Jatropha Genome Database

JcCB0384311.10
Show Alignment: 
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= JcCB0384311.10 + phase: 0 /partial
         (243 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

29848.m004477 transferase, transferring glycosyl groups, putative     465   e-132
29822.m003385 transferase, transferring glycosyl groups, putative     424   e-119
30170.m013660 transferase, transferring glycosyl groups, putative     394   e-110
29428.m000330 transferase, transferring glycosyl groups, putative     275   2e-74
29991.m000638 transferase, transferring glycosyl groups, putative     269   1e-72
29092.m000444 conserved hypothetical protein                          256   5e-69

>29848.m004477 transferase, transferring glycosyl groups, putative
          Length = 693

 Score =  465 bits (1197), Expect = e-132,   Method: Compositional matrix adjust.
 Identities = 218/239 (91%), Positives = 226/239 (94%)

Query: 5   QVYEQSISAVCQLDWPKDRLLIQVLDDSDDESIQCLIKAEVAVWSQKGVNIIYRHRVVRT 64
           +VYEQSISAVCQLDWPKDRLL+QVLDDSDDESIQCLIKAEVA+WSQKG+NIIYRHRVVRT
Sbjct: 241 EVYEQSISAVCQLDWPKDRLLVQVLDDSDDESIQCLIKAEVAMWSQKGINIIYRHRVVRT 300

Query: 65  GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDKPELGLVQARWTFVN 124
           GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKD PELGLVQARW+FVN
Sbjct: 301 GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDNPELGLVQARWSFVN 360

Query: 125 KDENLLTRLQNINLCFHFEVEQQVXXXXXXXXXXXXTAGIWRIKALEESGGWLERTTVED 184
           KDENLLTRLQNINLCFHFEVEQQV            TAG+WRIKALEESGGWLERTTVED
Sbjct: 361 KDENLLTRLQNINLCFHFEVEQQVNGIFLNFFGFNGTAGVWRIKALEESGGWLERTTVED 420

Query: 185 MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFRLCLPAIITSK 243
           MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFRLCLPAI+T+K
Sbjct: 421 MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFRLCLPAILTAK 479


>29822.m003385 transferase, transferring glycosyl groups, putative
          Length = 662

 Score =  424 bits (1090), Expect = e-119,   Method: Compositional matrix adjust.
 Identities = 194/239 (81%), Positives = 215/239 (89%)

Query: 5   QVYEQSISAVCQLDWPKDRLLIQVLDDSDDESIQCLIKAEVAVWSQKGVNIIYRHRVVRT 64
           +VY QSI+A CQLDWP+DRLLIQVLDDS D ++Q LIK EV+ W QKG+NIIYRHR++RT
Sbjct: 213 EVYAQSIAAACQLDWPRDRLLIQVLDDSSDGNVQLLIKDEVSTWRQKGINIIYRHRLMRT 272

Query: 65  GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDKPELGLVQARWTFVN 124
           GYKAGNLKSAM+CDYV+DYEFVAIFDADFQPNPDFLK T+PHF+  P+LGLVQARW+FVN
Sbjct: 273 GYKAGNLKSAMSCDYVQDYEFVAIFDADFQPNPDFLKQTIPHFRGNPDLGLVQARWSFVN 332

Query: 125 KDENLLTRLQNINLCFHFEVEQQVXXXXXXXXXXXXTAGIWRIKALEESGGWLERTTVED 184
           KDENLLTRLQN+NLCFHFEVEQQV            TAG+WRIKALE+SGGWLERTTVED
Sbjct: 333 KDENLLTRLQNVNLCFHFEVEQQVNGFYLNFFGFNGTAGVWRIKALEDSGGWLERTTVED 392

Query: 185 MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFRLCLPAIITSK 243
           MDIAVRAHL+GWKFIFLNDVKVLCE+PESYEAY+KQQHRWHSGPM LFRLCLPAIITSK
Sbjct: 393 MDIAVRAHLHGWKFIFLNDVKVLCELPESYEAYKKQQHRWHSGPMQLFRLCLPAIITSK 451


>30170.m013660 transferase, transferring glycosyl groups, putative
          Length = 696

 Score =  394 bits (1011), Expect = e-110,   Method: Compositional matrix adjust.
 Identities = 184/239 (76%), Positives = 202/239 (84%)

Query: 5   QVYEQSISAVCQLDWPKDRLLIQVLDDSDDESIQCLIKAEVAVWSQKGVNIIYRHRVVRT 64
           +VY+QSI+A C LDWPK  +LIQVLDDSDD + Q LIK EV  W  +G +I+YRHRV+R 
Sbjct: 253 EVYQQSIAACCNLDWPKSNILIQVLDDSDDPTAQTLIKEEVNKWQHEGAHIVYRHRVIRE 312

Query: 65  GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDKPELGLVQARWTFVN 124
           GYKAGNLKSAMNC YVKDYEFVAIFDADFQP PDFLK TVPHFKD  ELGLVQARW+FVN
Sbjct: 313 GYKAGNLKSAMNCSYVKDYEFVAIFDADFQPTPDFLKRTVPHFKDNEELGLVQARWSFVN 372

Query: 125 KDENLLTRLQNINLCFHFEVEQQVXXXXXXXXXXXXTAGIWRIKALEESGGWLERTTVED 184
           KDENLLTRLQNINL FHFEVEQQV            TAG+WRIKALE++GGWLERTTVED
Sbjct: 373 KDENLLTRLQNINLAFHFEVEQQVNGIFINFFGFNGTAGVWRIKALEDAGGWLERTTVED 432

