherichia_phage	51.1	9.2e-131
WP_023907020.1|1568481_1570362_+|capsid	phage major capsid protein	capsid	V5YSS9	Pseudomonas_phage	48.6	1.9e-167
WP_010893239.1|1570379_1570640_+	hypothetical protein	NA	NA	NA	NA	NA
WP_031336752.1|1570639_1570963_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907759.1|1570959_1571481_+	hypothetical protein	NA	D5LGZ7	Escherichia_phage	35.4	1.9e-13
WP_023907873.1|1571456_1571999_+	hypothetical protein	NA	D5LGZ6	Escherichia_phage	42.9	4.5e-37
WP_031336754.1|1571995_1572583_+|plate	phage baseplate assembly protein V	plate	NA	NA	NA	NA
WP_023907761.1|1572587_1572887_-	HigA family addiction module antidote protein	NA	M9MUN2	Rhodococcus_phage	49.4	4.1e-16
WP_023907014.1|1572898_1573180_-	XRE family transcriptional regulator	NA	NA	NA	NA	NA
WP_023907013.1|1573181_1573496_-	hypothetical protein	NA	O64357	Escherichia_phage	30.4	6.2e-07
WP_031336756.1|1573629_1573968_+|plate	phage baseplate protein	plate	A0A088FV58	Escherichia_phage	58.6	1.9e-30
WP_023907762.1|1573967_1574861_+|plate	baseplate assembly protein	plate	V9IQV9	Stenotrophomonas_phage	45.4	8.1e-68
WP_031336758.1|1574853_1575411_+|tail	phage tail protein I	tail	V9IQK7	Stenotrophomonas_phage	54.4	5.1e-52
WP_023907764.1|1575418_1577011_+	hypothetical protein	NA	V9IQX0	Stenotrophomonas_phage	36.2	6.7e-81
WP_023907007.1|1577075_1578254_+|tail	phage tail sheath family protein	tail	A0A088FVH5	Escherichia_phage	56.3	4.4e-138
WP_023907765.1|1578253_1578763_+|tail	phage major tail tube protein	tail	A0A088FRU2	Escherichia_phage	52.7	2.6e-47
WP_023907766.1|1578765_1579053_+|tail	phage tail assembly protein	tail	A0A193GYZ8	Enterobacter_phage	44.6	1.8e-13
WP_023907767.1|1579179_1581399_+|tail	phage tail tape measure protein	tail	V5YUN9	Pseudomonas_phage	49.1	3.1e-116
WP_023907768.1|1581395_1581878_+|tail	phage tail protein	tail	A0A193GYE0	Enterobacter_phage	46.0	9.8e-28
WP_023906711.1|1581874_1582093_+|tail	tail protein	tail	NA	NA	NA	NA
WP_023907769.1|1582083_1583166_+	phage late control D family protein	NA	A0A088FRU7	Escherichia_phage	48.1	2.0e-92
WP_031336760.1|1583749_1585105_+	DUF2252 domain-containing protein	NA	NA	NA	NA	NA
1542087:1583471	attR	GGTGCTGTGCCCTATTCATCTAGCGCAGCAAAATTAGGAAGCTTTACTGGACGTATACCAGCGCCTGCCATGTGCAGCGACTCACCGGCGACGCGCAAACGTGCATACCAGCGCCCCACTATCGGGCGTCCAGATGCGTTGGTCACATAGCACCAGCCTTCGCTGTCTAACCATTTACGTTGGCCAGCAAATATCTTGTAACCGGTTAGCTCGCACACTTCATTAACGGTTAAAAATTCTGATTCTCTCGGAGCCGTTTCGTCCGATTGCGTGGTATCAACAAAGCGGTAGTTGCAGGTGTCGCTCATCGCCTCATGGCTCCTTGTGATGTGAGTGGTTTACATGTTTCGCTGCGTTTCACCGCCTCTAGCAGCAAGTCCTGTACTTCGCGTTTGGATTCACGGCGGGCCATCACCAGCTCATCCACCGTGCCCGCCGCCACGATGTGGTGAATGAAGACGGGGCGATCATGTCCGGCTTGCGCCTGGCGTGTGGGGCCAATACGTTCGATGATTTGTTGGTACTGCTCCAGGTCCCACCAGTGCCCGAAGAACGCCAAAATGTTTCCGCCGTCTTGCAGATTTAAGCCGTGACCGGCACTGGCCGGATGGGCGAACAACACGGGAATATTCCCCGCATTCCAATCGCGGATCGTGTCGGGGTGTTGGTCCAAGACACGCCCTTTAGGAAAAGCACGCTGCAACCGTGCGACATCGCTTTTAAAGTGATACGCCACCAACACCGGCATACCGGCGGCCTCTTCGATAATGTCGTGCAGCGCCTCTAGTTTTGCGTCGTGCACGACTTCCCAGGCCTGGCGTGTGTCATCGGTATACAGCGCACCATTGGCCAGTTGCAGGCATTTTATGGTTTTACTGGCGGCGTTAAAGGCTTCTATTTCGGCACCGCATTCCAAGGCGATGAGCATCTCTTGCTCCATCGTTTTGTACAAACGTCTGGCGCGTTCTGGCAACACAACGCGAATCGTATTGACAATCGGCTGGCGTAAATCAAAGTACGCCTGTGGATCAAGGGATAAACACAGGTCGCGTATCGTGTCCTGAATCTCTTTCGATGCATTGGGCGCGGGCACAAGGCGCACCGCATGCGGATCACTGCCGATCTGCACCGCACGGAACCAGCGATCGATAAACGCTTTGAAATGCGTCCCCAGCCGTGCCCCCCGATCCACCATCCACATCAGCGCCCACAGGTCCTGTAGCCCATTCGGCGCGGGCGTGCCGGTCAAACCAATGTAGCGCTCCACCTTGGTATGCACATACTTGGCCAGTGCGCGGGCGCGCCGTGTGCCTTGCCGCAACCGGAACCCTTTCAGCTTGGAGCACTCATCGGCGACCACGGTACGGAACGGCCAACGGTCCCCGTAAAACTCCGCCAGCCATTTTAGATTGTCGTAATTAATGCAATAGATATCCGCGTCCTGCTCCAAGGCGTGACGACGTGCCGCCGCACTGCCCACGACCACGGCCACCCGCAGATGGCGCAAATGGGGGAACTTAGCCACCTCATCCGGCCATGTCGTGGCCGCAACGCGCAGCGGAGCAATGACCAACATAGGCGCAACGTCTTCCACCACCAGGAGCACATCTAACGCCGTCAGCGTGGCTACCGTCTTCCCTAAGCCCATTGGCACAAACAGATTGCAGCGTGGGTGCGTCAGGATGAAATCAACCATGGTGTGTTGGTAGGGGCGTAGGTTCATGTCAAAGCTCCGCTAACCATGGTGTTACACTCGCCATCACATGGGGTTAAGACAGGGGCATGTGTGACATCCGTAGCGTTCGATACACTTAAATTTGCGAACCGGCTGAAAACGGCAGGCGTTCCTGCGGCCCATGCGGAGGCGGAAGCCGAGGCCTTGGCGGAAGTGTTGGAAACGAATTTGCAAGACCTTGCGACAAAGCGAGATTTGCGGGAGCTTGAATTAAAGCTCGAATCGAAAATAGATAAAGGGTTCGCTGATGTGCATAAAGGGTTCGTTGAAATAAAAGGCGAAATGTTGCTACTGAAATGGATGTTCGGTGTGATCGTCACTAGCCTCATTGCACTGATCATCAAAGCGTTTTTCTGAGTCACGCCAGCACCTCATCGACGCCTTGCAAAGAATCGACCACGACCACGCGCAGCCCCATGCGGCGCATACGCTCATGCTCACGGACTTGATGCGGTGTGCACTGCTGGCCGGGGGCTTTGAGTTCCACCCACAGGGTGCGCCCGTTGGGCAGCATGGCAATGCGATCTGGCGCACCGTGGCGGCCACCCCATTTCACCTTGCGGATTTCACCGCCTTTGGCCCTGACCTGGGCGACTAAATAACGTTCAATCGTTCGCTCACGGGGGATGGTCATCATTGCTTCCTATACCGGTAGGTGTCGAAGCCTTCCGCCGCTAAGGGCAACCCCTCTGCCCAGGGGGGCGGTGTCGCCATGAGTGCAGCCAAGTGCGCGGCGTTGAAGCAGGGGTGGTCATCGGCTTCGGTGATGATCTCGTCGTGCACGGTCAGCACGATGCTGTATCCGGCGGCTTCAATCGCAGGCATGCAGGCGGCCAACACGTCGCGGCTCACCGCCTGAGTGATGTTCTCGACCAGCTTGCCGCCGTAGGTAGTGAGGCGCGTCCATTTTCGCGTGATCGGATGCGTGCCCATGTAGGACAGCGCGCCGTGCTCATCGACTCTGGGAGCGGCGTAGTAAAGCACCCGCCCCGACGGCAGACGCAGACGCAGCCAGGCACGGCGGTACTGCACTGTGATCCCGCAGCAGGTGTGCGTCGTTTCGGGGTGATGGATCGCATCCGTCACCGCGAACTGCAACGCCTGCCAAAACGCCGCAATGGCCGGATGCGCATTGCGCCATGCGCGTTTGAACACATCGCACGCCAGCCATGCGCGATCGGAGAGGCCGAAGGTGGGCCGGTGGTTCGCCTTGGTCCATTCAAGCAATTCCGTTGCCTCCTGAAGCAGCAGCGGCGGTAGGGCGGCCTGCGCGGCCATCGCCTCCAAATCAATGTGGTACAGTGCTGCAAAGGCAGCAAAGGCCCCGACACCGCCGCCATACCCCAACGCCAATTCCTGCACTTTGCCGATTTGGCGTTGCTCCTTGGTCACCGCCTGGGGCGCGATCCCGAACGAATGGGCATACGCCCGCTTGTAAATGTCCTCCCCTTTGCGGAGAGGTTCGTGCTCGGCATTCCATTGCAGGGCCAGCGGCGCGCCGCGCCGCGCCGCGTGCGTGATGGCCTCGCCGCTGTGCCATGTACCATCCACCCCTTGGCACGTATCAAACTCACGAAACGCGTGCAGCTTGGGGGTTTCACCGGCCAGCCACGCCAACACACGGCCTTCAATGATGGACAAATCGGCCACGACCAGCTTTTTATGTGTTGGCGCAATCAGACAACTGCGCAGCGCGCTGCTGGTCAGCGCCATGACATCGTCAAAGACTAAATCCACACAACCGGCTTTCATGGCATCGATGCCGACCGCGATCACTTCTTGGCTGAGCGTGGGGCGTGGCAGGTTGTGCGGCTGAAACAGCCGCCCCGCCCAGCGCCCGGTGCGACTGGCCCCGTTAAATTGCAGCGTCCCGCGCAGGCGACCGTCAGGGCTGGTGCAGTGCAGTAGCGCTTGGTACTTAGCGGTGCTGGTGCTGCTGGCTTGTCGGCGGATGGACAGCAGTTCGCGCACCGTCTCTGGGAGTGCCGGATCGTCAACGCACCGCGCGACCGTGTGTTGCTGCATGTCCGGCAACGCCACGCCGTGCGCGGTGTTCAGGTGCTGCAACAGTGCATCGCGCTGCGTCGCGGCCTGCACTGCGCCGCCGGTCAACGCCTCGGTACGCTGGGCTAACGTTTGCTTGGCGCGTTCCACAGCGCGAATCGCGGCCTGCACCAAGTCCGTATCGATGAGGACCCCGCGATCATTGATGGTTTGGTCCAGGAACCACAGCGCCAGTTCCGCCCCCGTGTAGTTGTGGGACGGCAACCGCTTCACCACGTCCCGCATCGCGTCCACATCGCGCCTGGCGTACTCCACAAACTGCGCCCAGTCCGTCGGATGGGTGTCACGGCTGGCGCGGCGCAGCGTGCAATGGGCGGGGCGTGGTTTGCAAAACAGTGTAACGAGCCGTTTGCCGTCCTTGTCCTTGGCGTGCTCCACAGGCACGCGCAGCAGCTCGCATAACGTGCCCAGCGCCCCAGGCAGTGAATGGGCCAAGGCCTGGGCCATTGAATCGCGCCAGCGCTCCAAGGGGATGTCGATGCCGCAATGGCGTAGTACGGTCCGATCAAAATGAGAGTTGTGGAAGTACAGTAATACGCCTGGGTCATGCAGCGCGGCGGACAGGTCGTCAGGCGGCGTGGCCGTGGCCGTGCAGTCCCACACCTGCACCGGCCCCTCACCCAAGGCGTAGGCAAACAGCAACAGCTCGGCGTGCTCGGCATACGCATGCACGCCATGGGCCATCGGGACGGGGGAGTACGTCTCTAAATCCCCCCATAGGATCGGTGCGGGTGGCTGCGCGGTGGCCATCTCAGGCGGCGACCTTCAGCGAGTCAACCACCGTCGGATTCCAGAGAATCTGGTAGCTGCTGTGCCCGTTGCGTGAGTACGGAATGGCTTCACCCCATACGCGACCAGCTTCGGTTAATTCCCATTCGTCGCGTTCATTACGGAACTGCAACCCTGCCGACGCTAATAACTGGTTCGCCTCTTTGGCTGAGCAATGCAGCTGCTTGCCTAGTTGCGTGGCGTTGAGTAGGCAAAGCGGTTCTTGCAGCGCTGGCAATGCGCGGCGTATCTCTTCGGTCGTTAAATTGGTATTGCTTTTGATACAGGCCAAGGTCGCGGCGGCAGCAATTCCTGGCTTCACCCCTGGTACTCTAGAAACGAATTGGCCGACTAACAGGAGCGCGGCAACGCAATCCTGTGTCGGCCCAGGCAAGGTGGGCAGCGCCCCTGGTGTGGAGTAGGTGCCTGTCTTGCGGAGGGTGGGCAGGACCTCTCCCGCTATCCATTTTTGGAACGGAAGTGCCTTAGGTTTGTCGCTACGGGCAAGGAAAAAGTACAAACCAGGTTCAGCTAAGCACAGTGCTTTACGATCTCCTACGTTGGTGTGAATCGGATTCACACGAACCCACTCGCTGGGGATGTGCTCAGTGACACGAGCCGGATTGCTGGTTGCTGCGTAATCCAGAGCATCCATGACATCGGTAGCAACAAACCACACTTCACCTTGATCATCGACCACGGTACGCACGGCGTGTGATTCGAATTGGAATGGAGTGATTGCGTTGGCGGAATGAGTGGAGTGGTCAAGCGCGGGACGGTTGCCTGTCTTGCGCAGGGTGGGCAGGACTTCCTCAAACACCCAACGCTCGAACCGTTCTGCGGCAGGGAGTTTGCTGCTCACAATCAAGCGGAGCATGTCAGGCTCGGAGATGATCCTGGTTTCCTGCAAGCGGCCAAGGCTATCTGGGATGGGGTAACACTTCGTTACCCCTCTGCAATGGTCGCCCAAAGCTTTGTTATGGTTGGTGTAGCCGAGTACATCGGCAACGTCTTTGCCGACAAACCACACTTCACCGTGATCATCGACCACGGTACGCACGGCGTGTGATTCAAATTGAAATGGAGTGATTACATTCATTGTGTGGTCCTCTGTGGGTTGGAAGGGAGTGGAGACGGAAGGCGCGTGATGCAGCAGGACACTGTGTTGACCCGCTTTTTGAACTGCGGCTGCGGGCAGTGCTTCACTGATGAGCCACCGTCTAAGGCGTTTAGCCGCCTCTTTGGTGCTGCCGATGAGCAGGGTGAGCACTCCTGGCTCATTGAGATAGTTGGCGCGTTGAGTCCGCCCGATGGTGTCGATGATTTTGCGTTTCGATACATTCCTGGCACCCACATGCTGAGCAAGTGCGGCGCACGGATTTAACAACTCCACTGCCGTGCAAATGTCATTGGCGTTAAACCACGGTGTACCGGCCTCATCGACCTGGACACGCACGGCGTGGGATTCGAATTGGAGAGTGAACTCAGAGGGTGCCTGCATGAGGGTGTCCTTAAAGGTGTAAGGGGGTGGAGGGTGCGCGTTGCGTGTGCTGCCAGTGGTGTGAATCCGATTCACCCCCACGGCATCTCTCCTTCAACATCCGCCAGCTCAGCAATGGCGCTCAGGTCCTCGAAGTCCTCCACGCTGGCCACACCGCCTCCAGCGAACGCCTCGCCATCACGCAGGAACTGCACGCCACCCAGCGAGGCGTTAATCCGCTTGCCGTAGTTGTTGTCCTGCGCCCAGAGTTCTATGTTGGCGTTGACGTAACATCCGGCATACGGCCTGCCGTCCTGCGCGGCGAGCGGGGTCCGGTCACGGTCGATCACCAGTGGCCGGGACTTGTTACGCGCAGAGACGTATAGGTGCCCTGCAAACCCGTCATAACTGGCTTTCAGGTCGCCATCATGCAACGCGACTTTGTCACCCATACGCATCTGTTTAAGCTGGGCCGCCGCCTTAACGCCCCATTTGTCATTGGCCATCTTGTCAATCGCCTGGTTAAGGGCTTTCACTTGCGGATCGGCAGGGTCGATGAGGAAGCAGGCCGAGAAGGCGGCTTCGCCTTCGCCATTCACTTTCTTAGGTTCAAACAACACGGGGAAGGCTAAGCGCACGTTTTTTAGGGTGAGTTTCATCACGGTGTCTCCTGGGGTGAAAGTAGGGTTGGTGTTTTTGCTGGTGTTGGGTTAGGGGAGCGGCTCAAGTCCTCGAAATCCGTCGCGTCCTGAAGGGCGAGCGGGGGGCGTTGATCCGACGTCGGGACAACAACGGGTGCCCCTGTTGTCCTATGAATGAGCGGTTGGAGCTGGGTCCATTGGCGCTCCCCGATGACTCCGGCCTGATGGAGTTTCTCGGCGCTCGTGGGGCTGATGAGGGATACGTCGTGCAGGTGAGCGACTCCAATGCGCATCTGGATGAGCGCGTCCTCGGCGGCTGTCTCATCCACCCAACGGCGCGGCCCCTGTCGGCCTTGGACCAGCTTGTATCCAGGCACGGGCTGGCCCGAAAGCAATTCCGTTGCTGCCTTGGCACGGACAGCCTTACACCAGGAGTCGATTAACTCTGTTGCGCCAAACAGGGAGGCCAGCGTGGTGTTGTCGAACGTGCGCAGGGCCGCGTGGCTGAGCTGCGGGGCCACGGGCTGGGTGAGATCAACAAAATCATCCGCGACCGTGGTCAGTACGTGCGTGGCCAATGCCGGACACGTCGCCTTAACTTTGCAAAACCGGCATGGCTTTTCTGCGGGACCGAAATACTCCGCAGGCAGTGCGCCCGTGGGGCTGTAGTGTCGGATCGCTTCCATACACCGCGCCGCGCTGCGCTTGACCCGCTGTTCAAACGCGTCCATTTCGGGGAGGGTGCGCACCCACTCATCACTATGTCCGAGCCGTGGTTGCACGATCACTAGCCGCACTTGCTGGAACGCTTCCACCCAGCCAAATTCACTCAGCGCTGCCAGCGCATACAGCTGTAACTGCTCGTTGCCTTCGGCGAAGACTTTGACGCCTTTGCCGTATTTGAGATCAACGATGACCAACTCATCCCCGGACAGGATCACCGCATCAGCGGTGCCTTGAGCGCCTTGCTCCCCCGTGATGGAGGCAATGTGTAAGGGCTGTTCGACCAGGCGCACCCCCGCAATGGCGCGTACATAGTCCACATACTCCTGCACGGACGCGGCCATCTCTGCGGTCACTTCCCAAGTGCGACCGTTGATCTCATGGCGTTCTCCTACGTACGCGCTGGCATCGGACCCGGTGCGTAATGTGTTGGCAGCCACCGTATGGGCCACGGTGCCTTCATCGGCAAATGGGCTAGATTCATCTGGGTAGTGACTGGCTAACGGAACGCTTGCCGGACAGTGCAACCAACGATGCGCACTGCTTGGGGATAACATGGCGTGCTGGCTCATGGCTCACCGTCTGAGGGCACAGCGTCTAAGGGCAAACCGTTTTCGTGGGCGATGTAAAATCCGTTGATGTACTCCAGCACTTTCGGAAATAACTCCTCCGGTATCTTGGACAACACTTTGACGCCGAATGACGCCAAAACGTCGTAGGCGTACTTTTCGCCAATCTCCTTAGACAGGGCTGTTAACGCATTCGCCACCTCAGCATATCCAGGCGTGCGCATAACGTCCGTTGTGCTCTGAGCAGCAGCCGGTTTGGCAGCGCGCTGCGTCTTACCCGCAGCGGGAGGCGTTGCCGCCGTTGGTTTTTCAGGGGCGCTATCGCTGCGCGGTGTATCGTCAAGCACAGGCTGCGCGGAGGCGCTAGCGCTGCGGGACGGCTTAAGCACCGCCAAAACAGCGTTTAATTGGGACTGGTCGGTAATCGTGACGGTCATAGGAAACATGGGTTTTTTCTCTCGTGTGTGTTATCTGGTGCTGGTGCGTTGTCCGTTGGCATCACAGCGCATCGCTGCGCTGCTCCAGTGCCTCACGCACCTCTTCGTAGTCTTCTAGCAAGCCTTTAAGACGCGATAACAACTCGCTTTCTACAGGCGTAAAACGCTCCACGGCTTGCCGGGTGGTTAGGTCATCCACAAGTTCGCTATCACTCATCGAACGCATGACTATTTCTGTCGGCATGGGAGGTGACATATAAAAACTCCTTCCCGAAAAACGTTCGGGGTTAGTGCTTGATCAGGGTTGCAGAAAGCGTTTTAGCGGCGTCGTAGTGCGCGCGACGAACGCGGTAATTGGCGATGCGTAGTGCATTGGGCATTGCTCGGGTATCGCGCAAAATGCAGTGGGCTAATCCAGGGTGCGCGTAGTGATTGCAACGTGCAGCGTGTTGTTCTTTCGGTGTGCGATAGCGGTTCATGGGTGTGTTTCTCCTGTGTCAGATCACGCCGCACGTGGCGGGCTGGGCTGCGTGTTGTTTCGCATTGATGTGCGGTGAATGGCTGTAACGGCGATGACGGCTGGGAATCCAAAGCGCCGGTAGGCGTCAGACTTGGCCTCAACCGTTTTCTGAAACAGGCCGGTGTAGGTGTACACACCCTGCTTGGTGCGTGCGGTGATGGTGCAAGGAATCATGCGTAGTGCTCCTGCATCACATCACCCCACATCGCGTTAACGCATTCCGCTTCTTGGCGCATGTCTTCCTTGACGTCTTCCTCAGCGAGAAGCTGCAATTGCTCCAGCCGTACGCGTTCTTGCACTTCGGCTAATGCATACAGACGGGTTAAGACATCGCTGCCGATTAACTGATCCGAAGGGAAGGTATATAAATCCGCTAAAGCACTTCCCATCGTTTTATAATGCTCAGTAGATAGTATATCCGCCGCCCATTCATCGGCTTCCGCTCGTTTATCTGGGTTATTTAAATACTCGTGAACCCGCGCATCGACCCGCTCGGCAAAATACTCTTTAAAATCGTCTTCCGGTGGTTGTAAACGCGGATCGTTATAACTGCTGTATCCAATCCCAGTCATTACGCACCTGCCTTTGGTGTAGCAGTGGCGTCAGTGCGCATCTGGCCACGGACAGGGCGGACGTGCAACTTTTCGTAGCGGTTTACTAATGCTGTCTCGGAGGTGCCAAACCTAAAGGCCCATGCTTTGTTTTCCGGGTCGTGTGCGCACGGAGTGCAGGTCCACAACCAATCGAAGTGAGTTGGCCAATAGTCACGTAAAAAGCCAATAGATAGCGCCTCGTGAATCTCAGGCGCACGCCAACCGCTGTAACCTTCAAAGTATTCTTCATAGCAAGCCCTTTCCGCTTCTGAGTCTCCAAACCTATTCGCGTATCCTTTGATGTCGCGGCTCGCAACGGCGCGTGCTGTCCATTCCAGCTCTGTACGCGCATCCCGCGTGAAGATGTGCTTGCCGTATTTGTCATAGATTTTGGTGAATCGTGCACCCCCTGTGGTCGGGGCGTTTTCGAGGGTCGCGGTGCTCATGCGGCCACCTCGTTACTAGCGGCAGCTTCAGCGGCTTCGTATGTAGCTAAAGCAGCACGAGCAGCAGCGAAAGCAGCATCACGCGCTGCTTCATCTTTAGCGGCGTCGTACGCAGCACACGCTTCTTTTTTAGCGGCTTCGAGCGCAGCACGAGCCGCATTACGCTTTTCTTGTCGCTTTTTCTCCGATGCAGCGAGCTGCGCCGCAGATCGATTACGCACCGCCTCAAGGGCAGCTTTAACGTGCGGATACAGTGGATGCGTTGTGGCGACAGTGAACTTATCGTTGTCGAAATAATCCGTCATCACGTCGGTGCTGTTGTACACCGTAAAACAGGAATGCACTAAAGGGCTAAAGCGCGTGTAATGCGTGGCGATGACCCTAATTGCCGAGTTATCCCTGTCGTGCGGCTTTTCGTAGGAGTAATTGGCGCGTTGCAACTCCCCGCCTTTCGCATCCCGAATGCCGTTCCAATAAAACAACGGCGCTTTTTGAGTCCCTGATAAGGCCTGGTTAGCCTGAGGCTGGGCTTGCTCACTAATGCTTGATGTCATTTTCATATCTCCTGCCCCTGCCGCCGGTTGCGGGTGTCGTGGGGCGTGTTTGGGTGTAGGTGTTGAGCGCGGTTATGCTTGCGTCCATGAACTAGACGAATGGGTTAACACTTGCTTTGGCGGTGCTTGGTGCGACGCTTGGCGTTTTTAACGCGGTGTGGATGATTCGCCGCGTCACTGTTCGGCTGAAGGTTGCTTACGCGACCATGATTCCCGTCGCCGGAGGCCCGCCGTTCGCATGTGTGGAGGTGATAAACCTGAGTTACTTGGCAGTGACAGCGGCAGCGGTTGCCTTTCAAAAAGGGCGCACAGCCGACAGGAGAACCCCCATCGTCGGAGACTGCCTTGACCGGAGCAGGCTCCCCCGTCGAAGTGGACTGTGGTGATGGCCCTAGTGGCCATGGTGGCATTGGCGGTGCCCTTGGCCCCCTTGGTGGCGCTGAGGGAGAGCGGTCCTTACGTGTTATGAACACAACCCATGCGTTGACTGCGGTAATAAACGCAGCTAAGCAGAGTATGGGGATTTGGGTGCTGTCTAACGACATCTGATATCTCCTGCCCCTGCCGCCGGTTGCGGGTGTCGTGGGGCGATGGGACCAAATTAGCTAGTCCTAACCACATTGTCAATAGGAGTTCCTAATTATTTTATTGGGCTTCTCCAAGCATTAAAAAACCCCGCGCGGGCAGGGTTTGTGTCAACGGACCTATTGAACTTGGCAACTATCTAGACACTTTAGGCCAAGGGAGGCAAAAGAGATCAGCATAATTTCTGTTTGAATCGTCTGAGCAATACTCAGAAATTGCTTCCCTGCCCGCGAAAGTAATATGTTTTGGTGGTTGCGCTAAGTTCAATAAGCTCCATCCAGTGAAACCTACTTTGTTACCGAAGTTGATTTTTTCAATATCACTTCCAGTGAAGCCAATTGTCATAATTGCGTCTTCTTTGGTGTTTCCATATCGATCTTCAAGTTCTGTGATTATTCTAAATTCCACATTCCCATCCTTCGGAATTATTTTTTGGGATTTAGCCAAGATATCTACCATCTTTGTAGATGCATTGAACAGAAGGGCCGAGTTGCTAAATCCCGAAGAAGGCATGATGTCAACAATCAGTAAAGGTTTGCCATCATGCATATTTTCCTTAGCTTTCACGACACTCTTGTTAATCCTGGCGATGCGTTCGGCCAGTGTCAGTGAAGGGTCATGTTCGATAGCACTAGTATCGGGATCTTGGCATGAGGTCATTTGACAAACTAATGACAAGCCGATAAGTATTCTTGCAACCAAGAAGAAAACGTTTGTTGGATTAGATTTCATCATGCGTAAGGAAATTATAATCCACCATCACCGATCTTTCCGATTACGCGGCCAATCACTTGAACGGTCCCGATCTCTTTAGGAGAGATGGTCCTGTCTTCATGAATACGGTGGCCTTCTGAATCCCTGGCGTGGTTGTCGCTGGCAATGCGTAAGCCGTTGTTACGCAAGGTGTAGAGCCGCTTGACCTTTGCCTCACCGTCAATGGCGATGGCATACACTTTCCCATCGCGGACATATGTATCAGCGAAGTTCACCATTACTCGATCCTTATTGAACAGGGTGCGTTCCATACTGTCGCCATGTACGCGCATCAGCTTCACATCTTTTGAATTAATGTGTACGTCCCTGAGCCAAGAGATTGGGAACGGCATTTTGAATTGCGTTTCGACGAATTCAGGTATCAAAATACCGTTGCCAGCGGCAAGCATTACATCTATTTCGTCAAGCAACACATCTGTTTCAGGGTCCAACTCATCATCACTCTCAATTACTCGCAGCTCACAGGCGTCAAGTTTGGTACGGTTGGAATCCTGTTTGCTTGGAGTCTCTTGGTTTGAATTCGCGGTAACGGCACGCATTGGGCCGGTACCTGTTGCTAGCCATTTTTCCGAGACATTAAGCGCCTGGGCGGCTTTGAGGAGATTCTCCCCGCGCAAGAATTTTGCTTTCGAGCTTAGCCAGCCATGAACGCTCGGGGGTTTGACCCTGACTGCATCGGCAAGTTGTTTTTGCGTCATACCAGCTTCAAGCATGGCAAAACGGAGTCGTTCATTAAGAGACATTAGGAAAGCCTAACAAATAAGTGGTTAGGAGTAGCTATTGACAAAGTGATTAGCTAGTCCTAACTTAAGGGGCATGAACGCAAATCAGATCATCGATACCCTTGGCGGCACTGCTGCTGTGGCACGAATGTTTAAGATCAAACAGCCATCGGTAAGTGAGTGGCGCAAGACGGGCATTCCTTCGGCACGGCTTCAGCTCCTTGAGGTTGTCCGCCCCGACATCTTCGGCGCTTCCCCCACAGGCCACGTGCAGGAGGTGTCCGATGCAGCCTAAACCTGAGTTTTCAACTTCTTTTCTTTCCCGATTACCAAAGGTAGTGCGTCTCTGGTGGTTTCGATTACACAAGCAACCGCACTGTGTGGAATGTGGAAAACGGTTGGCTGGGTTTGAATTTCTCCGGGCGGGGGTTGGCCTTCTAGAACTACTGAAAGGTAGTGGTTTTCCATGTCCACGTGCGTGCAAATCCAAAACGCGCGGCTGCCAAAACGGCCATCTTGGGGGCGAAATTTCCCGATGATAAATTGGCTCAAGGCTACATTCGTATGCAGTACTACAACGAATACTTTTTCTTCCATGCCGATCTCCGGTAGTGATTTGGTTGATTGGAAACACCAATTCCACCGGCAGGTTGGCTCCAACCCAATTTCGATTGGCTCTGCACTTACGGAGGTGTCCGATGCGGCGTGAAGGATTTCTCGATCTATCTGATTCCAGCCTGGAGCCTTCGTTAGGGGGGAGCAACCTGCTTATTGTGAGAGTCCCCTTCGCCGGTCCTCCCAGCGTACCGACATTCTTTTGGACGGAAATATCCGGACCAGAGAATAAAAAGTTGGCGTATATCAAGTTTGAGCAGCGGCTTTTCATAAGGTCGGAATCACTGTTTGTAGCCACCGAATGGCGTCCGGCAGATTCCGGAGACTTGCCTCCAGAACCTTTTCTGCGATTTTCTGGATACCAGAAGCAGGGAGGGATTTAATTTGTTCAATGACCTTCCCCTTGACAGTGTTATCCGCATCGCAATCGACGATCCGTTGCAGCAACAGATCACGCACGGTGTCTTGAGTCAGCCTGACGTTGACCACTCCAAGAATGGCGGAGAGACCACCATCCTCTGCGAGGAAGTCAATCCCTCGTGGTGTCAATGTAATCATGAACGCCCAATCATCGCTCTCGTTGATGCTTGTGCCTTCGCATTCAATGAGTCCATGTCCGGCAAGGTAATGCACCTCGGCTCGGATAATGTTCATGTCGAACTCAGGTGTATTAATCGCATTGATCGCTGCTGGCCACGGGTAAACCTCACGGGCAAGTTCGAGCAAGCGACGTTGTCTATTCCGATTAAATTTATCCATTTATTGCCCTCCTTGGGGGCTGTCGAGGTGTCCGATGCGGCCTAAACCTGAGTTTTCAACTTCTTTTCTTTCCCGATTACCAAAGGTAGTGCGTCTCTGGTGGTTTCGATTACACAAGCAACCGCACTGTGTGGAATGTGGAAAACGGTTGGCTGGGTTTGAATTTCTCCGGGCGGGGGTTGGCCTTCTAGAACTACTGAAAGGTAGTGGTTTTCCATGTCCACGTGCGTGCAAATCCAAAACGCGCGGCTGCCAAAACGGCCATCTTGGGGGCGAAATTTCCCGATGATCAATTGGCTCAAGGCTGCATTTGTATGCAGTACTACAACGAATACTTTTTCTTCCATGCCGATCTCCGGTAGTGATTTGGTTGATTGGAAACACCAATTCTACCGGCAGGTTGGCTCCAACCCGATTTCGATTGGCTCTGCACTTACGGAGGTGTCCGATGCGGCGTGATGGTTTGGAACGGACACGTGCTCGTGTACCCGTTTCTATGGACGCACTCCGCGTCAAGGAATACGAGGCTAAAGCCGAACTGCTGCGGTTGAAAGCAGCAGCAATAGACGATCCCTTACTTAAAGAGCGTCTTTTGGCGCAGTCCAGCCTTGCATCTCTTGGTGCAAAGCGAATTGCAAATCTTTGTAACTCATTCAAACGGTGTGCCGTTTGATGCGCTGTCTTCGATCTTTTCAATGACATTGAATAACCCTTGGTAATGAATCCATGTATGCCGATCCAACCCACATTCGTAGCCACCCAGTGAAGGTGCGTTTTAACGATGCCGAGCGCAAATTGATCTTTGCGTTGGCTCAATACAACGGGATGCAACCGGCGGCGTTAGTTCGTGAATTGGCGTTATCGGTAGCCACTGCTGCGATAAAGAATGATAAGCAGCAAGCAGACGCAGCTTGAAGTGCCAAACCAGGCCCTTTGGAGGCCCTGTGGAAATTGATCTAAGCCCTGCTGATCGAAAAATATTTGAGCAATACGCACAAATCTATGGACTGGCTTGTGTTGATGAAGCGGTAGAACACGCTGCAAAACAAGCACTAAAGGACGCTTATCTGTTACGGGCCAAGAATGGGCATTCGCCTCTTGGAGAAGGCGTGGTGCTTTATTTGAAGGGACTTAAAAAGCCCTCAAGGAATCAAGAATGAAAGCAAGCGATGACAGCGTGAGCTTGACCCGTATGAATGACCGTAAGAGGAAAGGTTGTTATGTATATCTCAGTGGCTCCCTTTGATGACCCTGTAGGCAGCCTCGTTGGCGAGGGCAACAAGCGCCTTATTATCGATATTGCGGCCGGTCCTCCGGCACCAGGCAACGAAGTCAGTGGATCGTATCTCGGCCTTGATGGTCCTGATGCCCTGGTCATTGAGGCGTTTGAAGTGTTGCTCCGCAGCGGCTTCCCATTCAGCGTACGTCCGATGCCAACGGCGCTCGGGAAGGATGGGCTTACGGTAGAACAGGGCGCGCAATGAGTACTGGCCGACAGTCACGGACTGTGTCGTGATCTTGACCCACATTCACCGCTGCGGTACCGTCGCCGGTAAGGAGCTTAAGAACTCCGAAATCGGCGGTACCCGCACCCGAAACCCATGCGGTTTTTTTACGCCCGTACGTTTTACGTCGGGAGGGCGGCAGCCATACAACACCCGCAAGGGGAAAGCTGCCCGCCGTCCGATTTCGGTTCTTAACCTCCCGACACCCACAGGTGCGGCGCGTAAGAACGTCTCCCTGTGTTCTTCTCATAAATCGGGAGACATTTTTATGTCGCAGTCCATCATTCCGTTCGATTTTCATTCCCACACTGTCCGCGTTGTGATGCGCGATGGCAATCCGTGGTTTGTTGCTGGCGATGTTTGCAGGGCGCTGAATTACTCCAACACAAGCAAGGCTCTTGGGGATCATCTAGATTCCGATGAGCGCGCCACCATTGAGATTCCTACCCCTAACGCCCCGTTAGGGGTTCCTACCAACATCATTTCCGAGTCTGGCCTATACGCCTTGATACTCCGCTCCAGAAAGCCAGAAGCACGTAAGTTCTCCAAGTGGGTAACCTCGGAAGTCCTTCCCTCGATCCGCAAGACGGGAAGCTACACCGCCACGGGAACGCTGGTGAATGACGATGTGCTTTATGCCATCTGGATTCTGTGCAGCCAATTCAAGTCGCTGCATGAAACGGTATTCACCAACAAGGTTCCGCAAGCACTGGCATGGCTTGGGGCTAGGCAGATGAGCGGGGCGCTTTACGACCGTCTGCTAGATGGCCTGCACGGCGGCGTTGGCCCTATAGAGAAGGCCCTCGGCCCTCAGATGGAGCGGGTTGCGCAACGGGTCAGGGGGATTACCTATCGCCGCTTCAGCTAACACCTGCGGCTGTCTGTCTGGCCGTACTCCTTAATTAGTAAGGAGTGACTTTCAAATCGCTAAACCACCCCCGCAGTTAAAAAGGGCGGGCTGCGGGGGTGGCCTCAACTCGCCCAAAACAAAGGAAAGTTCTTATGAGTGATTCTATCACAATCCTGAAACACCCCGTAAATACCCTCGCCAAAACATGGTGCGCTGATGGCACGGTGAAAGCCTACGACAACGCCAAGTTCTTCGAGGTGGAGCAACGACCGCTCAACAATAGCCGCGAGCTGTCTGCACTCCTCACGGAGCTGGAGCAGAACCGGCATGCCTGTGTCATCCGTGGCGTGTATGTGGGCGATGCCAAAGCCGCTGCGCTGGATACAGAGTTCCAGAAAGGGAAAGCACGGCGCATTGCCGAGCTGTACGAGGATATCCCGCATCACTGGATGCTTGTTGAGATCGATAACTTCGAGCCACTGCGCCTTGATCCGGTCGCCGATCCGGTGGGGAGTATCAGCGAGTTCATCGACGCACATCTCCCGTTCTGGTTCGCAGGTGCGGATTACCATTGGCAGTTATCCAGTAGCGCGGGGCGGCCTGGGAGTGAAGGGAAGCTAAAGGCTCATGTATGGTTCTGGCTACATACGCCGTACACCAGCGCACAGCTCAAAGCCTGGGCCACTGCCTGCGCTCCAGCCCTGGACGCTTCTGTATTTAATACGGTGCAAATCCACTACACCGCCGCCCCTGTGTTTGAAGCCGGTGTGGCCGATCCGGTGCCAGTGCGTAGCGGCTTTGTGAAAGGCCTTCTTGAGGATTCTGTATTGCTGGAGATTGATGCGGCGATACTGGAAAGCGCCAAGAGTGAAGGCAAACCCAGCCGCCAACACAAGCTCATGGCTGCGGCGGCTAACGATCCCGTGGCTGTGCGCCTTGAAGAACGCGGAATGATCTTATCGACCGGTAAGGCCGGTGAACTCTTTATCGAATGCCCCTTGACTAAGCAGCATACGCAAGCCTCTAACCCCACCGCCACGGTGTATTACCCAGCGCATACCGGAGGCTATGCCAATGGCGCGTTTGTATGCCAACACGCTCACTGCCGAGGGTTGCCACAAACGGCGTTTCTACACGAGATAGGAATCTATTCCGATGAGGAAATGCTAGACATGTTCGAGGACCTCACGGACGCGCCTGCCACGCTAGCCATTGAGCGGCACGACGTGCCCGAAGCGCTGTACCTAACCACCGACAAAGCGAACGCAGTGCGGATCGCCAAGCACTACGGCAAACGGATCATGGTGTCTGCTGAGCGCTGGTTCGTCTGGGAAGGCACCCACTGGGCGCATGATACGGATGCGGCACGCCTGCTAACGTTAAAACTCTCCAAAATCATTCACGGCGAAGTGGAGCAATGGCGCACCAAACGCGCCGACACAGAGAAGGAGAAAAGCAAAAACGCAAAGATCGCCGCTGCGCTGGATGCATGGGGCAAGAAGTCGGAAATGCGCAGCACTGTTGAGGCGGCGATGGCGCTGGCTAAATGCATGATCGCGGTGAAGCCCAAACAACTGGACACAGACCCCTGGCTATTGAACTGTGCCAATGGCACGTTGGACCTGCGCACCGGAACGCTCAAAGCGCATCGCCCAGAGGACTACATTACGCGGGTCGTTCCCGTTAACTACACGCCGGATGCCGCTGCACCTGTGTTTAAAAAGACACTGGCACGTATTACCTGCGAAGAGGGGCAGGCCCAGCAGCCACTCAGCAACTTCCTGCAACGCTGGTTCGGCTACTGCGCCACCGGCTCGGTACGTGAGCATAAGCTGGCCGTGCTGTACGGGATGGGCCGTAATGGGAAAAGCACGCTACTGGACTTAATCTCGGGGATTCTTGGCGCTTACGCAAGCGCGGCGGCCCCTGGGTTGCTGATGGACGGCGGCCACGACCGGCACCCCGCCGAGATCGCTAAGCTTTTCGGACAGCGCATGGTGACGGTGAATGAAACCAGCGAAGGCGGCGTATTGCGTGAAGGCTTCGTCAAGCAGGCTACTGGCGGCGATACGCTCACTGCGCGCTACTTGTACGGCGATTTCTTCGACTTCAAACCCACGCATAAGCTGCAACTGCTGACTAATCATAAGCCGGTGATCAAAGGGCAGGACGTGGGCATCTGGAGTCGCCTGATGCTCATTCCGTTTGAAGCGCGCTTCGGCACCGCTGAAGAGGTAGAGGCAGGGATCGCCCAATACCCAATAGATCATAAGATCACTGAGAAACTGGCCGCTGAGCGAGAAGGCGTCTTGGCGTGGGTTATAGCTGGTGCCGTGGAATGGTACAAGAACGGGCTGAACCCTCCGGAGGTTGTACGGGACGCTTCCAAGGACTACCAGACGGAGCAGGATCGAATTGCCCAGTTCATTGCTGAGGAATGCGTATTAGGGATGGAACATGAGGAGAAACTAACCGCGCCGATGGGCGGTGGCCTCTACCCCGCGTATACGCAATGGTGCAAAGACAGCGGTGTTTACGCGCTATCCAAAGTCCGTTTTCTTGGCGAATTGGAGCGGTGCGTGCCGAAGTTTGGGAAAAAGCATGTATATGAAACCCCTGAAGGGGGAAAGCGCCGGATGTTTCTAGTTATTCAAGGTATCGCGTTGACGGGCGCTGACCTGTAACGAAAAGAAGTACAGCGCCCTCGGCATCTCGCAAATGGCTGTTAGCGAGATGCCGAGGGTTTGTAGGGTGTTAAAGCCGCACCGCCTACAGTCACACCCCTGCACTTCTTACACTTGCGTTTTTCGATATCAATCTAAACTCGTTGCTTAAAATATGTACACCATACACGGGGGCTAACAGGAAATTGTACGTTTTCGTAGTGCATTAAGTGCAAGGCTGCACTACCTACACTGTTTCTGCCTATGTTTTTCTATTGTCCGTCCCAACTCATTGTATAAAAAATATACAGCATATATAGAGAGAAATAGGAAATTGACCCAAATAACAGTGCGGGCAGTGCACACCCTTAACCGCAACCCCATTCTCGCGCCCGTACATCCAGCCACTGCCACGACGGCGGAAGAAAGCGCCGCCGCATCACCCAATAATCTTCTTTATAATCAATGGGTTATACTAGTCCCCATGCTTTTTTGTGATGGGTGAGTGGCCAATGCAAACAACATGCTTTCTGCAACGCTCCAATCCGCCCCGCTTGCTGGCGCGTTTGCCTTTGGATGGGAAGCCCTGCGTTGCGAGATGCGGGGATACCGTAGGGGTTGGGGTGAGGCACACCGTCGCTACCAGGTTGCCTGCCAGTGTGCAGGAGTTAGCGGATGTCATCGGACGGGAGCAAGCGTTAACCCTGATTGGTCAGTTGCCGCGTACGTATCCCAAAGGCCGCCGCAGTGGCAAGGTGATTTTGTATATCCCTAAGGCTTTATCACCCAATCACCGATTGGTATCCATTCTGGGATGGGAGGATGCACAAAAGCTGGTGGATGTTTTCGGTGGGGAGATTTTGCAGCCAGCCAATTGCAATTGCATTGCCCGCCATGCGCGGGATTGTGCAGTTGTGGGGCTTTTGCGTCGTGGTGTGCCCTTGGATGTCATTGCCGCGATATTTGGGATCAGTGTCAGGCACGTCAGGAATTTCGCTGGGGGTAGTCCCTGGCACCCGTCACGGAAAACCTGTCACAGGACGTGCGCCGAGGAGACGCGCAGGATGACCGGCAATGAATGTCTCCGGGACGTGTCATGCAGACCATTGGTGAAGAAGGCATTGCACTGATCAAATTTTTTGAGGGTTGCAAGTTGAACCCGTACACCTGTCCTGGTGGAGTGTTGACGATTGGCTACGGCGAGACGGGCAAGCACGTTGTGCCTGATATGTGTCTTGCCAATGAGCAGGAAGCCGATGCGATGTTACGTGCACGCTTAGCCAAAGAGTTTGAACCGGCTGTACGGCGTTATGTGCGTGTGCCACTCAAGCAACAGCAGTTTGATGCGTTGGTGTCGTTGAGCTTCAACATTGGTACGGGTGCGTTCCACCGCTCGACGCTGTTACGCAAGCTCAATGCCGGTGATGTGGCTGGTGCGGCGGAGCAATTTCATGTGTGGAAGTTTTCAAGCGGTCGTGTGCTTCCTGGCTTAGTTCGGCGTCGAAAAGCCGAACGTTGGCTATTTGAAGGCAAAGATTGGCGGGCCACATTAGCAGCCGAGCATGCTGCGGCGAAGAAGGCATAAGGTGATTGATCCCTCAACCATGATGTCCTGGTGGAAAGAAGCGTTTTACACGTGCCTTGCGATGGTGGCAGGGATACTTGGCTACCTGATGCGTTCTCTAGACAACGGTGAGAAACCAACCTGGGCGCGTGTGCTGATCGAAGCCAGTGCGGCGGGGCTGGTGGGGCTGTTTGCGATGTGGGTGTGTGAGTCTCTGGAGTTAAGCCAGCAACTGACAGCCGTCACTGTGGGGGTGTTTGGTTGGCTTGGAGCCTCTGCCAGTTTAGACCTAATTCAAAGCTTCATAGTCCCCAAAGTGGGGGGTGGGAGAAGGAGTTCGGATGATCGTTAATACACTGCGTCGCGTCGCAACACGTTTGCCCAGTGTGCGGCTGTTGATTGAGTACATGATGATTGGTGCGTTGGTGGCGCTGGTGGCACATGCGGTGCTGGCGTGGTCCGAGCGCAGTCAATTAGCGCAGCGGGCGGCGCAGCTGGAAGGCCAGTTAGCGGCGGTGGAAAGCACGTTGGATGCGCAGGTCGCGATCAACATGGAGCAAGACGCTGCAATTGGACGGTTACGCACTTTACGGGAGATTGACAGCCGCGCGATGTCGGGTTTGCAGTCTGATCTGAATCGGATCACGTTGCGCGACCGGGCATTGCGGCAGCGCATCACACATTTGGAGCAACACAGCGATGAGGCGAAAGCTTTTTTGGATAGGGATGTGCCTGATGTGCTTGGGTGCTTGCTCGACAGGGACGGCTGTCAAGCCAGTCACCCTCACGCAAAGCCGCGTTGAGGTGATCATCCCGCCGCAGGTGTTGTTGCAGCCGTGTGAGGCGCCGGAATTGCCACGTGTAGAGACCGTCCGCGATGTGTTGAACCAGACGTTGGGATGGCGTTTTGCCTATGAACAGTGTGCGGCGCAAGTGCGCTGTGTTGCGGCATGGGTGCAGGCGGCACGGAGGGGGCAGCCGTGGTTCTCAGATGGCTGCGGAATGGAAGACAGCGATACCTCACCGTGACCATGGTGTAGTGGCATCTGGTGGATGTGGAAGCGTCAAATGAGCGAATTTAGCTGCAATTTGACAGATTTTCATGGGTCCTTCCTGATGGGGGAGGCCTGCGGGGTCGAAACTCCGCGAAGCTTCCATTGTGCGTGGTGTTTTGATTCTCACTTGTTGTTTATATCGACCGATGGTTTTACAGAAGCAACAAGGAAAACAGGTTAATCGTGCAGGCCTTTCGGAGATATTCGGTGTAGCGTTGCCGACGGTCGATCAATGGGCACGTAACGGCTGCCCGATCGTGAAACGCGGTGGGCGTGGGCGGGAATGGACGTTTGACACGGCTGTAGTTGCCCGCTGGCTACGTGACAAAGCCGCAGAAGAAGCGGCGGGTGAAGCGGTGGCCGATATTGAAGAATGGAAGCGCCGCAAGATCGCCGCGGAAGCGCAACGTGAAGAGTTGCACTTGGCCGATGCAAAAAAGCAGGTTGCTCCTTTGGAGCAGGTGGAAAAGACATTGGCCCGCGTCTTTGCAGAAGTGCGTGCCAACCTGCGCACTATTCCAGGGCGGACCGTCGCCCTCCTACTGGGTGAAACCGACGAGCGCCGCTACAAACGCGTGCTGCTGCAAGAAATCGATCAGACCTTAGAAAATCTCGCGTCCTTGGACCTGACCCAAGAAGACACGGACGCCGACGAAGACGAGGACGAGGACGAGGACGAGGAAACAGGCGATGTCTGAAACCTTTGGTTTAACCGCCCTAGAAAACCAAGAAGGCGTCGATCAGATGATCAGCAACGCCTTACAGATGCTGCGACCGCCCCCCGCAATGAAGCCTTCCGAATGGGCACAGACACGCATCCGCATTCCTGAAGGCAACGCCATTCCTGGCCCCTTACGCCTCGACAACGCCCCCTACCAACGCGAACCCATGGATATGCTGGTGGACCCGGACTGCTACCGCGTCACCCTGAAATGGGGCGCACAAGTCGGTAAAACCATGCTGGCCTTATGCGTACAAGGCTACTGCATCGAAATGGCTCCCCGCAGCCAAATGATGCTGCAACCTTCACAAGGCGATTTACAAGCCTGGCTAGAAACCAAATTCTCCCCGCTGATTGCAGCCAATCAAGGATTACAACGCCTGATTGCAAAACCGCGTGGCCGCGATGGCGTCAACAACCAGCGGATGAAATCCTACCCTGGAGGATTCCTGATGTTCGCCTGGTCCGGCTCCCCAAAGACCATGCGCGGGCGCTCAGCCCCACTGATTGTGTGCGACGAAATCGACGGCTACGAACGCACGGACGAAGGCCACCCGGTGAGCTTGTTGTGGCAGCGCGCCGCGACCTTTGGCGATGAACGGTTTCTTCTGGAGATCAGCACACCCACCATTGAAGGTGCCAGCTATATCGATGACGCCTACCGGGCCGGAGACCAGAGGCGATTTTATGTACGCTGCCCCGCCTGCGGATACGAACAAACCCTAGAATGGGAACACGTCAGCTGGGTTGGACGCCAAAGCGACCCCGACGCCGATTTGGCCGCTATCGACGCCCATCAACCGCACACTGCACGCTACGTCTGCCAAGGGTGCGGCGTATGCTGGGATGACGGCCAACGCATTGCAGCCGTTCGCCAAGCCCGCTGGCAGGCCAGCAAACCCTTTAACGGCCATGCCTCCTACGAACTGAACGAACTCTACTCCACCTTCCGCCGCCAAAGCGCCATCGTTCAAGACTACCTGGACAAACTCAAACACCAGGACCTACAAACATTCACCAACGTCAGCCTGGCCCGCGTATGGAGCGAGACCGCCGAACAGGCCGACATTGACGACCTGCTGCGCCGCCTTGAAACCTACCTTGCCGATGTTCCTATGGGCGGCGTCTTTCTCACGGCGGGCATCGACATGCAAACCGACCGCCTTGAAGTGGAAATTGTCGCATGGGGCATTGGCGAAGAATCCTGGTCCATTCATACCGCCGTTCTCTACGGCGATCCCCTCTTAGGCGACGTCTGGGACGCACTGGACCGCTACCTCTCTACCACCTGGCAGCATGAAAGCGGCCTACGTCTATCCATCCAGGCTGCCTGCTTAGATACCGGAGGCACCTCCGGCTACACCCAAGCCGCTTACCAATACCTGCGTACCAGGACAGGCAGACGCCTCTTTGGCATTAAAGGCGTTGGCGGCTGGGGCCGTCCCATCGTAGACAAAGCACAACGCAAACATTCCGGACGCAACGCACCCAGAATCAACCTCTTTACCGTTGGCGTGGACGAAGCAAAATTAATTGTGATGCGCCGCCTTGCCATCACCCAGCCCGGCCCAGGCTACTCCCATTTCCCCGCAGACCGTTCCCCCGACTGGTTTGCCCAACTGACGGCTGAGAAATTGCGCACCCGCTACCTCAAAGGCCAGCCCATACGCCAATGGACCAAACCCGACAAAACCCCCAACGAAGCATTGGATTGCCGCGTCTACGCCTACGCCGCCCTCAAAATCATCAACCCGCATCTACCACATGACGCCAAGCGTATTAAGGACGCCGCCGCCTTATTGCCCGAGGAAAAACCGCCACAGGACCCCACCCCAGAAGTGCAACACCATACCCCTCATTTCCGCCCCCAACGCCCCCGGCACCCCTTAAAAAGCCGGAGAACATGGGCTAACGACTGGTGACCCATGACATTCCAGCACCGCTGCCCAACATTCCCTGCCAAGATCAATGCTGGATGCTCATTACAGATCGCCTTTGCACTCAAAGACTACCCCTGGCCCGACTGGACACTCCATTGCCTGCTGCGTGGTCCGGCATCACTGGACCTCATCGCCCAGGGTGAAAACACCACCCACCGCTTCGACATCCCCGCTGCGGACACTGCACAGTGGACACCCGGCGATTACCTCTACCAACTGCGTGCAGCACACAGCCCCCACACCATCGAACTAAAACGTGGCACATTCCGTGTGGAACCGGACTTCGCATCGCTGCCCCAAGGCTATGACGGACGCAGCGACAACCAACGCGCCTTAGATGCCATCAACGCCGTCCTGCAAAAACGCGCCACCCAGGACCAACAGCGCTACCGCATCAACAACCGCGAACTGTGGCGCACCCCCATCGCCGAATTACTGAAACTGCGCACCTTCTACGCCGTTGCCGTACAGCGCGAAACACCCACCGATACCCCCCGCTGGGGGAACGTCGTTCCTGTGAGGTTTGTAGGATGAACCTCTGGACATGGTGGACACAGCGCACAGCCCCTCCAGATCAGCCCACCCCAGACACGGCAACACCCCAGCCAAACCACACCCCGCGGCGCTGGTATCAGCGCCTGCTGCCCCTAGGCGGCATGTTCAAAGCCGGACAAGTGGATGCCAATGACCTGTGGAGCAGCATCCCCGTCTCCCCGGACGAATACATCACCCAACGTCTTCCAATCCTGGTCGCGCGCATGCGCGAACAATGGTCCAACAACGACCATGTCAAACGGTACATTGACCTATGCCGCCGTAACATTGTGGGTCCTCGCGGCATCGTCATGCAGGCCCAAAGCAGAAAATCGCGCAGCGGTGCCCTGGACACCACCATCAACGACGCCATTGAAACCTGGTGGCAAGACTGGGGCCGCAAAGGCCATTGTGACGTCACCGGAAAATTATCATGGCGTGAAATCCAGACCCTCTGCGTCGAGACCTGCGCCCGTGATGGAGAGTGTATTGCCCGAAAAATTTATGGCACACACGCCGGACCGCATGGCTTTTGCTTACAACTGATTGACCCCTTGCGCCTGCCGGTGCGCTACCAAATGCTGAAAACCGACCAGACCGGCGGATTTGTCCGACAAGGCATCGAATTTAACCGATTCGGAAAACCACTGGCCTATCACTTCAGCTCCATTGACGAACGTGACGCCTACTACTACAGCATCAATGGACGAGGCTACGTCCGCGTTCCTGCCGACGAAGTGATCCACATCTTCAAACCCGTGATGGTGGGACAACGCCGCGGCCTGCCTTGGGCCGCCACCTCCCTACTGCGTCTGCACCACCTACAAGGCTTTGAAGAAGCCGCCGTACAAAACGCACGCGCCGCCGCGAGCAAAATGGGCTTTGTCCGCTATCCGGAGGGCTATGGACCGCGCGCCGACGAACAGGAAAACGTTGCCCAAACAATCCAGATGAACGCCGGACCCTTAGCCATCCACGAACTCCCCCACGGCGCAGAATTTCAAGACTGGAACCCCCAATACCCCTCAGGGGAATTTGGCTTATTCACCAAAGCCGCCAAACAAAGCTTGGCCGCGGGCATGGATCTCTCCTACCACGCCCTCTCCGGCGATCTGGCGGACGTCAACTACTCCAGCATCCGCCAAGGCACATTGGATGAACGCGAACGCTGGAAAGAAGACCAGCAATTTTTTATCGAATCCCTCCACACCCCTGTTTTTGAAGCGGCCTTGAAAGTGGCATTGCTGAGCGGACAGATTCGCGTCCATGGCAAACCACTGCCTGCCGAGCACTACGACCGATACCGCCGCGTTTCCTGGCAAGGCCGCCGCTGGGCCTGGGTTGATCCCCGCGCCGACGTTGAAAGCGCACTGACCTGCATCCGTGGCGGCCTGACCTCCACCAGCCAAGTGATCCTGGAACAAGGCCGCGACCCCCAGGACGTCTTTCGCGAAATCGCCCAAGACCTGAAAGAAATGCAAGCCTCCGGCATCCCCAACGACTACCTCAAGTACCTGCTGTATGGCGCAGACCTCACTGTCGCCAACGCCACACCGACCGAGAAGGAACCCACCCCCCATGAACACAGCGACTGAAGTAGTACGGGACCTTCGCAAAGGCGGCACCCAGTACCGCCATGCCGACGTCCTGTCGATAGACGCACCCGCCCGAACCCTTGAACTTGCATTTAGCAGCGAATCAGCAGAAGTAAAGACATGGTCCGGCGTGGAGATTCTCGGCCACCGCCCCGGCGAAGTGCGCCTGCACCGTCTTGACAACGGTGCCGCCTTACTCCTGGACCACAACCCGCGCGATCAGATTGGCGTTGTCGAATCGGCCTCTATTGACAGCGACCACCGCGGACGCGCCATCGTGCGCTTCGGGCGCAGCCCACGTGCTGAAGAAATCTTACGAGATGTCCTGGACGGCATCCGTAAACACGTCTCAGTGGGCTATTTGGTGCATCAAGTCGAAGTGATCGGCCAACGCGACGGGTGCCCCCTATACCGCGCCACGGACTGGGAACCCATTGAAATCTCCATTGTCAGCATCCCTGCCGACCCTTCCGTGGGCATCGGGCGCGCCTTGGAAAATCCGCCACAGGACACCCCAGCCGCCGCACCACACACTCCATGCACCCCTGAGGATCAACCCATGACGGAACCATCACCCCCCACCCATGCCGACACCACCAGCACACCCCAGCCGACATCCAACGATACCGGCACCCTCAACGGCGTCGATGCCGAGCGGACCCGTGTCAGACACATTGCGGACCTTGGCAAAACCTACGGGCACTTGGAACTAGCGCATGACTACATTACCCAAGGCCACTCACCGGAAGCATTCCAGCGCGCCTTACTGACAAAACTGACGGACAAAGCATCCATGCCCCAATCCGAACCACAGACCGACACTGACACCGGCATCGGCCTGTCCACACAAGAAATACGGCACTACAGCATCGTCCGCGCGGTCCGCGCGTTATTGCCTAATGCCAGCCAAACCGACCGCAACGCGGCGGCCTTTGAGATTGCCTGCTCCGCCGCCGCAGAAAAAACCTACGGCAAACAGGCGCGCGGCCTGCTGATCCCCTCGGACGTCCTGAACCGCGCCTTCTCCACCACCACCCCGACGGACGGCCCCGGCGGCAACATCATTGCCACCGAACTGCACGCCTCCTCCTTTATCGAAATCCTGCGTAATAAAACCTGGGTCATGCAGCGCGCTACCGTGATGGGCGGCCTGGTGGGCAACGTCGATATTCCTAGACAGAAAGGCACCACCCAAGCCTACTGGGTGGGGGAAGGTGACTCACCGGAAAAAAGCAAACCGGCCCTGGACCAAATCCACTTCACCCCCAAATCCCTGGCCGCCTATACCGACATCACCCGGCGTCTGCTCTTGCAATCCACCCCGGATGCCGAACAAATCGTCCGCAGCGACCTCCTGAACGTCATGGCCCTGGAAGTGGACCGTGCCGCCATCTACGGCAGCGGCTCGGATATGCAACCCACAGGCGTTAAACACCACAGCGGCATTAACGCCGTGTCCTTTGCACAAAAAGGGCAACCCACATTTGCTGAACTTGTCCAGATGGAAACGCAAATTGCACTGAACAACGCAGATGTGAACGCCATGTCCTACGCCTTCAATGCGGGCATACGTGGCTACGCCAAAACGGCCTTGAAGTTTCCCCAGACCGCCGCCAGCGGCACGATTTGGGAATCCGGCAACACCGTCAACGGCTACCCCGCCAGCGTGTCCAACCAGATTAAGGCCGGTGATGTCTTCTTTGGGAACTGGGCGGACCTCATCATTGCCATGTGGGGAGGCTTAGATATCACCGTTGACCCCTACAGCCTCAGCACCAGCGGCGGCACGCGGATTGTCGTGTTCCAAGACGTCGACTTTAACATCCGTCGTACCGAAAGCTTCTGCTACGGCGCAGCCGCCTGACCCTTAAGGAACACACCATGTCGACGACGACAAACACCCTCAAAATCAGCGCTGCGGTGGTGATCCAAGGCCTGATTTACCGCCCTGGCACAATCGTCCAGGTCCCTACGGCACTGGCGCACGATTTAATGCGCCGTGGCCGTGCTGAGCTTGCCGGTGATGCCGATGGCCCCGTGGGGGTGATCATCGACCCACCCAGCGGCGAAACGCCCACGCCCAACACGTTGACCCGTACAGAAACCAATGAGAAGCCATCCCAACGCGGCGGTCGCCGTTGATGCACCACCCCTGCTGGGACGATCTAGACGCCTTCCTAGAAACCGATGATTTTGCCGTGACAGCCCAGTTGCACTCGGAGAAAACGGGGCGCGTCCATGCATGCACCATTGTTTTTGACGCGACCTACATTGATGCGGACATCGGCGACTACAGAATGAACGCCCCGGAACCCTCCTTTACCTGCAAAGAGACCGATGTTATGGGCTTCAAAAAACATGACTACGCCCGCATTGAAGATCGCCACTACCGCCTCACCCACGACCCACAACCGGATGGAACCGGCATGGCCCTCGTGCGGCTGGCCCCGATGGTGCCCCCATGATTGGCTTCCACATCCACACCCACAGCCTCACCGCCATCGCGCAAGCACTCAACGCCACGGAAACCCAGATGCAACAGGCCCTACGTTCGGCCAGCATCAAAATGGCGGCCTGGCTGCGTACCCGCTCCGTGCGTGGGCTGAGCGATGCATTGCAACTCCAACAAAAGATCGTACGCCGCCGCCTGCGCACCTATCGACAACGCGACCAGATGAAAGTGTGGTACGGCCTGAACCCCGTCCCCCTCCTATGGCTGAAACCCAAAACCACCCCTAGCGGCGTCAGCGCCCTTGGCGGGCGTCAGATCAAAGGCGCATTCATCGCCACAGTGCGCGGCAAACGGCAGGTACTCAAACGCCTGGGCCGCGCCCGCTACCCCGTGGCCGTTCAAACAGCCGACATTTACGCCCCCTCCATCACCTATATTGAAAACGGCCTTCTTGACACAGCCTCCTTTGAAGCACGCTTTTACACCCTGTTTGAGCACGAACTGCAATGGCGGACACGCACACTGACATAAGCCTGGACGCCCTGCATACCGCCATCCGCGACCAAATTGCAGCGCAATTCCCAGACCTGGCCACCGTGACCTTTTATCAGGACGATGAAGACCACCAATTGCCCATGCCCGCCTGTTTACTGACCCTGAGCGAGATCGAACCCGCCCCCGAAAACGATGCAGGCACCGGACAATTCCCCGCGCTGCTGCGTTTTCAGGCACGGCTTGTCCTAGGGCACCGCAGCCCCACCACCCACCTACAAGCACGTCTGGCCGCCGCCGCCCTCGGCACCTGGTTGTACCAGCGCCGCTGGCGTGGCGTACCGACCGATCCGTGTCGCGTGATTGCCATCTACCCAGACGAATTCAACGCCGAATTAGATCGATACGTCGTCTGGACCGTGGAATGGCAACAACCCGTCTTTCTTGGTAACAGCGCCTGGACCCATGCAGGCACCCTACCCACCCACCTATGGCTGTCCTTCACACCGCAGACCGGCCCCTCCTTCCAAGACAGTTACAACCAGATCGCCCCGTGAGACAGACACTCAACGAACACACCCGCCAATTAGCGCACCTGATCCTTCAAGGGACCGTCGCCGAACTGGACCCTGCGACCGCCTGCGTGCGGATTGAAGCCGGAGAACTGCTCACTGGCTGGCTGCCGGTGATGGCTTCACGTGCCGGAGCCGACCGCTCCTGGTGGCTGCCGCACCTGGGGGAACAAGTCATTGCACTGTGCCCCAATGGGGATTCAGCACTGGGCATCGTCTTGCCTGGCAGCCTCTACCAAGAGACCTTCCCCGCGCCCAGCAGCACCGCCCATCAGCCCTGCCTGCTGTTTGCCGACGGCACACGCATCACCTACGACCGCCAAGCCCACACCCTGACCGTGGATGCCTCCGCCGCATCCGGCACCGTCACCCTGATCTGCGCCACCGCCACCCTCACCGCTAGCGACCGCCTCACCTTGGACACGCCCCGCCTCCACCTCACCGGCAACCTCACCGTAGACGGCACCATTCACGCACAAGGCGACATCACCGCCGCAGATATTGGCCTACAACGTCACCACCATACGGCCCAAGGACCCAATGCACCCACCACCCCAGCGCAGGGGTAGGCGTTCAAGCCACTCGCGGATGAATCCGTGACAGCGCATCTCCAAGATCACGTTTGGCACATTCCAACGCATAGTGCTGTTCCAAATTCAGCCAGCTTTGCGGATCGGTACCGAAGTAGCGCGCCAGACGCAAAGCAGTATCTGCGGTGATCCCGCGCCGCTCGCGCACAATCTCATTGATGCGTGCCGCCGTTATCCCAATGGCCTTAGCCAGCGCATTACTGGACAGACCTAGAGGGACCATAAACTCCTCCCGGAGAATTTCCCCTGGGTGAATGGGGGGAAGTGTTTTAGACAGACTCATCTCTTGAAATCTCAACGCACACGGATTTCCACGCGTTTCCCAGCACGATGCAACAAACTGACAAGCTTATCCACGCTGAATCGATCTGTTTTGAGATGCATCACTTCAGAAATACGAGTCCGAGGCACGCCGAGTTCATCAGCCAGTTCCTGCTGCTTTTTGCCACGCTTGCGTAATTCCTTTTCCAGCGCGATCAACAACGTTTCACGTGCCAGCATGGCGGCGGCCTCATCAGGGGGGAAACCCAGATCCTCGAACACGTTACCGCAACTCACTGTCATTTTTTCGCTCATTTTATTTTCCAATTTGTTTGAATCTCTGCTGACCTAATGCAATGTCCTTAGGGCTAGTTGTCTGCGTCTTCTTGACAAATGCATGTAGCACATAAACAGCGTTACCAATGTTCGTGACGTAAAAGGCCCGGAACGCGCCGCCCGCATGGATACGCACCTCACGAACCCCAGGACCGATGGTTTTCATCGGTTTCCAGTCCTGTGGATCTAACCCTTCTTGTAATCGCAGAAGTTGACGGCCCAATGCTTGGCGGGCGGATGCAGGGAAAGTACGGATATCCTCCAGAGTGCTCCCAATGAAAATAATCGTCTGCATGAAAATGAATGTACAAAAATAACGACATTTTGTCTAATATTTTGTACATCATCATGTGTTGAACCCCCCATGGAAGGGTTTTGGAAAACCCGCCACAGGACACCGCCCGGTGAGTCCCCCCAAGCTGCTGAGCATGCGCGGAATGAACATGCACACCGGAAAGCCGCTTGATGGCATCGCCCACCTGCGCCAATCGGTGCAGAACATCTTGAGCACCCCCTTGGGGAGCCGGATCATGCGCCGTGATTACGGCAGCAGGCTACCGCACCTGCTTGATGCCCCGATCACCCGCGCCCTAGAAATGGAACTGTACGCGGCCACCGCACAAGCCCTTGCCGCCCACGAACCACGGATCAGACTGCGCCAAGTGACGGCCCGCGCCACCGCATCGGGCACGGTCATCCTGGACCTGATCGCCCAGTACCTGCCTGCGGGCAAAACCGTCACCCTGGACGGCATCCAGGTGCGCTGATGGATAACACCCTGACCGCCATTGATATCTCCAAGCTGCCCATGCCGGATGTGATACGGCAAGTGGCCGCAGACGTGATTTTGCAAGAAATGCTGGCTGATCTGGCGGCACGTGATCCGACCCTGAAAGACCTCCTGCCCTCAGACCCCATCTACACCCTGCTGGAAGTGGCCGCCTACCGCGAAGCCGTGCGCCGCTACCAAAGCAATGAAGATGCCAAAGCCGTGATGGTGGCCTTGGCCAGCGATGCCGACCTGGACCATTTAGCCGCATTATTCCGCGTCAAGCGCCTCATGCTGGATGCAGGTGACCCCTCTAAGGGCATTGCCCCGACGATGGAGAGTGATGCCGCCTTCCGGCGGCGTATCGTCCTTGCACCGGAAGGCTACAGCGTCGCCGGTCCAGAAGGCGCTTACATCTACCATGCCATCAGCGCCCATGCCGACGTGCGTGACGTCAGTGCCACCAGTCCAACCCCTGGGGACGTCATCATCACCGTGCTATCACGCAGCGCCAACGGACAGCCTTCACAAGACGTACTTGACGCCGTGATGGCGGCGGTTAACCAAGAATCAGTACGACCGATGACCGATCATGTCACCGTACAACCGGCACAGATCACTGACTACCAAGTCCACGCACGATTGCACACCTACGCCGGACCGGATGCAGCGGTCGTCCTGTCCGAAGCACAGCGCCGCATCACTGCCTACACCACAGACGCATTCCGCTTAGGCCGTGATATTGCCATCAGTGGCCTGTATGCCGGACTGCATGTTGAAGGCATTCAACGCGTAGAACTGCTCACACCACAACAGGGACTGACGATGGACCGTACCCAGGCGGCCCGCTGCACCAACATCACCGTCGTGCATGGGGGTGTGGATGAATGACCCTCTGCACAGCCTGCTGCCCCCCACGGCCACGCCGCTCATGCGCACCCTGGAGCAAGTGATGGCACGCATGGCCGACATCCCGATCCCATTCAAACAACTATGGGACCCGCACACGTGCCCCGAGCCATTGCTCCCCTGGCTGGCCTGGTCATTGTCCGTGGACACCTGGCGCAGCACGTGGCCCGTGCATATCAAACGCGCGCGTATTGCGGCGGCCATCGAGATTCAGCGTTGTAAAGGCAGCGTCAAAAGTGTGCGCGATGTGGTGCGCAGCTTTGGCGGAGACGTCCTCATCACCGAGTGGTGGCAACAAAACCCACCCGCCGCACCGCACACCTTCACACTGCTGCTTACCTTATCGGGGCAGGGCGGTAGCGAGACAACTGCCGAATTTGTCGCAGATGTCATTACAGAAGTGATCCGCACCAAACCCGTTCGCAGCCATTTCACCTTTACCCAAGGCGTGCACACCATCGGACAGATTGGCCTGCTGGGTGGCGCACAGATCACCGCGTACCGACGCGTACAACTCACCCAGGCCGCATGAGGATGGTATGACCCCACTCCAGATCACCATCACCCCACAGGGCCGCGCCGCCCTAGTGAACGCCGAACATCATGGCACCGTCCCCGTGCGGCTGGCTTCTGTCGGCCTGACCGCGCAACACTTTGACCCCGCCGCGGCAACGATGCCTGAGGAATCCAAACGCCTGACCACCTTCTCAGGCGGCGTGGTGGCCGCAGACACTATTCACATCACCATCCGCGATGCAACCGCCGACCAGTACGACATCCGCGGCTTTGGTGTCTACCTGGAGGATGGCACCTTATTTGCCACCTACTCCCAACAGGACATCATTCTCAGCAAATCCGCATCGGCCATGCTCCTGCTGGCCATTGATGTTCGATTCGTAGATACCGATGCGACGCAACTCTCCTTCGGTGACACCTCCTGGAACAACCCTGCGGCGACACAGACAGTGGCAGGCGTGCTCACCTTGTCCAGCAACGCCCAAGCCATCGCGGGCCTGGAGGACCGCAGCGCCATAGCCCCTGCCGCATTGAAAGCCACCCTGGATCACCGCCTAGGCGAAGCCGCCCCTTCCGACTATGCCAAAACACTGATCGCCAGCGCCGATGCGCCCGCCCTCCGTCGCCTCCTGGGCCTGGGCGAGGCTGCCGTGATGGACACCGGATCAGAAAAAGGATTGGATGCAGATTTACTGGACGGCTATCACGGCACCTACTACCTGCAATGGAGAAACCTCCAGAACACCCCACAGACCTATCCACCGAGCGCCCACCAGCACGCCAGCAGCGATCTCCCTGAACTGGCCTCACAACTAGATACTCTGGTGAAAAAAACGGGGAGCCTCATGACCGGCTCGCTCCAGTCCCAAGGCACCTTGATTGGAGACGCACTGGGTAACGGACGCATTCCGGCACTGAAAATCGGTAACGATTGTGAATTCTGGGACAACAATATCCCCTACGCGGCCACCTTCCGCAGCGGCACCTCCCCAGCCATCGCACAACTGTTCTTTGGCACCAGCAACCATTGCTATTTCGGCACCAGCACCAAAAACACCAGCACAGTGATTGGTGCAAAAACGGGCTTACTGTGGATTGAAACCGCAGGCAATTACTACTATCAGCAACACGACACAACCCACGTTGCCTTTTACAAAAAGAACGGAGGCCACGCCTTTTTCTGGAGACGCAGCGACAGCGGCGGCAGCGGCAGTACCAATGAAGCGCAACTGATGGCACTGGAAGACAATGGCAATCTATCCGTGAAAGGCACTATCGTCTCGGCAGGCGGCTACGCCCAAGGCTCCTCCCGAAAACTCAAAGACATTGAAGGCCCCCTGCCGTATGGCCTGGCAGAGATTGAACAACTCACCCCCCTGATCGGACGCTACAAACCGGCCTACACCCCCGACGGACGCCGCCGCCTATTTTTAGAGGCAGAACAACTACTCGACCTAATGCCGGAAACGGTCAATCCCGAAGGCATCCCCTTCCAAGGCGCTTACGTCCCCTCGGTCAACCTGGACCAACTCCTGCCCGTACTGGTGAATGCCATTGCACAGCTGTCCGCCAAAGTAAACGCACTGACCGGCGCGCCACGCCACGCGGAAAAATAGCCACAGGACAGCAAACAGCTGTCGCACCGATCATCTCCCCGTCTTACAGCATACGAAGGGCCTGATGACGGAACACTATCTACATGGCGTTGAAGTGCTGGAGATCGACGATGGCGCACGCGTGATCCAAACGGCCTCGAGCAGCGTCATTGGCCTGGTGGGCACTGCACCTCTGGCCGACGCCACCACCTATCCCCTCAACACCCCCGTGCTGATCCCAGGATCAACCGCAATGGCGGCCACACTAGGGACAGCAGGCACCTTGCCCCAGGCCATGGACAGCATTTTTGATCAGATTGGCGCAGCCGTGATTGTGGTGCGTATTGAAGATAGCGTTGATGAAACCGAGCGGCTGTCTCATGCCGTCGGTGGCATCAACGCCGCCAACGGCACCTATGAAGGCGTCCATGCGCTGCTGGCTGCCGAAAACATCACCGGCTACAAACCGCGCCTGCTGATTGCTCCAGGCTTGACCCACCAACGCCCAGAACAGACACAGGCCAACCCCGTTGTGTCCGAATTGATCGGCATTGCCGAGCGACTGCGTGCCATCATCATTGCTGACGGCCCGGGTACCACTGATGCACAGGCCATTGCTTATGCGGGAGACTTTGGTAGCAAACGTGTGTTCCTGGTCGATCCGCCTATCACCACACTGGGTGCCGATGGCACCACCATCACTGCCTACAGCAGCGCTGCGGTGGCCGGACTCATCGCCAAGATAGATAACCGCAACGGCTGGTGGTGGTCCCCCTCCAACCAACCCATCAACGGCATTCTTGGCACCTCACGCCCCATTGATTTTGCATTGGGCGATGCCACCAGCCGCGCCAATCTGCTCAATGAAAAAAAGATTGCCACCATCATTCGTCATGACGGCTACCGATTATGGGGAAACCGCACCTTATCCAGCGATCCCAAGTGGACCTACCTCTGCGTGGTCCGCATCGCCGATATCATCGCCGATAGCTTACAAGCGGCCCATCTGTGGGCGGTGGATCGCTCCATTACCAAGACCTACGCCAGTGATGTTGAGGAAGGCGTCAATGCCTATCTGCGCCGACTGAAAAGCCTGGGCGCGATTATTAATGGCCGATGCTGGGCCGATCCGGAACTCAATACAAAAGACGCCATCACCGCCGGGCACGTCTATTTTAATTTCGACTTCACCCCGGCCTATCCCGCCGAACACATCACCTTCCGTAGTCGGCTCACCAGTGATTATCTTGTGGAGGTGTTCTAATGTCCGCACCGCGTCATCTCCTCAAACACCTCAACCTGTTTATTGATGGCAAAGGCTATGCAGGGCAGGTCGAAGAGATCAACCTGCCTAAATTGACCTTAAAAACCGAAGAGTTCCGGGGTGGCGGCATGCTGGCCCCTGTGGAACTCACGATGGGTATGGAGAAGCTCGAAACCGATGTCAGCTTGATCTGCTACAGCAGCGACGCACTCCTGCTGTTCGGCGTCACCGAAGGAAAGCAGGTGAACTGCACCGTGCGTGGCTTTCTGGAATCCTTCGACGGGACGACAACAACCCTTGCGATCCATCTGCGCGGCAAAGTCAAAGAAATCGATCGCGGCACTTGGAAACCGGCTGACAAATCCACCCTAAAACTGGCGTTGGCACTGAGCTACTACAAAGAAGTACACAACGCCACCGTCATTCATGAAATCGACGTAGAAAACATGATCTTTCAGCAAAACGGCATTGATCTGCTCGCCCCCGCTCGCAACGCACTAGGACTCTAACCATGACCGGACCGACCACGGATAAACCGTACCTCCGCGAAGCAGAAGGCGGCGTACACATCACCTTCGCCTCACCCGTCAGCATCAACGGGGCCACCGTCAATGAACTATGGATGCGCGAACCGACCGCAGGGGATATGAAACGCTCCTTTGCACTCCCAGGCAACGAAGGCGAACGCGAATTGCGCCTCTTTTCCAACCTTCTGGAAGTGGCCCCCGAAGCCTTAGAAACCTTCAGCCTGCGTAACTACAAACGGCTACAGGAAGCCTTTCTGATTTTTATCGAGTGAGGCTAACGCTGGAGGAACTCCGCCAAGGCGTTCTGGCCTTAGCCTCGCATACAGGATGGTCGCTCGTGGACATTCTCGCGCTCCCAACGCGTGAATTCCTATTCTGGATCGACGGATTACCGCGCGATGGCGAGTAAAAAACAATTCCACGCAAGCCTGATCATTGCTGGGCACCTGTCCAGCACATTGAAAAGCGCCTTCGGGTCCACACAGCGCAACGTACAACGTATTGGCGCGGCGGTCACCACACTCTCGCGGCAGCAACGTCTGCTCGGGCAAGGCATTCAAACTTTTGGGCGCATGGGGCGCAATATTGACGGGCTGCGCACCCGGTATGACGCATTAACCAGACAATTAGAACGCACCCGCGCCGCACAACAGCGGCTCAACCAAGCACAATCGGCCCTTGAAGGACACCGCGCCCACCTTTCGCAGACGCGCGGCCAGCTCGGGGGCGCCGTAGGCACCTTGAGCGCTGTCTCTGCCGCCGCGTTTTTTCCCATCAAGGCGGCGGTTGAGTTTGAAACCGCCATGCTTGGCATTGTCAAGCAAGTCGATGGCGCACGCGACCCTACCGGCAAGTTGACCTGCGTGTATGAGGACATGGGCAACGCCATCCAGCAGCTCGCGCGTACGATCCCCATAGCCACCAATCAACTGGCCGACATGGTGACCGCCGGTGCGCGTATGGGCATTGCCGAAGGCATGAACCCGGAACAGGCAAGAAAAACACTGATCGAATTTACGCGCGTCTCGGCCATGGCGGCCACCGCCTTTGAGATGCCTGCTGATGAACTTGCCGATAACATGGGAAAAATCGCTGGCATTTTTAAAATCCCGATCAGCGACATTGAGCGTTTGGGCGACGCCATCAACTACCTCGATGACAACGCCATCTCTAAAGGTGGCGACATCATCAAAGTGATGCAGGGTGACCTGGCCGGAGCGGCCTCCACCATGGGCTTATCCGCCAAAAATGCGGCGGCGCTGGCGTCTACCTTCCTCACCCTGGGGGAATCCGCCGAACGCGCTGACACCGCCGCCTCTGGACTGCTACGGCAATTACAAATTGCCAAAATGAACCCCAAACGCTTCCAGATCGGCGTGGGGATGGTGGGCATGACCGCTGACCAACTCCAAAAAGGCATGGTCACCGATCCCCAGTCCATGATTCTGGACGTTCTCACACGCATTAAGAAACTTCCTGTTGAACAGCAAATGGAGGCCGTCACACGCCTGTTCGGCAAAGACTGGGGCGGTGCCATTGCTAAGCTGGCTAACGGTGTCGATGAATACCGCCGCCAACTGGCGCTTGCCAACGGAGAAGCCGCCAAAGGCAGCATGTCGCGGGAATTCCAAGCCAGACAGCGCACCACAGCCGCGCAGTGGCAGATCACTAAAAATCGCCTCACCGAGCTTTCCGTAGCCATTGGTAACGCCTTACTGCCTGCTATCAACGACCTGTTAGCGTCCTCGGCTCCGGTCATTGAGCGATTTGCAGCATGGACACAACAACATCCCGGCGTAGTGAAAGCAGTGCTGGGAACCGCCCTGGCCCTGACCGGTTTTAGAGTCGCCGTCATCGCCCTGCGCTTTGCCTTTGCCGCCCTTCACTATCCCCTGTTGCTCGGGCTGCGCCTGATCGCCTCATGGCGGGCTGTTGGCACCTTGGCGTCTATGGCCCAAGTGCGCACTGCCGCGCTGGCCGTGGGGCGCGTGCTAGGTCGCGTCGTCCCCGTGGCATGCATGGTGGCTGGCCGTGCGGCACTGTGGATGGGCCGGGCATTGCTCATGAATCCGGTGGGACTGGCCGTCACCGCGATTGCTTCAGGTGCGTTGCTGATCATCCAACACTGGAACACCATCAAACCGTTCATGACCACCCTATGGGAAGAGGTCAAAACGATCTTCAGCGGTGCCTGGAATGGGATTACAGGCCTTTTTACCGGCAACTTCGACCGTGTGAAAAACGGATTCAAAACCATGTTTGATGGCGTCGGCACCATCGCTACCGCCTTCTTCGACAAACTCAAATCGCTATGGGATTGGGCCACCGAAAAGTTCACCACAATGAAGCAATGGTTAGGCATCGGCGACAGCCTAACCCAACACACCATTGCTACCGCAGGTGCAGGCGCAGCCCCCACAGCAACGGTGCGCATGCCGCCATTGGCGCAACAGCATAGGACAAACAATGCGGATTACCGTAGCTACGCCACCTACAACATCACCCAACAACCGGGCGAACGTGGCGAAACCCTAGCACGCCGCATCGCCGCACACTCCAACCCATCACAGAGGCCACCACGCAGCGCCCTGTACGACGATGCCAGAGGCCAAGAATGATCCGTCACACCCTGTGGAACACTGTCGCCGCACCCCTGCAAAACGCATTCCAAACCAACACCAGCGGTAACCGGCCTGTCCTGATGATGCTAGGCGGCTACACCTTCTCACTGGCTAGCCTCGTCTACCAAGAACTCGCCCGCGTGAACGAATACCGCTGGGCCGCCATCGAACGCTATGGGCAGCGCGATGCGCGCCAATACACCGGCCCAGGGGAGGAAAGTATCGAACTGCCCGGTATCGCCTACCCAGATTGGCAAGGCCAACGTGCCTCATTGGACGAATTACGCGCCTTGGCCGCCCAAGGCAAGCCCTTACAGCTCATTGATAGTAATGGCGTCATCCATGGCTGGTATGTCATCGAACGCATTGAAGAACGCCAAAGCAACCATCACCCCAACGGCACACCACGGCGCATTGAATTCACACTCGCCTTACAACGCGTCAACGACGACCAGGCCGTAGAGGCCGCCCCATGAGCCTGCACATCTATCGCACACGCCACGGTGACACCGTCGACTGGCTCGCATGGAAGTATTACGCACGCACCGATGCGGCCATCATCTCGGCGATCTATGAAGCAAACCACGGCTTAGCCGCCTGGGGTCCCGTGCTGCCGGAAGCTATCGCGATCACCTTGCCAGACCCTGCGGCCACACCGCACACCCTTCCAGGAGTCGCATTGTGGGAGTGACGCCCTCTTACCGGCTCATCGCCAACGACAACGATATTACCGCCCTCATCGCCGCACGTATGGCAAGCCTACAGCTGTCCGATGAGTCCGGAAGTCATGCTGATACCTTGGAAGTGGTCCTGGCTGATCATCTGCCTAACGCCCCGCTCAAGCTGCCACCGATGGGGGCGGAACTGGAACTGGCATTAGGCTACGACGGCCAATTACGCCCGATGGGCGTTTTCGTGTGTAGCGAAATCCAATTGTCCGGATGGCCCGCCACGATGACCCTGCGTGCCCACGCTGCCCCCTGGGAAGGCACCCCCAAAGGCAAAAGCGACCTGCAAACCCAAAAAACCCGCTCTTGGCCTGCCGGAACCACACTCGGTGCCATGCTGTCCACAATGGCTGCCGAACATGGCATGACCTCCGCGATCTCCCCGTCACTATCAGGCGTGGCATTACCACACATTGATCAGACAGAAGAATCAGATATCAACGTCCTGCTACGGCTAGCACAGCGGTACGATGCGATTGCTAAACCTGCCGGAGGCAGACTGATTTTTGCCAAACGCGGTGAGTCTAAAAGCGTCACAGGCATTGATATGCCGCGCATCACCTTGACACCTGATGAGATTGCCTCCTGGCAAATGACCTACGCAACGCGGGATAGCCCCGGCACAGTGGTTGCCTTCTACCGTCTGGCACGCCGCGCTGAACTGCATCAAGTCAGCGTCGGCGACGGGCATCCCGTTCACCGCATCAAACAATACCTGCCTGATGCTGCCGCCGCCATCGCCGCCGCTCGGGGTGAACTCTCACGCCGCGCCCGCGCTGAAACCAAGCTCTCTCTAGAGATGGCAGGGCGTGCGGAGCTGTCCGCAGAAGCCGTCTTGACACTCAACGGCTGGCGGGAAGGCGTTAATGGCGATTGGCTCGTCACCCGTGTGCAACATTGCCTAGACAAAAACGGCTACCGGTGTAGCGTCGAAGCCGAGCGGCCCAACAGCCATCCGGATGTTGCTGCCGCCATCAACACGCAAGTACGCGATCACGTCATGCGCCACTCCCGCGCTGACCATCAGAACATATAGGGACCTACTATCAGTTCCACATTTTCTGATACCTCAATGCGGCATTCTCTGATACCACCGTCCCGCTTCATGAGGCATCTTAATCCTTGCCGGACGCGGGGCCATTGAGGCCGCTCAACCCGCGTGGCGCTGGAGCAGCGCCTCTACCGGCACCTTAATTCGACCGCTAAAAATCGTTTCCGCATACTGTTTCAAGCGGTCAATAAAATCAACAAGTTACATTGGAGTTGATAGAGGTTGTTGCGGAAAAGAATTGAGGCTAACTGTTTGATTTTTAAGATTTTGACATCATGCACCGCCATCAT	NA	NA	NA	NA
WP_010893986.1|1585323_1586703_-|protease	ATP-dependent protease ATPase subunit HslU	protease	A0A191ZC11	Erwinia_phage	29.7	8.4e-40
WP_023907771.1|1586771_1587323_-|protease	ATP-dependent protease subunit HslV	protease	NA	NA	NA	NA
WP_023907772.1|1587912_1588797_-	tyrosine recombinase XerC	NA	A0A0K0N6I5	Gordonia_phage	32.5	3.5e-15
WP_031336763.1|1588820_1589492_-	DUF484 family protein	NA	NA	NA	NA	NA
WP_023907774.1|1589488_1590343_-	diaminopimelate epimerase	NA	NA	NA	NA	NA
WP_075584652.1|1590352_1590661_-	lipoprotein	NA	NA	NA	NA	NA
WP_031336764.1|1590667_1592821_-	oligopeptidase B	NA	F2Y2Z7	Organic_Lake_phycodnavirus	36.6	3.1e-25
WP_004083722.1|1593576_1594044_-	SET domain-containing protein-lysine N-methyltransferase	NA	NA	NA	NA	NA
WP_031336766.1|1594207_1594669_+	SUF system Fe-S cluster assembly regulator	NA	NA	NA	NA	NA
WP_031336768.1|1594689_1596147_+	Fe-S cluster assembly protein SufB	NA	NA	NA	NA	NA
WP_023906716.1|1596297_1597134_+	Fe-S cluster assembly ATPase SufC	NA	A0A2R8FG22	Brazilian_cedratvirus	27.6	2.2e-11
WP_010893975.1|1597133_1598402_+	Fe-S cluster assembly protein SufD	NA	NA	NA	NA	NA
WP_010893974.1|1598389_1599640_+	cysteine desulfurase	NA	Q2XUY6	environmental_halophage	39.4	1.1e-86
WP_010893973.1|1599743_1600073_+	non-heme iron oxygenase ferredoxin subunit	NA	NA	NA	NA	NA
WP_023907777.1|1600574_1601720_+	glycosyltransferase family 4 protein	NA	NA	NA	NA	NA
WP_010893970.1|1601716_1602571_+	polysaccharide deacetylase family protein	NA	NA	NA	NA	NA
WP_010893969.1|1602654_1604001_-	phosphoglucosamine mutase	NA	NA	NA	NA	NA
WP_010893968.1|1603997_1604894_-	acetyl-CoA carboxylase carboxyltransferase subunit beta	NA	NA	NA	NA	NA
WP_031336771.1|1605625_1606783_-	N-acetylglucosamine-6-phosphate deacetylase	NA	NA	NA	NA	NA
WP_023906719.1|1606782_1607823_-	SIS domain-containing protein	NA	NA	NA	NA	NA
WP_023907779.1|1607819_1608890_-	LacI family transcriptional regulator	NA	NA	NA	NA	NA
WP_023907780.1|1608893_1610183_-	glucose/galactose MFS transporter	NA	NA	NA	NA	NA
WP_031336773.1|1610276_1610462_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336775.1|1610880_1611885_+	glucokinase-like protein	NA	NA	NA	NA	NA
WP_010893960.1|1611904_1612321_-	antibiotic resistance protein VanZ	NA	NA	NA	NA	NA
WP_023907781.1|1612308_1613493_-	class I SAM-dependent methyltransferase	NA	NA	NA	NA	NA
WP_010893958.1|1613579_1614317_+	pteridine reductase	NA	NA	NA	NA	NA
WP_080507206.1|1614327_1614894_-	2-amino-4-hydroxy-6- hydroxymethyldihydropteridine diphosphokinase	NA	NA	NA	NA	NA
WP_023907782.1|1614972_1616469_-	response regulator	NA	A0A2K9L0Z8	Tupanvirus	35.8	1.4e-08
WP_031336780.1|1617121_1617553_-	fluoride efflux transporter CrcB	NA	NA	NA	NA	NA
WP_023906726.1|1617693_1619061_-	replication-associated recombination protein A	NA	G3MBE0	Bacillus_virus	36.7	2.3e-69
WP_023906727.1|1619193_1619838_-	outer membrane lipoprotein chaperone LolA	NA	NA	NA	NA	NA
WP_010893952.1|1620381_1622292_-	DUF3857 domain-containing transglutaminase family protein	NA	NA	NA	NA	NA
WP_088572698.1|1622476_1624831_-	DNA translocase FtsK	NA	G1D482	Mycobacterium_virus	45.1	3.1e-82
WP_010893949.1|1625097_1626063_+	thioredoxin-disulfide reductase	NA	A0A2I2L5E1	Orpheovirus	43.0	3.4e-64
WP_023906728.1|1626493_1627627_+	GNAT family N-acetyltransferase	NA	NA	NA	NA	NA
WP_010893947.1|1627638_1628370_+|tRNA	leucyl/phenylalanyl-tRNA--protein transferase	tRNA	NA	NA	NA	NA
