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
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	493902	569948	1752312	integrase,tRNA,holin,protease,transposase	Streptococcus_phage(20.0%)	67	516942:516956	573930:573944
AXR43110.1|493902_494967_+	peptide chain release factor 2	NA	B5LLF2	Mycobacterium_phage	47.1	1.8e-05
AXR43111.1|494977_495682_+	DNA-binding response regulator	NA	W8CYM9	Bacillus_phage	37.3	9.0e-38
AXR43112.1|495653_497039_+	two-component sensor histidine kinase	NA	W8CYF6	Bacillus_phage	33.8	2.2e-27
AXR43113.1|497200_498082_+	phosphate ABC transporter substrate-binding protein	NA	H6WG65	Cyanophage	25.9	9.3e-08
AXR43114.1|498081_498990_+	phosphate ABC transporter permease subunit PstC	NA	NA	NA	NA	NA
AXR43115.1|498990_499878_+	phosphate ABC transporter, permease protein PstA	NA	NA	NA	NA	NA
AXR43116.1|499895_500696_+	phosphate ABC transporter ATP-binding protein	NA	Q6GZ03	Mycoplasma_phage	42.0	3.4e-09
AXR43117.1|500709_501468_+	phosphate ABC transporter ATP-binding protein	NA	G9BWD6	Planktothrix_phage	30.5	1.7e-18
AXR43118.1|501479_502163_+	phosphate transport system regulatory protein PhoU	NA	NA	NA	NA	NA
AXR44305.1|502300_502615_+	PspC domain-containing protein	NA	NA	NA	NA	NA
AXR43119.1|502631_502988_+|holin	phage holin family protein	holin	NA	NA	NA	NA
AXR43120.1|503005_503944_+	HPr kinase/phosphorylase	NA	NA	NA	NA	NA
AXR43121.1|503955_504792_+	prolipoprotein diacylglyceryl transferase	NA	NA	NA	NA	NA
AXR43122.1|504873_505890_+	glycerol-3-phosphate dehydrogenase (NAD(P)(+))	NA	NA	NA	NA	NA
AXR43123.1|505913_506795_+	UTP--glucose-1-phosphate uridylyltransferase	NA	A0A127AW70	Bacillus_phage	50.9	2.4e-72
AXR43124.1|506925_507852_+	thioredoxin-disulfide reductase	NA	G3MA85	Bacillus_virus	50.8	8.3e-84
AXR43125.1|508008_509733_+	phosphoglucomutase	NA	A0A1X9I671	Streptococcus_phage	54.3	4.7e-181
AXR43126.1|509888_510518_+	hydrolase	NA	NA	NA	NA	NA
AXR43127.1|510654_512658_+	excinuclease ABC subunit UvrB	NA	NA	NA	NA	NA
AXR43128.1|512670_515514_+	excinuclease ABC subunit UvrA	NA	A0A1B1IVR3	uncultured_Mediterranean_phage	54.9	1.9e-304
AXR43129.1|515612_516500_+	RNase adaptor protein RapZ	NA	A0A0R8VB27	Thermobifida_phage	33.1	1.1e-11
AXR43130.1|516496_517498_+	YvcK family protein	NA	A1IMD5	Streptococcus_phage	56.7	3.9e-95
516942:516956	attL	AAGCTGAAATCACAG	NA	NA	NA	NA
AXR43131.1|517510_518440_+	DNA-binding protein WhiA	NA	Q7AWZ3	Streptococcus_phage	39.4	4.0e-54
AXR43132.1|518616_521457_+	N-acetylmuramidase	NA	A0A0N7IR99	Lactobacillus_phage	47.4	6.2e-37
AXR43133.1|521541_521814_+	hypothetical protein	NA	NA	NA	NA	NA
AXR43134.1|521859_522453_-|protease	ATP-dependent Clp protease proteolytic subunit	protease	A0A223W000	Agrobacterium_phage	54.3	1.6e-56
AXR43135.1|522836_524153_+	RNA polymerase sigma-54 factor	NA	NA	NA	NA	NA
AXR43136.1|524336_525368_+	SorC family transcriptional regulator	NA	NA	NA	NA	NA
AXR43137.1|525435_526458_+	type I glyceraldehyde-3-phosphate dehydrogenase	NA	NA	NA	NA	NA
AXR43138.1|526580_527783_+	phosphoglycerate kinase	NA	NA	NA	NA	NA
AXR43139.1|527862_528618_+	triose-phosphate isomerase	NA	NA	NA	NA	NA
AXR43140.1|528693_530016_+	enolase	NA	A0A1X9I5Z8	Streptococcus_phage	71.1	1.5e-171
AXR43141.1|530142_530379_+	preprotein translocase subunit SecG	NA	NA	NA	NA	NA
AXR43142.1|530517_532863_+	ribonuclease R	NA	Q0GXV6	Lactococcus_phage	38.8	2.2e-88
AXR43143.1|532877_533345_+	SsrA-binding protein	NA	W5RAM5	Staphylococcus_phage	55.5	1.1e-39
AXR43144.1|533379_533943_-	N-acetyltransferase	NA	NA	NA	NA	NA
AXR43145.1|533896_534499_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43146.1|534513_535386_-	Cof-type HAD-IIB family hydrolase	NA	NA	NA	NA	NA
AXR43147.1|535496_536189_+	uracil-DNA glycosylase	NA	S4VYQ4	Pandoravirus	42.4	2.0e-42
AXR43148.1|536191_536665_+|tRNA	tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE	tRNA	NA	NA	NA	NA
AXR43149.1|536654_537152_+	N-acetyltransferase	NA	NA	NA	NA	NA
AXR43150.1|537144_537681_-	exonuclease	NA	M1PFD8	Streptococcus_phage	39.1	5.6e-24
AXR43151.1|537755_538673_+	dehydrogenase	NA	NA	NA	NA	NA
AXR43152.1|538717_539620_+	UDP-N-acetylenolpyruvoylglucosamine reductase	NA	NA	NA	NA	NA
AXR43153.1|539750_540602_+	TIGR00159 family protein	NA	NA	NA	NA	NA
AXR43154.1|540602_541532_+	hypothetical protein	NA	NA	NA	NA	NA
AXR43155.1|541550_542909_+	phosphoglucosamine mutase	NA	A0A127AWJ1	Bacillus_phage	28.2	1.5e-20
AXR43156.1|543144_544962_+	glutamine--fructose-6-phosphate transaminase (isomerizing)	NA	M1HQK2	Paramecium_bursaria_Chlorella_virus	36.7	1.2e-89
AXR43157.1|545230_545542_+	hypothetical protein	NA	NA	NA	NA	NA
AXR43158.1|545730_547404_+	oleate hydratase	NA	NA	NA	NA	NA
AXR43159.1|547461_547998_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43160.1|548143_548827_+	noncanonical pyrimidine nucleotidase, YjjG family	NA	NA	NA	NA	NA
AXR43161.1|549155_550442_+	manganese transporter NRAMP	NA	NA	NA	NA	NA
AXR43162.1|550461_552633_+	anaerobic ribonucleoside-triphosphate reductase	NA	A0A0C5KKX3	Enterococcus_phage	57.8	6.4e-244
AXR43163.1|552625_553213_+	anaerobic ribonucleoside-triphosphate reductase activating protein	NA	A0A288TZV3	Enterococcus_phage	55.5	9.1e-52