Query: 185 MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFRLCLPAIITSK 243
           MDIAVRAHL+GWKF+FLNDV+  CE+PESYEAYRKQQHRWHSGPM LFRLCLP II +K
Sbjct: 433 MDIAVRAHLHGWKFVFLNDVECQCELPESYEAYRKQQHRWHSGPMQLFRLCLPDIIRAK 491


>29428.m000330 transferase, transferring glycosyl groups, putative
          Length = 425

 Score =  275 bits (702), Expect = 2e-74,   Method: Compositional matrix adjust.
 Identities = 129/230 (56%), Positives = 161/230 (70%)

Query: 4   MQVYEQSISAVCQLDWPKDRLLIQVLDDSDDESIQCLIKAEVAVWSQKGVNIIYRHRVVR 63
           MQVY+ SI A C L WP DR++IQVLDDS D +I+ L++ E   W+ KG+NI Y  R  R
Sbjct: 1   MQVYQLSIGAACGLSWPSDRIIIQVLDDSTDPTIKSLVEVECQRWASKGINIKYEIRDNR 60

Query: 64  TGYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDKPELGLVQARWTFV 123
            GYKAG LK  M   YVK  ++VAIFDADFQP PDFL  T+P      E+GLVQARW FV
Sbjct: 61  NGYKAGALKEGMKHSYVKQCDYVAIFDADFQPEPDFLWRTIPFLVHNSEIGLVQARWKFV 120

Query: 124 NKDENLLTRLQNINLCFHFEVEQQVXXXXXXXXXXXXTAGIWRIKALEESGGWLERTTVE 183
           N DE L+TR+Q ++L +HF VEQ+V            TAG+WRI AL  +GGW +RTTVE
Sbjct: 121 NADECLMTRMQEMSLDYHFTVEQEVGSSTYAFFGFNGTAGVWRISALNGAGGWKDRTTVE 180

Query: 184 DMDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFR 233
           DMD+AVRA L GWKF++L D+KV  E+P +++AYR QQHRW  GP +LF+
Sbjct: 181 DMDLAVRASLKGWKFVYLADLKVKNELPSTFKAYRYQQHRWSCGPANLFK 230


>29991.m000638 transferase, transferring glycosyl groups, putative
          Length = 535

 Score =  269 bits (687), Expect = 1e-72,   Method: Compositional matrix adjust.
 Identities = 126/239 (52%), Positives = 165/239 (69%)

Query: 5   QVYEQSISAVCQLDWPKDRLLIQVLDDSDDESIQCLIKAEVAVWSQKGVNIIYRHRVVRT 64
           +VY+ SI A   L WP DRL+IQVLDDS D  I+ +++ E   W+ KGVNI Y+ R  R 
Sbjct: 110 EVYKVSIGAASNLSWPADRLVIQVLDDSTDPEIKQMVELECQRWASKGVNITYQIRETRG 169

Query: 65  GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDKPELGLVQARWTFVN 124
           GYKAG LK  +   YVK  E+V IFDADFQP PDFL+  +P   + P++ LVQARW FVN
Sbjct: 170 GYKAGALKEGLKRGYVKHCEYVTIFDADFQPEPDFLRRAIPFLVNNPDIALVQARWRFVN 229

Query: 125 KDENLLTRLQNINLCFHFEVEQQVXXXXXXXXXXXXTAGIWRIKALEESGGWLERTTVED 184
            DE LLTR+Q ++L +HF VEQ+V            TAG+WRI A+ E+GGW +RTTVED
Sbjct: 230 ADECLLTRMQEMSLDYHFTVEQEVGSATHAFFGFNGTAGVWRIAAINEAGGWKDRTTVED 289

Query: 185 MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQHRWHSGPMHLFRLCLPAIITSK 243
           MD+AVRA L GWKF++L D++V  E+P +++A+R QQHRW  GP +LFR  +  I+ +K
Sbjct: 290 MDLAVRASLRGWKFVYLGDLQVKSELPSTFKAFRFQQHRWSCGPANLFRKMVMEIVRNK 348


>29092.m000444 conserved hypothetical protein
          Length = 498

 Score =  256 bits (655), Expect = 5e-69,   Method: Compositional matrix adjust.
 Identities = 123/218 (56%), Positives = 151/218 (69%)

Query: 5   QVYEQSISAVCQLDWPKDRLLIQVLDDSDDESIQCLIKAEVAVWSQKGVNIIYRHRVVRT 64
            VY+ SI A C L WP DR++IQVLDDS D +I+ L++ E   W+ KG+NI Y  R  R 
Sbjct: 98  MVYQLSIGAACGLSWPSDRIIIQVLDDSTDPTIKDLVELECQRWASKGINIKYEIRDNRN 157

Query: 65  GYKAGNLKSAMNCDYVKDYEFVAIFDADFQPNPDFLKLTVPHFKDKPELGLVQARWTFVN 124
           GYKAG LK  M   YVK  ++VAIFDADFQP PDFL  T+P     PELGLVQARW FVN
Sbjct: 158 GYKAGALKEGMKRSYVKHCDYVAIFDADFQPEPDFLWRTIPFLVHNPELGLVQARWKFVN 217

Query: 125 KDENLLTRLQNINLCFHFEVEQQVXXXXXXXXXXXXTAGIWRIKALEESGGWLERTTVED 184
            DE L+TR+Q ++L +HF VEQ+V            TAG+WRI AL E+GGW +RTTVED
Sbjct: 218 SDECLMTRMQEMSLDYHFTVEQEVGSSTYAFFGFNGTAGVWRIAALNEAGGWKDRTTVED 277

Query: 185 MDIAVRAHLNGWKFIFLNDVKVLCEVPESYEAYRKQQH 222
           MD+AVRA L GWKF++L  +KV  E+P ++ AYR QQH
Sbjct: 278 MDLAVRASLKGWKFLYLGSLKVKNELPSTFRAYRYQQH 315