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There are several matches for 'putative plasmid recombinase'.
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125 matches
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organism
protein
1)
Burkholderia pseudomallei
BPSL3257 - Similar to plasmid and pathogenicity island recombinases eg. Xanthomonas axonopodis shufflon-specific recombinase Rci or Xac2418 SWALL:AAM37269 (EMBL:AE011879) (315 aa) fasta scores: E(): 2.6e-24, 63.96% id in 333 aa, and to Salmonella typhi, and Salmonella dublin Rci or Sty4552 SWALL:O51802 (EMBL:AF000001) (383 aa) fasta scores: E(): 6.2e-07, 34.25% id in 327 aa, and to Escherichia coli shufflon-specific DNA recombinase Rci SWALL:RCI2_ECOLI (SWALL:P16470) (384 aa) fasta scores: E(): 1.3e-06, 35.78% id in 327 aa; Belongs to the 'phage' integrase family.
[a.k.a. CAH37270.1, Q63PW5, bps:BPSL3257,
Putative plasmid recombinase
,
putative plasmid recombinase
, ...]
2)
Streptomyces coelicolor
SCO3937 - SCD78.04c, possible integrase/
recombinase
within
putative
integrated
plasmid
, len: 495 aa; similar to TR:Q37839 (EMBL:D38173) ORF469 protein (possible site-specific
recombinase
) from Actinophage R4 (469 aa), fasta scores; opt: 261 z-score: 320.1 E(): 1.4e-10, 29.1% identity in 306 aa overlap and TR:O06604 (EMBL:Z95586) MTCY336.18 (Rv1586c) possible integrase from M. tuberculosis integrated phage phiRv1 (469 aa), fasta scores; opt: 371 z-score: 270.8 E(): 7.8e-08, (26.6% identity in 489 aa overlap). Probable coiled-coil from 414 to 451 (38 residues) Max score: 1.608 (probability 0.99).
[a.k.a. gene:17761564, CAA22209.1, 1099373]
3)
Micropelagos thuwalensis
ERL46965.1 -
Putative
plasmid
recombinase
protein.
[a.k.a. RS24_00891, U2WTT5, U2WTT5_9PROT]
4)
Lactobacillus algidus
KRK45086.1 -
Putative
integrase
recombinase
plasmid
associated.
[a.k.a. FC66_GL000553, A0A0R1HFE8, A0A0R1HFE8_9LACO]
5)
Lactobacillus uvarum
KRL37231.1 -
Putative
integrase
recombinase
plasmid
associated.
[a.k.a. FD20_GL000569, KRL37231, A0A0R1PXK6_9LACO]
6)
Staphylococcus aureus
xerC - Site-specific
recombinase
,
putative
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. SAOUHSC_01224, ABD30328.1, NZ_LS483365.1]
7)
Heliobacterium modesticaldum
xerD - Tyrosine
recombinase
xerd,
putative
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. HM1_0314, ABZ82933.1, ABZ82933]
8)
Heliobacterium modesticaldum
xerC - Tyrosine
recombinase
xerc,
putative
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. HM1_2213, ABZ84769.1, Integrase/recombinase XerC]
9)
Rhodospirillum centenum
xerC - Tyrosine
recombinase
XerC,
putative
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. RC1_2257, ACI99644.1, Integrase/recombinase XerC]
10)
Desulfarculus baarsii
Deba_1720 - Bifunctional DNA primase/polymerase; InterPro IPR015330:IPR000276; KEGG: apt:APA01_26890 DNA
recombinase
RecA; PFAM: Bifunctional DNA primase/polymerase; SPTR: C6N3S3
Putative
truncated Phage /
plasmid
primase P4; PFAM: Bifunctional DNA primase/polymerase, N-terminal.
[a.k.a. ADK85087.1, Bifunctional DNA primase/polymerase, ADK85087]
11)
Desulfarculus baarsii
Deba_2241 - Bifunctional DNA primase/polymerase; InterPro IPR015330; KEGG: apt:APA01_26890 DNA
recombinase
RecA; PFAM: Bifunctional DNA primase/polymerase; SPTR: C6N3S3
Putative
truncated Phage /
plasmid
primase P4; PFAM: Bifunctional DNA primase/polymerase, N-terminal.
[a.k.a. ADK85605.1, Bifunctional DNA primase/polymerase, E1QJ62_DESB2]
12)
Nocardia farcinica
xerD -
Putative
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. NFA_20070, BAD56853.1, nfa:NFA_20070]
13)
Nocardia farcinica
xerC -
Putative
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. NFA_41390, BAD58988.1, Integrase/recombinase XerC]
14)
Croceibacter atlanticus
xerC -
Putative
tyrosine
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. CA2559_11988, EAP86756.1, cat:CA2559_11988]
15)
Leeuwenhoekiella blandensis
xerC -
Putative
tyrosine
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. MED217_07166, EAQ49165.1, WP_009779814.1]
16)
Maribacter sp. HTCC2170
xerC -
Putative
tyrosine
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. FB2170_15478, EAR01942.1, A4AR53_MARSH]
17)
Polaribacter irgensii
xerC-2 -
Putative
tyrosine
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. EAR11991.1, PI23P_11677, A4C1I8]
18)
Robiginitalea biformata
xerC-2 -
Putative
tyrosine
recombinase
; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. RB2501_12627, EAR15174.1, Putative tyrosine recombinase]
19)
Abiotrophia defectiva
xerC -
Putative
tyrosine
recombinase
XerC; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. ESK65385.1, GCWU000182_001546, Integrase/recombinase XerC]
20)
Absiella dolichum
xerC-2 -
Putative
tyrosine
recombinase
XerC; Site-specific tyrosine
recombinase
, which acts by catalyzing the cutting and rejoining of the recombining DNA molecules. The XerC- XerD complex is essential to convert dimers of the bacterial chromosome into monomers to permit their segregation at cell division. It also contributes to the segregational stability of
plasmids
.
[a.k.a. EUBDOL_01183, EDP11263.1, NZ_DS483475.1]
125 matches
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