Jatropha Genome Database
- JcCA0140751.10
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= JcCA0140751.10 + phase: 0
(237 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma15g14000.3 269 2e-72
Glyma15g14000.2 269 2e-72
Glyma15g14000.1 268 4e-72
Glyma09g03080.3 265 3e-71
Glyma09g03080.2 265 3e-71
Glyma09g03080.1 265 3e-71
Glyma05g25600.2 258 3e-69
Glyma05g25600.1 258 3e-69
Glyma08g08580.1 257 8e-69
Glyma08g08580.2 226 1e-59
>Glyma15g14000.3
Length = 237
Score = 269 bits (687), Expect = 2e-72, Method: Compositional matrix adjust.
Identities = 136/229 (59%), Positives = 158/229 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL K +FQVG+LGE Y+ WVHQPI++KE PRFF++EILE++TR+
Sbjct: 2 MVVQNFVVDLNKALVFQVGHLGEAYEEWVHQPIVSKEGPRFFENEILEFLTRTVWWAIPV 61
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+ CW I SIRMG S ++AL+VV GIFVWT LEY LHRFLFH KTKTYWGNT+HY
Sbjct: 62 IWLPVVCWFIYKSIRMGLSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHY 121
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD RLV PP ATA + T STAPA+FGG LLGYV+YD T
Sbjct: 122 LLHGCHHKHPMDGLRLVFPPAATAILLMPFWNLVKLMATTSTAPALFGGGLLGYVMYDCT 181
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPP 229
HYYLHHGQP T F++QD GFGITS+LWD VFGTLPP
Sbjct: 182 HYYLHHGQPRTEVPRNLKKYHLNHHFRIQDKGFGITSSLWDKVFGTLPP 230
>Glyma15g14000.2
Length = 237
Score = 269 bits (687), Expect = 2e-72, Method: Compositional matrix adjust.
Identities = 136/229 (59%), Positives = 158/229 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL K +FQVG+LGE Y+ WVHQPI++KE PRFF++EILE++TR+
Sbjct: 2 MVVQNFVVDLNKALVFQVGHLGEAYEEWVHQPIVSKEGPRFFENEILEFLTRTVWWAIPV 61
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+ CW I SIRMG S ++AL+VV GIFVWT LEY LHRFLFH KTKTYWGNT+HY
Sbjct: 62 IWLPVVCWFIYKSIRMGLSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHY 121
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD RLV PP ATA + T STAPA+FGG LLGYV+YD T
Sbjct: 122 LLHGCHHKHPMDGLRLVFPPAATAILLMPFWNLVKLMATTSTAPALFGGGLLGYVMYDCT 181
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPP 229
HYYLHHGQP T F++QD GFGITS+LWD VFGTLPP
Sbjct: 182 HYYLHHGQPRTEVPRNLKKYHLNHHFRIQDKGFGITSSLWDKVFGTLPP 230
>Glyma15g14000.1
Length = 259
Score = 268 bits (685), Expect = 4e-72, Method: Compositional matrix adjust.
Identities = 136/229 (59%), Positives = 158/229 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL K +FQVG+LGE Y+ WVHQPI++KE PRFF++EILE++TR+
Sbjct: 24 MVVQNFVVDLNKALVFQVGHLGEAYEEWVHQPIVSKEGPRFFENEILEFLTRTVWWAIPV 83
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+ CW I SIRMG S ++AL+VV GIFVWT LEY LHRFLFH KTKTYWGNT+HY
Sbjct: 84 IWLPVVCWFIYKSIRMGLSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHY 143
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD RLV PP ATA + T STAPA+FGG LLGYV+YD T
Sbjct: 144 LLHGCHHKHPMDGLRLVFPPAATAILLMPFWNLVKLMATTSTAPALFGGGLLGYVMYDCT 203
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPP 229
HYYLHHGQP T F++QD GFGITS+LWD VFGTLPP
Sbjct: 204 HYYLHHGQPRTEVPRNLKKYHLNHHFRIQDKGFGITSSLWDKVFGTLPP 252
>Glyma09g03080.3
Length = 236
Score = 265 bits (677), Expect = 3e-71, Method: Compositional matrix adjust.
