Miyakogusa Predicted Gene
- Lj3g3v0270540.1
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= Lj3g3v0270540.1 Non Chatacterized Hit- tr|E9AFY2|E9AFY2_LEIMA
Putative uncharacterized protein OS=Leishmania major
G,27.27,4e-18,RNase_Zc3h12a,Ribonuclease Zc3h12a-like; seg,NULL;
SUBFAMILY NOT NAMED,NULL; UNCHARACTERIZED,Mitocho,CUFF.40398.1
(296 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma14g09330.1 465 e-131
Glyma17g35850.2 461 e-130
Glyma17g35850.1 368 e-102
Glyma13g39460.1 275 4e-74
Glyma12g30840.1 273 2e-73
Glyma08g04200.1 226 3e-59
Glyma05g35530.1 176 3e-44
Glyma02g30940.1 70 3e-12
Glyma01g31870.1 64 2e-10
Glyma18g06880.1 58 1e-08
>Glyma14g09330.1
Length = 553
Score = 465 bits (1197), Expect = e-131, Method: Compositional matrix adjust.
Identities = 219/284 (77%), Positives = 241/284 (84%), Gaps = 1/284 (0%)
Query: 2 KVGEENWDADKVRDGIVRXXXXXXXXXXXXXXXXKVVKTHVNEDGMCLSCGEKLVSIDLD 61
K+G+E WD KVR+GI + KV T VNEDG+C CGEKLVSID+D
Sbjct: 265 KIGKEKWDVKKVREGIAQGGGGWHGQGWLGSGRWKVANTQVNEDGVCPLCGEKLVSIDID 324
Query: 62 PKETENFATSLSKLACQRETQSNFNNFQKWLKQHGPFDAVVDGANVGLANQHNFSFSQLN 121
PKETENFA SLSKLACQ+E ++NF +FQ WL+QHGPFDAVVDGANVGLAN HNFSFSQLN
Sbjct: 325 PKETENFAASLSKLACQKEAKANFVHFQTWLEQHGPFDAVVDGANVGLANGHNFSFSQLN 384
Query: 122 NVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSNDDWF 181
VV+QLRQISPSKRLPLIILH+SRV GGPAQNP N RL+E+W++NGALYATPQGSNDDW+
Sbjct: 385 TVVEQLRQISPSKRLPLIILHISRVRGGPAQNPKNMRLIENWKKNGALYATPQGSNDDWY 444
Query: 182 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQIRVSASAGRVSLVMPPRYSIV 241
WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQ+R SAS S++MPPRYSIV
Sbjct: 445 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQVRTSASTCGHSIIMPPRYSIV 504
Query: 242 IQESANGSWHVPTVTSDDDHEIPRKWLCATRSSNKSLHNLWTSS 285
IQESANGSWHVPTVT+ DDHEIPRKWLCATRS SLHNLWTSS
Sbjct: 505 IQESANGSWHVPTVTT-DDHEIPRKWLCATRSRKDSLHNLWTSS 547
>Glyma17g35850.2
Length = 550
Score = 461 bits (1186), Expect = e-130, Method: Compositional matrix adjust.
Identities = 216/280 (77%), Positives = 238/280 (85%), Gaps = 1/280 (0%)
Query: 2 KVGEENWDADKVRDGIVRXXXXXXXXXXXXXXXXKVVKTHVNEDGMCLSCGEKLVSIDLD 61
K+G+E WD KVR+GI R KVV T VNEDG+CLSCGEKL SID+D
Sbjct: 272 KIGKEKWDVKKVREGIARGGGGWHGQGWLGSGRWKVVNTQVNEDGVCLSCGEKLASIDID 331
Query: 62 PKETENFATSLSKLACQRETQSNFNNFQKWLKQHGPFDAVVDGANVGLANQHNFSFSQLN 121
PKETENFA SLSKLACQ+E ++NF +FQ WL++HGPFDAVVDGANVGLAN HNFSFSQLN
Sbjct: 332 PKETENFAASLSKLACQKEAKANFVHFQTWLERHGPFDAVVDGANVGLANGHNFSFSQLN 391
Query: 122 NVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSNDDWF 181
VV+QLRQISPSKRLPLIILH+SRV GGPAQNP NKRL+E+W++NG LYATPQGSNDDW+
Sbjct: 392 TVVEQLRQISPSKRLPLIILHISRVHGGPAQNPKNKRLIENWKKNGVLYATPQGSNDDWY 451
Query: 182 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQIRVSASAGRVSLVMPPRYSIV 241
WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQ+R SAS SL+MPPRYSIV
Sbjct: 452 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQVRTSASTCGRSLIMPPRYSIV 511
Query: 242 IQESANGSWHVPTVTSDDDHEIPRKWLCATRSSNKSLHNL 281
IQESA+G WHVPTVT+ DDHEIPRKWLCATRS SLHNL
Sbjct: 512 IQESASGCWHVPTVTT-DDHEIPRKWLCATRSRKDSLHNL 550
>Glyma17g35850.1
Length = 558
Score = 368 bits (945), Expect = e-102, Method: Compositional matrix adjust.
