Jatropha Genome Database
- JcCA0008331.10
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= JcCA0008331.10 + phase: 0 /partial
(340 letters)
Database: Medicago_aa3.0
53,423 sequences; 12,992,982 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
IMGA|Medtr3g107090.1 Nucleotidyl transferase chr03_pseudomolecul... 540 e-154
IMGA|Medtr5g104670.1 Nucleotidyl transferase chr05_pseudomolecul... 540 e-154
IMGA|Medtr8g146330.1 Nucleotidyl transferase chr08_pseudomolecul... 350 5e-97
IMGA|Medtr7g134380.1 Nucleotidyl transferase; Glucose-1-phosphat... 313 7e-86
IMGA|Medtr4g095980.1 Protein kinase; ADP-glucose pyrophosphoryla... 298 3e-81
IMGA|Medtr3g162410.1 Nucleotidyl transferase; Trimeric LpxA-like... 293 1e-79
>IMGA|Medtr3g107090.1 Nucleotidyl transferase
chr03_pseudomolecule_IMGAG_V3 27123147-27119318 E
EGN_Mt090430 20090702
Length = 511
Score = 540 bits (1391), Expect = e-154, Method: Compositional matrix adjust.
Identities = 285/339 (84%), Positives = 300/339 (88%), Gaps = 8/339 (2%)
Query: 2 MASAAAIGALKVPLPASSSTNSSKLNRKTXXXXXXXXXXXXXXXGDKIYYKAFSGRPGNG 61
MAS A+IG LKVP +SSS++SS + GDKI S R G
Sbjct: 1 MASMASIGVLKVPSSSSSSSSSSS----SKAIARNLSFTSSQLCGDKI--TTVSTRRSYG 54
Query: 62 SNERTPMVVSPKAVSDSKNSQTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLG 121
++ P +VSPKAVSDSKNSQTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLG
Sbjct: 55 CSK--PFIVSPKAVSDSKNSQTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLG 112
Query: 122 ANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASNMGGYKNEGFVEVLAAQQ 181
ANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASNMGGYKNEGFVEVLAAQQ
Sbjct: 113 ANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASNMGGYKNEGFVEVLAAQQ 172
Query: 182 SPENPNWFQGTADAVRQYLWLFEEHNVLEFLILAGDHLYRMDYERFIQAHRETDADITVA 241
SPENPNWFQGTADAVRQYLWLFEEHNVLE+L+LAGDHLYRMDYERFIQAHRE+DADITVA
Sbjct: 173 SPENPNWFQGTADAVRQYLWLFEEHNVLEYLVLAGDHLYRMDYERFIQAHRESDADITVA 232
Query: 242 ALPMDEARATAFGLMKIDEEGRIVEFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIAS 301
ALPMDEARATAFGLMKIDEEGRI+EFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIAS
Sbjct: 233 ALPMDEARATAFGLMKIDEEGRIIEFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIAS 292
Query: 302 MGIYVVSKNAMLDLLRDRFPGANDFGSEVIPGATSIGMR 340
MGIYVVSK+ MLDLLRD+FPGANDFGSEVIPGAT +GMR
Sbjct: 293 MGIYVVSKHVMLDLLRDKFPGANDFGSEVIPGATELGMR 331
>IMGA|Medtr5g104670.1 Nucleotidyl transferase
chr05_pseudomolecule_IMGAG_V3 42003745-42007684 E
EGN_Mt090430 20090702
Length = 515
Score = 540 bits (1390), Expect = e-154, Method: Compositional matrix adjust.
Identities = 277/339 (81%), Positives = 295/339 (87%), Gaps = 7/339 (2%)
Query: 2 MASAAAIGALKVPLPASSSTNSSKLNRKTXXXXXXXXXXXXXXXGDKIYYKAFSGRPGNG 61
MAS A G +KVP +SSS+N + GDKI SG G G
Sbjct: 1 MASMATTGVIKVPRCSSSSSNI-----RNKAIQRSLSFSSSQLSGDKIV--TVSGGAGRG 53
Query: 62 SNERTPMVVSPKAVSDSKNSQTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLG 121
R ++V+PKAVSDS+NSQTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLG
Sbjct: 54 RCIRKHVIVTPKAVSDSQNSQTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLG 113
Query: 122 ANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASNMGGYKNEGFVEVLAAQQ 181
ANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASN+GGYKNEGFVEVLAAQQ
Sbjct: 114 ANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASNLGGYKNEGFVEVLAAQQ 173
Query: 182 SPENPNWFQGTADAVRQYLWLFEEHNVLEFLILAGDHLYRMDYERFIQAHRETDADITVA 241
SPENPNWFQGTADAVRQYLWLFEEHNVLE+LILAGDHLYRMDYE+FIQAHRETDADITVA
Sbjct: 174 SPENPNWFQGTADAVRQYLWLFEEHNVLEYLILAGDHLYRMDYEKFIQAHRETDADITVA 233
Query: 242 ALPMDEARATAFGLMKIDEEGRIVEFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIAS 301
ALPMDE RATAFGLMKIDEEGRI+EF+EKPKG+QL+AMKVDTTILGLDDERAKEMP+IAS
Sbjct: 234 ALPMDEKRATAFGLMKIDEEGRIIEFSEKPKGDQLQAMKVDTTILGLDDERAKEMPFIAS 293
Query: 302 MGIYVVSKNAMLDLLRDRFPGANDFGSEVIPGATSIGMR 340
MGIYV+SKN MLDLLRD+FPGANDFGSEVIPGATSIG R
Sbjct: 294 MGIYVISKNVMLDLLRDQFPGANDFGSEVIPGATSIGKR 332
>IMGA|Medtr8g146330.1 Nucleotidyl transferase
chr08_pseudomolecule_IMGAG_V3 35749455-35744570 E
EGN_Mt090430 20090702
Length = 521
Score = 350 bits (899), Expect = 5e-97, Method: Compositional matrix adjust.