AXR43164.1|553229_553991_+	Fe-S cluster assembly ATPase SufC	NA	A0A285PWH2	Cedratvirus	26.3	2.9e-10
AXR44306.1|554028_555057_+	hypothetical protein	NA	NA	NA	NA	NA
AXR43165.1|555069_556245_+	cysteine desulfurase CsdA	NA	Q2XUY6	environmental_halophage	39.6	1.8e-83
AXR43166.1|556241_556682_+	SUF system NifU family Fe-S cluster assembly protein	NA	NA	NA	NA	NA
AXR43167.1|556671_558081_+	Fe-S cluster assembly protein SufB	NA	NA	NA	NA	NA
AXR43168.1|558179_559103_-|transposase	IS30 family transposase	transposase	W5R8L2	Staphylococcus_phage	40.6	1.1e-48
AXR43169.1|559754_560993_+|transposase	ISL3 family transposase	transposase	A0A1S5SBP9	Streptococcus_phage	29.6	5.8e-40
AXR43170.1|561535_562705_-	serine/threonine protein phosphatase	NA	NA	NA	NA	NA
AXR43171.1|562825_564094_-|transposase	ISL3 family transposase	transposase	Q6V7R1	Burkholderia_virus	24.9	4.6e-08
AXR44307.1|567377_567815_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43172.1|567961_568192_-	DNA-binding protein	NA	NA	NA	NA	NA
AXR43173.1|568790_569948_+|integrase	site-specific integrase	integrase	P97010	Streptococcus_pyogenes_phage	37.3	1.5e-58
573930:573944	attR	AAGCTGAAATCACAG	NA	NA	NA	NA
>prophage 2
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	821704	831233	1752312		Clostridium_phage(25.0%)	12	NA	NA
AXR43413.1|821704_823564_+	molecular chaperone DnaK	NA	A0A2P1EIW2	Megavirus	47.2	5.3e-138
AXR43414.1|823660_824785_+	molecular chaperone DnaJ	NA	A0A0P0YNN4	Yellowstone_lake_phycodnavirus	33.2	1.3e-22
AXR43415.1|824888_825116_-	DUF378 domain-containing protein	NA	NA	NA	NA	NA
AXR43416.1|825244_825715_-	sensory protein	NA	NA	NA	NA	NA
AXR43417.1|825951_826434_+	QueT transporter family protein	NA	E7DN70	Pneumococcus_phage	35.7	1.7e-11
AXR43418.1|826450_826672_+	DUF2829 domain-containing protein	NA	G3MBC9	Bacillus_virus	34.4	2.3e-08
AXR43419.1|826672_827413_+	3-oxoacyl-ACP reductase	NA	Q06VL0	Trichoplusia_ni_ascovirus	30.9	6.3e-18
AXR43420.1|827536_828058_+	hypothetical protein	NA	A0A0P0HRQ2	Lactobacillus_phage	57.1	2.6e-42
AXR43421.1|828249_828498_+	GlsB/YeaQ/YmgE family stress response membrane protein	NA	NA	NA	NA	NA
AXR43422.1|828717_828942_+	hypothetical protein	NA	NA	NA	NA	NA
AXR43423.1|830381_830669_-	hypothetical protein	NA	A0A0A8WIF9	Clostridium_phage	48.2	7.4e-15
AXR43424.1|830972_831233_-	hypothetical protein	NA	A0A0A8WIE1	Clostridium_phage	51.9	5.1e-15
>prophage 3
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	898815	945871	1752312	head,terminase,holin,tail,protease,capsid,portal	Lactobacillus_phage(54.17%)	42	NA	NA
AXR43487.1|898815_900231_-|protease	ATP-dependent protease ATPase subunit HslU	protease	A0A1B2IEP8	Erwinia_phage	25.2	3.9e-32
AXR43488.1|900231_900786_-	HslU--HslV peptidase proteolytic subunit	NA	NA	NA	NA	NA
AXR43489.1|900804_901710_-	tyrosine recombinase XerC	NA	A0A1I9SC88	Mycobacterium_phage	29.7	6.6e-17
AXR43490.1|901782_903855_-	DNA topoisomerase 1	NA	A0A1V0SCS0	Indivirus	34.8	1.3e-92
AXR43491.1|904164_904824_-	beta-phosphoglucomutase	NA	NA	NA	NA	NA
AXR43492.1|904839_907092_-	family 65 glycosyl hydrolase	NA	NA	NA	NA	NA
AXR43493.1|907117_908461_-	MFS transporter	NA	NA	NA	NA	NA
AXR43494.1|908603_909557_-	LacI family transcriptional regulator	NA	NA	NA	NA	NA
AXR43495.1|909654_910515_-	DNA-protecting protein DprA	NA	S6BFL3	Thermus_phage	32.0	2.1e-25
AXR43496.1|910555_911323_-	ribonuclease HII	NA	E3T5H8	Cafeteria_roenbergensis_virus	42.6	2.3e-26
AXR43497.1|911309_912173_-	ribosome biogenesis GTPase YlqF	NA	NA	NA	NA	NA
AXR43498.1|912523_914638_-|protease	ATP-dependent Clp protease ATP-binding subunit	protease	K4FB40	Cronobacter_phage	39.3	1.5e-117
AXR43499.1|914921_916967_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43500.1|916953_917292_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43501.1|917293_918352_-	cell surface protein	NA	NA	NA	NA	NA
AXR43502.1|918338_918992_-	WxL domain-containing protein	NA	NA	NA	NA	NA
AXR43503.1|919148_919940_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43504.1|920956_922081_-	N-acetylmuramoyl-L-alanine amidase	NA	Q9MCC6	Lactobacillus_phage	50.4	9.1e-93
AXR43505.1|922064_922307_-|holin	holin	holin	A0A2H4PBB2	Lactobacillus_phage	58.6	6.4e-12
AXR44318.1|922306_922537_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43506.1|922635_923007_-	hypothetical protein	NA	A0A2P0ZLF6	Lactobacillus_phage	38.1	3.6e-14
AXR43507.1|923025_923262_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43508.1|923426_926552_-	hypothetical protein	NA	A0A2K9VDF2	Lactobacillus_phage	34.4	2.4e-18
AXR43509.1|926551_929059_-	hypothetical protein	NA	E9LUR3	Lactobacillus_phage	33.2	5.7e-111
AXR43510.1|929087_930830_-	hypothetical protein	NA	A0A2K9V5B8	Lactobacillus_phage	33.2	8.1e-80
AXR43511.1|930829_935500_-	peptidase M23	NA	A0A2I6QQX2	Streptococcus_phage	37.6	3.1e-102
AXR43512.1|935708_936122_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43513.1|936255_936864_-	hypothetical protein	NA	Q9AZL7	Lactococcus_phage	42.6	2.8e-35
AXR43514.1|936863_937253_-	hypothetical protein	NA	A0A2P0ZLF4	Lactobacillus_phage	30.3	1.6e-12
