Jatropha Genome Database

JcCA0259921.10
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= JcCA0259921.10 - phase: 0 /partial
         (220 letters)

Database: Glyma1.pep 
           75,778 sequences; 25,431,882 total letters

Searching..................................................done



                                                                 Score    E
Sequences producing significant alignments:                      (bits) Value

Glyma15g14000.3                                                       372   e-103
Glyma15g14000.2                                                       372   e-103
Glyma15g14000.1                                                       371   e-103
Glyma09g03080.3                                                       369   e-102
Glyma09g03080.2                                                       369   e-102
Glyma09g03080.1                                                       369   e-102
Glyma05g25600.2                                                       333   7e-92
Glyma05g25600.1                                                       333   7e-92
Glyma08g08580.1                                                       333   8e-92
Glyma08g08580.2                                                       276   1e-74

>Glyma15g14000.3 
          Length = 237

 Score =  372 bits (955), Expect = e-103,   Method: Compositional matrix adjust.
 Identities = 175/213 (82%), Positives = 192/213 (90%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAYEEWVHQPIVSKEGPRFFE++  EFLTRTVWWAIPVIWLPVVCW I  S+RMG
Sbjct: 19  VGHLGEAYEEWVHQPIVSKEGPRFFENEILEFLTRTVWWAIPVIWLPVVCWFIYKSIRMG 78

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
                +AL+V  GI +WTLLEYSLHRF+FHIKTKTYW NTLHYL+HGCHHKHPMDGLRLV
Sbjct: 79  LSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHYLLHGCHHKHPMDGLRLV 138

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPPAATA+L +PFWNLV+L AT STAPALFGGGLLGYVMYDCTHYYLHHGQP + VP++L
Sbjct: 139 FPPAATAILLMPFWNLVKLMATTSTAPALFGGGLLGYVMYDCTHYYLHHGQPRTEVPRNL 198

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPPS 213
           KKYHLNHHFRIQ+ GFGITS+LWD+VFGTLPP 
Sbjct: 199 KKYHLNHHFRIQDKGFGITSSLWDKVFGTLPPK 231


>Glyma15g14000.2 
          Length = 237

 Score =  372 bits (955), Expect = e-103,   Method: Compositional matrix adjust.
 Identities = 175/213 (82%), Positives = 192/213 (90%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAYEEWVHQPIVSKEGPRFFE++  EFLTRTVWWAIPVIWLPVVCW I  S+RMG
Sbjct: 19  VGHLGEAYEEWVHQPIVSKEGPRFFENEILEFLTRTVWWAIPVIWLPVVCWFIYKSIRMG 78

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
                +AL+V  GI +WTLLEYSLHRF+FHIKTKTYW NTLHYL+HGCHHKHPMDGLRLV
Sbjct: 79  LSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHYLLHGCHHKHPMDGLRLV 138

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPPAATA+L +PFWNLV+L AT STAPALFGGGLLGYVMYDCTHYYLHHGQP + VP++L
Sbjct: 139 FPPAATAILLMPFWNLVKLMATTSTAPALFGGGLLGYVMYDCTHYYLHHGQPRTEVPRNL 198

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPPS 213
           KKYHLNHHFRIQ+ GFGITS+LWD+VFGTLPP 
Sbjct: 199 KKYHLNHHFRIQDKGFGITSSLWDKVFGTLPPK 231


>Glyma15g14000.1 
          Length = 259

 Score =  371 bits (953), Expect = e-103,   Method: Compositional matrix adjust.
 Identities = 175/213 (82%), Positives = 192/213 (90%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAYEEWVHQPIVSKEGPRFFE++  EFLTRTVWWAIPVIWLPVVCW I  S+RMG
Sbjct: 41  VGHLGEAYEEWVHQPIVSKEGPRFFENEILEFLTRTVWWAIPVIWLPVVCWFIYKSIRMG 100

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
                +AL+V  GI +WTLLEYSLHRF+FHIKTKTYW NTLHYL+HGCHHKHPMDGLRLV
Sbjct: 101 LSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHYLLHGCHHKHPMDGLRLV 160

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPPAATA+L +PFWNLV+L AT STAPALFGGGLLGYVMYDCTHYYLHHGQP + VP++L
Sbjct: 161 FPPAATAILLMPFWNLVKLMATTSTAPALFGGGLLGYVMYDCTHYYLHHGQPRTEVPRNL 220

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPPS 213
           KKYHLNHHFRIQ+ GFGITS+LWD+VFGTLPP 
Sbjct: 221 KKYHLNHHFRIQDKGFGITSSLWDKVFGTLPPK 253