Identities = 170/295 (57%), Positives = 222/295 (75%), Gaps = 6/295 (2%)
Query: 46 GDKI-YYKAFSGRPGNGSNERTPMVVSPKAVSDSKNSQTCLDPDASRSVLGIILGGGAGT 104
G KI + A +G N + M ++ S+SK ++ +V+ +ILGGGAGT
Sbjct: 40 GRKIELHAATNGCTKNVYRKNISMSLTADVASESKLKNADVEKRDPSTVVAVILGGGAGT 99
Query: 105 RLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASN 164
RL+PLTK+RAKPAVP+G YRLID+P+SNC+NS I+K+Y+LTQFNSASLNRH++RAY S
Sbjct: 100 RLFPLTKRRAKPAVPIGGAYRLIDVPMSNCINSGINKVYILTQFNSASLNRHIARAYNSG 159
Query: 165 MGGYKNEGFVEVLAAQQSP--ENPNWFQGTADAVRQYLWLFEE---HNVLEFLILAGDHL 219
G +G+VEVLAA Q+P + WFQGTADAVRQ+ WLFE+ ++ + LIL+GDHL
Sbjct: 160 TGVTFGDGYVEVLAATQTPGEQGKKWFQGTADAVRQFHWLFEDPRSKDIEDVLILSGDHL 219
Query: 220 YRMDYERFIQAHRETDADITVAALPMDEARATAFGLMKIDEEGRIVEFAEKPKGEQLKAM 279
YRMDY F++ HRE+ ADIT++ LPMD++RA+ FGLMKID++GRI+ F+EKPKG +LKAM
Sbjct: 220 YRMDYMDFVKDHRESGADITLSCLPMDDSRASDFGLMKIDDKGRILSFSEKPKGAELKAM 279
Query: 280 KVDTTILGLDDERAKEMPYIASMGIYVVSKNAMLDLLRDRFPGANDFGSEVIPGA 334
+VDTT+LGL + A E PYIASMG+YV K +L+LLR RFP ANDFGSEVIP +
Sbjct: 280 QVDTTVLGLSKDEALEKPYIASMGVYVFKKEILLNLLRWRFPTANDFGSEVIPAS 334
>IMGA|Medtr7g134380.1 Nucleotidyl transferase; Glucose-1-phosphate
adenylyltransferase, GlgD subunit
chr07_pseudomolecule_IMGAG_V3 31724177-31720152 H
EGN_Mt090430 20090702
Length = 531
Score = 313 bits (802), Expect = 7e-86, Method: Compositional matrix adjust.
Identities = 154/251 (61%), Positives = 193/251 (76%), Gaps = 9/251 (3%)
Query: 91 RSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNS 150
++V IILGGGAGTRL+PLT+KRAKPAVP G YRL+DIP+SNC+NS I+KIYVLTQFNS
Sbjct: 99 KTVASIILGGGAGTRLFPLTQKRAKPAVPFGGCYRLVDIPMSNCINSEINKIYVLTQFNS 158
Query: 151 ASLNRHLSRAYASNMGGYKNEG--FVEVLAAQQS-PENPN-WFQGTADAVRQYLWLFE-- 204
SLNRH++R Y N+GG N G F+EVLAA Q+ E+ N WFQGTADAVR++LWLFE
Sbjct: 159 QSLNRHIARTY--NLGGGVNCGGSFIEVLAATQTLGESGNKWFQGTADAVRRFLWLFEDA 216
Query: 205 EH-NVLEFLILAGDHLYRMDYERFIQAHRETDADITVAALPMDEARATAFGLMKIDEEGR 263
EH N+ L+L GD LYRMDY +Q H + ADI+V+ LP+D +RA+ FGL+K+DE GR
Sbjct: 217 EHRNIENILVLCGDQLYRMDYMELVQKHINSCADISVSCLPVDGSRASDFGLVKVDERGR 276
Query: 264 IVEFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIASMGIYVVSKNAMLDLLRDRFPGA 323
I +F EKPKG+ L++M VDT++ GL + A++ PYIASMGIYV + + LLR +P A
Sbjct: 277 IHQFMEKPKGDLLRSMHVDTSVFGLSAQEARKFPYIASMGIYVFKLDVLRKLLRSCYPNA 336
Query: 324 NDFGSEVIPGA 334
NDFGSEVIP A
Sbjct: 337 NDFGSEVIPMA 347
>IMGA|Medtr4g095980.1 Protein kinase; ADP-glucose pyrophosphorylase;
Trimeric LpxA-like chr04_pseudomolecule_IMGAG_V3
20106779-20102092 F EGN_Mt090430 20090702
Length = 528
Score = 298 bits (762), Expect = 3e-81, Method: Compositional matrix adjust.