AXR43515.1|937252_937648_-|tail	phage tail protein	tail	A0A286QQY0	Streptococcus_phage	55.4	1.1e-29
AXR43516.1|937667_938036_-	hypothetical protein	NA	A0A2P0ZLF0	Lactobacillus_phage	40.0	6.6e-16
AXR43517.1|938001_938319_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43518.1|938332_938806_-	hypothetical protein	NA	A0A1D6Z291	Staphylococcus_phage	41.8	7.6e-17
AXR44319.1|938887_940084_-|capsid	phage major capsid protein	capsid	D2KRA9	Lactobacillus_phage	59.3	7.7e-82
AXR44320.1|940208_940799_-|head,protease	prohead protease	head,protease	B8R651	Lactobacillus_phage	46.1	8.6e-42
AXR43519.1|940782_941895_-|portal	phage portal protein	portal	Q9AZM4	Lactococcus_phage	37.4	3.3e-63
AXR43520.1|941898_942084_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43521.1|942095_943970_-	hypothetical protein	NA	A0A0M7RDK9	Lactobacillus_phage	41.7	8.5e-144
AXR43522.1|943969_944434_-|terminase	terminase	terminase	E9LUP8	Lactobacillus_phage	54.0	1.4e-39
AXR43523.1|944611_944938_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43524.1|944940_945237_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43525.1|945241_945871_-	hypothetical protein	NA	B8R694	Lactobacillus_phage	39.6	1.3e-24
>prophage 4
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	983005	992623	1752312	tRNA	Staphylococcus_phage(37.5%)	9	NA	NA
AXR43568.1|983005_983851_-	DegV family protein	NA	A0A0N9SI50	Staphylococcus_phage	35.2	1.4e-16
AXR43569.1|984087_984825_-	amino acid ABC transporter ATP-binding protein	NA	G9BWD6	Planktothrix_phage	40.4	1.3e-34
AXR43570.1|984821_986273_-	glutamine ABC transporter substrate-binding protein	NA	NA	NA	NA	NA
AXR44323.1|986394_986871_-	dihydrofolate reductase	NA	A0A0N9S8H6	Staphylococcus_phage	39.5	2.2e-24
AXR43571.1|986908_987859_-	thymidylate synthase	NA	A0A0N9SH48	Staphylococcus_phage	62.4	1.3e-116
AXR43572.1|987871_989749_-	ABC transporter ATP-binding protein	NA	A0A2K9L3Z8	Tupanvirus	30.5	2.9e-51
AXR43573.1|989751_990960_-|tRNA	CCA tRNA nucleotidyltransferase	tRNA	G3MAR3	Bacillus_virus	40.0	3.5e-34
AXR43574.1|991213_992098_+	YitT family protein	NA	M1Q1P6	Streptococcus_phage	38.1	2.1e-52
AXR43575.1|992152_992623_-	nucleoside 2-deoxyribosyltransferase	NA	A0A1G5S9Z4	Enterococcus_phage	40.1	3.8e-16
>prophage 5
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	1358968	1367532	1752312		Synechococcus_phage(33.33%)	9	NA	NA
AXR43927.1|1358968_1359550_-	phosphoribosylglycinamide formyltransferase	NA	M4QRX9	Synechococcus_phage	35.2	8.8e-23
AXR43928.1|1359546_1360596_-	phosphoribosylformylglycinamidine cyclo-ligase	NA	A0A1D8KLC2	Synechococcus_phage	40.2	3.1e-58
AXR43929.1|1360595_1362065_-	amidophosphoribosyltransferase	NA	A0A0M3SGR2	Mollivirus	32.5	3.6e-57
AXR43930.1|1362049_1364257_-	phosphoribosylformylglycinamidine synthase II	NA	A6N228	Microbacterium_phage	41.6	7.4e-147
AXR43931.1|1364274_1364949_-	phosphoribosylformylglycinamidine synthase I	NA	NA	NA	NA	NA
AXR43932.1|1364951_1365206_-	phosphoribosylformylglycinamidine synthase	NA	NA	NA	NA	NA
AXR43933.1|1365198_1365927_-	phosphoribosylaminoimidazolesuccinocarboxamide synthase	NA	A0A1D7SLB8	Cyanophage	43.9	1.2e-42
AXR43934.1|1365926_1367066_-	5-(carboxyamino)imidazole ribonucleotide synthase	NA	NA	NA	NA	NA
AXR43935.1|1367049_1367532_-	5-(carboxyamino)imidazole ribonucleotide mutase	NA	A0A2P0VNU7	Tetraselmis_virus	42.9	2.6e-20
>prophage 6
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	1376362	1385230	1752312		Streptococcus_phage(33.33%)	10	NA	NA
AXR43945.1|1376362_1377379_-	DNA polymerase III subunit delta'	NA	M1NSC1	Streptococcus_phage	30.6	5.6e-33
AXR43946.1|1377378_1377714_-	hypothetical protein	NA	NA	NA	NA	NA
AXR43947.1|1377729_1378359_-	thymidylate kinase	NA	M1PSC7	Streptococcus_phage	52.7	2.0e-52
AXR43948.1|1378523_1379123_-	recombination protein RecR	NA	NA	NA	NA	NA
AXR43949.1|1379149_1379464_-	YbaB/EbfC family nucleoid-associated protein	NA	NA	NA	NA	NA
AXR43950.1|1379479_1381225_-	DNA polymerase III subunit gamma/tau	NA	A0A1U9WR94	Streptococcus_virus	48.4	2.8e-56
AXR43951.1|1381437_1381923_-	nucleoside deaminase	NA	A0A2H4PQS8	Staphylococcus_phage	31.6	1.8e-05
AXR43952.1|1381915_1382521_-	class I SAM-dependent methyltransferase	NA	NA	NA	NA	NA
AXR43953.1|1382732_1382963_+	NrdH-redoxin	NA	A0A0M7REK7	Lactobacillus_phage	48.1	8.0e-12
AXR43954.1|1383064_1385230_+	ribonucleotide-diphosphate reductase subunit alpha	NA	A8E2R1	Enterococcus_phage	59.8	1.1e-248
>prophage 7
CP023008	Pediococcus pentosaceus strain SS1-3 chromosome, complete genome	1752312	1607230	1618077	1752312		Bacillus_phage(28.57%)	12	NA	NA
AXR44154.1|1607230_1608406_+	class I SAM-dependent methyltransferase	NA	A0A2K9L4K8	Tupanvirus	33.3	4.8e-44
AXR44155.1|1608547_1608880_-	AzlD domain-containing protein	NA	NA	NA	NA	NA
AXR44156.1|1608900_1609689_-	branched-chain amino acid ABC transporter	NA	NA	NA	NA	NA
AXR44157.1|1609821_1611078_-	D-alanyl-D-alanine carboxypeptidase	NA	B6DZZ7	Stx2-converting_phage	24.0	1.0e-07
AXR44158.1|1611258_1612395_-	two-component sensor histidine kinase	NA	W8CYF6	Bacillus_phage	25.9	4.4e-26
