Jatropha Genome Database
- JcCB0053231.10
BLASTP 2.2.23 [Feb-03-2010]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= JcCB0053231.10 - phase: 0
(275 letters)
Database: castor_wgs_0.1_aa
31,221 sequences; 10,419,776 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
29638.m000506 carbonic anhydrase, putative 420 e-118
29638.m000507 carbonic anhydrase, putative 414 e-116
30078.m002256 carbonic anhydrase, putative 311 2e-85
29638.m000505 carbonic anhydrase, putative 295 2e-80
28007.m000179 carbonic anhydrase, putative 237 6e-63
28007.m000174 carbonic anhydrase, putative 233 6e-62
29625.m000722 carbonic anhydrase, putative 223 7e-59
28007.m000175 carbonic anhydrase, putative 200 7e-52
44217.m000025 carbonic anhydrase, putative 91 4e-19
>29638.m000506 carbonic anhydrase, putative
Length = 274
Score = 420 bits (1080), Expect = e-118, Method: Compositional matrix adjust.
Identities = 204/276 (73%), Positives = 240/276 (86%), Gaps = 3/276 (1%)
Query: 1 MRKLAFKILFFTRFIFISLLLHTLPISSQEIEDEKDFDYYE-GEKGPSRWGELHPEWSAC 59
M KLA +ILF T F + LLHTLP +SQE+E+E++FDY + GE+GP+RWGELH EW AC
Sbjct: 1 MGKLAIQILFLT--FFFAFLLHTLPTTSQEVENEREFDYEKNGERGPARWGELHEEWRAC 58
Query: 60 NNGSMQSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTE 119
+NGSMQSPID+LNERVEVVSHLG+L R Y+ SNATLKNRGHDMM+EWENGAG EINGTE
Sbjct: 59 SNGSMQSPIDMLNERVEVVSHLGRLNRSYEPSNATLKNRGHDMMLEWENGAGTIEINGTE 118
Query: 120 YILKQCHWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLR 179
YIL+QCHWHSPSEH+++G RFALELHMVHES DGKVAV+GVMY IGRPDSFL S+ HLR
Sbjct: 119 YILRQCHWHSPSEHTLDGRRFALELHMVHESPDGKVAVVGVMYTIGRPDSFLLSLTDHLR 178
Query: 180 SVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVR 239
S++GT + + VVG++NPK IK+ SRKYYRY GSLTVPPCTENV+WTIV KVRTV+REQV
Sbjct: 179 SISGTEEEERVVGIINPKDIKIGSRKYYRYMGSLTVPPCTENVIWTIVKKVRTVTREQVS 238
Query: 240 LLRVAVHDESDTNARPIQLMNGRSVQLYKPESTDNN 275
LLRVAVHDESDTNARP+Q +NGRSV LY+PE +++
Sbjct: 239 LLRVAVHDESDTNARPLQQINGRSVHLYRPEENNDD 274
>29638.m000507 carbonic anhydrase, putative
Length = 272
Score = 414 bits (1064), Expect = e-116, Method: Compositional matrix adjust.
Identities = 192/252 (76%), Positives = 218/252 (86%)
Query: 22 HTLPISSQEIEDEKDFDYYEGEKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHL 81
H++ SSQE+EDE +FDY EKGP+RWGELH EW AC+NGSMQSPIDL NERVE+VS+L
Sbjct: 21 HSILTSSQEVEDEHEFDYRNSEKGPNRWGELHHEWGACSNGSMQSPIDLFNERVEIVSYL 80
Query: 82 GKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFA 141
G+L R YK SNATLKNRGHDMM++WE GAG INGTEYILKQCHWHSPSEH+VNG +A
Sbjct: 81 GRLIRSYKPSNATLKNRGHDMMLQWETGAGTLRINGTEYILKQCHWHSPSEHTVNGKSYA 140
Query: 142 LELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKL 201
LELHMVHESLDGK+AV+G+MY IGRPDSFLSS+ L+ VAGTR+ +T G VNPK IK+
Sbjct: 141 LELHMVHESLDGKIAVVGIMYTIGRPDSFLSSLTDRLQLVAGTREYETAAGTVNPKDIKI 200
Query: 202 RSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNG 261
SRKYYRY GSLTVPPCTENVLWTIV KVRTV+REQVRLLRVAVHDES++NARPIQ +NG
Sbjct: 201 GSRKYYRYMGSLTVPPCTENVLWTIVRKVRTVTREQVRLLRVAVHDESNSNARPIQGING 260
Query: 262 RSVQLYKPESTD 273
RSVQLY+PE D
Sbjct: 261 RSVQLYRPEEED 272
>30078.m002256 carbonic anhydrase, putative
Length = 274
Score = 311 bits (797), Expect = 2e-85, Method: Compositional matrix adjust.