>Glyma09g03080.3 
          Length = 236

 Score =  369 bits (946), Expect = e-102,   Method: Compositional matrix adjust.
 Identities = 174/213 (81%), Positives = 191/213 (89%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLG AYEEWVHQPIVS EGPRFFE++  EFLTRTVWWAIPVIWLPVVCW I  SV+MG
Sbjct: 18  VGHLGGAYEEWVHQPIVSNEGPRFFENEILEFLTRTVWWAIPVIWLPVVCWFIHNSVQMG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
                +AL+V  GI +WTLLEYSLHRF+FHIKTKTYW NTLHYL+HGCHHKHPMDGLRLV
Sbjct: 78  LSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHYLLHGCHHKHPMDGLRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPPAATA+L +PFWNLV+L ATPSTAPALFGGGLLGYVMYDCTHYYLHHGQP + VP++L
Sbjct: 138 FPPAATAILLMPFWNLVKLMATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPKTEVPRNL 197

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPPS 213
           KKYHLNHHFRIQ+ GFGITS+LWD+VFGTLPP 
Sbjct: 198 KKYHLNHHFRIQDKGFGITSSLWDKVFGTLPPK 230


>Glyma09g03080.2 
          Length = 236

 Score =  369 bits (946), Expect = e-102,   Method: Compositional matrix adjust.
 Identities = 174/213 (81%), Positives = 191/213 (89%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLG AYEEWVHQPIVS EGPRFFE++  EFLTRTVWWAIPVIWLPVVCW I  SV+MG
Sbjct: 18  VGHLGGAYEEWVHQPIVSNEGPRFFENEILEFLTRTVWWAIPVIWLPVVCWFIHNSVQMG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
                +AL+V  GI +WTLLEYSLHRF+FHIKTKTYW NTLHYL+HGCHHKHPMDGLRLV
Sbjct: 78  LSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHYLLHGCHHKHPMDGLRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPPAATA+L +PFWNLV+L ATPSTAPALFGGGLLGYVMYDCTHYYLHHGQP + VP++L
Sbjct: 138 FPPAATAILLMPFWNLVKLMATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPKTEVPRNL 197

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPPS 213
           KKYHLNHHFRIQ+ GFGITS+LWD+VFGTLPP 
Sbjct: 198 KKYHLNHHFRIQDKGFGITSSLWDKVFGTLPPK 230


>Glyma09g03080.1 
          Length = 236

 Score =  369 bits (946), Expect = e-102,   Method: Compositional matrix adjust.
 Identities = 174/213 (81%), Positives = 191/213 (89%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLG AYEEWVHQPIVS EGPRFFE++  EFLTRTVWWAIPVIWLPVVCW I  SV+MG
Sbjct: 18  VGHLGGAYEEWVHQPIVSNEGPRFFENEILEFLTRTVWWAIPVIWLPVVCWFIHNSVQMG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
                +AL+V  GI +WTLLEYSLHRF+FHIKTKTYW NTLHYL+HGCHHKHPMDGLRLV
Sbjct: 78  LSCPHLALLVVLGIFVWTLLEYSLHRFLFHIKTKTYWGNTLHYLLHGCHHKHPMDGLRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPPAATA+L +PFWNLV+L ATPSTAPALFGGGLLGYVMYDCTHYYLHHGQP + VP++L
Sbjct: 138 FPPAATAILLMPFWNLVKLMATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPKTEVPRNL 197

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPPS 213
           KKYHLNHHFRIQ+ GFGITS+LWD+VFGTLPP 
Sbjct: 198 KKYHLNHHFRIQDKGFGITSSLWDKVFGTLPPK 230


>Glyma05g25600.2 
          Length = 239

 Score =  333 bits (855), Expect = 7e-92,   Method: Compositional matrix adjust.
 Identities = 156/222 (70%), Positives = 179/222 (80%), Gaps = 2/222 (0%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAY++WVH PIVSKEGPRFF+S F E  TRT WW IP +W+PV  W IS SV+ G
Sbjct: 18  VGHLGEAYDDWVHDPIVSKEGPRFFQSGFLELFTRTAWWVIPTVWVPVASWFISNSVKSG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
               ++AL+V  GI +WTL EY+LHRF+FH+KTK+YW NTLHYL+HGCHHKHPMD  RLV
Sbjct: 78  LPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHYLLHGCHHKHPMDSYRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPP A A+L +P WNLV+L  TPS APA+FGG LLGYVMYDCTHYYLHHGQP S VPK L
Sbjct: 138 FPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCTHYYLHHGQPKSDVPKSL 197

