Miyakogusa Predicted Gene
- Lj0g3v0212909.1
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= Lj0g3v0212909.1 NODE_55989_length_591_cov_38.724197.path1.1
(198 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma13g29360.2 360 e-100
Glyma15g09710.1 360 e-100
Glyma13g29360.1 348 3e-96
Glyma05g27520.2 338 2e-93
Glyma05g27520.1 338 2e-93
Glyma08g10510.1 321 4e-88
Glyma08g24910.1 310 6e-85
Glyma08g20510.1 140 8e-34
Glyma07g01110.1 135 4e-32
Glyma07g01110.2 135 4e-32
Glyma07g01110.3 128 5e-30
Glyma05g27510.1 120 9e-28
Glyma01g20990.1 50 2e-06
>Glyma13g29360.2
Length = 322
Score = 360 bits (925), Expect = e-100, Method: Compositional matrix adjust.
Identities = 170/200 (85%), Positives = 185/200 (92%), Gaps = 2/200 (1%)
Query: 1 MVPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDY--RESNGDHNYILIDVG 58
MVPNVMCL+QPS+PPC VCVQSL++PP+RNPNYRCNTSLLIDY + GD YILIDVG
Sbjct: 27 MVPNVMCLLQPSDPPCPVCVQSLSIPPERNPNYRCNTSLLIDYCGDANAGDRKYILIDVG 86
Query: 59 KTFREGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQH 118
KTFRE VLRWF +H+IPR+DSIILTHEHADAVLGLDD+RAVQ FSPTNDI+PTPIYLSQH
Sbjct: 87 KTFRETVLRWFVAHRIPRVDSIILTHEHADAVLGLDDVRAVQAFSPTNDIDPTPIYLSQH 146
Query: 119 SMDSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDY 178
SMDSIAEKFPYLVQKK KEG E+RRVAQ+ WNIIADDCN+PF ASGLKFTPLPVMHGEDY
Sbjct: 147 SMDSIAEKFPYLVQKKRKEGAEIRRVAQIDWNIIADDCNKPFLASGLKFTPLPVMHGEDY 206
Query: 179 ICLGFLFGEKSRVAYISDVS 198
ICLGFLFGEK+RVAYISDVS
Sbjct: 207 ICLGFLFGEKNRVAYISDVS 226
>Glyma15g09710.1
Length = 322
Score = 360 bits (924), Expect = e-100, Method: Compositional matrix adjust.
Identities = 171/201 (85%), Positives = 184/201 (91%), Gaps = 3/201 (1%)
Query: 1 MVPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDYRES---NGDHNYILIDV 57
MVPN+MCL+QPS+PPC VCVQSL++PP+RNPNYRCNTSLLIDY + GD YILIDV
Sbjct: 27 MVPNLMCLLQPSDPPCPVCVQSLSIPPERNPNYRCNTSLLIDYGAAAANGGDRKYILIDV 86
Query: 58 GKTFREGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQ 117
GKTFRE VLRWF +H+IPRIDSIILTHEHADAVLGLDDIRAVQ FSPTNDI+PTPIYLSQ
Sbjct: 87 GKTFRETVLRWFVAHRIPRIDSIILTHEHADAVLGLDDIRAVQAFSPTNDIDPTPIYLSQ 146
Query: 118 HSMDSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGED 177
HSMDSIAEKFPYLVQKK KEG E+RRVAQ+ WNIIADDCNQ F ASGLKFTPLPVMHGED
Sbjct: 147 HSMDSIAEKFPYLVQKKRKEGAEIRRVAQIDWNIIADDCNQQFFASGLKFTPLPVMHGED 206
Query: 178 YICLGFLFGEKSRVAYISDVS 198
YICLGFLFGEK+RVAYISDVS
Sbjct: 207 YICLGFLFGEKNRVAYISDVS 227
>Glyma13g29360.1
Length = 344
Score = 348 bits (892), Expect = 3e-96, Method: Compositional matrix adjust.
