Miyakogusa Predicted Gene
- Lj0g3v0096719.1
BLASTP 2.2.25 [Feb-01-2011]
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= Lj0g3v0096719.1 CUFF.5378.1
(149 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma10g12190.1 256 7e-69
Glyma02g29580.2 255 1e-68
Glyma02g29580.1 255 1e-68
Glyma03g29730.1 199 1e-51
Glyma10g12190.2 182 2e-46
Glyma19g32580.1 180 5e-46
Glyma05g04010.1 113 9e-26
Glyma01g42190.1 110 5e-25
Glyma17g14500.1 109 1e-24
Glyma05g04010.2 106 7e-24
Glyma18g45290.1 104 4e-23
Glyma09g40530.1 104 4e-23
Glyma17g14500.2 96 2e-20
Glyma11g03180.1 89 2e-18
>Glyma10g12190.1
Length = 149
Score = 256 bits (654), Expect = 7e-69, Method: Compositional matrix adjust.
Identities = 119/149 (79%), Positives = 131/149 (87%)
Query: 1 MGWNLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGV 60
MGWNL FWL ICFPSNIALLASTFYQ+LILSDLE+DY+NPFDA+SRINYFVLPEF+GQG
Sbjct: 1 MGWNLLFWLAICFPSNIALLASTFYQVLILSDLESDYINPFDAASRINYFVLPEFVGQGA 60
Query: 61 LCALCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXX 120
LCALCLFTGHW MFLLTVPVTCYH+ LYVKR+HLIDVTEVFRVLNAEK++RIAK
Sbjct: 61 LCALCLFTGHWFMFLLTVPVTCYHLRLYVKREHLIDVTEVFRVLNAEKKYRIAKLALYLT 120
Query: 121 XXXXXXFRLTLIAVFYLGIEDDDDLGNLW 149
FRLTL AV+YLGIEDD+D+GNLW
Sbjct: 121 VLIVTIFRLTLTAVYYLGIEDDEDIGNLW 149
>Glyma02g29580.2
Length = 149
Score = 255 bits (652), Expect = 1e-68, Method: Compositional matrix adjust.
Identities = 118/149 (79%), Positives = 132/149 (88%)
Query: 1 MGWNLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGV 60
MGWNL FWLVICFP+NIALLASTFYQ+LILSDLE+DY+NPFDA+SRINYFVLPE++GQG
Sbjct: 1 MGWNLLFWLVICFPANIALLASTFYQVLILSDLESDYINPFDAASRINYFVLPEYVGQGA 60
Query: 61 LCALCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXX 120
LCALCLFTGHW MFLLTVPVTCYH+ LYVKR+HLIDVTEVFRVLNAEK++RIAK
Sbjct: 61 LCALCLFTGHWFMFLLTVPVTCYHLRLYVKREHLIDVTEVFRVLNAEKKYRIAKLALYLT 120
Query: 121 XXXXXXFRLTLIAVFYLGIEDDDDLGNLW 149
FRLTL AV+YLGIEDD+D+GNLW
Sbjct: 121 VLIVTIFRLTLTAVYYLGIEDDEDIGNLW 149
>Glyma02g29580.1
Length = 149
Score = 255 bits (652), Expect = 1e-68, Method: Compositional matrix adjust.
Identities = 118/149 (79%), Positives = 132/149 (88%)
Query: 1 MGWNLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGV 60
MGWNL FWLVICFP+NIALLASTFYQ+LILSDLE+DY+NPFDA+SRINYFVLPE++GQG
Sbjct: 1 MGWNLLFWLVICFPANIALLASTFYQVLILSDLESDYINPFDAASRINYFVLPEYVGQGA 60
Query: 61 LCALCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXX 120
LCALCLFTGHW MFLLTVPVTCYH+ LYVKR+HLIDVTEVFRVLNAEK++RIAK
Sbjct: 61 LCALCLFTGHWFMFLLTVPVTCYHLRLYVKREHLIDVTEVFRVLNAEKKYRIAKLALYLT 120
Query: 121 XXXXXXFRLTLIAVFYLGIEDDDDLGNLW 149
FRLTL AV+YLGIEDD+D+GNLW
Sbjct: 121 VLIVTIFRLTLTAVYYLGIEDDEDIGNLW 149
>Glyma03g29730.1
Length = 119
Score = 199 bits (505), Expect = 1e-51, Method: Compositional matrix adjust.
Identities = 88/114 (77%), Positives = 105/114 (92%)
Query: 1 MGWNLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGV 60
MG +LFFWLV+C P N LLASTFYQ+LILSDLEAD++NP+DASSRINYF++PEFIGQG+
Sbjct: 1 MGLDLFFWLVLCLPLNFTLLASTFYQVLILSDLEADFINPYDASSRINYFIVPEFIGQGL 60
Query: 61 LCALCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAK 114
LCA CL TGHW+MF +T+PVTCYHVMLY+K+ HLIDVTEVFR+L+AEK+FRIAK
Sbjct: 61 LCAFCLLTGHWIMFFMTLPVTCYHVMLYMKQTHLIDVTEVFRLLSAEKKFRIAK 114
>Glyma10g12190.2
Length = 108
Score = 182 bits (461), Expect = 2e-46, Method: Compositional matrix adjust.
