Jatropha Genome Database
- JcCB0224691.10
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= JcCB0224691.10 + phase: 0 /partial
(262 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
30131.m007255 Cytokinin dehydrogenase, putative 475 e-135
29614.m000040 gulonolactone oxidase, putative 365 e-101
30170.m014103 gulonolactone oxidase, putative 254 2e-68
29912.m005334 gulonolactone oxidase, putative 240 6e-64
29739.m003615 gulonolactone oxidase, putative 223 7e-59
30169.m006344 gulonolactone oxidase, putative 213 9e-56
29333.m001099 d-lactate dehydrogenase, putative 52 2e-07
30100.m000783 Cell elongation protein diminuto, putative 47 7e-06
29958.m000939 Cell elongation protein diminuto, putative 47 7e-06
>30131.m007255 Cytokinin dehydrogenase, putative
Length = 530
Score = 475 bits (1223), Expect = e-135, Method: Compositional matrix adjust.
Identities = 226/261 (86%), Positives = 244/261 (93%), Gaps = 1/261 (0%)
Query: 1 MRYCRPISFHKENNMLFIKSFMVLFLSCMTIRLNLCFSSYHSSLKTLSVDGHFTFDDLHH 60
MR+ PIS HK NNMLFI+ FM+L LSCMT+R+NLCFS SSLKTLSV GHFTFDDLH+
Sbjct: 1 MRFL-PISSHKLNNMLFIRGFMILLLSCMTVRINLCFSGNPSSLKTLSVQGHFTFDDLHY 59
Query: 61 AAKDFGNRFQLLPLAVLHPRSVSDIANTIKHIWQLGPHSQLTVAARGHGHSLQGQAQAHQ 120
AAKDFGNRFQLLP AVLHPRSVSDIA TIKHIWQ+GPHS LTVAARGHGHSL GQAQAH+
Sbjct: 60 AAKDFGNRFQLLPFAVLHPRSVSDIATTIKHIWQMGPHSDLTVAARGHGHSLHGQAQAHR 119
Query: 121 GVVINMESLQGPKMQIHAGKYPYIDVSGGELWINILHESVKYGLAPKSWTDYLHLTVGGT 180
GVVINMESLQGPKMQ+HAGK+PY+DVSGGELWINIL ES+K+GLAPKSWTDYLHLTVGGT
Sbjct: 120 GVVINMESLQGPKMQVHAGKHPYVDVSGGELWINILRESLKHGLAPKSWTDYLHLTVGGT 179
Query: 181 LSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNGDLFHGVLGGLGQFGIITRA 240
LSNAG+SGQAFRHGPQISNV+QLEV+TG GEVVNCSEKQNGDLFHGVLGGLGQFGIITRA
Sbjct: 180 LSNAGVSGQAFRHGPQISNVHQLEVITGTGEVVNCSEKQNGDLFHGVLGGLGQFGIITRA 239
Query: 241 QISLEPAPEQVKWIRVLYSDF 261
+ISLEPAP+ VKWIRVLYSDF
Sbjct: 240 RISLEPAPDMVKWIRVLYSDF 260
>29614.m000040 gulonolactone oxidase, putative
Length = 540
Score = 365 bits (936), Expect = e-101, Method: Compositional matrix adjust.