Identities = 170/222 (76%), Positives = 185/222 (83%), Gaps = 24/222 (10%)
Query: 1 MVPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYR----------------------CNTS 38
MVPNVMCL+QPS+PPC VCVQSL++PP+RNPNYR CNTS
Sbjct: 27 MVPNVMCLLQPSDPPCPVCVQSLSIPPERNPNYRSSFLFFHFFSLSRNFLKISICRCNTS 86
Query: 39 LLIDY--RESNGDHNYILIDVGKTFREGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDI 96
LLIDY + GD YILIDVGKTFRE VLRWF +H+IPR+DSIILTHEHADAVLGLDD+
Sbjct: 87 LLIDYCGDANAGDRKYILIDVGKTFRETVLRWFVAHRIPRVDSIILTHEHADAVLGLDDV 146
Query: 97 RAVQPFSPTNDIEPTPIYLSQHSMDSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDC 156
RAVQ FSPTNDI+PTPIYLSQHSMDSIAEKFPYLVQKK KEG E+RRVAQ+ WNIIADDC
Sbjct: 147 RAVQAFSPTNDIDPTPIYLSQHSMDSIAEKFPYLVQKKRKEGAEIRRVAQIDWNIIADDC 206
Query: 157 NQPFSASGLKFTPLPVMHGEDYICLGFLFGEKSRVAYISDVS 198
N+PF ASGLKFTPLPVMHGEDYICLGFLFGEK+RVAYISDVS
Sbjct: 207 NKPFLASGLKFTPLPVMHGEDYICLGFLFGEKNRVAYISDVS 248
>Glyma05g27520.2
Length = 308
Score = 338 bits (867), Expect = 2e-93, Method: Compositional matrix adjust.
Identities = 161/198 (81%), Positives = 174/198 (87%), Gaps = 1/198 (0%)
Query: 2 VPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDY-RESNGDHNYILIDVGKT 60
VP++ CLI PS+PPC VC QSL+LPP NPNYRCNTSLLIDY +S+ H YILID GKT
Sbjct: 16 VPSMRCLIDPSDPPCLVCTQSLSLPPHLNPNYRCNTSLLIDYYSQSDATHKYILIDAGKT 75
Query: 61 FREGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQHSM 120
FRE VLRWF H IPRIDSI+LTHEHADAVLGLDDIRAVQPFSPTNDI+PTPIYL++HSM
Sbjct: 76 FRETVLRWFVFHHIPRIDSILLTHEHADAVLGLDDIRAVQPFSPTNDIDPTPIYLTRHSM 135
Query: 121 DSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYIC 180
DS+ + FPYLVQKK KEGQE+RRVAQ WNIIADDCN PFSASGLKF PLPVMHGEDYIC
Sbjct: 136 DSMEKVFPYLVQKKHKEGQEIRRVAQCCWNIIADDCNLPFSASGLKFIPLPVMHGEDYIC 195
Query: 181 LGFLFGEKSRVAYISDVS 198
LGFLFGEK RVAYISDVS
Sbjct: 196 LGFLFGEKDRVAYISDVS 213
>Glyma05g27520.1
Length = 308
Score = 338 bits (867), Expect = 2e-93, Method: Compositional matrix adjust.
Identities = 161/198 (81%), Positives = 174/198 (87%), Gaps = 1/198 (0%)
Query: 2 VPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDY-RESNGDHNYILIDVGKT 60
VP++ CLI PS+PPC VC QSL+LPP NPNYRCNTSLLIDY +S+ H YILID GKT
Sbjct: 16 VPSMRCLIDPSDPPCLVCTQSLSLPPHLNPNYRCNTSLLIDYYSQSDATHKYILIDAGKT 75
Query: 61 FREGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQHSM 120
FRE VLRWF H IPRIDSI+LTHEHADAVLGLDDIRAVQPFSPTNDI+PTPIYL++HSM
Sbjct: 76 FRETVLRWFVFHHIPRIDSILLTHEHADAVLGLDDIRAVQPFSPTNDIDPTPIYLTRHSM 135
Query: 121 DSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYIC 180
DS+ + FPYLVQKK KEGQE+RRVAQ WNIIADDCN PFSASGLKF PLPVMHGEDYIC
Sbjct: 136 DSMEKVFPYLVQKKHKEGQEIRRVAQCCWNIIADDCNLPFSASGLKFIPLPVMHGEDYIC 195
Query: 181 LGFLFGEKSRVAYISDVS 198
LGFLFGEK RVAYISDVS
Sbjct: 196 LGFLFGEKDRVAYISDVS 213
>Glyma08g10510.1
Length = 311
Score = 321 bits (822), Expect = 4e-88, Method: Compositional matrix adjust.
Identities = 150/198 (75%), Positives = 168/198 (84%), Gaps = 1/198 (0%)
Query: 2 VPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDYR-ESNGDHNYILIDVGKT 60
VP + CLI PS+PPC VC SL+ PP NPNYRCN+SLLIDY S+ H YILID GKT
Sbjct: 16 VPCMRCLIDPSDPPCPVCAYSLSFPPHLNPNYRCNSSLLIDYYCRSDATHKYILIDAGKT 75
Query: 61 FREGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQHSM 120
FRE LRWF H IPR+DSI+LTHEHADAVLGLDD+ AVQPFSPTNDI+P P+YL+QHSM
Sbjct: 76 FRETALRWFVFHHIPRVDSIVLTHEHADAVLGLDDVLAVQPFSPTNDIDPIPVYLTQHSM 135
Query: 121 DSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYIC 180
DS+ ++FPYLVQKK KEGQE+RRVA + WNIIADDCN+PF ASGLK PLPVMHGEDYIC
Sbjct: 136 DSVEKRFPYLVQKKHKEGQEMRRVALLCWNIIADDCNRPFFASGLKLIPLPVMHGEDYIC 195
Query: 181 LGFLFGEKSRVAYISDVS 198
LGFLFGEK+RVAYISDVS
Sbjct: 196 LGFLFGEKNRVAYISDVS 213
>Glyma08g24910.1
Length = 293
Score = 310 bits (794), Expect = 6e-85, Method: Compositional matrix adjust.
