Miyakogusa Predicted Gene
- Lj0g3v0251059.1
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= Lj0g3v0251059.1 Non Chatacterized Hit- tr|I3RZN3|I3RZN3_LOTJA
Uncharacterized protein OS=Lotus japonicus PE=2
SV=1,98.58,0,IMPHPHTASES,Inositol monophosphatase; seg,NULL;
Carbohydrate phosphatase,NULL; IMP_2,Inositol monoph,CUFF.16448.1
(351 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma06g25880.1 589 e-168
Glyma06g25880.2 462 e-130
Glyma15g12230.1 134 2e-31
Glyma09g01380.1 133 3e-31
Glyma07g39620.1 126 4e-29
Glyma15g12230.2 125 7e-29
Glyma07g39620.2 117 2e-26
Glyma04g01170.1 70 2e-12
Glyma04g01170.3 70 3e-12
Glyma06g01210.1 66 6e-11
>Glyma06g25880.1
Length = 359
Score = 589 bits (1519), Expect = e-168, Method: Compositional matrix adjust.
Identities = 293/362 (80%), Positives = 311/362 (85%), Gaps = 14/362 (3%)
Query: 1 MTLVFSSA-RFSALPRSFSTGHKFSYSYPENHRKFHQNGWRS----------ITNSLVSE 49
M++VFS+A S R FS++YP KFH+NGW ITNSL+S+
Sbjct: 1 MSIVFSAAATLSPRSRLLFPPLSFSHTYPT---KFHRNGWHPSLSKSRTQPLITNSLLSD 57
Query: 50 NFPKVGARSTGPIAAGDLIQVVTTAAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSE 109
FP VG+ STGPI + LI+VV TAAQTGAQVVM+AVNKPRNITYKGLTDLVTETDKMSE
Sbjct: 58 KFPTVGSLSTGPIPSTHLIEVVKTAAQTGAQVVMEAVNKPRNITYKGLTDLVTETDKMSE 117
Query: 110 SAILEVVKKNFKDHXXXXXXXXXXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYR 169
+AILEVVKKNF+DH DAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYR
Sbjct: 118 AAILEVVKKNFEDHLILGEEGGVIGDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYR 177
Query: 170 GNPAAASVVEFVGGPMCWNTRIFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD 229
GNPAAA+VVEFVGG MCWNTR+FSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD
Sbjct: 178 GNPAAAAVVEFVGGSMCWNTRLFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD 237
Query: 230 EAWATNIDLFKEFTDVSRGVRRLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMVEE 289
+AWATNIDLFKEFTDVSRGVRRLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMVEE
Sbjct: 238 DAWATNIDLFKEFTDVSRGVRRLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMVEE 297
Query: 290 AGGTVSRMDGGNFCVFDRSVLVSNGLLHAKLLERIGPATEKLKGKGIDFSLWYKPEDYRA 349
AGGTVSRMDGG FCVFDRSVLVSNG LHAKLLERIGPATEKLK KGIDFSLWYKPE+YRA
Sbjct: 298 AGGTVSRMDGGKFCVFDRSVLVSNGQLHAKLLERIGPATEKLKNKGIDFSLWYKPENYRA 357
Query: 350 DV 351
DV
Sbjct: 358 DV 359
>Glyma06g25880.2
Length = 306
Score = 462 bits (1189), Expect = e-130, Method: Compositional matrix adjust.
