Jatropha Genome Database
- JcCB0032041.10
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= JcCB0032041.10 - phase: 0 /partial
(406 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
28838.m000256 transferase, transferring glycosyl groups, putative 480 e-136
29813.m001496 transferase, transferring glycosyl groups, putative 415 e-116
29889.m003360 conserved hypothetical protein 221 6e-58
30059.m000456 transferase, transferring glycosyl groups, putative 102 2e-22
30147.m014042 galactosyltransferase, putative 100 1e-21
29736.m002069 transferase, transferring glycosyl groups, putative 96 2e-20
>28838.m000256 transferase, transferring glycosyl groups, putative
Length = 612
Score = 480 bits (1235), Expect = e-136, Method: Compositional matrix adjust.
Identities = 243/382 (63%), Positives = 291/382 (76%), Gaps = 5/382 (1%)
Query: 23 RECMMKSRPGEST-LPSPIAVNLSDPIKWIEA-GAPPAFRTPESVNQTTSAAKLVSSLFI 80
R+ MK+ ES + PI VNL+ P++ I + G PA +PE NQ SA L+SSLF+
Sbjct: 20 RKVFMKNPLKESPPMRLPIPVNLTTPLECIYSEGNLPATHSPEFSNQIISAETLLSSLFV 79
Query: 81 DRNFSHEVQSSLLTWNHMRHLINYSQQGLPNAIEAIREAQVAWESLMKSVNREEQGDTNE 140
DRNFS++VQSSLLTWNHM++L+NYSQ LPN + AIREAQVAWESL++SV + EQG E
Sbjct: 80 DRNFSNQVQSSLLTWNHMKYLVNYSQP-LPNGMGAIREAQVAWESLLESVKKREQGGAKE 138
Query: 141 NSLHKVKERQCPHFLNKMNTTELGDDGYKLQIPCGLIQGSAITIIGIPNGLLGSFRIDLS 200
+ L+K+K +QCP+F+N MN T+ GD+GY+L +PCGL+QGS ITIIGIPNGLLG+FRIDL
Sbjct: 139 SLLNKLKGKQCPYFVNIMNATKFGDNGYRLWVPCGLVQGSTITIIGIPNGLLGNFRIDLL 198
Query: 201 XXXXXXXXXXXXXXHYNVRLLGDKVTENPVIVQNTWTAAHDWGEEERCPQPVPTNNKKVD 260
HYNVRLLGDK+TE+ VI+QNTWTA H W EEERCP VP ++KKVD
Sbjct: 199 GEQLPGEPEPSTILHYNVRLLGDKITEDSVILQNTWTADHGWSEEERCPASVPGDDKKVD 258
Query: 261 ELMQCNEIVGKIDSHRFAAXXXXXXXXXXXXXXXXXXXXWYFPFKQGYLSVMTLRVGEEG 320
EL QCN++VGK +S +FAA WYFPFKQG+LSVMTLR+GEEG
Sbjct: 259 ELSQCNKMVGKDNSQKFAANGSSNNFSTMSRNRTGAR--WYFPFKQGFLSVMTLRMGEEG 316
Query: 321 IQMTVDGKHITSFAYRESLEPWLINEVRISGDLKLISVLASGLPSSEESEHIVDLESLKS 380
IQMTVDGKH+TSFAYRE+LEPWL++EVRISG LKLISVLASGLPSSEESEHI+DLESLKS
Sbjct: 317 IQMTVDGKHVTSFAYRENLEPWLVSEVRISGGLKLISVLASGLPSSEESEHIIDLESLKS 376
Query: 381 TELPSHKALDLFIGVFSTANNL 402
+LP H LDLFIGVFSTANN
Sbjct: 377 AQLPLHHPLDLFIGVFSTANNF 398
>29813.m001496 transferase, transferring glycosyl groups, putative
Length = 631
Score = 415 bits (1066), Expect = e-116, Method: Compositional matrix adjust.