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPP--SKVVEKSR 220
           KKYHLNHH+R+QN GFGITS LWD+VFGT+PP  SK   K R
Sbjct: 198 KKYHLNHHYRLQNYGFGITSPLWDKVFGTVPPPQSKGDAKRR 239


>Glyma05g25600.1 
          Length = 239

 Score =  333 bits (855), Expect = 7e-92,   Method: Compositional matrix adjust.
 Identities = 156/222 (70%), Positives = 179/222 (80%), Gaps = 2/222 (0%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAY++WVH PIVSKEGPRFF+S F E  TRT WW IP +W+PV  W IS SV+ G
Sbjct: 18  VGHLGEAYDDWVHDPIVSKEGPRFFQSGFLELFTRTAWWVIPTVWVPVASWFISNSVKSG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
               ++AL+V  GI +WTL EY+LHRF+FH+KTK+YW NTLHYL+HGCHHKHPMD  RLV
Sbjct: 78  LPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHYLLHGCHHKHPMDSYRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPP A A+L +P WNLV+L  TPS APA+FGG LLGYVMYDCTHYYLHHGQP S VPK L
Sbjct: 138 FPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCTHYYLHHGQPKSDVPKSL 197

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPP--SKVVEKSR 220
           KKYHLNHH+R+QN GFGITS LWD+VFGT+PP  SK   K R
Sbjct: 198 KKYHLNHHYRLQNYGFGITSPLWDKVFGTVPPPQSKGDAKRR 239


>Glyma08g08580.1 
          Length = 239

 Score =  333 bits (854), Expect = 8e-92,   Method: Compositional matrix adjust.
 Identities = 156/222 (70%), Positives = 179/222 (80%), Gaps = 2/222 (0%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAY+EWVH PIVSKEGPRFF++ F E  TRT WW IP +W+PV  W IS SV+ G
Sbjct: 18  VGHLGEAYDEWVHDPIVSKEGPRFFQNGFLELFTRTAWWVIPTVWVPVASWFISNSVKSG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
               ++AL+V  GI +WTL EY+LHRF+FH+KTK+YW NTLHYL+HGCHHKHPMD  RLV
Sbjct: 78  LPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHYLLHGCHHKHPMDSYRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPP A A+L +P WNLV+L  TPS APA+FGG LLGYVMYDCTHYYLHHGQP S VPK L
Sbjct: 138 FPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCTHYYLHHGQPKSDVPKSL 197

Query: 181 KKYHLNHHFRIQNMGFGITSALWDRVFGTLPP--SKVVEKSR 220
           KKYHLNHH+R+QN GFGITS LWD+VFGT+PP  SK   K R
Sbjct: 198 KKYHLNHHYRLQNYGFGITSPLWDKVFGTVPPPQSKGDAKRR 239


>Glyma08g08580.2 
          Length = 205

 Score =  276 bits (707), Expect = 1e-74,   Method: Compositional matrix adjust.
 Identities = 127/181 (70%), Positives = 146/181 (80%)

Query: 1   VGHLGEAYEEWVHQPIVSKEGPRFFESDFWEFLTRTVWWAIPVIWLPVVCWCISMSVRMG 60
           VGHLGEAY+EWVH PIVSKEGPRFF++ F E  TRT WW IP +W+PV  W IS SV+ G
Sbjct: 18  VGHLGEAYDEWVHDPIVSKEGPRFFQNGFLELFTRTAWWVIPTVWVPVASWFISNSVKSG 77

Query: 61  HKPSEIALMVASGILIWTLLEYSLHRFVFHIKTKTYWWNTLHYLIHGCHHKHPMDGLRLV 120
               ++AL+V  GI +WTL EY+LHRF+FH+KTK+YW NTLHYL+HGCHHKHPMD  RLV
Sbjct: 78  LPSLDVALLVFLGIFVWTLAEYTLHRFLFHVKTKSYWGNTLHYLLHGCHHKHPMDSYRLV 137

Query: 121 FPPAATAVLCVPFWNLVQLFATPSTAPALFGGGLLGYVMYDCTHYYLHHGQPSSGVPKDL 180
           FPP A A+L +P WNLV+L  TPS APA+FGG LLGYVMYDCTHYYLHHGQP S VPK L
Sbjct: 138 FPPVAAAILALPIWNLVKLICTPSVAPAVFGGILLGYVMYDCTHYYLHHGQPKSDVPKSL 197

Query: 181 K 181
           K
Sbjct: 198 K 198