Identities = 232/300 (77%), Positives = 250/300 (83%), Gaps = 14/300 (4%)
Query: 1 MTLVFSSA-RFSALPRSFSTGHKFSYSYPENHRKFHQNGWRS----------ITNSLVSE 49
M++VFS+A S R FS++YP KFH+NGW ITNSL+S+
Sbjct: 1 MSIVFSAAATLSPRSRLLFPPLSFSHTYPT---KFHRNGWHPSLSKSRTQPLITNSLLSD 57
Query: 50 NFPKVGARSTGPIAAGDLIQVVTTAAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSE 109
FP VG+ STGPI + LI+VV TAAQTGAQVVM+AVNKPRNITYKGLTDLVTETDKMSE
Sbjct: 58 KFPTVGSLSTGPIPSTHLIEVVKTAAQTGAQVVMEAVNKPRNITYKGLTDLVTETDKMSE 117
Query: 110 SAILEVVKKNFKDHXXXXXXXXXXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYR 169
+AILEVVKKNF+DH DAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYR
Sbjct: 118 AAILEVVKKNFEDHLILGEEGGVIGDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYR 177
Query: 170 GNPAAASVVEFVGGPMCWNTRIFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD 229
GNPAAA+VVEFVGG MCWNTR+FSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD
Sbjct: 178 GNPAAAAVVEFVGGSMCWNTRLFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD 237
Query: 230 EAWATNIDLFKEFTDVSRGVRRLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMVEE 289
+AWATNIDLFKEFTDVSRGVRRLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVL+ E
Sbjct: 238 DAWATNIDLFKEFTDVSRGVRRLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLVCFE 297
>Glyma15g12230.1
Length = 270
Score = 134 bits (336), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 82/256 (32%), Positives = 126/256 (49%), Gaps = 11/256 (4%)
Query: 74 AAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEVVKKNFKDHX---XXXXXX 130
AAQ +++ + +N+ +KG DLVTETDK E I +K+ + H
Sbjct: 17 AAQKAGEIIRKGFYQTKNVEHKGQVDLVTETDKACEELIFNHLKQLYPTHKFIGEETTAA 76
Query: 131 XXXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAAASVVEFVGGPMCWNTR 190
+ + W +DPLDGTTNF HG+P VS+G+ P + V P+
Sbjct: 77 YGTTELTDEPTWIVDPLDGTTNFVHGFPFVCVSIGLTIGKTPT----IGVVYNPII--NE 130
Query: 191 IFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD-EAWATNIDLFKEFTDVSRGV 249
+F+ G GAF NG I+VS+ ++ SLL T G D E + D K R +
Sbjct: 131 LFTGIHGKGAFLNGNPIKVSSQTELISSLLATEAGTKRDKETVDASTDRIKSLLFKVRSL 190
Query: 250 RRLGAAAVDMCHVALGIVEAYWEYRL-KPWDMAAGVLMVEEAGGTVSRMDGGNFCVFDRS 308
R G+ A+++C +A G ++ ++E PWD+A G ++V EAGG V G +F + +
Sbjct: 191 RMSGSCALNLCGIACGRLDVFFELGFGGPWDVAGGAVIVREAGGVVFDPSGADFDITSQR 250
Query: 309 VLVSNGLLHAKLLERI 324
V SN L L++ +
Sbjct: 251 VAASNPFLKDALVDTL 266
>Glyma09g01380.1
Length = 270
Score = 133 bits (334), Expect = 3e-31, Method: Compositional matrix adjust.
Identities = 81/256 (31%), Positives = 126/256 (49%), Gaps = 11/256 (4%)
Query: 74 AAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEVVKKNFKDHX---XXXXXX 130
AAQ +++ + +N+ +KG DLVTETDK E I +K+ + H
Sbjct: 17 AAQKAGEIIRKGFYQTKNVEHKGQVDLVTETDKACEELIFNNLKQLYPTHKFIGEETTAA 76
Query: 131 XXXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAAASVVEFVGGPMCWNTR 190
+ + W +DPLDGTTNF HG+P VS+G+ P + V P+
Sbjct: 77 YGTTELTDEPTWIVDPLDGTTNFVHGFPFVCVSIGLTIGKTPT----IGVVYNPII--NE 130
Query: 191 IFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD-EAWATNIDLFKEFTDVSRGV 249
+F+ G GAF NG I+VS+ ++ SLL T G D E + + K R +
Sbjct: 131 LFTGIRGKGAFLNGNPIKVSSQTELISSLLATEAGTKRDQETVDASTNRIKSLLFKVRSL 190
Query: 250 RRLGAAAVDMCHVALGIVEAYWEYRL-KPWDMAAGVLMVEEAGGTVSRMDGGNFCVFDRS 308
R G+ A+++C +A G ++ ++E PWD+A G ++V EAGG V G +F + +
Sbjct: 191 RMSGSCALNLCGIACGRLDVFFELGFGGPWDVAGGAVIVREAGGVVFDPSGADFDITSQR 250
Query: 309 VLVSNGLLHAKLLERI 324
V SN L L++ +
Sbjct: 251 VAASNSFLKDALVDTL 266
>Glyma07g39620.1
Length = 270
Score = 126 bits (316), Expect = 4e-29, Method: Compositional matrix adjust.
Identities = 82/259 (31%), Positives = 127/259 (49%), Gaps = 21/259 (8%)
Query: 74 AAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEVVKKNFKDHX---XXXXXX 130
AA +++ + +N+ +KGL DLVTETD+ E I +K+ + H
Sbjct: 17 AACKAGEIIRKGFYQTKNVQHKGLVDLVTETDQACEDLIFTHLKQLYSTHKFIGEETTAA 76
Query: 131 XXXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAAASVVEFVGGPMCWNTR 190
+ + W +DPLDGTTNF HG+P VS+G+ P V P+
Sbjct: 77 GGNAELTDEPTWIVDPLDGTTNFVHGFPFVCVSIGLTIGKVPTVGVVYN----PII--NE 130
Query: 191 IFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD----EAWATNID--LFKEFTD 244
+F+ G GAF NG I+VS+ ++ +LLVT G D +A I+ LFK
Sbjct: 131 LFTGIRGKGAFLNGNPIKVSSQTELMSALLVTEVGTKRDKLTIDACTNRINSLLFK---- 186
Query: 245 VSRGVRRLGAAAVDMCHVALGIVEAYWEYRL-KPWDMAAGVLMVEEAGGTVSRMDGGNFC 303
R +R G+ A+++C +A G ++ +E PWD+A G ++V EAGG + G +F
Sbjct: 187 -VRSLRMTGSCALNLCGIACGRLDVCFELGFGGPWDVAGGAVIVREAGGVIFDPSGADFD 245
Query: 304 VFDRSVLVSNGLLHAKLLE 322
+ + V SN L L++
Sbjct: 246 ITSQRVAASNPFLKDALVD 264
>Glyma15g12230.2
Length = 240
Score = 125 bits (314), Expect = 7e-29, Method: Compositional matrix adjust.