Identities = 143/265 (53%), Positives = 201/265 (75%), Gaps = 7/265 (2%)
Query: 9 LFFTRFIFISLLLHTLPISSQEIEDEKDFDYYEG-EKGPSRWGELHPEWSACNNGSMQSP 67
+FFT IS+LL + + +QE+EDE++FDY +G EKGP +WGEL EW++C NG++QSP
Sbjct: 8 MFFTIATLISVLLFSHQVKAQEVEDEREFDYIQGSEKGPEKWGELKKEWASCKNGTLQSP 67
Query: 68 IDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWE-NGAGITEINGTEYILKQCH 126
ID+ N+RV+++ G LKR Y+S N+T+KNRGHD+ ++WE + AG INGT Y L+QCH
Sbjct: 68 IDMSNQRVKIIPKSGDLKRNYRSCNSTVKNRGHDISLQWEGHKAGSVNINGTGYFLQQCH 127
Query: 127 WHSPSEHSVNGVRFALELHMVHESLD----GKVAVIGVMYIIGRPDSFLSSVDKHLRSVA 182
WHSPSEH++NG R+ +ELHMVHES D K+AV G++Y IG+PD+FLS + ++ S+
Sbjct: 128 WHSPSEHTINGRRYDMELHMVHESTDPNVKNKIAVTGILYKIGQPDAFLSKLLGNVISMT 187
Query: 183 GTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLR 242
++ + + GM+NP IK+ ++YYRY+GSLTVPPCTE V+WTI K+RTVS +QV+ LR
Sbjct: 188 DHKQDRNM-GMINPNEIKMGGKRYYRYEGSLTVPPCTEGVIWTINKKIRTVSIDQVKALR 246
Query: 243 VAVHDESDTNARPIQLMNGRSVQLY 267
AVHD ++ N+RP+Q +N R VQLY
Sbjct: 247 EAVHDYAEKNSRPVQPLNEREVQLY 271
>29638.m000505 carbonic anhydrase, putative
Length = 253
Score = 295 bits (755), Expect = 2e-80, Method: Compositional matrix adjust.
Identities = 143/241 (59%), Positives = 178/241 (73%), Gaps = 3/241 (1%)
Query: 33 DEKDFDYYEG-EKGPSRWGELHPEWSACNNGSMQSPIDL-LNERVEVVSHLGKLKREYKS 90
DEK+F Y + EKGP+RWGEL EW C++GSMQSPIDL +N+RV++ S L R Y +
Sbjct: 8 DEKEFSYEKNDEKGPARWGELTEEWKTCSSGSMQSPIDLPINQRVQLASSTEGLNRNYSA 67
Query: 91 SNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHES 150
S+A LKN GHD+ +EWE GAG EINGTEY LKQ HWHSPSEH++NG RFALE+HMVHES
Sbjct: 68 SDAILKNTGHDIELEWEAGAGTIEINGTEYTLKQLHWHSPSEHTINGRRFALEMHMVHES 127
Query: 151 LDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRS-RKYYRY 209
DGK+AVI +Y IGRPD FLS + H+R VAG+ +T+VG V+P+ K+++ YYRY
Sbjct: 128 KDGKIAVIAFLYTIGRPDFFLSHLTDHIRKVAGSEGKETMVGTVDPEDFKIQNIMYYYRY 187
Query: 210 KGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGRSVQLYKP 269
GSLT PPC E+V+WT++ KVRTVS +QV LL+ AV E NARP Q NGR + LY
Sbjct: 188 MGSLTTPPCHESVVWTVLKKVRTVSIQQVSLLQEAVDGEPGWNARPTQQTNGRPIHLYVS 247
Query: 270 E 270
E
Sbjct: 248 E 248
>28007.m000179 carbonic anhydrase, putative
Length = 228
Score = 237 bits (604), Expect = 6e-63, Method: Compositional matrix adjust.