Identities = 174/271 (64%), Positives = 224/271 (82%), Gaps = 14/271 (5%)
Query: 6 PISFHKENNMLFIKSFMVLFLSCMTIRLNLCFS---------SYHSSL-----KTLSVDG 51
P +F ++ +F++ FM+LFL + LC + SY SS +TL++DG
Sbjct: 5 PSAFLQKKKNIFLRFFMILFLCSIPENTYLCSNQSFASSNVLSYKSSSNTPSPQTLNLDG 64
Query: 52 HFTFDDLHHAAKDFGNRFQLLPLAVLHPRSVSDIANTIKHIWQLGPHSQLTVAARGHGHS 111
+F+FD++ +AAKDFGNR+ LP AVL+P+S SDIA+ +K+I+ +G S++TVAARGHGHS
Sbjct: 65 YFSFDNIEYAAKDFGNRYHFLPSAVLYPKSASDIASMMKYIFNIGSSSEITVAARGHGHS 124
Query: 112 LQGQAQAHQGVVINMESLQGPKMQIHAGKYPYIDVSGGELWINILHESVKYGLAPKSWTD 171
LQGQAQAHQG+VI+MESLQGP+M+IH G+ ++DVSGGELWIN+LHE++KYGLAPKSWTD
Sbjct: 125 LQGQAQAHQGIVISMESLQGPEMRIHMGEPLHVDVSGGELWINVLHETLKYGLAPKSWTD 184
Query: 172 YLHLTVGGTLSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNGDLFHGVLGGL 231
YLHLTVGGTLSNAGISGQAF+HGPQI+NVYQLE+VTGKGEV+ CSE+ N DLF+G LGGL
Sbjct: 185 YLHLTVGGTLSNAGISGQAFQHGPQINNVYQLEIVTGKGEVLTCSEQLNADLFYGALGGL 244
Query: 232 GQFGIITRAQISLEPAPEQVKWIRVLYSDFA 262
GQFGIITRA+ISLE AP++V+WIRVLY++F+
Sbjct: 245 GQFGIITRARISLERAPKRVRWIRVLYAEFS 275
>30170.m014103 gulonolactone oxidase, putative
Length = 540
Score = 254 bits (650), Expect = 2e-68, Method: Compositional matrix adjust.
Identities = 134/254 (52%), Positives = 175/254 (68%), Gaps = 15/254 (5%)
Query: 21 FMVLFLSCMTIRLNLCFSSYHSSLKTLSVDGHFTFD--DLHHAAKDFGNRFQLLPLAVLH 78
++ F C I + + + + L L VDG + D D+ A+ DFG + P+AV H
Sbjct: 6 LLLTFAICRLI-ITVGLTVDPAELLRLGVDGRLSVDPSDVEMASLDFGLLSRSQPMAVFH 64
Query: 79 PRSVSDIANTIKHIWQLGPHSQLTVAARGHGHSLQGQAQAH-QGVVINMES--------- 128
P S DIA ++ + H TV+ARGHGHS+ GQAQ GVVI M
Sbjct: 65 PASAQDIARLVRAAYN-SAHG-FTVSARGHGHSINGQAQTRINGVVIEMSGSDSRRSQLG 122
Query: 129 LQGPKMQIHAGKYPYIDVSGGELWINILHESVKYGLAPKSWTDYLHLTVGGTLSNAGISG 188
L+ P + K ++DV GGELWI++L +++YGLAPKSWTDYL+L+VGGTLSNAGISG
Sbjct: 123 LRKPASPKVSAKEMHVDVWGGELWIDVLKSTLEYGLAPKSWTDYLYLSVGGTLSNAGISG 182
Query: 189 QAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNGDLFHGVLGGLGQFGIITRAQISLEPAP 248
QAF HGPQISNV++L+VVTGKGE++ CS++QN +LFH VLGGLGQFGIITRA+I+LEPAP
Sbjct: 183 QAFNHGPQISNVHELDVVTGKGEILTCSDQQNSELFHAVLGGLGQFGIITRARIALEPAP 242
Query: 249 EQVKWIRVLYSDFA 262
++V+WIRVLYS F+
Sbjct: 243 QRVRWIRVLYSSFS 256
>29912.m005334 gulonolactone oxidase, putative
Length = 529
Score = 240 bits (612), Expect = 6e-64, Method: Compositional matrix adjust.