Identities = 75/226 (33%), Positives = 112/226 (49%), Gaps = 11/226 (4%)
Query: 74 AAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEVVKKNFKDHX---XXXXXX 130
AAQ +++ + +N+ +KG DLVTETDK E I +K+ + H
Sbjct: 17 AAQKAGEIIRKGFYQTKNVEHKGQVDLVTETDKACEELIFNHLKQLYPTHKFIGEETTAA 76
Query: 131 XXXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAAASVVEFVGGPMCWNTR 190
+ + W +DPLDGTTNF HG+P VS+G+ P V P+
Sbjct: 77 YGTTELTDEPTWIVDPLDGTTNFVHGFPFVCVSIGLTIGKTPTIGVVYN----PII--NE 130
Query: 191 IFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHD-EAWATNIDLFKEFTDVSRGV 249
+F+ G GAF NG I+VS+ ++ SLL T G D E + D K R +
Sbjct: 131 LFTGIHGKGAFLNGNPIKVSSQTELISSLLATEAGTKRDKETVDASTDRIKSLLFKVRSL 190
Query: 250 RRLGAAAVDMCHVALGIVEAYWEYRL-KPWDMAAGVLMVEEAGGTV 294
R G+ A+++C +A G ++ ++E PWD+A G ++V EAGG V
Sbjct: 191 RMSGSCALNLCGIACGRLDVFFELGFGGPWDVAGGAVIVREAGGVV 236
>Glyma07g39620.2
Length = 247
Score = 117 bits (293), Expect = 2e-26, Method: Compositional matrix adjust.
Identities = 75/253 (29%), Positives = 118/253 (46%), Gaps = 32/253 (12%)
Query: 74 AAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEVVKKNFKDHXXXXXXXXXX 133
AA +++ + +N+ +KGL DLVTETD+ E I +K+ + H
Sbjct: 17 AACKAGEIIRKGFYQTKNVQHKGLVDLVTETDQACEDLIFTHLKQLYSTHKFIGEETTAA 76
Query: 134 ---XDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAAASVVEFVGGPMCWNTR 190
+ + W +DPLDGTTNF HG+P VS+G+ P V P+
Sbjct: 77 GGNAELTDEPTWIVDPLDGTTNFVHGFPFVCVSIGLTIGKVPTVGVVYN----PII--NE 130
Query: 191 IFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHDEAWATNIDLFKEFTDVSRGVR 250
+F+ G GAF NG I+VS+ ++ +LLVT R +R
Sbjct: 131 LFTGIRGKGAFLNGNPIKVSSQTELMSALLVTEV----------------------RSLR 168
Query: 251 RLGAAAVDMCHVALGIVEAYWEYRL-KPWDMAAGVLMVEEAGGTVSRMDGGNFCVFDRSV 309
G+ A+++C +A G ++ +E PWD+A G ++V EAGG + G +F + + V
Sbjct: 169 MTGSCALNLCGIACGRLDVCFELGFGGPWDVAGGAVIVREAGGVIFDPSGADFDITSQRV 228
Query: 310 LVSNGLLHAKLLE 322
SN L L++
Sbjct: 229 AASNPFLKDALVD 241
>Glyma04g01170.1
Length = 303
Score = 70.5 bits (171), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 67/295 (22%), Positives = 114/295 (38%), Gaps = 25/295 (8%)
Query: 56 ARSTGPIAAGDLIQVVTTAAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEV 115
A + P+ +V A +V+ K ++ +K VT D+ +E A++ +
Sbjct: 24 APHSTPLELNRFAEVGNKVADAAGEVIRKYFRKNFDVIHKHDLSPVTIADQSAEEAMVSI 83
Query: 116 VKKNFKDHXXXXXXXX-XXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAA 174
+ NF H + +DY+W +DP+DGT +F G P F V +L G P
Sbjct: 84 ILDNFPSHAIYGEENGWRCEEKNADYVWVLDPIDGTKSFITGKPVFGTLVALLQNGTP-- 141
Query: 175 ASVVEFVGGPMCWNTRIFSATAGGGAFCNGQRIQVSATNQVERSLLVTG----FGYDHDE 230
++ + P+ I AG NGQ I + ++ L T F D +E
Sbjct: 142 --ILGIIDQPVLRERWI--GIAGKRTSLNGQEISTRTCADLSQAYLYTTSPHLFSGDAEE 197
Query: 231 AWATNIDLFKEFTDVSRGVR--RLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMVE 288
A F V V+ G ++ G V+ E LKP+D A + ++E
Sbjct: 198 A----------FIRVRSKVKIPLYGCDCYAYALLSSGFVDLVVESGLKPYDFLALIPVIE 247
Query: 289 EAGGTVSRMDGGNFC--VFDRSVLVSNGLLHAKLLERIGPATEKLKGKGIDFSLW 341
AGG ++ G S+ + LH + +++ + +D W
Sbjct: 248 GAGGVITDWKGDKLFWEASPLSIATTLSYLHVAGFNVVAAGDKQIHQQALDSLQW 302
>Glyma04g01170.3
Length = 295
Score = 70.5 bits (171), Expect = 3e-12, Method: Compositional matrix adjust.