Identities = 116/231 (50%), Positives = 155/231 (67%), Gaps = 5/231 (2%)
Query: 1 MRKLAFKILFFTRFIFISLLLHTLPISSQEIEDEKDFDYYEGE-KGPSRWGELHPEWSAC 59
M+ F +L + SL L + S E DE + Y EG KGP WG ++ W C
Sbjct: 2 MKSYNFNVLLLI-IVLCSLTLLSSASMSLETGDESPYLYREGTGKGPKEWGLINRRWRTC 60
Query: 60 NNGSMQSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTE 119
+NG +QSP++L ++V+V+ LGKLKR+Y+ + AT+KNRGHD+ + W+ AG ++NGT
Sbjct: 61 SNGKLQSPVNLSQQKVQVLPSLGKLKRDYQPAPATIKNRGHDITVRWKGNAGKIKVNGTI 120
Query: 120 YILKQCHWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLR 179
+ L QCHWHSPSEH+ NG RF LELHMVH S + K+AV+ ++Y GRPDSFLS + H++
Sbjct: 121 FKLLQCHWHSPSEHTFNGSRFELELHMVHFSPERKIAVVAIVYEYGRPDSFLSRLFHHIK 180
Query: 180 SVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKV 230
SV K + +G++NP IK SRKYYRY GSLTVPPCTE V+WTI KV
Sbjct: 181 SVG---KEERNIGIINPGDIKFGSRKYYRYIGSLTVPPCTEGVIWTISKKV 228
>28007.m000174 carbonic anhydrase, putative
Length = 266
Score = 233 bits (595), Expect = 6e-62, Method: Compositional matrix adjust.
Identities = 115/258 (44%), Positives = 166/258 (64%), Gaps = 14/258 (5%)
Query: 13 RFIFISLLLHTLPISSQEIE------DEKDFDYYEGE-KGPSRWGELHPEWSACNNGSMQ 65
R IF +L +LP + E +E ++ Y E KGPSRW EL+P W AC G Q
Sbjct: 5 RAIF--FVLASLPFLFESSESQAPGNNETEYRYDEASGKGPSRWAELNPLWRACGVGRSQ 62
Query: 66 SPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQC 125
SPI+L + ++ + G L Y+S+ AT+K+RGHD+M+ W AG ++NGT+++LKQC
Sbjct: 63 SPINLQDSKL--IPAPGDLHLAYQSAPATVKSRGHDIMVSWTGDAGSIQVNGTKFMLKQC 120
Query: 126 HWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTR 185
HWH P+EH+++G+R+ +ELH+VH + G AV+G++Y IG+ D FL+ + ++SV
Sbjct: 121 HWHMPTEHAISGIRYDMELHLVHSNSAGAPAVVGILYKIGQADPFLAKLLPDIKSVT--- 177
Query: 186 KLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAV 245
K + +G +NPK I S YYRY GS T PPCTE V WT+ +V+TVS EQV+ L+ AV
Sbjct: 178 KEEKKIGTINPKDIGFSSSNYYRYVGSFTSPPCTEGVPWTVFQEVKTVSMEQVQALKGAV 237
Query: 246 HDESDTNARPIQLMNGRS 263
D NARP+Q + GR+
Sbjct: 238 DDGFQMNARPLQPLYGRT 255
>29625.m000722 carbonic anhydrase, putative
Length = 275
Score = 223 bits (568), Expect = 7e-59, Method: Compositional matrix adjust.