Identities = 119/213 (55%), Positives = 158/213 (74%), Gaps = 10/213 (4%)
Query: 58 LHHAAKDFGNRFQLLPLAVLHPRSVSDIANTIKHIWQLGPHSQLTVAARGHGHSLQGQAQ 117
+ A+ D+GN P AVL+P SV DI + I + + LTV+ARG HS+ GQA
Sbjct: 54 IKSASSDYGNLVHKKPAAVLYPSSVQDIVSLINFAYNYS--APLTVSARGRSHSINGQAM 111
Query: 118 AHQGVVINMESLQGPKMQIHAG----KYP----YIDVSGGELWINILHESVKYGLAPKSW 169
A GVV++M L+ + + G K P Y DV G +LWI++L+ ++++GLAP SW
Sbjct: 112 APDGVVVDMMHLRSIIEKTNGGVTVSKDPLLGFYADVGGEQLWIDVLNATIEHGLAPVSW 171
Query: 170 TDYLHLTVGGTLSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNGDLFHGVLG 229
TDYL+LTVGGTLSNAGISGQ+FR+GPQISNVY+++VVTG+GE+V CS +N DLF+ VLG
Sbjct: 172 TDYLYLTVGGTLSNAGISGQSFRYGPQISNVYEMDVVTGRGELVTCSGHRNSDLFYAVLG 231
Query: 230 GLGQFGIITRAQISLEPAPEQVKWIRVLYSDFA 262
GLGQFGIITRA+I+LEPAP++VKW+R+LYSDF+
Sbjct: 232 GLGQFGIITRARIALEPAPKKVKWVRMLYSDFS 264
>29739.m003615 gulonolactone oxidase, putative
Length = 520
Score = 223 bits (568), Expect = 7e-59, Method: Compositional matrix adjust.
Identities = 111/205 (54%), Positives = 146/205 (71%), Gaps = 7/205 (3%)
Query: 61 AAKDFGNRFQLLPLAVLHPRSVSDIANTIKHIWQLGPHSQLTVAARGHGHSLQGQAQAHQ 120
A KDFG + PLA++ P D+A ++ ++ LTVAARG+GHS+ GQA A
Sbjct: 45 AGKDFGGLYSSKPLAIIKPSGADDVARVVRAAYR---SPNLTVAARGNGHSINGQAMADH 101
Query: 121 GVVINMESLQGPKMQIHAGKYP---YIDVSGGELWINILHESV-KYGLAPKSWTDYLHLT 176
G+VI+M S +I A ++DVSGG LW +IL V + LAP+SWTDYL LT
Sbjct: 102 GLVIDMLSTAESHFEIVANGMTGEMFVDVSGGALWEDILKRCVSNFNLAPRSWTDYLGLT 161
Query: 177 VGGTLSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNGDLFHGVLGGLGQFGI 236
VGGTLSNAG+SGQAFR+GPQ SNV +L+VVTGKG++V C+E +N +LF G LGGLGQFGI
Sbjct: 162 VGGTLSNAGVSGQAFRYGPQSSNVAELDVVTGKGDLVTCNETENPELFFGALGGLGQFGI 221
Query: 237 ITRAQISLEPAPEQVKWIRVLYSDF 261
ITRA++ L+ AP+ V+WIRV+Y++F
Sbjct: 222 ITRARVKLQSAPDMVRWIRVVYTEF 246
>30169.m006344 gulonolactone oxidase, putative
Length = 511
Score = 213 bits (541), Expect = 9e-56, Method: Compositional matrix adjust.
