Miyakogusa Predicted Gene
- Lj6g3v1177270.1
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= Lj6g3v1177270.1 Non Chatacterized Hit- tr|C5YBE5|C5YBE5_SORBI
Putative uncharacterized protein Sb06g021180
OS=Sorghu,55.38,0.00000000006,INTER-ALPHA-TRYPSIN INHIBITOR HEAVY
CHAIN,NULL; VON WILLEBRAND FACTOR, TYPE A DOMAIN
CONTAINING,NULL,CUFF.59198.1
(273 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma09g08210.1 404 e-113
Glyma17g05580.1 397 e-111
Glyma13g17130.1 382 e-106
Glyma07g04550.1 290 1e-78
Glyma16g01130.1 216 3e-56
Glyma13g17130.2 180 1e-45
Glyma13g17130.4 180 2e-45
Glyma13g17130.3 180 2e-45
Glyma12g14590.1 127 1e-29
Glyma20g05440.1 125 7e-29
Glyma15g25440.1 87 1e-17
Glyma14g19920.1 67 2e-11
>Glyma09g08210.1
Length = 757
Score = 404 bits (1039), Expect = e-113, Method: Compositional matrix adjust.
Identities = 208/274 (75%), Positives = 238/274 (86%), Gaps = 1/274 (0%)
Query: 1 MEEEFSNAVEEGLRLSKRVYFGNDRAVSPPKPPMAMIKSHTAWLPTAPMLYARIHDPAIV 60
M EEFS +VEEGLRLSKR+YFGNDRAVSPPKPP +M KSHTA LPTAPMLYA IHDPAIV
Sbjct: 1 MAEEFSKSVEEGLRLSKRIYFGNDRAVSPPKPPPSMSKSHTACLPTAPMLYAVIHDPAIV 60
Query: 61 DNPDVPSYQPHVHGRCDPPALIPLHMTA-VNLRADCYLDHTAFLTLTASWRLHCVSGSRA 119
DNPDVPSYQP+VHG+CDPPALIPLHM V+L+A CY++ AF+T++ SWRLHCVSGSR
Sbjct: 61 DNPDVPSYQPYVHGQCDPPALIPLHMIGNVHLQAHCYVNAVAFVTVSGSWRLHCVSGSRT 120
Query: 120 ADCLLALPMAAQGSILGVEVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLT 179
DC++ALP+ QGSILGVEVSVHRKS+STQLVDM+DNNGKEN+ R QDGGF+ + FTL
Sbjct: 121 CDCIVALPVPPQGSILGVEVSVHRKSYSTQLVDMKDNNGKENMIRAQDGGFVGLNLFTLR 180
Query: 180 IPQIDGGSNLSVKISWSQKIQCSNDVFSLNVPFVFPDYVNPVGKRISKTEKIQINVNTVT 239
IPQIDGGSNLSVKISW QKI SNDVF LNVPF FPD+VNPVGK++ K EKI+I +N +T
Sbjct: 181 IPQIDGGSNLSVKISWYQKILYSNDVFCLNVPFNFPDFVNPVGKKMEKKEKIEIIMNAIT 240
Query: 240 GSEVLCNTTSHPLKEVRRNAGDIGFSYESNVLSW 273
GSE+LC T SHPLK+VR NAG +GFSYES+VLSW
Sbjct: 241 GSEILCKTMSHPLKKVRHNAGSMGFSYESDVLSW 274
>Glyma17g05580.1
Length = 754
Score = 397 bits (1020), Expect = e-111, Method: Compositional matrix adjust.
Identities = 188/273 (68%), Positives = 227/273 (83%), Gaps = 1/273 (0%)
Query: 1 MEEEFSNAVEEGLRLSKRVYFGNDRAVSPPKPPMAMIKSHTAWLPTAPMLYARIHDPAIV 60
M ++FS AV++GL+LSKR+YFG DRAV+PPKPP M +S TA+LP+APM+YA I DP IV
Sbjct: 1 MAQDFSKAVDDGLKLSKRIYFGKDRAVAPPKPPPPMTRSATAFLPSAPMVYAVISDPGIV 60
Query: 61 DNPDVPSYQPHVHGRCDPPALIPLHMTAVNLRADCYLDHTAFLTLTASWRLHCVSGSRAA 120
DNPD+PSYQPHV+GRCDPPALIPL M A+ + ADCY TAF+T++ +WRLHCV GSR+
Sbjct: 61 DNPDIPSYQPHVYGRCDPPALIPLQMNAIQMEADCY-HETAFITVSGTWRLHCVMGSRSC 119
Query: 121 DCLLALPMAAQGSILGVEVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLTI 180
DC +A+P++ QGSILGVEVSV RKS+STQLV MED+NG +N + Q+GGFL PD FTLTI
Sbjct: 120 DCRIAVPVSHQGSILGVEVSVSRKSYSTQLVVMEDDNGNQNASPPQNGGFLIPDIFTLTI 179
Query: 181 PQIDGGSNLSVKISWSQKIQCSNDVFSLNVPFVFPDYVNPVGKRISKTEKIQINVNTVTG 240
PQIDGGSNLS+K+ WSQKI S FSLNVPF FPD+VNP GK+ISK EKIQINV+ VTG
Sbjct: 180 PQIDGGSNLSIKVRWSQKIVFSKGQFSLNVPFTFPDFVNPAGKKISKREKIQINVDAVTG 239
Query: 241 SEVLCNTTSHPLKEVRRNAGDIGFSYESNVLSW 273
E+LC T SHPLKEVRR+ G +GF Y+S+VLSW
Sbjct: 240 GELLCKTLSHPLKEVRRHVGSMGFLYDSDVLSW 272
>Glyma13g17130.1
Length = 754
Score = 382 bits (980), Expect = e-106, Method: Compositional matrix adjust.