Identities = 139/250 (55%), Positives = 189/250 (75%), Gaps = 6/250 (2%)
Query: 91 RSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNS 150
++V I+LGGG G +L+PLTK+ A PAVP+G YRLIDIP+SNC+NS I+KI+VLTQFNS
Sbjct: 94 KNVASIVLGGGPGVQLFPLTKRAATPAVPVGGCYRLIDIPMSNCINSGINKIFVLTQFNS 153
Query: 151 ASLNRHLSRAYASNMGGYKNEGFVEVLAAQQSP--ENPNWFQGTADAVRQYLWLFEE--- 205
ASLNRH++R Y N G +G+VEVLAA Q+P NWFQGTADAVRQ+ W+FE+
Sbjct: 154 ASLNRHIARTYFGN-GINFGDGYVEVLAATQTPGEAGKNWFQGTADAVRQFTWVFEDAKN 212
Query: 206 HNVLEFLILAGDHLYRMDYERFIQAHRETDADITVAALPMDEARATAFGLMKIDEEGRIV 265
N+ +ILAGDHLYRMDY +Q+H + +ADITV+ + ++RA+ +GL+K+D GRI+
Sbjct: 213 TNIENVIILAGDHLYRMDYMDLVQSHIDRNADITVSCAAVGDSRASDYGLVKVDSGGRII 272
Query: 266 EFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIASMGIYVVSKNAMLDLLRDRFPGAND 325
+F+EKPKG LK+M+ DT++ GL ++ A PYIASMG+YV + +L LL+ R+P +ND
Sbjct: 273 QFSEKPKGADLKSMQADTSLFGLSNQDALRSPYIASMGVYVFKTDVLLKLLKWRYPTSND 332
Query: 326 FGSEVIPGAT 335
FGSE+IP +
Sbjct: 333 FGSEIIPASV 342
>IMGA|Medtr3g162410.1 Nucleotidyl transferase; Trimeric LpxA-like
chr03_pseudomolecule_IMGAG_V3 42410997-42406888 E
EGN_Mt090430 20090702
Length = 518
Score = 293 bits (749), Expect = 1e-79, Method: Compositional matrix adjust.
Identities = 148/249 (59%), Positives = 192/249 (77%), Gaps = 6/249 (2%)
Query: 91 RSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNS 150
++V+ I+LGGG GT LYPLTK+ A PAVP+G YRLIDIP+SNC+NS I+KI+VLTQFNS
Sbjct: 84 KNVISIVLGGGPGTHLYPLTKRAATPAVPVGGCYRLIDIPMSNCINSGINKIFVLTQFNS 143
Query: 151 ASLNRHLSRAYASNMGGYKNEGFVEVLAAQQSP-ENPN-WFQGTADAVRQYLWLFEEH-- 206
ASLNRH++R Y N G +GFVEVLAA Q+P E N WFQGTADAVRQ+ W+FE+
Sbjct: 144 ASLNRHIARTYFGN-GINFGDGFVEVLAATQTPGETGNKWFQGTADAVRQFTWIFEDAKN 202
Query: 207 -NVLEFLILAGDHLYRMDYERFIQAHRETDADITVAALPMDEARATAFGLMKIDEEGRIV 265
NV LILAGDHLYRMDY +Q+H + +ADIT++ + ++RA+ +GL+K+DE G I+
Sbjct: 203 INVENVLILAGDHLYRMDYMDLVQSHVDRNADITISCAAVGDSRASDYGLVKVDERGNII 262
Query: 266 EFAEKPKGEQLKAMKVDTTILGLDDERAKEMPYIASMGIYVVSKNAMLDLLRDRFPGAND 325
+F+EKPKG LKAM+VDT+ LGL + A PYIASMG+YV K+ +L LL+ ++P +ND
Sbjct: 263 QFSEKPKGADLKAMQVDTSRLGLSPQDALNSPYIASMGVYVFKKDVLLKLLKWKYPTSND 322
Query: 326 FGSEVIPGA 334
FGSE+IP A
Sbjct: 323 FGSEIIPSA 331