Identities = 107/266 (40%), Positives = 165/266 (62%), Gaps = 7/266 (2%)
Query: 7 KILFFTRFIFISLLLHTLPISSQEIEDEKDFDY-YEGEKGPSRWGELHPEWSACNNGSMQ 65
+I FF + + L L P + E+ + Y G GPS WG+L+P +++C +G +Q
Sbjct: 5 RISFFPLLVTL-LFLAIAPARNIAGENSVSTAFGYHGSNGPSNWGKLNPNFTSCGSGKLQ 63
Query: 66 SPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQC 125
SPI++ +R + +L L + YK +NATL G + + +E+ G IN Y LKQ
Sbjct: 64 SPININRDRTIINKNLKPLLKGYKRANATLATNGAVVGVHYESDCGGMNINNKMYALKQM 123
Query: 126 HWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVA--- 182
HWHSPSEH ++G+++ LELHMVH+ DG +VI ++Y G D +L+ ++K L +A
Sbjct: 124 HWHSPSEHMIDGIQYPLELHMVHQLGDGSYSVIAILYQYGEADPYLAQIEKSLDQLAEEV 183
Query: 183 --GTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRL 240
G ++ Q +G++NPK +K SR+++RY GSLT PPCTE+V+W I+ VRTVS+ QVR
Sbjct: 184 KKGGKEAQVPLGIINPKILKRSSRRFFRYVGSLTTPPCTEDVIWNIIPTVRTVSKNQVRA 243
Query: 241 LRVAVHDESDTNARPIQLMNGRSVQL 266
L+ ++ N RP+Q +NGR V++
Sbjct: 244 LKAPLNQAYKNNCRPLQSLNGRKVEI 269
>28007.m000175 carbonic anhydrase, putative
Length = 263
Score = 200 bits (508), Expect = 7e-52, Method: Compositional matrix adjust.
Identities = 108/261 (41%), Positives = 153/261 (58%), Gaps = 15/261 (5%)
Query: 17 ISLLLHTLPI---SSQEIEDE--KDFDYYEGE-KGPSRWGELHPEWSACNNGSMQSPIDL 70
I LL +LP SS E + +F Y E +GPSRWGEL+P W C G+ QSPI+L
Sbjct: 7 IFFLLTSLPFFFESSIETNEAGPTEFRYDEPSGRGPSRWGELNPLWRICGTGNFQSPINL 66
Query: 71 LNERVEVVSH-LGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHS 129
+ ++S +G L+ Y+ + AT++N G D+ + W G + G Y L+ HWH+
Sbjct: 67 ---QFPILSPTVGDLQIAYRPAPATIRNTGPDITVSWTGNPGTIRVAGINYPLRHGHWHT 123
Query: 130 PSEHSVNGVRFALELHMVHE-SLDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQ 188
P+EH +NG RF LE H+ H G +IG++Y IG D FL+ + ++ SV K +
Sbjct: 124 PTEHLINGTRFDLEFHLFHHIGTHGIPVIIGILYRIGEADPFLTRLLPNITSVT---KEE 180
Query: 189 TVVGMVNPKSIKLRS-RKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHD 247
+G+++P I S R+YYRY GSLT PPC E V W + +VRT S+EQV+ L AV D
Sbjct: 181 RNLGIIDPNDIGFNSSRRYYRYYGSLTSPPCREGVKWIVFQEVRTASQEQVQALMNAVDD 240
Query: 248 ESDTNARPIQLMNGRSVQLYK 268
+ NARP+Q +NGR + LY
Sbjct: 241 GFEMNARPVQALNGRRIDLYN 261
>44217.m000025 carbonic anhydrase, putative
Length = 185
Score = 91.3 bits (225), Expect = 4e-19, Method: Compositional matrix adjust.
Identities = 56/187 (29%), Positives = 97/187 (51%), Gaps = 11/187 (5%)
Query: 81 LGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRF 140
L ++ +Y S+ + + GH + + +G +T N T Y L Q H+H PSE +NG +
Sbjct: 5 LEQITFDYHPSSFNVTDNGHTVQVMVGSGNFLTVGNRT-YELIQFHFHRPSEERINGKGY 63
Query: 141 ALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVG--MVNPKS 198
+ +H+VH+ +G++A++ ++ G+P + SV +L K T ++P+
Sbjct: 64 EMVVHLVHKDGEGRIAMLALLLERGKPQPVIQSVWNNL----PLEKFDTAAPNETLDPQD 119
Query: 199 IKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQL 258
+ R+YY + GS+T PPC E VLW ++ + S +Q+ L NARPIQ
Sbjct: 120 LLPARREYYTFMGSMTTPPCNEGVLWLVMKEPVQASPQQMALFSRLY----PLNARPIQP 175
Query: 259 MNGRSVQ 265
GR ++
Sbjct: 176 SAGRIIK 182