AXR44159.1|1612406_1613096_-	DNA-binding response regulator	NA	W8CYM9	Bacillus_phage	37.3	5.7e-37
AXR44160.1|1613178_1613676_-	methylated-DNA--[protein]-cysteine S-methyltransferase	NA	G5CRV0	Megavirus	36.4	6.4e-14
AXR44161.1|1613806_1614949_-	guanosine monophosphate reductase	NA	A0A1V0SHK8	Klosneuvirus	33.8	1.2e-63
AXR44162.1|1614970_1615675_-	DUF1129 domain-containing protein	NA	NA	NA	NA	NA
AXR44163.1|1615703_1616810_-	redox-regulated ATPase YchF	NA	NA	NA	NA	NA
AXR44164.1|1617026_1617212_-	DUF951 domain-containing protein	NA	NA	NA	NA	NA
AXR44165.1|1617225_1618077_-	chromosome partitioning protein ParB	NA	S5VTK0	Leptospira_phage	34.9	2.1e-12
>prophage 1
CP023006	Pediococcus pentosaceus strain SS1-3 plasmid pSS1302, complete sequence	39282	0	9020	39282	integrase	Bacillus_phage(100.0%)	6	1:60	13095:21171
1:60	attL	TGAAAAATCAGCCCGCTATTAATACAACAAAAATAGTATACCCACAAATATACGCTTATA	NA	NA	NA	NA
AXR42619.1|4252_5230_+	hypothetical protein	NA	NA	NA	NA	NA
AXR42620.1|5231_5792_+	hypothetical protein	NA	NA	NA	NA	NA
AXR42621.1|6253_7243_-	restriction endonuclease	NA	NA	NA	NA	NA
AXR42622.1|7721_8078_-	type II toxin-antitoxin system mRNA interferase toxin, RelE/StbE family	NA	NA	NA	NA	NA
AXR42623.1|8077_8356_-	prevent-host-death family protein	NA	NA	NA	NA	NA
AXR42624.1|8432_9020_+|integrase	site-specific integrase	integrase	D2XR58	Bacillus_phage	33.7	8.3e-21
13095:21171	attR	TGAAAAATCAGCCCGCTATTAATACAACAAAAATAGTATACCCACAAATATACGCTTATACGTTACCAACCGAGAAAGAAGATTTAGGGTGGATTAAAATTGGTTACACTGAACGTAAAAATGTTGATGATCGTATCAAAGAACAGACACATACGGCTGCCATTCGTTTAACATATTCCAAATTATGGTCAGAACCAGCCAAGTTTGCTAAAAATGAGGGTTGGTTTAAAGATAAGCAATTTCATTCCTATTTGCGTCGTTATAAGAAAGTTAGTCAGCGTCAAGGAACTGAATGGTTCTATTATGATGGTCATCCGCAAAAATCACATCAAGATTTCATGGATTTTCGTAACAACCAGAAATCTCAAATTAAAGAACAGCTGACTTATCAGCTAAGACCTGAGCAAGTTGCAGCAGTTCACCAAACGTTAGATTATGCCCATAATCATCCTAATAGCGAATTCTTGTGGAACGCAAAACCACGGTTTGGAAAAACTTTAACTACATATGATTTAGCTAGAAAATTAGATGCTAAAACTGTTTTAGTTGTGACTAATCGTCCTGCGGTTGCTAACTCTTGGTTTGATGATTTTGAAAAATTTATTTCTTGGCAAACTAGTTACGCTTTTATTTCGACTAATGATACTTTAAAAGATCGTCCAGTTTTAACAATAGACGAATTTAATAATGAACCATTTAGTGGCAGTAAAAAAGACAAAATGATTACCTTTATTTCCTTACAAGATTTGAAGGGAGCAATTTCATTTGGTGGTAACTATGACAAGCTCAAATGGGTTAAAGATTCACATTGGGATTTACTAGTTATTGATGAGAGTCATGAGGGAGTAGATACTTTTAAAACTGATATTGCTTTCAATAATATTAATCGTGACTTTACTTTAAATTTATCTGGTACGCCCTTTAAAGCCGTTGCATCAGGAAAATTTAAACAAAATCAAATTTATAATTGGACTTATGCTGACGAACAACAGGCAAAAGCAAATTGGCATGATTCAGAAAAAAATAATCCTTATAGATCATTACCAAAGCTGAATCTGTTTTCTTATCAGATGAGTCCCATGATCACAGATGAAGTTAATCAAGGAGCACAAATCAACGGAGATAATATTGACTATGCTTTTGATTTAAATGAATTTTTCGCAACCAACCAAAATGGCCATTTTATTCATGAAATGGATATAAAAAAATGGTTAGATACCTTAACACATAACGAGAAATATCCATTCTCTACTAAAGAATTAAGGAATAAACTAAAGCATACTTTCTGGCTATTAAATCGTGTTGCCAGTGCTAAGGCGCTAGAAAAATTATTAAAAGAACATCCAGTTTTTAAAGATTATGAGATTATTTTAGCAGCTGGAGATGGGCATGGTTTTGATGACGATCAGACCATTAATGAAAAATCACTTGATAAAGTTAAAAGAGAAATTAAAAAAAATGATAAAACTATAACGTTATCCGTTGGCCAATTGACGACTGGTGTGACTATTCCTGAGTGGACAGCCGTATTAGTATTATCTAACCTAAAATCACCCAGCCAATACATGCAAGCGGCATTTCGGGCACAAAATCCGTGGGAACACATGGTTAATGGTCAAGTTTATCAAAAAGAAAATGCCTACGTTTTTGACTTTGCCCCTGAACGTACGTTAACTATTTATGATGAATTTGCTAACGATTTATCAAAACAAACATCAAATGGTAACGGAACGACAAAGGACCGTGAGAAAAATATCGGGAGGTTATTGAACTTTTTCCCTGTAATTGCTGAAGATAAGCAAGGCAAGATGGTTGAATTAAACGTTAACCAGGTCCTAACTATTCCAAGAGCCATTAAAGCTCAAGAAGTAGTTCGACGTGGTTTTATGTCTAATTTGTTGTTTGCAAATATATCAGGAATTTTTGCTTCAGCAGGGGCACGAGAAATATTGGAACAATTAAATCCGGTTGACACTGGTAAAAAAGTTTCGCATAAGACTGAAAAGAAAATCGATACAAGAAATGTCAAAGTCAACGATAAGGGTGAAGTTGAAGTCAATCCAGAAATTGTTGTAGCTAAAACGTCGGCCCATTTTGGTGAGAAAGTTTACGGCGATATAACTGATAAAATCGAACAAGCGTCAAATCAAGATATCAATTTGGTCAAACTTACTTCAGATACATTCAAGAAAAAAACTTTAGCAGCAGCAAAGAATATTGCTAAAGAAAATGGTTTGACTGCTACAACAGCAGAACATATTATCCAGCAACATTCAAATTTTTTGGCGCGTGAAGTTCAAGTTATTCAAAAACAAAAGAATATAAAAGAAGCTCAAAATAAAGTAGATTTAAAGCAAGCTATTGAAAAATCTCAAGATAATCCTGAAGAAATTGCTAAAGCTCAGACAGCGTTTGAAAATAGAAAACAACAAATTGAAAGGGGGTATAAAGAAAAATTAACCAAAAAAGTTGCTGATCAGACAAAACAACTAACCAATCAAACAACTGAAACCTTGTTAAAAAAGGCAGAAGAAAAGAAGAAAAATACGGTTGAGGATGATATTCGAGCACGTTTGCGTGGCTTTGCTCGCACTATTCCTTCATTTTTGATGGCTTATGGTGCATCCACTACAGAACTAGCTAATTTTGATCAAAATATAAAAGGTGATGTTTTCAAAGAGGTAACAGGTATCACACTTGATCAGTTCCGATCCTTACGCGATACGTATCATTTTTTCGATGAAACAACATTTAATGAATCCGTTCAAGAATTTTTAAGAAAAAGATCTCAACTTGCTAATTATTTTGACGAATCACAAGATGAGGACATTTTTGATTATGTTCCAGCCCAGAAGACCAATCAAATATTTACTCCAAAGAGAGTCGTTAAATTGATGCTTGATAAGCTTGAAGAGGAAGAGCCTAACATCTTTAAAGACAAAAACAAAACTTTTGTTGATTTGTACGTTAAATCTGGATTGTATTTAACCGAAATCATCAAACGTCTTTATATTGGTCTGGAAGATCAAATACCTGAGTCAAATGAACGTTTGACTCATATCTTAGAAAAACAGATTTATGGTTTTGCTCCAAGCAATATTATTTATAGCATTGCAAAGAACTTTGTTTTTTCACCCTTTCCAAATTTAGATAATTCACATTTAAAACAGTTAGATATGATTCCTTATGCCAAAAGAGAGAAGAGGCTGGATATGAAATTTGACGTAGTGGTGGGAAATCCACCTTATCAGGAAACAGCAAATGGTAAAAGTACTAAAGACGTTCCAGTTTATAATTACTTTTATGATTTAGCAGAAAGAGTTTCAACAAAATATATTTTAATTTCTCCAGCTCGTTTCTTATTTAATGCCGGCAGTACCGATAAAAAATGGAATAAGAAGATGCTTTCAAATAAACATATAAAGGTTGTTTTTTATGAGCAAGATGCAGCAAAGATTTTTCCAAATACCGATATTAAGGGTGGGATTGCTATCCTATATAGAAATAAAGATAAAGATTTCGGAAACATTGGATTGTTTACTCCTTTTGAAGAATTAGATTCCATCTCTAATAAAGTATCTAAGTTGACATATCGGACACTAGACGAAATTATTTCTAATCGTGGTCAATATAGATTTTCAGATTTAATTTACAAAGAATATCCGAATGATATGAAGAAAATTTCAGACAGAAGAATCGCTTCTAACGCGTTTAATAACCTCCCAAATTTATTTACAGAAAAAGAACCACACAATAAGTTCAATTATATAAGGATATTAGGTCGTTTAGACAATCAACGCATTTATAGGTGGTTTAGGCGCGATTATTTACAAGAACCCATAACTTTTGAAAAATGGAAAATAATACTACCTAAAGCTAATGGAAGTGGGGCAATTGGAGAAGTATTAAGTACACCCCTAATCGGTAAACCCCTAATCGGGTTTACCGAGACTTTTATTTCAATTGGTGTTTTTGATAATAAGTTAGAAGCTCAAAATGCTCTAAAATATGTCCAAAGTAAATTTGCACGAACTATGCTGGGAATTTTAAAAATTACACAGGACAATCCAAAGGATAAGTGGTCAAAGGTTCCTCTTCAAGACTTCACACAAAATTCAGATATAGATTGGACTAAGTCAATATCTGATATTGATCAGCAACTTTATAAAAAATATGGACTAAATCAAAAAGAAATTAATTTTATTGAAAATAAAGTTAAATCAATGAATTAAAGGCCAATAAGGAGGAAAAAATGAACTTTACAGAGAAAAAATTAAAGTCTTTCTCGATGCCACTCAGTGATACAGAAGATCAAAAATGTAAGCATGCTATTCAAGAAGTTAGAAATTCTATGGCTAACTTGGGATTTGAGGAGTCTTCTAATGGAATAACTCGTGTATTTGACAATACTAGTTCCTATCAAACATTCATGAAAAATAATGAATCGGGCGAAAAAATCAAAATTTTTCTCCAGGGATCCTATGCAAATAATACTAATATCAAAGCAGAAAGTGACGTTGATGTTGCTATAGTAAGAGAAGAAATTTTTAACACACTTTTTCGTAGTGAAGGAGTATACCCTCAAAATAATGAAACGTTTGGATTTTATAATGTACCACAAAAGCCAATAACATTTAAAGATCGTGTAGACACATGCTTAAGAGCTAGCTTTCACGAGCAAGTAATAAGACATAATAAGTCAATTAGGGTTTTGGGAAATAGTTACAGAAAAAATGCTGACACAGTCCCAGCTAATCGTTACAGAAACTATCAAGGAAACTATTCAAATGATCCTGAAGACTATGTTGGAGGGATAATAATTAAACCAGATTATGGAACTTCTATAATTAATTATCCAGAACAACATATACGCATGGGAAGGCAGAAAAACATAGCAACAAATCATTTTTATAAAAAACAAGTTAGAATAATGAAAAGCATTAAAAACTTAATGACTGATGAGGGATATACATCCGCACAAAAAATGTCATCTTTTGGTTTGGAGTCATTAACTTGGAATATACCTGATAACATTTTCACTAAATATGACCAGCTAAGATTTGTTTTCGATGATATTGTTATCTATTTGACCGACCATGCAGATAATGTAGCTAACTTTAAAGAGGCAAATGGTATAAAAAGACTTTGTAATGATGAAAATCAAGTTACGGATTATCTAAACTTTATTTCGGATTTAAAATCATTCTATGAATTTGAAATAGGAGATTAGAATGAAAAGTGAAGAGAAAGGACTTATTAAATATAGTGTTACTATAGGAATTATTGTTTTTGTTGTTCTTTGTGTTACACATAATTTGAATATTAGACTAAATACATTGAAGTCTATTACGGATTACGCGGGAGATTCTATATCTATTAGTGTAATTTTTGCATTTTTTTATGAAAAATATATTTGGCGTTGGAATCCATTTGAAAAACATCCGAGACTTGCTAAAAAATATTCTGGTTATCTTATTTCAACCTTTGATGATAAAAAAAGAACACTCGAACTAGACTTGAAACAAACTTTAATGACTTGCAAAGTACATCAAAAAACTGAAGAAAGCGACAGCGATGCAATTAATACAAATATAATAGATATAAATGGACGAAGTGCCCTTGTTTACACCTATTTAAATGTTCCAAGGCTAAATGTCCGAGAAAGAAGCCCTATACATTATGGAAGTGCTATTCTTTTTATTAACAGTCAAGAAAAACTTAATGGAGGATACTTTACTGATAGGAAAACGACCGGTCAGATAACTGCTGAGAAAAAGATTAAACCGATTTAAGTAATAACTTATAAAAAATTCATAATATTTAATTACATTAGGGGCCATAATTAACAAATACCCCCTTGAAAAGACCGATAAAACAGCCCCTAACAAATCAACTTGGTTTGTTAGGGGCTGTTTTTTAGATTATACTTAAAATAACGCCTATAATGGTTGGATTCTAATGCTTAAAAAAGAGGTGACTAGGTTATGGTGCAATAACTTGTTTTACCAATCAAAGATTCTAACGTCCTAACAAGTGTCCAGGAGACGCTGTTGGATAGTTTTCGAGCTGGTCGGCGTAATTACACCATTTTTCAACTGGGTAAAGCGACCTTACTACGGGTCAGTGATGTCATGCAGCTGAAAAAGGTTGATGTCTTTAACGCCGATGGTACGATTAAGCAAAATACGTTTATCCTCGACCAAAAAACGGGTAAAGCTAACACTCTTTATCTCAAACCAGTGCAGACTGTATATTAATCTTTTGGAAATATTTTTTCATTGATAACAACGACTGTTTTTTCGCTAATGCCCATTCTATATTCAAATAATAAATCTACTAATTCATCACCATCAACTAAGGTAATTAAATTAGCTCCTTGACGCGATCTACTGACAGCATCATTTGTATAGGTAGAAGTCGTTACAAATATCCCTCTGTCTGCATTATGACCACTAATGGTACCAGCAAAATTACTGATATCTGGTCCTGTAACCGGACCTTTTGTAAATCGCTTAGTTTGTAACACAATTTTATATGTCATCAACTCAGGGGTTCTTAAATAACCTATGCCATCAATGCCACTATCTCCTGTTTTTGAAGTGGTATCCATTTTAATGCCTATTTTTCGCATAAGATTTACAATCAATTCTTCAAACTTATATGGATTCATTTCACTCAATCGCTGTAATAATTGATCTCGCCATAATTCAGAATCATCTGTTTCTTCTACAATGTCTTCGTCCAGATTGGCAATATTGACATTTGAAGATGATAGTATTTCATCTTTCTTTTTTTGATTATTTAGCTTCTTTTTTTGCCAAACAGGAGTAGATATTGAGTATACATCGTCCCATACATCAAAGTTATTTATATCAACGTCTTCTCCCATCTGTGTCAAGGCCCATACTCCCCACTGTGGTGAATAAAGTAATCCGGCTTTCTTTAAATTAGACATAGACCACTGCAATCTAAAATCTAACTGACTTTGACCATTACTAGACTTTTTCTCTCTATCTGCATCTGTAAAATAAGGATATTCAACAGCCTTTTCTTTGACAAGAGCAGCTTTAGTTGGCCCCCCATAAGACTGTAATGCTTGTAAAATAGCCACTACACCAAACTTCTCCATATAGTTCAAGTTTTTATTAGAATTCACGAAGCTGAGCCAATTCTTAGGCATATCAGCTTCCAATTCTGTTATTTTACGAGTGATTCCGAAATGATCATACGCTAAATCTACCATGTTTAATCCATCCTTATAAATTTTATTTTTATTATACACTTACGTTTACAGATTATTTTAATGTGGTTAAGCTGACACCAGCTTGCCCGACGCGGGTAGCGTTCTGCATGACATGCTCCCGATGAAATCGACCATGCAACGGTAAATTGCCCTGTCACGGCGTGACCCGCCGGAGGTTTTACGAGCCGGATAATAGGCGCTGTAAAATAGCAGTTTTCCCAGAAGGAAGGGAAAACGCTACTGTAATCGCTTGTCGATTACTTGCCTCGCAGAGCCTGTCCAAAATATTATTTTGGTATAACAGGCTATACCAGATTTTTAACGGTGTTATACTGGTCTTGGAAAACCTTTTTCGAGGAGGCATTTTTGATGGCGCATTTACAAAATCGCCCCTCAAAAATATTGAAAGAATAACCCCTAATATCTATAATGCAGATATTAGGGGTTATTTATTTTCATATTATAAAAATGACTTCTTCTATTCGTCATTTTTTCGATACCTTTTAGAACGATTTTGACCAGGAAATAAACGATCATGCGATCCGACTCGAATGCCAATTAAGACTAGTTCATCTTTATCAATCGTATAAACCACCAGGACATCGTTAGTTTCGCTTGGTGTTTTGTTTTTCGGGGTATCTCGCAAGTGAAATTCATTATAACCGCTCATTCGCCGATTAAGCTCATGATCTTCAAATTCTGGTGGTAATTGTTGTTGCTCAAGCAACAGGTCAATGGCTGCTCGAACTTCATTAATAATAGATTTGTCTAAACTGGCTAACCGTTTTAGATCAGCATTAAAGGTTGCACGTGGTTTAAATCTTAGTTTTTTCA	NA	NA	NA	NA
>prophage 2
CP023006	Pediococcus pentosaceus strain SS1-3 plasmid pSS1302, complete sequence	39282	13093	17326	39282		Organic_Lake_phycodnavirus(100.0%)	1	NA	NA
AXR42629.1|13093_17326_+	helicase	NA	F2Y298	Organic_Lake_phycodnavirus	23.2	6.4e-22
>prophage 3
CP023006	Pediococcus pentosaceus strain SS1-3 plasmid pSS1302, complete sequence	39282	21526	22114	39282	integrase	Bacillus_phage(100.0%)	1	9436:9495	22530:34265
9436:9495	attL	AATGTTAGGAGTCATTAAGCTGGACGAAAAGAAAGTATTAAAACCAATTGATGAAATGCT	NA	NA	NA	NA
AXR42635.1|21526_22114_+|integrase	site-specific integrase	integrase	D2XR58	Bacillus_phage	33.7	8.3e-21
AXR42635.1|21526_22114_+|integrase	site-specific integrase	integrase	D2XR58	Bacillus_phage	33.7	8.3e-21