Identities = 62/251 (24%), Positives = 101/251 (40%), Gaps = 23/251 (9%)
Query: 56 ARSTGPIAAGDLIQVVTTAAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEV 115
A + P+ +V A +V+ K ++ +K VT D+ +E A++ +
Sbjct: 24 APHSTPLELNRFAEVGNKVADAAGEVIRKYFRKNFDVIHKHDLSPVTIADQSAEEAMVSI 83
Query: 116 VKKNFKDHXXXXXXXX-XXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAA 174
+ NF H + +DY+W +DP+DGT +F G P F V +L G P
Sbjct: 84 ILDNFPSHAIYGEENGWRCEEKNADYVWVLDPIDGTKSFITGKPVFGTLVALLQNGTP-- 141
Query: 175 ASVVEFVGGPMCWNTRIFSATAGGGAFCNGQRIQVSATNQVERSLLVTG----FGYDHDE 230
++ + P+ I AG NGQ I + ++ L T F D +E
Sbjct: 142 --ILGIIDQPVLRERWI--GIAGKRTSLNGQEISTRTCADLSQAYLYTTSPHLFSGDAEE 197
Query: 231 AWATNIDLFKEFTDVSRGVR--RLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMVE 288
A F V V+ G ++ G V+ E LKP+D A + ++E
Sbjct: 198 A----------FIRVRSKVKIPLYGCDCYAYALLSSGFVDLVVESGLKPYDFLALIPVIE 247
Query: 289 EAGGTVSRMDG 299
AGG ++ G
Sbjct: 248 GAGGVITDWKG 258
>Glyma06g01210.1
Length = 273
Score = 65.9 bits (159), Expect = 6e-11, Method: Compositional matrix adjust.
Identities = 59/252 (23%), Positives = 100/252 (39%), Gaps = 25/252 (9%)
Query: 56 ARSTGPIAAGDLIQVVTTAAQTGAQVVMDAVNKPRNITYKGLTDLVTETDKMSESAILEV 115
A + P+ +V A +++ K ++ +K VT D+ +E A++ +
Sbjct: 2 APHSSPLELNHFAEVGNKVADAAGEIIRKYFRKNFDVIHKHDLSPVTIADQSAEEAMVSI 61
Query: 116 VKKNFKDHXXXXXXXX-XXXDAASDYLWCIDPLDGTTNFAHGYPSFAVSVGVLYRGNPAA 174
+ +F H + +DY+W +DP+DGT +F G P F V +L G P
Sbjct: 62 ILDSFPSHAIYGEENGWRCKEKNTDYVWVLDPIDGTKSFITGKPVFGSLVALLQNGTP-- 119
Query: 175 ASVVEFVGGPMCWNTRIFSATAGGGAFCNGQRIQVSATNQVERSLLVTGFGYDHDEAWAT 234
++ + P+ I G NGQ I + ++ L T T
Sbjct: 120 --ILGIIDQPVLRERWI--GITGKRTTLNGQEISTRTCADLSQAYLYT-----------T 164
Query: 235 NIDLF-----KEFTDVSRGVR--RLGAAAVDMCHVALGIVEAYWEYRLKPWDMAAGVLMV 287
+ LF K F V V+ G ++ G V+ E LKP+D A + ++
Sbjct: 165 SPHLFSGDAEKAFIRVRSKVKIPLYGCDCYAYALLSSGFVDLVVESGLKPYDFLALIPVI 224
Query: 288 EEAGGTVSRMDG 299
E AGG ++ G
Sbjct: 225 EGAGGVITDWKG 236