Identities = 185/273 (67%), Positives = 221/273 (80%), Gaps = 1/273 (0%)
Query: 1 MEEEFSNAVEEGLRLSKRVYFGNDRAVSPPKPPMAMIKSHTAWLPTAPMLYARIHDPAIV 60
M +FS AV++GL+LSKR+YF DRAVSPPKPP M + TA+LP+APM+YA I DP IV
Sbjct: 1 MAVDFSKAVDDGLKLSKRIYFVKDRAVSPPKPPPPMARWATAFLPSAPMVYAVISDPGIV 60
Query: 61 DNPDVPSYQPHVHGRCDPPALIPLHMTAVNLRADCYLDHTAFLTLTASWRLHCVSGSRAA 120
DNPD+ SYQPHV+GRCDPPALIPL M A+ + ADCY TAF+T++ +WRLHCV GSR+
Sbjct: 61 DNPDISSYQPHVYGRCDPPALIPLQMNAIEMEADCY-HETAFVTVSGTWRLHCVMGSRSC 119
Query: 121 DCLLALPMAAQGSILGVEVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLTI 180
DC +A+P++ QGSILGVEVSV RKS+STQLV M D NG +N Q+GGFL P+ FTLTI
Sbjct: 120 DCRIAVPVSHQGSILGVEVSVSRKSYSTQLVVMGDENGNQNSAPPQNGGFLIPNIFTLTI 179
Query: 181 PQIDGGSNLSVKISWSQKIQCSNDVFSLNVPFVFPDYVNPVGKRISKTEKIQINVNTVTG 240
PQ+DGGSNLS+K+ WSQKI S FSLNVPF FPD+VNP GKRISK EKIQINV+ VTG
Sbjct: 180 PQVDGGSNLSIKVRWSQKIVYSKGQFSLNVPFTFPDFVNPAGKRISKREKIQINVDAVTG 239
Query: 241 SEVLCNTTSHPLKEVRRNAGDIGFSYESNVLSW 273
E+LC T SHPLKEVRR+AG +GF Y+S+VLSW
Sbjct: 240 VELLCKTISHPLKEVRRHAGSMGFLYDSDVLSW 272
>Glyma07g04550.1
Length = 714
Score = 290 bits (741), Expect = 1e-78, Method: Compositional matrix adjust.
Identities = 139/274 (50%), Positives = 184/274 (67%), Gaps = 2/274 (0%)
Query: 1 MEEEFSNAVEEGLRLSKRVYFGNDRAVSP-PKPPMAMIKSHTAWLPTAPMLYARIHDPAI 59
M + FS +VE GL LSKR+Y+G A SP P ++ KS +LPTAPM YA I DP
Sbjct: 1 MADYFSGSVEFGLNLSKRIYYGKGSAPSPAPAMSRSLSKSPEGYLPTAPMCYAVISDPEK 60
Query: 60 VDNPDVPSYQPHVHGRCDPPALIPLHMTAVNLRADCYLDHTAFLTLTASWRLHCVSGSRA 119
V+NPD+ SYQP+V G+C+PPALIPL + V + +C LD TAF+T+T WR+HCV+ S
Sbjct: 61 VENPDIRSYQPYVLGQCEPPALIPLELHGVAMEVECSLD-TAFVTVTGKWRVHCVTASST 119
Query: 120 ADCLLALPMAAQGSILGVEVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLT 179
DC +A+P+ +GS+LG+EV +S+ T+L+ ++D K V + +DG FLK +T+
Sbjct: 120 CDCQVAIPIGEEGSLLGLEVDGSGRSYHTELISLKDEKDKNKVAKAKDGYFLKSHIYTVK 179
Query: 180 IPQIDGGSNLSVKISWSQKIQCSNDVFSLNVPFVFPDYVNPVGKRISKTEKIQINVNTVT 239
IPQ GGS S+KI WSQKI + SL VPF FP YVNP G+ ISK EKI + VN+
Sbjct: 180 IPQFRGGSVFSIKIRWSQKILFHDGQLSLCVPFSFPSYVNPAGRNISKKEKIFLKVNSGA 239
Query: 240 GSEVLCNTTSHPLKEVRRNAGDIGFSYESNVLSW 273
+EVLC TTSHP KE+ R AG + SYE+ VL+W
Sbjct: 240 TTEVLCKTTSHPFKELLRQAGKLNLSYEAEVLTW 273
>Glyma16g01130.1
Length = 755
Score = 216 bits (549), Expect = 3e-56, Method: Compositional matrix adjust.