22530:34265	attR	AATGTTAGGAGTCATTAAGCTGGACGAAAAGAAAGTATTAAAACCAATTGATGAAATGCTTGCTGATCCTTGGCAAGTTGATATTCAAGAATTGTTTGAAGCTTCTGTCAATGAACCTGACGAGATCAAAAGGAATTTGTATGATTCCCTATATACTTATATTTTACAAAAAAGACAAGAAGATATTATTAATCGTCCTGGCTTTGCTATTTAGTCCTCTAAAAGCTCACTGAGGGCTTTTTATTTTTGCTTTGGTGTAAATGTATATGAATAGTCTTAAAATCGCTGAGAACAAAAAATAAGGCCCTTAAAAAGTGACATAGCAGTTAAATCTTTATCAAGTTTTAGAAAAGCTAACTGTTTGCTGTCAATGGTAGCGGACGAGCAAAGCGTGGGAGCATAAGGAATTGACAGCTCTTAACTAGTCTTAACACTGAATTGGCGAAAGCCAAAGTTTCTATAAAACTTTGCTTTCCTGCCTAACGGCGAGTGAAAAAGCGGTCAAGCTGGCTCAGCTTGGATGGGGTTCGGGGCGTTAGCGCCCGATTAAATGTGGCTTGCCACACCTTTTTAGGCAACGAACGAAGTGAGGCGCAAGAAGCGTAGCGACTGGAGTTTAATGTGAGCCGGTTTTTGGCTCACTCCTTTGTGTTTTTTGTTTCTAGATTTTAATCTCGTACAGCGGTGCCTCTTATATACCTCTTTTATAAACCTCTTTTAAACCTCTTTTAGACCCCTCTTGAGCCTTACTCTCCCAAGGCTCACAGAAGGTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTATAAGTTCTGTACTTGATAAAAAGGTACTTTTATTTTAATATGTGTTTGAGGTGATAATCATGTCTAATGAGTTAGTTAAGTATGATCCTGAGTTGAATACTATTCCCTTGAGAAAATTTACCCCAATTGAGATGAATTTATTTTTTTCAATTGTTTCCCGCATGCGGGATCAAGGGAATAAAACTGTTCGTTTCTCTTTTGACCAGTTAAAAGAGCTTAGTAACTATAAACCAACCGCAAATAAACGTTTTATTGATGATATTGAAAATACATACCAAAAGATCCTCAGCCTTAGGTTTGGCCGTAGAAGTAAGAGTGGCTTAAATCGTGAATTTTTTGTTATGTTTACTGAATTTGAAATTAAAGGTGAAGCTGAAGAACCTTATGTTGATATTCAGGTTTATCCCAAAGCATTGCACTTGCTAAACGATTTAGAAAGTTGGGTTCGTTATGCCCTAACAGAATTTAGAAATTTAAAAAGCAGTTACGCTAAAACAATGTTTCGTCTAATTAAGCAATTTCGAACTACTGGCTATTCTTATTTCTCTAAAGAAGATTTTTTTGAATTGCTTGATATACCTAAAAGTTATTGGAATAGTCCTTCAAATGTTGACAAAAAGGTTATTAAGCCAATTAGAGAAGAATTAACCCCGCTTTTTAGAGGGCTAACGATTAGAAAAAAATATGGTAAAGGCAGAGGAAAACCAGTTATCGGTTATTCTTTTACTTGGAAACCTGAAAGCAAGGACGCAAATGATTTTTCTCAAGGCAAATTTCAAGATGAGCGTCAAAAACTCTTTAACATTCAACACAATGATGAATTATCAGATAAAGAAAAGTGGCGTGCAATTGACAAAGTTAAATGCTTGCCTTTAGGAACAACTGAAAAACAGGTACTGGCTGAAAAACAAGCTGAACATGATCAAAAAATCAGAGATCAAGCAAGACAAGAAGCACTTGCTGAACTCCGAAAGGGGCTTGGAAATAATGCCTAAAACAATTAGAGAACTTGCTGATGAATTTGGTGTATCAAAACAAGCCATTAGGGAAAAAATAGATGCAAACTTTAGTTGTTGTTAATTCGGGATATTTGCTGTTAAAGCAACATTCATTGGTGGCAACAACCAGAACCAAATCAATTATATTTTAGCTTGAAGATTGATACCTAGTTTAAAAAACGACAAGAACGACAACCAAGTTTAAGCTTTGCTTGTCGATTGGTGTTCTTGTCGTTTTTAACTTATAATTTAAGGCGGATTAATTAGGTGGTGAAACTATTGGGCAAGACTATTCGACAACTTTCAGAAGAATTGAAATTATCAAAACAAGGTATTAATCAACGTATTAATAGTATTAATGGCTTTCGAAGCAAACACACTTATAAAGTCAAAAACCATCTAGAAATAGACAACCAAGGCGTTAAAATGCTTGCTAATTTCGACAAGCAAAAACGACAAGAACGACAACCAAATCGGCAAGCTGAAAACGACAAGGACAAAAATATTGATCATATCTTGCTAAAACAACTTGATGTTAAAGATCAACAAATTTCCAAATTACAAAAGTCCTTGGATCAGCAGCAACAACTACAGTTAGCGACACTTGCCGAAAATCGTCAACTAAAGAACCATATTCAAGAATTGAGTGGTCTTCTTGAATCTTCTAATTCAATTCAAAAACGACAAGTAACCAAGAAAAATGACAACTTTCCGAACAATGATAATTCCAGTCATATCAAGGATAAAAATGGTGTTGTCGGTACTGATGAAAAACAAAAGAAAATACATAAAAATAAAACCAATAAGAGTTGGTGGCATTTTTGGAAATAAATTTCAGAGCAGTTATCAAAACTTTGGAGGGGTATCCTTGAAAGAAGACCACAAACAATCAAGCGAGAATCTGAGCTCTAACGATATTCATGAAAATATAATAAGAAAATATATGCCTGATATTCTGAATATTTTACTTATTGATAGAACAACAAGCACAGCTAATGGTACTCATAATATAATTTGGGCAAATAAGAATTATCTAAAGTATGATTCCAAAAGATATGCTATGACAGCGGAAATCAAGCCCGAACTAATCACGGGACTTATGGAAGGCATTATTCGTCCAAGAGCGTTAAAAACTAAAGAGATTCAAAAAAGACGGACTAAATCGAAAGCCGAGGTTTTTACACCAACTTGGATAGTAAAAAAACAGAATGATGAAGTTGACAATGATTTTGCCAACGATGATTTAGAAACTTACGTAAAGCGAACCTGGCTTGAGATTACTTGCGGGGAAGCTCCTTATATGACAACTAGATATGATATGGACACCGGGAAAACTATTCCTATTGCTAAGCGTGTTGGATTCATTGATCGAAAGCTAGCTCGCATCAATAAGGAAGTTGACGGTAAATTGGAATGGCAACGGCTGGTTGAAGAATCTTATAAATCCAGCTATGGTTTTGAATGGAATGGGGATTCACTGCTATTAGCGCGTGAAAACTTGCTTTATACTTACCGTGATAATTTTTTGATTAAGTGGCATACAGAGCCAACTCTAATTTTGCTTAGATCAATTGCTAAAATCATTAGTTACAATGTTTTTCAAATGGATGGCTTAAAATATACAATTCCTTTGACTGAAAGAAAAGAAAAAAAGATTGATCCACAAATGTCATTGTTTGAAGATTATAGTGATGAGAAGTGGATAGTTAAGCCTGGAAAACGTGTAAAAATAATGAATTGGGAAAAAAATAAAATGGAATTTTTTGATCAAGGAGTGAAATAAGTGTGAAAAATCAGCCCGCTATTAATACAACAAAAATAGTATACCCACAAATATACGCTTATACGTTACCAACCGAGAAAGAAGATTTAGGGTGGATTAAAATTGGTTACACTGAACGTAAAAATGTTGATGATCGTATCAAAGAACAGACACATACGGCTGCCATTCGTTTAACATATTCCAAATTATGGTCAGAACCAGCCAAGTTTGCTAAAAATGAGGGTTGGTTTAAAGATAAGCAATTTCATTCCTATTTGCGTCGTTATAAGAAAGTTAGTCAGCGTCAAGGAACTGAATGGTTCTATTATGATGGTCATCCGCAAAAATCACATCAAGATTTCATGGATTTTCGTAACAACCAGAAATCTCAAATTAAAGAACAGCTGACTTATCAGCTAAGACCTGAGCAAGTTGCAGCAGTTCACCAAACGTTAGATTATGCCCATAATCATCCTAATAGCGAATTCTTGTGGAACGCAAAACCACGGTTTGGAAAAACTTTAACTACATATGATTTAGCTAGAAAATTAGATGCTAAAACTGTTTTAGTTGTGACTAATCGTCCTGCGGTTGCTAACTCTTGGTTTGATGATTTTGAAAAATTTATTTCTTGGCAAACTAGTTACGCTTTTATTTCGACTAATGATACTTTAAAAGATCGTCCAGTTTTAACAATAGACGAATTTAATAATGAACCATTTAGTGGCAGTAAAAAAGACAAAATGATTACCTTTATTTCCTTACAAGATTTGAAGGGAGCAATTTCATTTGGTGGTAACTATGACAAGCTCAAATGGGTTAAAGATTCACATTGGGATTTACTAGTTATTGATGAGAGTCATGAGGGAGTAGATACTTTTAAAACTGATATTGCTTTCAATAATATTAATCGTGACTTTACTTTAAATTTATCTGGTACGCCCTTTAAAGCCGTTGCATCAGGAAAATTTAAACAAAATCAAATTTATAATTGGACTTATGCTGACGAACAACAGGCAAAAGCAAATTGGCATGATTCAGAAAAAAATAATCCTTATAGATCATTACCAAAGCTGAATCTGTTTTCTTATCAGATGAGTCCCATGATCACAGATGAAGTTAATCAAGGAGCACAAATCAACGGAGATAATATTGACTATGCTTTTGATTTAAATGAATTTTTCGCAACCAACCAAAATGGCCATTTTATTCATGAAATGGATATAAAAAAATGGTTAGATACCTTAACACATAACGAGAAATATCCATTCTCTACTAAAGAATTAAGGAATAAACTAAAGCATACTTTCTGGCTATTAAATCGTGTTGCCAGTGCTAAGGCGCTAGAAAAATTATTAAAAGAACATCCAGTTTTTAAAGATTATGAGATTATTTTAGCAGCTGGAGATGGGCATGGTTTTGATGACGATCAGACCATTAATGAAAAATCACTTGATAAAGTTAAAAGAGAAATTAAAAAAAATGATAAAACTATAACGTTATCCGTTGGCCAATTGACGACTGGTGTGACTATTCCTGAGTGGACAGCCGTATTAGTATTATCTAACCTAAAATCACCCAGCCAATACATGCAAGCGGCATTTCGGGCACAAAATCCGTGGGAACACATGGTTAATGGTCAAGTTTATCAAAAAGAAAATGCCTACGTTTTTGACTTTGCCCCTGAACGTACGTTAACTATTTATGATGAATTTGCTAACGATTTATCAAAACAAACATCAAATGGTAACGGAACGACAAAGGACCGTGAGAAAAATATCGGGAGGTTATTGAACTTTTTCCCTGTAATTGCTGAAGATAAGCAAGGCAAGATGGTTGAATTAAACGTTAACCAGGTCCTAACTATTCCAAGAGCCATTAAAGCTCAAGAAGTAGTTCGACGTGGTTTTATGTCTAATTTGTTGTTTGCAAATATATCAGGAATTTTTGCTTCAGCAGGGGCACGAGAAATATTGGAACAATTAAATCCGGTTGACACTGGTAAAAAAGTTTCGCATAAGACTGAAAAGAAAATCGATACAAGAAATGTCAAAGTCAACGATAAGGGTGAAGTTGAAGTCAATCCAGAAATTGTTGTAGCTAAAACGTCGGCCCATTTTGGTGAGAAAGTTTACGGCGATATAACTGATAAAATCGAACAAGCGTCAAATCAAGATATCAATTTGGTCAAACTTACTTCAGATACATTCAAGAAAAAAACTTTAGCAGCAGCAAAGAATATTGCTAAAGAAAATGGTTTGACTGCTACAACAGCAGAACATATTATCCAGCAACATTCAAATTTTTTGGCGCGTGAAGTTCAAGTTATTCAAAAACAAAAGAATATAAAAGAAGCTCAAAATAAAGTAGATTTAAAGCAAGCTATTGAAAAATCTCAAGATAATCCTGAAGAAATTGCTAAAGCTCAGACAGCGTTTGAAAATAGAAAACAACAAATTGAAAGGGGGTATAAAGAAAAATTAACCAAAAAAGTTGCTGATCAGACAAAACAACTAACCAATCAAACAACTGAAACCTTGTTAAAAAAGGCAGAAGAAAAGAAGAAAAATACGGTTGAGGATGATATTCGAGCACGTTTGCGTGGCTTTGCTCGCACTATTCCTTCATTTTTGATGGCTTATGGTGCATCCACTACAGAACTAGCTAATTTTGATCAAAATATAAAAGGTGATGTTTTCAAAGAGGTAACAGGTATCACACTTGATCAGTTCCGATCCTTACGCGATACGTATCATTTTTTCGATGAAACAACATTTAATGAATCCGTTCAAGAATTTTTAAGAAAAAGATCTCAACTTGCTAATTATTTTGACGAATCACAAGATGAGGACATTTTTGATTATGTTCCAGCCCAGAAGACCAATCAAATATTTACTCCAAAGAGAGTCGTTAAATTGATGCTTGATAAGCTTGAAGAGGAAGAGCCTAACATCTTTAAAGACAAAAACAAAACTTTTGTTGATTTGTACGTTAAATCTGGATTGTATTTAACCGAAATCATCAAACGTCTTTATATTGGTCTGGAAGATCAAATACCTGAGTCAAATGAACGTTTGACTCATATCTTAGAAAAACAGATTTATGGTTTTGCTCCAAGCAATATTATTTATAGCATTGCAAAGAACTTTGTTTTTTCACCCTTTCCAAATTTAGATAATTCACATTTAAAACAGTTAGATATGATTCCTTATGCCAAAAGAGAGAAGAGGCTGGATATGAAATTTGACGTAGTGGTGGGAAATCCACCTTATCAGGAAACAGCAAATGGTAAAAGTACTAAAGACGTTCCAGTTTATAATTACTTTTATGATTTAGCAGAAAGAGTTTCAACAAAATATATTTTAATTTCTCCAGCTCGTTTCTTATTTAATGCCGGCAGTACCGATAAAAAATGGAATAAGAAGATGCTTTCAAATAAACATATAAAGGTTGTTTTTTATGAGCAAGATGCAGCAAAGATTTTTCCAAATACCGATATTAAGGGTGGGATTGCTATCCTATATAGAAATAAAGATAAAGATTTCGGAAACATTGGATTGTTTACTCCTTTTGAAGAATTAGATTCCATCTCTAATAAAGTATCTAAGTTGACATATCGGACACTAGACGAAATTATTTCTAATCGTGGTCAATATAGATTTTCAGATTTAATTTACAAAGAATATCCGAATGATATGAAGAAAATTTCAGACAGAAGAATCGCTTCTAACGCGTTTAATAACCTCCCAAATTTATTTACAGAAAAAGAACCACACAATAAGTTCAATTATATAAGGATATTAGGTCGTTTAGACAATCAACGCATTTATAGGTGGTTTAGGCGCGATTATTTACAAGAACCCATAACTTTTGAAAAATGGAAAATAATACTACCTAAAGCTAATGGAAGTGGGGCAATTGGAGAAGTATTAAGTACACCCCTAATCGGTAAACCCCTAATCGGGTTTACCGAGACTTTTATTTCAATTGGTGTTTTTGATAATAAGTTAGAAGCTCAAAATGCTCTAAAATATGTCCAAAGTAAATTTGCACGAACTATGCTGGGAATTTTAAAAATTACACAGGACAATCCAAAGGATAAGTGGTCAAAGGTTCCTCTTCAAGACTTCACACAAAATTCAGATATAGATTGGACTAAGTCAATATCTGATATTGATCAGCAACTTTATAAAAAATATGGACTAAATCAAAAAGAAATTAATTTTATTGAAAATAAAGTTAAATCAATGAATTAAAGGCCAATAAGGAGGAAAAAATGAACTTTACAGAGAAAAAATTAAAGTCTTTCTCGATGCCACTCAGTGATACAGAAGATCAAAAATGTAAGCATGCTATTCAAGAAGTTAGAAATTCTATGGCTAACTTGGGATTTGAGGAGTCTTCTAATGGAATAACTCGTGTATTTGACAATACTAGTTCCTATCAAACATTCATGAAAAATAATGAATCGGGCGAAAAAATCAAAATTTTTCTCCAGGGATCCTATGCAAATAATACTAATATCAAAGCAGAAAGTGACGTTGATGTTGCTATAGTAAGAGAAGAAATTTTTAACACACTTTTTCGTAGTGAAGGAGTATACCCTCAAAATAATGAAACGTTTGGATTTTATAATGTACCACAAAAGCCAATAACATTTAAAGATCGTGTAGACACATGCTTAAGAGCTAGCTTTCACGAGCAAGTAATAAGACATAATAAGTCAATTAGGGTTTTGGGAAATAGTTACAGAAAAAATGCTGACACAGTCCCAGCTAATCGTTACAGAAACTATCAAGGAAACTATTCAAATGATCCTGAAGACTATGTTGGAGGGATAATAATTAAACCAGATTATGGAACTTCTATAATTAATTATCCAGAACAACATATACGCATGGGAAGGCAGAAAAACATAGCAACAAATCATTTTTATAAAAAACAAGTTAGAATAATGAAAAGCATTAAAAACTTAATGACTGATGAGGGATATACATCCGCACAAAAAATGTCATCTTTTGGTTTGGAGTCATTAACTTGGAATATACCTGATAACATTTTCACTAAATATGACCAGCTAAGATTTGTTTTCGATGATATTGTTATCTATTTGACCGACCATGCAGATAATGTAGCTAACTTTAAAGAGGCAAATGGTATAAAAAGACTTTGTAATGATGAAAATCAAGTTACGGATTATCTAAACTTTATTTCGGATTTAAAATCATTCTATGAATTTGAAATAGGAGATTAGAATGAAAAGTGAAGAGAAAGGACTTATTAAATATAGTGTTACTATAGGAATTATTGTTTTTGTTGTTCTTTGTGTTACACATAATTTGAATATTAGACTAAATACATTGAAGTCTATTACGGATTACGCGGGAGATTCTATATCTATTAGTGTAATTTTTGCATTTTTTTATGAAAAATATATTTGGCGTTGGAATCCATTTGAAAAACATCCGAGACTTGCTAAAAAATATTCTGGTTATCTTATTTCAACCTTTGATGATAAAAAAAGAACACTCGAACTAGACTTGAAACAAACTTTAATGACTTGCAAAGTACATCAAAAAACTGAAGAAAGCGACAGCGATGCAATTAATACAAATATAATAGATATAAATGGACGAAGTGCCCTTGTTTACACCTATTTAAATGTTCCAAGGCTAAATGTCCGAGAAAGAAGCCCTATACATTATGGAAGTGCTATTCTTTTTATTAACAGTCAAGAAAAACTTAATGGAGGATACTTTACTGATAGGAAAACGACCGGTCAGATAACTGCTGAGAAAAAGATTAAACCGATTTAAGTAATAACTTATAAAAAATTCATAATATTTAATTACATTAGGGGCCATAATTAACAAATACCCCCTTGAAAAGACCGATAAAACAGCCCCTAACAAATCAACTTGGTTTGTTAGGGGCTGTTTTTTAGATTATACTTAAAATAACGCCTATAATGGTTGGATTCTAATGCTTAAAAAAGAGGTGACTAGGTTATGGTGCAATAACTTGTTTTACCAATCAAAGATTCTAACGTCCTAACAAGTGTCCAGGAGACGCTGTTGGATAGTTTTCGAGCTGGTCGGCGTAATTACACCATTTTTCAACTGGGTAAAGCGACCTTACTACGGGTCAGTGATGTCATGCAGCTGAAAAAGGTTGATGTCTTTAACGCCGATGGTACGATTAAGCAAAATACGTTTATCCTCGACCAAAAAACGGGTAAAGCTAACACTCTTTATCTCAAACCAGTGCAGACTGTATATTAATCTTTTGGAAATATTTTTTCATTGATAACAACGACTGTTTTTTCGCTAATGCCCATTCTATATTCAAATAATAAATCTACTAATTCATCACCATCAACTAAGGTAATTAAATTAGCTCCTTGACGCGATCTACTGACAGCATCATTTGTATAGGTAGAAGTCGTTACAAATATCCCTCTGTCTGCATTATGACCACTAATGGTACCAGCAAAATTACTGATATCTGGTCCTGTAACCGGACCTTTTGTAAATCGCTTAGTTTGTAACACAATTTTATATGTCATCAACTCAGGGGTTCTTAAATAACCTATGCCATCAATGCCACTATCTCCTGTTTTTGAAGTGGTATCCATTTTAATGCCTATTTTTCGCATAAGATTTACAATCAATTCTTCAAACTTATATGGATTCATTTCACTCAATCGCTGTAATAATTGATCTCGCCATAATTCAGAATCATCTGTTTCTTCTACAATGTCTTCGTCCAGATTGGCAATATTGACATTTGAAGATGATAGTATTTCATCTTTCTTTTTTTGATTATTTAGCTTCTTTTTTTGCCAAACAGGAGTAGATATTGAGTATACATCGTCCCATACATCAAAGTTATTTATATCAACGTCTTCTCCCATCTGTGTCAAGGCCCATACTCCCCACTGTGGTGAATAAAGTAATCCGGCTTTCTTTAAATTAGACATAGACCACTGCAATCTAAAATCTAACTGACTTTGACCATTACTAGACTTTTTCTCTCTATCTGCATCTGTAAAATAAGGATATTCAACAGCCTTTTCTTTGACAAGAGCAGCTTTAGTTGGCCCCCCATAAGACTGTAATGCTTGTAAAATAGCCACTACACCAAACTTCTCCATATAGTTCAAGTTTTTATTAGAATTCACGAAGCTGAGCCAATTCTTAGGCATATCAGCTTCCAATTCTGTTATTTTACGAGTGATTCCGAAATGATCATACGCTAAATCTACCATGTTTAATCCATCCTTATAAATTTTATTTTTATTATACACTTACGTTTACAGATTATTTTAATGTGGTTAAGCTGACACCAGCTTGCCCGACGCGGGTAGCGTTCTGCATGACATGCTCCCGATGAAATCGACCATGCAACGGTAAATTGCCCTGTCACGGCGTGACCCGCCGGAGGTTTTACGAGCCGGATAATAGGCGCTGTAAAATAGCAGTTTTCCCAGAAGGAAGGGAAAACGCTACTGTAATCGCTTGTCGATTACTTGCCTCGCAGAGCCTGTCCAAAATATTATTTTGGTATAACAGGCTATACCAGATTTTTAACGGTGTTATACTGGTCTTGGAAAACCTTTTTCGAGGAGGCATTTTTGATGGCGCATTTACAAAATCGCCCCTCAAAAATATTGAAAGAATAACCCCTAATATCTATAATGCAGATATTAGGGGTTATTTATTTTCATATTATAAAAATGACTTCTTCTATTCGTCATTTTTTCGATACCTTTTAGAACGATTTTGACCAGGAAATAAACGATCATGCGATCCGACTCGAATGCCAATTAAGACTAGTTCATCTTTATCAATCGTATAAACCACCAGGACATCGTTAGTTTCGCTTGGTGTTTTGTTTTTCGGGGTATCTCGCAAGTGAAATTCATTATAACCGCTCATTCGCCGATTAAGCTCATGATCTTCAAATTCTGGTGGTAATTGTTGTTGCTCAAGCAACAGGTCAATGGCTGCTCGAACTTCATTAATAATAGATTTGTCTAAACTGGCTAACCGTTTTAGATCAGCATTAAAGGTTGCACGTGGTTTAAATCTTAGTTTTTTCA	NA	NA	NA	NA
>prophage 4
CP023006	Pediococcus pentosaceus strain SS1-3 plasmid pSS1302, complete sequence	39282	26187	30420	39282		Organic_Lake_phycodnavirus(100.0%)	1	NA	NA
AXR42640.1|26187_30420_+	helicase	NA	F2Y298	Organic_Lake_phycodnavirus	23.2	6.4e-22
>prophage 5
CP023006	Pediococcus pentosaceus strain SS1-3 plasmid pSS1302, complete sequence	39282	34620	35208	39282	integrase	Bacillus_phage(100.0%)	1	22530:22589	35624:38364
22530:22589	attL	AATGTTAGGAGTCATTAAGCTGGACGAAAAGAAAGTATTAAAACCAATTGATGAAATGCT	NA	NA	NA	NA
AXR42646.1|34620_35208_+|integrase	site-specific integrase	integrase	D2XR58	Bacillus_phage	33.7	8.3e-21
AXR42646.1|34620_35208_+|integrase	site-specific integrase	integrase	D2XR58	Bacillus_phage	33.7	8.3e-21
35624:38364	attR	AATGTTAGGAGTCATTAAGCTGGACGAAAAGAAAGTATTAAAACCAATTGATGAAATGCTTGCTGATCCTTGGCAAGTTGATATTCAAGAATTGTTTGAAGCTTCTGTCAATGAACCTGACGAGATCAAAAGGAATTTGTATGATTCCCTATATACTTATATTTTACAAAAAAGACAAGAAGATATTATTAATCGTCCTGGCTTTGCTATTTAGTCCTCTAAAAGCTCACTGAGGGCTTTTTATTTTTGCTTTGGTGTAAATGTATATGAATAGTCTTAAAATCGCTGAGAACAAAAAATAAGGCCCTTAAAAAGTGACATAGCAGTTAAATCTTTATCAAGTTTTAGAAAAGCTAACTGTTTGCTGTCAATGGTAGCGGACGAGCAAAGCGTGGGAGCATAAGGAATTGACAGCTCTTAACTAGTCTTAACACTGAATTGGCGAAAGCCAAAGTTTCTATAAAACTTTGCTTTCCTGCCTAACGGCGAGTGAAAAAGCGGTCAAGCTGGCTCAGCTTGGATGGGGTTCGGGGCGTTAGCGCCCGATTAAATGTGGCTTGCCACACCTTTTTAGGCAACGAACGAAGTGAGGCGCAAGAAGCGTAGCGACTGGAGTTTAATGTGAGCCGGTTTTTGGCTCACTCCTTTGTGTTTTTTGTTTCTAGATTTTAATCTCGTACAGCGGTGCCTCTTATATACCTCTTTTATAAACCTCTTTTAAACCTCTTTTAGACCCCTCTTGAGCCTTACTCTCCCAAGGCTCACAGAAGGTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTTGTCTGTTTATCAAGTACCTTTATAAGTTCTGTACTTGATAAAAAGGTACTTTTATTTTAATATGTGTTTGAGGTGATAATCATGTCTAATGAGTTAGTTAAGTATGATCCTGAGTTGAATACTATTCCCTTGAGAAAATTTACCCCAATTGAGATGAATTTATTTTTTTCAATTGTTTCCCGCATGCGGGATCAAGGGAATAAAACTGTTCGTTTCTCTTTTGACCAGTTAAAAGAGCTTAGTAACTATAAACCAACCGCAAATAAACGTTTTATTGATGATATTGAAAATACATACCAAAAGATCCTCAGCCTTAGGTTTGGCCGTAGAAGTAAGAGTGGCTTAAATCGTGAATTTTTTGTTATGTTTACTGAATTTGAAATTAAAGGTGAAGCTGAAGAACCTTATGTTGATATTCAGGTTTATCCCAAAGCATTGCACTTGCTAAACGATTTAGAAAGTTGGGTTCGTTATGCCCTAACAGAATTTAGAAATTTAAAAAGCAGTTACGCTAAAACAATGTTTCGTCTAATTAAGCAATTTCGAACTACTGGCTATTCTTATTTCTCTAAAGAAGATTTTTTTGAATTGCTTGATATACCTAAAAGTTATTGGAATAGTCCTTCAAATGTTGACAAAAAGGTTATTAAGCCAATTAGAGAAGAATTAACCCCGCTTTTTAGAGGGCTAACGATTAGAAAAAAATATGGTAAAGGCAGAGGAAAACCAGTTATCGGTTATTCTTTTACTTGGAAACCTGAAAGCAAGGACGCAAATGATTTTTCTCAAGGCAAATTTCAAGATGAGCGTCAAAAACTCTTTAACATTCAACACAATGATGAATTATCAGATAAAGAAAAGTGGCGTGCAATTGACAAAGTTAAATGCTTGCCTTTAGGAACAACTGAAAAACAGGTACTGGCTGAAAAACAAGCTGAACATGATCAAAAAATCAGAGATCAAGCAAGACAAGAAGCACTTGCTGAACTCCGAAAGGGGCTTGGAAATAATGCCTAAAACAATTAGAGAACTTGCTGATGAATTTGGTGTATCAAAACAAGCCATTAGGGAAAAAATAGATGCAAACTTTAGTTGTTGTTAATTCGGGATATTTGCTGTTAAAGCAACATTCATTGGTGGCAACAACCAGAACCAAATCAATTATATTTTAGCTTGAAGATTGATACCTAGTTTAAAAAACGACAAGAACGACAACCAAGTTTAAGCTTTGCTTGTCGATTGGTGTTCTTGTCGTTTTTAACTTATAATTTAAGGCGGATTAATTAGGTGGTGAAACTATTGGGCAAGACTATTCGACAACTTTCAGAAGAATTGAAATTATCAAAACAAGGTATTAATCAACGTATTAATAGTATTAATGGCTTTCGAAGCAAACACACTTATAAAGTCAAAAACCATCTAGAAATAGACAACCAAGGCGTTAAAATGCTTGCTAATTTCGACAAGCAAAAACGACAAGAACGACAACCAAATCGGCAAGCTGAAAACGACAAGGACAAAAATATTGATCATATCTTGCTAAAACAACTTGATGTTAAAGATCAACAAATTTCCAAATTACAAAAGTCCTTGGATCAGCAGCAACAACTACAGTTAGCGACACTTGCCGAAAATCGTCAACTAAAGAACCATATTCAAGAATTGAGTGGTCTTCTTGAATCTTCTAATTCAATTCAAAAACGACAAGTAACCAAGAAAAATGACAACTTTCCGAACAATGATAATTCCAGTCATATCAAGGATAAAAATGGTGTTGTCGGTACTGATGAAAAACAAAAGAAAATACATAAAAATAAAACCAATAAGAGTTGGTGGCATTTTTGGAAATAAATTTCAGAGCAGTTATCAAAACTTTGGAGGGGTATCC	NA	NA	NA	NA