Identities = 144/193 (74%), Positives = 162/193 (83%), Gaps = 1/193 (0%)
Query: 7 CLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDYR-ESNGDHNYILIDVGKTFREGV 65
CLI PS+PPC VC SL+ PP NPNYRCN+SLLIDY S+ H YILID GKTFRE
Sbjct: 3 CLIDPSDPPCPVCAYSLSFPPHLNPNYRCNSSLLIDYYCRSDATHKYILIDAGKTFRETA 62
Query: 66 LRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQHSMDSIAE 125
LRWF H IPR+DSI+LTHEHADAVLGLDD+ A+QPFS TND +P P+YL+QHSMDS+ +
Sbjct: 63 LRWFVFHHIPRVDSIVLTHEHADAVLGLDDVLALQPFSLTNDTDPIPVYLTQHSMDSVEK 122
Query: 126 KFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYICLGFLF 185
+FPYLV+KK KEGQE+RRV Q+ WNIIADDCN PF ASGLK PLPVMHGEDYICLGFLF
Sbjct: 123 RFPYLVKKKHKEGQEMRRVVQLCWNIIADDCNGPFFASGLKLIPLPVMHGEDYICLGFLF 182
Query: 186 GEKSRVAYISDVS 198
GEK+RVAYISDVS
Sbjct: 183 GEKNRVAYISDVS 195
>Glyma08g20510.1
Length = 330
Score = 140 bits (353), Expect = 8e-34, Method: Compositional matrix adjust.
Identities = 85/199 (42%), Positives = 119/199 (59%), Gaps = 20/199 (10%)
Query: 2 VPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDYRESNGDHNYILIDVGKTF 61
VP V CL P + C VC ++ N N R NTS+LI + S+G HN ILID GK F
Sbjct: 60 VPRVSCLTNPLHK-CEVCSKA---AQPGNKNRRLNTSILIRHPGSSGTHNNILIDAGKFF 115
Query: 62 REGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEP-TPIYLSQHSM 120
LRWF + I ID++I+TH HADA+ GLDD+R TN+++P PIY+++
Sbjct: 116 YHSALRWFPAFGIRTIDAVIITHSHADAIGGLDDLR-----DWTNNVQPHIPIYVAKRDF 170
Query: 121 DSIAEKFPYLVQKK-LKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYI 179
+ + + YLV + G + V+++ +NI+++ +PF GLKFTPLPV HG++Y
Sbjct: 171 EVMTKTHYYLVDTSVILPGAQ---VSELQFNIVSE---EPFFVHGLKFTPLPVWHGQNYR 224
Query: 180 CLGFLFGEKSRVAYISDVS 198
LGF FG + YISDVS
Sbjct: 225 SLGFRFGN---ICYISDVS 240
>Glyma07g01110.1
Length = 343
Score = 135 bits (339), Expect = 4e-32, Method: Compositional matrix adjust.
Identities = 83/198 (41%), Positives = 115/198 (58%), Gaps = 18/198 (9%)
Query: 2 VPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDYRESNGDHNYILIDVGKTF 61
VP V CL P C VC ++ N N R NTS+LI + S+G HN ILID GK F
Sbjct: 73 VPRVSCLTNPL-LKCEVCSKAAQ---PGNKNRRLNTSILIRHPNSSGTHNNILIDAGKFF 128
Query: 62 REGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEP-TPIYLSQHSM 120
L WF + I ID++I+TH HADA+ GLDD+R TN+++P PIY+++
Sbjct: 129 YHSALHWFPAFGIRTIDAVIITHSHADAIGGLDDLR-----DWTNNVQPHIPIYVAKRDF 183
Query: 121 DSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYIC 180
+ + + YLV + +V+++ +NII++ +PF LKFTPLPV HG++Y
Sbjct: 184 EVMTKTHYYLVDTSVILPGA--KVSELQFNIISE---EPFFVHELKFTPLPVWHGQNYRS 238
Query: 181 LGFLFGEKSRVAYISDVS 198
LGF FG + YISDVS
Sbjct: 239 LGFRFGN---ICYISDVS 253
>Glyma07g01110.2
Length = 342
Score = 135 bits (339), Expect = 4e-32, Method: Compositional matrix adjust.