Identities = 93/149 (62%), Positives = 102/149 (68%), Gaps = 41/149 (27%)
Query: 1 MGWNLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGV 60
MGWNL FWL ICFPSNIALLASTFYQ+LILSDLE+DY+NPFDA+SRINYFVLPEF+GQG
Sbjct: 1 MGWNLLFWLAICFPSNIALLASTFYQVLILSDLESDYINPFDAASRINYFVLPEFVGQGA 60
Query: 61 LCALCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXX 120
LCALCLFTGHW MFLLTVPVTCYH+ L
Sbjct: 61 LCALCLFTGHWFMFLLTVPVTCYHLRL--------------------------------- 87
Query: 121 XXXXXXFRLTLIAVFYLGIEDDDDLGNLW 149
LTL AV+YLGIEDD+D+GNLW
Sbjct: 88 --------LTLTAVYYLGIEDDEDIGNLW 108
>Glyma19g32580.1
Length = 152
Score = 180 bits (456), Expect = 5e-46, Method: Compositional matrix adjust.
Identities = 81/119 (68%), Positives = 100/119 (84%)
Query: 24 FYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCALCLFTGHWVMFLLTVPVTCY 83
F ++L+LSDLEAD++NP+DA+SRINYF++PEFIGQG+LCA CL TGHW+MFL+TVPVTCY
Sbjct: 34 FVEVLMLSDLEADFINPYDAASRINYFIVPEFIGQGLLCAFCLLTGHWIMFLITVPVTCY 93
Query: 84 HVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXXXXXXXXFRLTLIAVFYLGIEDD 142
HVMLY+KR+HLIDVTEVFR+LNAEK+FRIAK FRL L+ V+YL ED+
Sbjct: 94 HVMLYMKRKHLIDVTEVFRLLNAEKKFRIAKIAYYLTIIFISIFRLVLMLVYYLDSEDE 152
>Glyma05g04010.1
Length = 137
Score = 113 bits (282), Expect = 9e-26, Method: Compositional matrix adjust.
Identities = 64/141 (45%), Positives = 86/141 (60%), Gaps = 6/141 (4%)
Query: 4 NLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCA 63
+LF WL I F IAL+ YQ++ L+DLE DY+NP+D+SSRIN VLPE+I GVLC
Sbjct: 3 DLFTWL-ISFFILIALIVLVIYQLMCLADLEFDYINPYDSSSRINKVVLPEYIIVGVLCG 61
Query: 64 LCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXXXXX 123
L TGHW+M L+ P Y+V LY + HL+DVTE+F +L EK+ R+ K
Sbjct: 62 FYLVTGHWIMSLICAPYLYYNVRLYRQGNHLVDVTEIFNLLPKEKKQRLFKLFYLVFILF 121
Query: 124 XXXFRLTLIAVFYLGIEDDDD 144
L+L + Y ++D DD
Sbjct: 122 -----LSLFWMIYTSLDDHDD 137
>Glyma01g42190.1
Length = 133
Score = 110 bits (276), Expect = 5e-25, Method: Compositional matrix adjust.
Identities = 56/111 (50%), Positives = 77/111 (69%), Gaps = 1/111 (0%)
Query: 4 NLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCA 63
+LF WL I F IALL YQ++ L+DLE DY+NP+D+S+RIN VLPE+I Q VLC
Sbjct: 3 DLFAWL-ISFFLLIALLVLVMYQLMCLADLEFDYINPYDSSARINMVVLPEYITQAVLCC 61
Query: 64 LCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAK 114
L TGHW+M L +P ++ LY + +HL+DVTE+F +L+ EK+ R+ K
Sbjct: 62 FYLLTGHWIMALFCLPYLSLNLRLYRQGRHLVDVTEIFNLLSWEKKQRLVK 112
>Glyma17g14500.1
Length = 137
Score = 109 bits (272), Expect = 1e-24, Method: Compositional matrix adjust.
Identities = 62/141 (43%), Positives = 86/141 (60%), Gaps = 6/141 (4%)
Query: 4 NLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCA 63
+LF WL I F IAL+ YQ++ L+DLE DY+NP+D+SSRIN +LPE+I GVL
Sbjct: 3 DLFAWL-ISFFILIALIVLVIYQLMCLADLEFDYINPYDSSSRINKVILPEYIIVGVLFG 61
Query: 64 LCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXXXXX 123
L TGHW+M L+ P Y+V LY + +HL+DVTE+F +L EK+ R+ K
Sbjct: 62 FYLVTGHWIMSLICAPYLYYNVRLYRQGKHLVDVTEIFNLLPKEKKQRLFKLFYIVFILF 121
Query: 124 XXXFRLTLIAVFYLGIEDDDD 144
L+L + Y ++D DD
Sbjct: 122 -----LSLFWMIYTSLDDHDD 137
>Glyma05g04010.2
Length = 135
Score = 106 bits (265), Expect = 7e-24, Method: Compositional matrix adjust.