Identities = 113/256 (44%), Positives = 157/256 (61%), Gaps = 16/256 (6%)
Query: 19 VYFGNDRAVSP-PKPPMAMIKSHTAWLPTAPMLYARIHDPAIVDNPDVPSYQPHVHGRCD 77
+Y+G A SP P +++KS +LPT P YA I DPA NPD+ YQP++ G
Sbjct: 3 LYYGKGSAPSPAPAMLRSLLKSPDGYLPTEPKSYAGISDPAKGGNPDLRRYQPYLQG--- 59
Query: 78 PPALIPLHMTAVNLRADCYLDHTAFLTLTASWRLHCVSGSRAADCLLALPMAAQGSILGV 137
+ +C LD TAF+T++ WR+HCV+ S DC +A+P+ +GS+LG+
Sbjct: 60 -----------AGMEVECSLD-TAFVTVSGKWRVHCVTASSTCDCQVAIPIGEEGSLLGL 107
Query: 138 EVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLTIPQIDGGSNLSVKISWSQ 197
EV KS+ T+L+ ++D K+ V + +DG F+K +T+ IPQ GGS S+KI WSQ
Sbjct: 108 EVDGSGKSYHTELISLKDEKDKDKVAKAKDGYFVKSHIYTVKIPQFRGGSVFSIKIRWSQ 167
Query: 198 KIQCSNDVFSLNVPFVFPDYVNPVGKRISKTEKIQINVNTVTGSEVLCNTTSHPLKEVRR 257
KI + SL VPF FP YVNP G++ISK EKI + VN+ +EVLC TTSHP KE+ R
Sbjct: 168 KILFHDGQLSLCVPFSFPSYVNPAGRKISKKEKIFLKVNSGATTEVLCKTTSHPFKELLR 227
Query: 258 NAGDIGFSYESNVLSW 273
AG + SYE+ V +W
Sbjct: 228 QAGKLNLSYEAEVPAW 243
>Glyma13g17130.2
Length = 446
Score = 180 bits (457), Expect = 1e-45, Method: Compositional matrix adjust.
Identities = 84/121 (69%), Positives = 97/121 (80%)
Query: 153 MEDNNGKENVTRTQDGGFLKPDAFTLTIPQIDGGSNLSVKISWSQKIQCSNDVFSLNVPF 212
M D NG +N Q+GGFL P+ FTLTIPQ+DGGSNLS+K+ WSQKI S FSLNVPF
Sbjct: 1 MGDENGNQNSAPPQNGGFLIPNIFTLTIPQVDGGSNLSIKVRWSQKIVYSKGQFSLNVPF 60
Query: 213 VFPDYVNPVGKRISKTEKIQINVNTVTGSEVLCNTTSHPLKEVRRNAGDIGFSYESNVLS 272
FPD+VNP GKRISK EKIQINV+ VTG E+LC T SHPLKEVRR+AG +GF Y+S+VLS
Sbjct: 61 TFPDFVNPAGKRISKREKIQINVDAVTGVELLCKTISHPLKEVRRHAGSMGFLYDSDVLS 120
Query: 273 W 273
W
Sbjct: 121 W 121
>Glyma13g17130.4
Length = 603
Score = 180 bits (456), Expect = 2e-45, Method: Compositional matrix adjust.
Identities = 84/121 (69%), Positives = 97/121 (80%)
Query: 153 MEDNNGKENVTRTQDGGFLKPDAFTLTIPQIDGGSNLSVKISWSQKIQCSNDVFSLNVPF 212
M D NG +N Q+GGFL P+ FTLTIPQ+DGGSNLS+K+ WSQKI S FSLNVPF
Sbjct: 1 MGDENGNQNSAPPQNGGFLIPNIFTLTIPQVDGGSNLSIKVRWSQKIVYSKGQFSLNVPF 60
Query: 213 VFPDYVNPVGKRISKTEKIQINVNTVTGSEVLCNTTSHPLKEVRRNAGDIGFSYESNVLS 272
FPD+VNP GKRISK EKIQINV+ VTG E+LC T SHPLKEVRR+AG +GF Y+S+VLS
Sbjct: 61 TFPDFVNPAGKRISKREKIQINVDAVTGVELLCKTISHPLKEVRRHAGSMGFLYDSDVLS 120
Query: 273 W 273
W
Sbjct: 121 W 121
>Glyma13g17130.3
Length = 456
Score = 180 bits (456), Expect = 2e-45, Method: Compositional matrix adjust.