Identities = 209/380 (55%), Positives = 265/380 (69%), Gaps = 7/380 (1%)
Query: 23 RECMMKSRPGESTLPSPIAVNLSDPIKWIEAGAPPAFRTPESVNQTTSAAKLVSSLFIDR 82
R +MK+ G+S L + + N ++P++W+++ PP + PE+ + S +V SLF R
Sbjct: 22 RYSLMKNPIGDSYLMNAFS-NGTNPLQWVQSTLPPTVKIPENSAKVISTETIVFSLFAQR 80
Query: 83 NFSHEVQSSLLTWNHMRHLINYSQQGLPNAIEAIREAQVAWESLMKSVNREEQGDTNENS 142
N S+E Q SL TWN ++HLI+ + LPN +EAI+EA AW +LM S+ E G TNE+S
Sbjct: 81 NISNEEQVSLQTWNLLKHLIDQAHL-LPNGVEAIKEAGSAWNNLMASIEEERHGYTNESS 139
Query: 143 LHKVKERQCPHFLNKMNTTELGDDGYKLQIPCGLIQGSAITIIGIPNGLLGSFRIDLSXX 202
+ +E+QCPHFLNK+N T + G+KL++PCGL QGS+ITIIGIP+GLLG+FRI+L+
Sbjct: 140 --RAREKQCPHFLNKVNATAVKSSGFKLRLPCGLTQGSSITIIGIPDGLLGNFRIELTGE 197
Query: 203 XXXXXXXXXXXXHYNVRLLGDKVTENPVIVQNTWTAAHDWGEEERCPQPVPTNNKKVDEL 262
HYNVRL GDK+TE+PVIVQNTWT AHDWG+EERCP P P NKKVD+L
Sbjct: 198 ALPGEPDPPIILHYNVRLHGDKITEDPVIVQNTWTVAHDWGDEERCPSPTPEKNKKVDDL 257
Query: 263 MQCNEIVGKIDSHRFAAXXXXXXXXXXXXXXXXXXXXWYFPFKQGYLSVMTLRVGEEGIQ 322
QCN IVG+ D+ A YFPF+QGYLSV TLRVG EGIQ
Sbjct: 258 DQCNNIVGRNDTR---AIRHSEGARSSAMVQEGFKNRRYFPFRQGYLSVATLRVGTEGIQ 314
Query: 323 MTVDGKHITSFAYRESLEPWLINEVRISGDLKLISVLASGLPSSEESEHIVDLESLKSTE 382
TVDGKHITSFAYRE+LEPWL++EVRISGDLKLIS +ASGLP+SEE EH +DLE+LKS
Sbjct: 315 TTVDGKHITSFAYRETLEPWLVSEVRISGDLKLISAVASGLPTSEELEHAIDLEALKSVP 374
Query: 383 LPSHKALDLFIGVFSTANNL 402
L + + LF+GVFSTANN
Sbjct: 375 LSAKRPPHLFVGVFSTANNF 394
>29889.m003360 conserved hypothetical protein
Length = 661
Score = 221 bits (562), Expect = 6e-58, Method: Compositional matrix adjust.
Identities = 127/332 (38%), Positives = 182/332 (54%), Gaps = 11/332 (3%)
Query: 75 VSSLFIDRNFSHEVQSSLLTWNHMRHLINYSQQGLPNAIEAIREAQVAWESLMKSVNREE 134
++ L+ N S E +LL W MR L++ S L + I+EA VAW+ L+ + +E
Sbjct: 102 LNDLYAPNNISKEASKALLVWGQMRLLLSRSD-ALAETAQGIKEASVAWKDLLSIIKEDE 160
Query: 135 QGDTNENSLHKVKERQCPHFLNKMNTTELGDDGYKLQIPCGLIQGSAITIIGIPNGLLGS 194
++K + CP+ ++ ++ T +G L++PCGL++ S+ITI+GIP+ GS
Sbjct: 161 V--VKSGIINKPGDNNCPYSVSTVDKTT-SSNGTVLEVPCGLVEDSSITIVGIPDEHNGS 217
Query: 195 FRIDLSXXXXXXXXXXXXXXHYNVRLLGDKVTENPVIVQNTWTAAHDWGEEERCPQPVPT 254