Identities = 63/141 (44%), Positives = 85/141 (60%), Gaps = 8/141 (5%)
Query: 4 NLFFWLVICFPSNIALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCA 63
+LF WL I F IAL+ YQ++ L+DLE DY+NP+D+SSRIN VLPE+I GVLC
Sbjct: 3 DLFTWL-ISFFILIALIVLVIYQLMCLADLEFDYINPYDSSSRINKVVLPEYIIVGVLCG 61
Query: 64 LCLFTGHWVMFLLTVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAKXXXXXXXXX 123
L TGHW+M L+ P Y+V L + HL+DVTE+F +L EK+ R+ K
Sbjct: 62 FYLVTGHWIMSLICAPYLYYNVRL--QGNHLVDVTEIFNLLPKEKKQRLFKLFYLVFILF 119
Query: 124 XXXFRLTLIAVFYLGIEDDDD 144
L+L + Y ++D DD
Sbjct: 120 -----LSLFWMIYTSLDDHDD 135
>Glyma18g45290.1
Length = 156
Score = 104 bits (259), Expect = 4e-23, Method: Compositional matrix adjust.
Identities = 48/98 (48%), Positives = 70/98 (71%)
Query: 17 IALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCALCLFTGHWVMFLL 76
+ LL YQ+++L DLE DY+NP+D++S+IN VLPEFI G+ C L GHW +FL+
Sbjct: 35 LTLLCILGYQLILLVDLEFDYINPYDSTSQINQVVLPEFIIHGIFCFTNLIAGHWFIFLI 94
Query: 77 TVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAK 114
++P Y++ LY+KR+HL DVTE++ LN EK+ R+ K
Sbjct: 95 SLPFLYYNLRLYIKREHLADVTEIYNKLNWEKKKRLFK 132
>Glyma09g40530.1
Length = 136
Score = 104 bits (259), Expect = 4e-23, Method: Compositional matrix adjust.
Identities = 49/98 (50%), Positives = 69/98 (70%)
Query: 17 IALLASTFYQILILSDLEADYVNPFDASSRINYFVLPEFIGQGVLCALCLFTGHWVMFLL 76
+ LL YQ+++L DLE DY+NP+D++SRIN VLPEFI G+ C L GHW +FLL
Sbjct: 15 LTLLCILGYQLILLVDLEFDYINPYDSTSRINQVVLPEFIIHGIFCFTNLIAGHWFIFLL 74
Query: 77 TVPVTCYHVMLYVKRQHLIDVTEVFRVLNAEKRFRIAK 114
++P Y++ LY+KR+HL DVTE++ L EK+ R+ K
Sbjct: 75 SLPFLYYNLRLYIKREHLADVTEIYNKLYWEKKKRLFK 112
>Glyma17g14500.2
Length = 104
Score = 95.5 bits (236), Expect = 2e-20, Method: Compositional matrix adjust.
Identities = 45/85 (52%), Positives = 61/85 (71%)
Query: 30 LSDLEADYVNPFDASSRINYFVLPEFIGQGVLCALCLFTGHWVMFLLTVPVTCYHVMLYV 89
L+DLE DY+NP+D+SSRIN +LPE+I GVL L TGHW+M L+ P Y+V LY
Sbjct: 3 LADLEFDYINPYDSSSRINKVILPEYIIVGVLFGFYLVTGHWIMSLICAPYLYYNVRLYR 62
Query: 90 KRQHLIDVTEVFRVLNAEKRFRIAK 114
+ +HL+DVTE+F +L EK+ R+ K
Sbjct: 63 QGKHLVDVTEIFNLLPKEKKQRLFK 87
>Glyma11g03180.1
Length = 113
Score = 88.6 bits (218), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 40/81 (49%), Positives = 57/81 (70%)
Query: 34 EADYVNPFDASSRINYFVLPEFIGQGVLCALCLFTGHWVMFLLTVPVTCYHVMLYVKRQH 93
E DY+NP+D+S+RIN VLPE+I Q VLC L T HW++ L +P ++V LY + +H
Sbjct: 29 EFDYINPYDSSARINMVVLPEYITQAVLCCFYLLTKHWILALFFLPYLFHNVRLYRQGRH 88
Query: 94 LIDVTEVFRVLNAEKRFRIAK 114
L+DVTE+F +L EK+ R+ K
Sbjct: 89 LVDVTEIFNLLTWEKKQRLVK 109