Identities = 133/229 (58%), Positives = 157/229 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL K +FQVG+LG Y+ WVHQPI++ E PRFF++EILE++TR+
Sbjct: 1 MVVQNFVVDLNKALVFQVGHLGGAYEEWVHQPIVSNEGPRFFENEILEFLTRTVWWAIPV 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+ CW I S++MG S ++AL+VV GIFVWT LEY LHRFLFH KTKTYWGNT+HY
Sbjct: 61 IWLPVVCWFIHNSVQMGLSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD RLV PP ATA + TPSTAPA+FGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDGLRLVFPPAATAILLMPFWNLVKLMATPSTAPALFGGGLLGYVMYDCT 180
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPP 229
HYYLHHGQP T F++QD GFGITS+LWD VFGTLPP
Sbjct: 181 HYYLHHGQPKTEVPRNLKKYHLNHHFRIQDKGFGITSSLWDKVFGTLPP 229
>Glyma09g03080.2
Length = 236
Score = 265 bits (677), Expect = 3e-71, Method: Compositional matrix adjust.
Identities = 133/229 (58%), Positives = 157/229 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL K +FQVG+LG Y+ WVHQPI++ E PRFF++EILE++TR+
Sbjct: 1 MVVQNFVVDLNKALVFQVGHLGGAYEEWVHQPIVSNEGPRFFENEILEFLTRTVWWAIPV 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+ CW I S++MG S ++AL+VV GIFVWT LEY LHRFLFH KTKTYWGNT+HY
Sbjct: 61 IWLPVVCWFIHNSVQMGLSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD RLV PP ATA + TPSTAPA+FGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDGLRLVFPPAATAILLMPFWNLVKLMATPSTAPALFGGGLLGYVMYDCT 180
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPP 229
HYYLHHGQP T F++QD GFGITS+LWD VFGTLPP
Sbjct: 181 HYYLHHGQPKTEVPRNLKKYHLNHHFRIQDKGFGITSSLWDKVFGTLPP 229
>Glyma09g03080.1
Length = 236
Score = 265 bits (677), Expect = 3e-71, Method: Compositional matrix adjust.
Identities = 133/229 (58%), Positives = 157/229 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL K +FQVG+LG Y+ WVHQPI++ E PRFF++EILE++TR+
Sbjct: 1 MVVQNFVVDLNKALVFQVGHLGGAYEEWVHQPIVSNEGPRFFENEILEFLTRTVWWAIPV 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+ CW I S++MG S ++AL+VV GIFVWT LEY LHRFLFH KTKTYWGNT+HY
Sbjct: 61 IWLPVVCWFIHNSVQMGLSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD RLV PP ATA + TPSTAPA+FGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDGLRLVFPPAATAILLMPFWNLVKLMATPSTAPALFGGGLLGYVMYDCT 180
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPP 229
HYYLHHGQP T F++QD GFGITS+LWD VFGTLPP
Sbjct: 181 HYYLHHGQPKTEVPRNLKKYHLNHHFRIQDKGFGITSSLWDKVFGTLPP 229
>Glyma05g25600.2
Length = 239
Score = 258 bits (660), Expect = 3e-69, Method: Compositional matrix adjust.
Identities = 130/231 (56%), Positives = 153/231 (66%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL KP +FQVG+LGE YD WVH PI++KE PRFFQS LE TR+
Sbjct: 1 MVAQKFVVDLNKPLVFQVGHLGEAYDDWVHDPIVSKEGPRFFQSGFLELFTRTAWWVIPT 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+A W IS S++ G S +VAL+V GIFVWT EY LHRFLFH KTK+YWGNT+HY
Sbjct: 61 VWVPVASWFISNSVKSGLPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD +RLV PP+A A + TPS APAVFGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDSYRLVFPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCT 180
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPPIQ 231
HYYLHHGQP + +++Q+ GFGITS LWD VFGT+PP Q
Sbjct: 181 HYYLHHGQPKSDVPKSLKKYHLNHHYRLQNYGFGITSPLWDKVFGTVPPPQ 231
>Glyma05g25600.1
Length = 239
Score = 258 bits (660), Expect = 3e-69, Method: Compositional matrix adjust.