Identities = 84/121 (69%), Positives = 97/121 (80%)
Query: 153 MEDNNGKENVTRTQDGGFLKPDAFTLTIPQIDGGSNLSVKISWSQKIQCSNDVFSLNVPF 212
M D NG +N Q+GGFL P+ FTLTIPQ+DGGSNLS+K+ WSQKI S FSLNVPF
Sbjct: 1 MGDENGNQNSAPPQNGGFLIPNIFTLTIPQVDGGSNLSIKVRWSQKIVYSKGQFSLNVPF 60
Query: 213 VFPDYVNPVGKRISKTEKIQINVNTVTGSEVLCNTTSHPLKEVRRNAGDIGFSYESNVLS 272
FPD+VNP GKRISK EKIQINV+ VTG E+LC T SHPLKEVRR+AG +GF Y+S+VLS
Sbjct: 61 TFPDFVNPAGKRISKREKIQINVDAVTGVELLCKTISHPLKEVRRHAGSMGFLYDSDVLS 120
Query: 273 W 273
W
Sbjct: 121 W 121
>Glyma12g14590.1
Length = 87
Score = 127 bits (319), Expect = 1e-29, Method: Compositional matrix adjust.
Identities = 59/86 (68%), Positives = 70/86 (81%)
Query: 3 EEFSNAVEEGLRLSKRVYFGNDRAVSPPKPPMAMIKSHTAWLPTAPMLYARIHDPAIVDN 62
E+FS V++GL+LSKR+YFG D VS PK P M +S TA+LP+APM+YA I DP IVDN
Sbjct: 2 EDFSKVVDDGLKLSKRIYFGKDWVVSQPKHPPPMARSATAFLPSAPMVYAVISDPGIVDN 61
Query: 63 PDVPSYQPHVHGRCDPPALIPLHMTA 88
PD+PSYQPHV+GRCDPPALIPL M A
Sbjct: 62 PDIPSYQPHVYGRCDPPALIPLQMNA 87
>Glyma20g05440.1
Length = 156
Score = 125 bits (313), Expect = 7e-29, Method: Compositional matrix adjust.
Identities = 59/88 (67%), Positives = 70/88 (79%)
Query: 4 EFSNAVEEGLRLSKRVYFGNDRAVSPPKPPMAMIKSHTAWLPTAPMLYARIHDPAIVDNP 63
+FS V+ L+LSKR+YFG D AVS PK P M +S TA+LP+APM+YA I DP IVDNP
Sbjct: 1 DFSKVVDHRLKLSKRIYFGKDWAVSQPKHPPPMARSATAFLPSAPMVYAVISDPGIVDNP 60
Query: 64 DVPSYQPHVHGRCDPPALIPLHMTAVNL 91
D+PSYQPHV+GRCDPPALIPL M A N+
Sbjct: 61 DIPSYQPHVYGRCDPPALIPLQMNARNV 88
>Glyma15g25440.1
Length = 59
Score = 87.4 bits (215), Expect = 1e-17, Method: Composition-based stats.
Identities = 42/59 (71%), Positives = 49/59 (83%)
Query: 131 QGSILGVEVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLTIPQIDGGSNL 189
QGSILGVEVS+ RKS+STQLV MED NG +N Q+GGFL P+ FTLTIP++DGGSNL
Sbjct: 1 QGSILGVEVSISRKSYSTQLVVMEDENGNQNSAPPQNGGFLIPNIFTLTIPKVDGGSNL 59
>Glyma14g19920.1
Length = 158
Score = 67.0 bits (162), Expect = 2e-11, Method: Compositional matrix adjust.
Identities = 36/66 (54%), Positives = 45/66 (68%), Gaps = 9/66 (13%)
Query: 128 MAAQGSILGVEVSVHRKSFSTQLVDMEDNNGKENVTRTQDGGFLKPDAFTLTIPQIDGGS 187
+ +QGSILGVEV+V RKS+STQLV MED NG +N Q+ GFL +DGGS
Sbjct: 100 LISQGSILGVEVNVSRKSYSTQLVVMEDENGNQNSAPPQNEGFLVV---------VDGGS 150
Query: 188 NLSVKI 193
NLS+K+
Sbjct: 151 NLSIKV 156