WP_010893946.1|1628486_1628705_+	translation initiation factor IF-1	NA	NA	NA	NA	NA
WP_010893944.1|1629037_1631314_-|protease	ATP-dependent Clp protease ATP-binding subunit ClpA	protease	A0A223W0B1	Agrobacterium_phage	44.7	5.4e-169
WP_010893943.1|1631446_1631767_-|protease	ATP-dependent Clp protease adapter ClpS	protease	A0A1B1IT64	uncultured_Mediterranean_phage	42.0	3.2e-11
WP_010893942.1|1631940_1632399_+	NUDIX hydrolase	NA	NA	NA	NA	NA
WP_010893941.1|1632395_1633535_+|tRNA	tRNA 2-thiouridine(34) synthase MnmA	tRNA	NA	NA	NA	NA
>prophage 6
NZ_CP009826	Xylella fastidiosa strain Pr8x, complete genome	2666242	2099262	2146334	2666242	terminase,plate,tail,head	Xylella_phage(15.38%)	65	NA	NA
WP_023907957.1|2099262_2100900_+	response regulator	NA	A0A2K9L5I4	Tupanvirus	24.2	2.3e-12
WP_010893491.1|2100936_2101569_-	response regulator transcription factor	NA	NA	NA	NA	NA
WP_031336968.1|2102389_2102713_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907958.1|2103719_2104052_-	DNA-binding transcriptional regulator	NA	A0A0P0IRJ4	Acinetobacter_phage	40.7	1.4e-17
WP_023907959.1|2104456_2105005_+	SocA family protein	NA	I6R0L8	Salmonella_phage	39.4	9.5e-19
WP_143704186.1|2104937_2105561_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907961.1|2105574_2105802_+	hypothetical protein	NA	C8CLJ6	Xylella_phage	62.9	6.4e-14
WP_023907962.1|2105802_2106966_-|tail	tail fiber protein	tail	A0A0U4JQ24	Arthrobacter_phage	50.7	2.5e-08
WP_023907963.1|2106969_2107530_-	DUF2612 domain-containing protein	NA	A0A0M5M1K4	Salmonella_phage	25.5	5.5e-06
WP_023907964.1|2107526_2108672_-|plate	baseplate J/gp47 family protein	plate	D0UIH5	Aggregatibacter_phage	48.9	2.8e-97
WP_023906519.1|2108764_2109118_-	hypothetical protein	NA	Q7Y5S5	Haemophilus_phage	47.0	9.1e-23
WP_023907965.1|2109114_2109756_-	hypothetical protein	NA	D0UIH7	Aggregatibacter_phage	42.6	6.7e-32
WP_060870491.1|2109752_2110583_-	hypothetical protein	NA	D0UIH8	Aggregatibacter_phage	52.6	3.0e-77
WP_023906522.1|2110579_2110897_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023906523.1|2110896_2111667_-	hypothetical protein	NA	Q7Y5T0	Haemophilus_phage	34.1	2.2e-29
WP_023906524.1|2111827_2112100_+	AbrB/MazE/SpoVT family DNA-binding domain-containing protein	NA	NA	NA	NA	NA
WP_023907968.1|2112096_2112501_+	type II toxin-antitoxin system VapC family toxin	NA	NA	NA	NA	NA
WP_088572706.1|2112519_2114409_-	hypothetical protein	NA	A0A2I7RBK9	Vibrio_phage	34.8	1.5e-31
WP_023907971.1|2114556_2114979_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907683.1|2114975_2115413_-	DUF3277 family protein	NA	Q7Y5T4	Haemophilus_phage	62.4	1.8e-44
WP_023907685.1|2116920_2117391_-	hypothetical protein	NA	NA	NA	NA	NA
WP_038227495.1|2117377_2117746_-	hypothetical protein	NA	Q776V7	Haemophilus_phage	37.7	1.0e-16
WP_023907687.1|2117732_2118212_-	hypothetical protein	NA	M4SN98	Psychrobacter_phage	28.0	1.7e-08
WP_023907688.1|2118208_2118580_-	DUF4054 domain-containing protein	NA	Q7Y5T9	Haemophilus_phage	38.9	1.8e-13
WP_023907689.1|2118582_2118882_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907690.1|2118946_2119930_-	DUF2184 domain-containing protein	NA	A0A2R3UA82	Siphoviridae_environmental_samples	39.3	9.9e-51
WP_023906534.1|2119939_2120422_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336687.1|2120449_2121640_-	DUF2213 domain-containing protein	NA	H9C194	Pectobacterium_phage	41.6	3.6e-39
WP_023907692.1|2121639_2122485_-|head	phage head morphogenesis protein	head	Q7Y5U5	Haemophilus_phage	33.1	9.1e-29
WP_023907693.1|2122557_2122896_+	type II toxin-antitoxin system RelE/ParE family toxin	NA	NA	NA	NA	NA
WP_023907694.1|2122892_2123174_+	XRE family transcriptional regulator	NA	A0A2D1GR59	Pseudomonas_phage	45.2	8.8e-13
WP_088572718.1|2123222_2124527_-	DUF1073 domain-containing protein	NA	H9C106	Vibrio_phage	37.9	9.0e-68
WP_088572612.1|2124607_2126158_-|terminase	phage terminase large subunit	terminase	H9C0C7	Vibrio_phage	44.9	8.4e-113
WP_023907983.1|2126108_2126507_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907984.1|2126811_2127273_-	hypothetical protein	NA	A0A0S0N8C8	Pseudomonas_phage	32.8	1.0e-10
WP_010894063.1|2127262_2127592_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907985.1|2127584_2128082_-	lysozyme	NA	A0A2I7RLY1	Vibrio_phage	53.8	1.7e-27
WP_023907986.1|2128184_2128916_-	site-specific DNA-methyltransferase	NA	A0A097EWK8	Mycobacterium_phage	51.5	1.2e-61
WP_031336983.1|2129004_2129703_-	hypothetical protein	NA	C8CLH7	Xylella_phage	83.5	2.1e-103
WP_088572719.1|2129722_2130085_-	hypothetical protein	NA	A0A088F6Y8	Sulfitobacter_phage	45.7	1.4e-10
WP_031337814.1|2130132_2130822_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907989.1|2130802_2131654_-	YdaU family protein	NA	A0A142K7R2	Mycobacterium_phage	62.0	1.8e-16
WP_023907990.1|2131697_2131988_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336988.1|2132108_2133221_-	hypothetical protein	NA	C8CLG1	Xylella_phage	57.0	3.7e-110
WP_023907991.1|2133423_2133807_-	hypothetical protein	NA	NA	NA	NA	NA
WP_031336990.1|2133803_2134052_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907993.1|2134048_2134237_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907994.1|2134297_2134579_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907996.1|2134680_2135052_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023907997.1|2135231_2135477_-	hypothetical protein	NA	NA	NA	NA	NA
WP_023907998.1|2135475_2136255_+	helix-turn-helix transcriptional regulator	NA	D0UIL9	Aggregatibacter_phage	26.3	6.3e-08
WP_023907999.1|2136305_2136917_-	cell filamentation protein Fic	NA	NA	NA	NA	NA
WP_004087046.1|2136913_2137102_-	antitoxin VbhA family protein	NA	NA	NA	NA	NA
WP_023908001.1|2138228_2138687_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023908002.1|2138686_2139088_+	hypothetical protein	NA	C8CLG7	Xylella_phage	80.5	3.5e-55
WP_023908003.1|2139084_2139276_+	hypothetical protein	NA	NA	NA	NA	NA
WP_075584676.1|2139319_2139847_+	hypothetical protein	NA	NA	NA	NA	NA
WP_023908006.1|2139965_2140157_+	hypothetical protein	NA	C8CLG6	Xylella_phage	70.3	2.9e-15
WP_023908007.1|2140177_2140552_+	hypothetical protein	NA	U5P4J6	Shigella_phage	45.5	8.7e-16
WP_023908008.1|2140571_2141393_+	YfdQ family protein	NA	I3PUY7	Vibrio_phage	42.2	1.6e-46
WP_023908009.1|2141408_2142335_+	phage recombination protein Bet	NA	U6C6J0	Ralstonia_phage	48.6	1.0e-57
WP_023908010.1|2142331_2143975_+	hypothetical protein	NA	U6C712	Ralstonia_phage	38.3	2.1e-98
WP_031337033.1|2144325_2145114_+	hypothetical protein	NA	C8CLH5	Xylella_phage	56.8	5.5e-28
WP_023906569.1|2145110_2145824_+	DNA-binding protein	NA	G0ZND1	Cronobacter_phage	59.4	1.1e-43
WP_023908011.1|2145881_2146334_+	single-stranded DNA-binding protein	NA	L7TJL2	Pseudomonas_virus	50.0	7.3e-33