Identities = 107/208 (51%), Positives = 147/208 (70%), Gaps = 5/208 (2%)
Query: 58 LHHAAKDFGNRFQLLPLAVLHPRSVSDIANTIKHIWQLGPHSQLTVAARGHGHSLQGQAQ 117
+ A+ D+GN P AVL+P S DI++ I+ + + +AARG+GHS +GQ
Sbjct: 46 IESASTDYGNIVHDKPAAVLYPSSAQDISSLIQASFNCS--TPFGIAARGNGHSTRGQGM 103
Query: 118 AHQGVVINMESLQGPK--MQIHAGKYP-YIDVSGGELWINILHESVKYGLAPKSWTDYLH 174
A+ GVVI+M L+ + I+ K P Y+DV G +LW+++L+ +V +AP SWTD+L
Sbjct: 104 AYNGVVIDMNVLRDNRNGTGINISKDPLYVDVGGEQLWVDVLNATVTEDVAPVSWTDFLG 163
Query: 175 LTVGGTLSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNGDLFHGVLGGLGQF 234
LTVGGTLSNAGISGQ FR GPQISNV++++V+TGKGE V CS N +LF+ VLGGLGQF
Sbjct: 164 LTVGGTLSNAGISGQTFRFGPQISNVHEMDVITGKGEFVTCSANNNSELFYAVLGGLGQF 223
Query: 235 GIITRAQISLEPAPEQVKWIRVLYSDFA 262
GIITRA+ISL PA ++ W ++LYS+F+
Sbjct: 224 GIITRARISLGPAFKRAVWAQILYSNFS 251
>29333.m001099 d-lactate dehydrogenase, putative
Length = 555
Score = 52.4 bits (124), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 49/190 (25%), Positives = 80/190 (42%), Gaps = 25/190 (13%)
Query: 72 LPLAVLHPRSVSDIANTIKHIWQLGPHSQLTVAARGHGHSLQGQA-QAHQGVVINMESLQ 130
+P V+ PRS D++N +K + ++ + G S++G H GV I+M ++
Sbjct: 133 VPDVVVFPRSEEDVSNIVKCCDKY----KVPIVPYGGATSIEGHTLSPHGGVCIDMSLMK 188
Query: 131 GPKMQIHAGKYPYIDVSGGELWINILHESVKYGLAPKSWTDYLHL------TVGGTLSNA 184
K +H + V G W+ + YGL + L T+GG +
Sbjct: 189 SVK-ALHIEDMDVV-VEPGIGWMELNEYLEPYGL-------FFPLDPGPGATIGGMCATR 239
Query: 185 GISGQAFRHGPQISNVYQLEVVTGKGEVVNCSEKQNG-----DLFHGVLGGLGQFGIITR 239
A R+G NV L+V+ G+VV + + DL V+G G GIIT
Sbjct: 240 CSGSLAVRYGTMRDNVISLKVILANGDVVKTASRARKSAAGYDLTRLVIGSEGTLGIITE 299
Query: 240 AQISLEPAPE 249
+ L+ P+
Sbjct: 300 ITLRLQKIPQ 309
>30100.m000783 Cell elongation protein diminuto, putative
Length = 567
Score = 47.4 bits (111), Expect = 7e-06, Method: Compositional matrix adjust.
Identities = 27/79 (34%), Positives = 41/79 (51%), Gaps = 1/79 (1%)
Query: 175 LTVGGTLSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCS-EKQNGDLFHGVLGGLGQ 233
LTVGG ++ GI G + +G V E+V G VV + + + DLF+G+ G
Sbjct: 158 LTVGGLINGYGIEGSSHIYGLFSDTVVAYEIVLADGRVVRATKDNEYSDLFYGIPWSQGT 217
Query: 234 FGIITRAQISLEPAPEQVK 252
G++ A+I L P E +K
Sbjct: 218 LGLLVSAEIKLIPIKEYMK 236
>29958.m000939 Cell elongation protein diminuto, putative
Length = 567
Score = 47.4 bits (111), Expect = 7e-06, Method: Compositional matrix adjust.
Identities = 27/79 (34%), Positives = 41/79 (51%), Gaps = 1/79 (1%)
Query: 175 LTVGGTLSNAGISGQAFRHGPQISNVYQLEVVTGKGEVVNCS-EKQNGDLFHGVLGGLGQ 233
LTVGG ++ GI G + +G V E+V G VV + + + DLF+G+ G
Sbjct: 158 LTVGGLINGYGIEGSSHIYGLFSDTVVAYEIVLADGRVVRATKDNEYSDLFYGIPWSQGT 217
Query: 234 FGIITRAQISLEPAPEQVK 252
G++ A+I L P E +K
Sbjct: 218 LGLLVSAEIKLIPIKEYMK 236