Identities = 130/231 (56%), Positives = 153/231 (66%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL KP +FQVG+LGE YD WVH PI++KE PRFFQS LE TR+
Sbjct: 1 MVAQKFVVDLNKPLVFQVGHLGEAYDDWVHDPIVSKEGPRFFQSGFLELFTRTAWWVIPT 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+A W IS S++ G S +VAL+V GIFVWT EY LHRFLFH KTK+YWGNT+HY
Sbjct: 61 VWVPVASWFISNSVKSGLPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD +RLV PP+A A + TPS APAVFGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDSYRLVFPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCT 180
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPPIQ 231
HYYLHHGQP + +++Q+ GFGITS LWD VFGT+PP Q
Sbjct: 181 HYYLHHGQPKSDVPKSLKKYHLNHHYRLQNYGFGITSPLWDKVFGTVPPPQ 231
>Glyma08g08580.1
Length = 239
Score = 257 bits (656), Expect = 8e-69, Method: Compositional matrix adjust.
Identities = 129/231 (55%), Positives = 153/231 (66%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL KP +FQVG+LGE YD WVH PI++KE PRFFQ+ LE TR+
Sbjct: 1 MVAQKFVVDLNKPLVFQVGHLGEAYDEWVHDPIVSKEGPRFFQNGFLELFTRTAWWVIPT 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+A W IS S++ G S +VAL+V GIFVWT EY LHRFLFH KTK+YWGNT+HY
Sbjct: 61 VWVPVASWFISNSVKSGLPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD +RLV PP+A A + TPS APAVFGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDSYRLVFPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCT 180
Query: 181 HYYLHHGQPSTXXXXXXXXXXXXXXFKVQDVGFGITSTLWDIVFGTLPPIQ 231
HYYLHHGQP + +++Q+ GFGITS LWD VFGT+PP Q
Sbjct: 181 HYYLHHGQPKSDVPKSLKKYHLNHHYRLQNYGFGITSPLWDKVFGTVPPPQ 231
>Glyma08g08580.2
Length = 205
Score = 226 bits (577), Expect = 1e-59, Method: Compositional matrix adjust.
Identities = 112/191 (58%), Positives = 131/191 (68%)
Query: 1 MCPKGFTVDLCKPHLFQVGYLGEHYDGWVHQPIITKESPRFFQSEILEWVTRSXXXXXXX 60
M + F VDL KP +FQVG+LGE YD WVH PI++KE PRFFQ+ LE TR+
Sbjct: 1 MVAQKFVVDLNKPLVFQVGHLGEAYDEWVHDPIVSKEGPRFFQNGFLELFTRTAWWVIPT 60
Query: 61 XXXXMACWCISISIRMGHSSSNVALMVVFGIFVWTFLEYLLHRFLFHFKTKTYWGNTIHY 120
+A W IS S++ G S +VAL+V GIFVWT EY LHRFLFH KTK+YWGNT+HY
Sbjct: 61 VWVPVASWFISNSVKSGLPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHY 120
Query: 121 LLHGLHHKFPMDRFRLVMPPLATAXXXXXXXXXXXXVGTPSTAPAVFGGTLLGYVIYDLT 180
LLHG HHK PMD +RLV PP+A A + TPS APAVFGG LLGYV+YD T
Sbjct: 121 LLHGCHHKHPMDSYRLVFPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCT 180
Query: 181 HYYLHHGQPST 191
HYYLHHGQP +
Sbjct: 181 HYYLHHGQPKS 191