F+I+L +Y V + GD +TE P IVQNTWT H WG+EERCP T
Sbjct: 218 FQIELHGSQLLGENNPPNILNYKVSVPGDNMTEEPFIVQNTWTNGHGWGKEERCPARGST 277
Query: 255 NN--KKVDELMQCNE--IVGKIDSHRFAAXXXXXXXXXXXXXXXXXXXXWYFPFKQGYLS 310
+N KVD L+ CNE + +D H + FPF +G
Sbjct: 278 HNPKSKVDGLVLCNEQIVRSTVDEHPNGSHPGSDIQANVSQGSAYASVN--FPFSEGNPF 335
Query: 311 VMTLRVGEEGIQMTVDGKHITSFAYRESLEPWLINEVRISGDLKLISVLASGLPSSEESE 370
TL G EG MTV+G+H TSF YRE+LEPW+IN V++ G L ++S LA GLP SE+ +
Sbjct: 336 TATLWAGSEGFHMTVNGRHETSFTYRENLEPWVINRVKVDGGLDILSALAKGLPVSEDHD 395
Query: 371 HIVDLESLKSTELPSHKALDLFIGVFSTANNL 402
+VD+E LK+ L K L + +GVFST NN
Sbjct: 396 LVVDVELLKAP-LVRRKRLAMLVGVFSTGNNF 426
>30059.m000456 transferase, transferring glycosyl groups, putative
Length = 683
Score = 102 bits (255), Expect = 2e-22, Method: Compositional matrix adjust.
Identities = 89/313 (28%), Positives = 140/313 (44%), Gaps = 45/313 (14%)
Query: 122 AWESLMKSVNREEQGDTNENSLHKVKERQCPHFLNKMNTTELGDDGYKLQIPCGLIQGSA 181
AWE + K + +E G +NS++ K CP +++ M EL + + +PCGL GS+
Sbjct: 152 AWEEVEKYDDEKEIG---QNSVYDGKTEPCPSWVS-MKGAELSGEEKMMFLPCGLAAGSS 207
Query: 182 ITIIGIP---------------NG----LLGSFRIDLSXXXXXXXXXXXXXXHYNVRLLG 222
IT++G P NG ++ F I+L H N RL G
Sbjct: 208 ITLVGTPHYAHQEYVPQLARLRNGDGIVMVSQFMIELQGLKAVDGEDPPKILHLNPRLRG 267
Query: 223 DKVTENPVIVQNTWTAAHDWGEEERCPQPVPTNNKK---VDELMQC-----NEIVGKIDS 274
D ++ PVI NT WG +RC +P+ + VD ++C N+IV +S
Sbjct: 268 D-WSKQPVIEHNT-CYRMQWGTAQRC-DGLPSKKDEDMLVDGFLRCEKWMRNDIVDSKES 324
Query: 275 HRFAAXXXXXXXXXXXXXXXXXXXXWYFPFKQGYLSVMTLRVGEEGIQMTVDGKHITSFA 334
W FPF +G L ++TLR G +G + V G H+TSF
Sbjct: 325 ------KTTSWFKRFIGREQKPEVTWPFPFAEGRLFILTLRAGVDGYHINVGGLHVTSFP 378
Query: 335 YRESLEPWLINEVRISGDLKLISVLASGLPSSEES---EHIVDL-ESLKSTELPSHKALD 390
YR + I G++ + S+ A+ LPSS + + ++++ E K+ LP +
Sbjct: 379 YRPGFTLEDATGLAIKGEVDVHSIYATSLPSSHPNFSPQRVLEMSEKWKAHPLPK-IPIR 437
Query: 391 LFIGVFSTANNLS 403
LFIG+ S N+ +
Sbjct: 438 LFIGILSATNHFA 450
>30147.m014042 galactosyltransferase, putative
Length = 670
Score = 100 bits (248), Expect = 1e-21, Method: Compositional matrix adjust.