Identities = 83/198 (41%), Positives = 115/198 (58%), Gaps = 18/198 (9%)
Query: 2 VPNVMCLIQPSNPPCSVCVQSLTLPPDRNPNYRCNTSLLIDYRESNGDHNYILIDVGKTF 61
VP V CL P C VC ++ N N R NTS+LI + S+G HN ILID GK F
Sbjct: 72 VPRVSCLTNPL-LKCEVCSKAAQ---PGNKNRRLNTSILIRHPNSSGTHNNILIDAGKFF 127
Query: 62 REGVLRWFTSHQIPRIDSIILTHEHADAVLGLDDIRAVQPFSPTNDIEP-TPIYLSQHSM 120
L WF + I ID++I+TH HADA+ GLDD+R TN+++P PIY+++
Sbjct: 128 YHSALHWFPAFGIRTIDAVIITHSHADAIGGLDDLR-----DWTNNVQPHIPIYVAKRDF 182
Query: 121 DSIAEKFPYLVQKKLKEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVMHGEDYIC 180
+ + + YLV + +V+++ +NII++ +PF LKFTPLPV HG++Y
Sbjct: 183 EVMTKTHYYLVDTSVILPGA--KVSELQFNIISE---EPFFVHELKFTPLPVWHGQNYRS 237
Query: 181 LGFLFGEKSRVAYISDVS 198
LGF FG + YISDVS
Sbjct: 238 LGFRFGN---ICYISDVS 252
>Glyma07g01110.3
Length = 281
Score = 128 bits (321), Expect = 5e-30, Method: Compositional matrix adjust.
Identities = 74/170 (43%), Positives = 104/170 (61%), Gaps = 14/170 (8%)
Query: 30 NPNYRCNTSLLIDYRESNGDHNYILIDVGKTFREGVLRWFTSHQIPRIDSIILTHEHADA 89
N N R NTS+LI + S+G HN ILID GK F L WF + I ID++I+TH HADA
Sbjct: 35 NKNRRLNTSILIRHPNSSGTHNNILIDAGKFFYHSALHWFPAFGIRTIDAVIITHSHADA 94
Query: 90 VLGLDDIRAVQPFSPTNDIEP-TPIYLSQHSMDSIAEKFPYLVQKKLKEGQEVRRVAQMS 148
+ GLDD+R TN+++P PIY+++ + + + YLV + +V+++
Sbjct: 95 IGGLDDLR-----DWTNNVQPHIPIYVAKRDFEVMTKTHYYLVDTSVILPGA--KVSELQ 147
Query: 149 WNIIADDCNQPFSASGLKFTPLPVMHGEDYICLGFLFGEKSRVAYISDVS 198
+NII++ +PF LKFTPLPV HG++Y LGF FG + YISDVS
Sbjct: 148 FNIISE---EPFFVHELKFTPLPVWHGQNYRSLGFRFGN---ICYISDVS 191
>Glyma05g27510.1
Length = 226
Score = 120 bits (301), Expect = 9e-28, Method: Compositional matrix adjust.
Identities = 69/145 (47%), Positives = 84/145 (57%), Gaps = 26/145 (17%)
Query: 80 IILTHEHADAVLGLDDIRAVQPFSPTNDIEPTPIYLSQHSMDSIAEKFPY---------- 129
I+LTHEHADAVLGL+D+ VQPFSPTNDI+PTP+YL+ HSMDS + Y
Sbjct: 1 ILLTHEHADAVLGLNDMLVVQPFSPTNDIDPTPVYLTLHSMDSKSFNKAYTLDELRVFLE 60
Query: 130 -LVQKKL---------------KEGQEVRRVAQMSWNIIADDCNQPFSASGLKFTPLPVM 173
+V++ K + R + S ++ F K LPVM
Sbjct: 61 NIVKRDFFCYAHPKEVSLFGSEKTKRRSTRNTKGSSVLLLMIVISHFLHQAQKLISLPVM 120
Query: 174 HGEDYICLGFLFGEKSRVAYISDVS 198
HGEDYICLGFLFGEK+RVAYISDVS
Sbjct: 121 HGEDYICLGFLFGEKNRVAYISDVS 145
>Glyma01g20990.1
Length = 251
Score = 50.1 bits (118), Expect = 2e-06, Method: Compositional matrix adjust.
Identities = 21/30 (70%), Positives = 25/30 (83%)
Query: 100 QPFSPTNDIEPTPIYLSQHSMDSIAEKFPY 129
+ FSPTNDI+PTPIYLSQHSMDS+ + Y
Sbjct: 16 EAFSPTNDIDPTPIYLSQHSMDSLFQNLFY 45