Identities = 81/305 (26%), Positives = 129/305 (42%), Gaps = 34/305 (11%)
Query: 123 WESLMKSVNREEQGDTNENSLHKVKERQCPHFLNKMNTTELGDDGYKLQIPCGLIQGSAI 182
WE ++ + ++ EN + CPH + ++ +E G +++PCGL GS +
Sbjct: 142 WEGIVSGKVKVKEAQKPEN-----RSESCPHSV-MLSGSEFLKQGKVVELPCGLTLGSHV 195
Query: 183 TIIGIPNG-------------------LLGSFRIDLSXXXXXXXXXXXXXXHYNVRLLGD 223
T++G P G ++ F ++L H+N RL GD
Sbjct: 196 TVVGKPRGAHAENDPKISLVKDEGEAIMVSQFMMELQGLRTVEGEDPPRILHFNPRLRGD 255
Query: 224 KVTENPVIVQNTWTAAHDWGEEERCPQ-PVPTNNKKVDELMQCNEIVGKIDSHRFAAXXX 282
+ PVI QNT WG RC + + VD +C + + D+H
Sbjct: 256 -WSGKPVIEQNT-CYRMQWGTALRCEGWKSKADEETVDGQAKCEKWIRDDDNHS-EESKA 312
Query: 283 XXXXXXXXXXXXXXXXXWYFPFKQGYLSVMTLRVGEEGIQMTVDGKHITSFAYRESLEPW 342
W FPF + L V+TL G EG + VDG+H+TSF YR
Sbjct: 313 TWWLNRLIGRTKKVSVDWPFPFIEEKLFVLTLSAGLEGYHVNVDGRHVTSFPYRTGYTLE 372
Query: 343 LINEVRISGDLKLISVLASGLPSSEES----EHIVDLESLKSTELPSHKALDLFIGVFST 398
+ ++GD+ + SV A+ LP++ S H+ + ++ LP A +LFIGV S
Sbjct: 373 DATGLTVNGDIDVHSVFAASLPTAHPSFAPQRHLQMSDRWRAPPLPQGPA-ELFIGVLSA 431
Query: 399 ANNLS 403
N+ +
Sbjct: 432 GNHFA 436
>29736.m002069 transferase, transferring glycosyl groups, putative
Length = 638
Score = 96.3 bits (238), Expect = 2e-20, Method: Compositional matrix adjust.
Identities = 87/314 (27%), Positives = 135/314 (42%), Gaps = 34/314 (10%)
Query: 117 REAQVAWESLMKSVNREEQGDTNE-NSLHKVKERQCPHFLNKMNTTELGDDGYKLQIPCG 175
+ A+ AW + K + E G N+ NS + +CP + ++ +E ++IPCG
Sbjct: 99 KAAKDAWLAGKKLWDDLESGKINQLNSTDNNRTEKCPASI-ALSGSEFYARNRIMEIPCG 157
Query: 176 LIQGSAITIIGIPNG-------------------LLGSFRIDLSXXXXXXXXXXXXXXHY 216
+ GS IT++ P ++ F ++L H+
Sbjct: 158 MTLGSHITVVANPKWAHPEKDPKIALLREGEEELMVSQFMMELQGLKTVDGEDPPRILHF 217
Query: 217 NVRLLGDKVTENPVIVQNTWTAAHDWGEEERCPQ-PVPTNNKKVDELMQCNEIVGKIDSH 275
N RL GD + PVI QNT WG RC + + VD ++C + + + D
Sbjct: 218 NPRLKGD-WSGKPVIEQNT-CYRMQWGNALRCEGWSSRADEETVDGQVKCEKWL-RDDDG 274
Query: 276 RFAAXXXXXXXXXXXXXXXXXXXXWYFPFKQGYLSVMTLRVGEEGIQMTVDGKHITSFAY 335
W FPF +G L V+TL G EG +TVDG+HITSF Y
Sbjct: 275 NSEDSKATWWLNRLIGRKKTISYNWPFPFAEGKLFVLTLSAGLEGYHITVDGRHITSFPY 334
Query: 336 RESLEPWLINEVRISGDLKLISVLASGLPSSEES----EHIVDLESLKSTELP--SHKAL 389
R + ++GD+ + SV A+ LPSS S +H LE L + P + + +
Sbjct: 335 RTGFVLEDATGLYLNGDIHVHSVFAASLPSSHPSFAPQKH---LEMLTKWQAPPITEEQV 391
Query: 390 DLFIGVFSTANNLS 403
+LFIG+ S N+ +
Sbjct: 392 ELFIGILSAGNHFA 405