Identities = 169/220 (76%), Positives = 188/220 (85%)
Query: 2 KVGEENWDADKVRDGIVRXXXXXXXXXXXXXXXXKVVKTHVNEDGMCLSCGEKLVSIDLD 61
K+G+E WD KVR+GI R KVV T VNEDG+CLSCGEKL SID+D
Sbjct: 272 KIGKEKWDVKKVREGIARGGGGWHGQGWLGSGRWKVVNTQVNEDGVCLSCGEKLASIDID 331
Query: 62 PKETENFATSLSKLACQRETQSNFNNFQKWLKQHGPFDAVVDGANVGLANQHNFSFSQLN 121
PKETENFA SLSKLACQ+E ++NF +FQ WL++HGPFDAVVDGANVGLAN HNFSFSQLN
Sbjct: 332 PKETENFAASLSKLACQKEAKANFVHFQTWLERHGPFDAVVDGANVGLANGHNFSFSQLN 391
Query: 122 NVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSNDDWF 181
VV+QLRQISPSKRLPLIILH+SRV GGPAQNP NKRL+E+W++NG LYATPQGSNDDW+
Sbjct: 392 TVVEQLRQISPSKRLPLIILHISRVHGGPAQNPKNKRLIENWKKNGVLYATPQGSNDDWY 451
Query: 182 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQI 221
WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQ+
Sbjct: 452 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQV 491
>Glyma13g39460.1
Length = 529
Score = 275 bits (703), Expect = 4e-74, Method: Compositional matrix adjust.
Identities = 135/277 (48%), Positives = 187/277 (67%), Gaps = 7/277 (2%)
Query: 2 KVGEENWDADKVRDGIVRXXXXXXXXXXXXXXXXKVVKTHVNEDGMCLSCGEKLVSIDLD 61
+VGE +DA +V++G++R V +T V DG C CG++LV +D+D
Sbjct: 218 EVGEAEFDAGRVKEGVLRNGGGWHGQGWVGKGDWVVSRTSVVADGHCCCCGQQLVCVDID 277
Query: 62 PKETENFATSLSKLACQRETQSNFNNFQKWLKQHGPFDAVVDGANVGLANQH----NFSF 117
ETE FA S++ LA +RE ++NF+ FQ WL++H ++A+VDGAN+GL Q+ F+
Sbjct: 278 DVETEKFAGSVAALAFEREVKANFSEFQAWLEKHASYEAIVDGANIGLYQQNFADGGFNI 337
Query: 118 SQLNNVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSN 177
SQL++VVK+L S K+ PL++LH R+ G +NP+++RL+E W +NG LY TP GSN
Sbjct: 338 SQLDDVVKELYNRS-GKKWPLVVLHNKRLRG-LMENPSSRRLVEEWMKNGVLYTTPNGSN 395
Query: 178 DDWFWLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQIRVSASAGRVSLVMPPR 237
DDW+WL+AAV +CLL+TNDEMRDH+F+L+GSNFF +WKE+HQ+ + G + L MPP
Sbjct: 396 DDWYWLFAAVKLRCLLVTNDEMRDHIFELIGSNFFNQWKERHQVHYTFVKGNLKLQMPPS 455
Query: 238 YSIVIQESANGSWHVPTVTSDDDHEIPRKWLCATRSS 274
YS+VIQES G WHVP V S E R WLC TR S
Sbjct: 456 YSLVIQESEKGYWHVPLV-SGTSCESTRCWLCITRPS 491
>Glyma12g30840.1
Length = 530
Score = 273 bits (697), Expect = 2e-73, Method: Compositional matrix adjust.
Identities = 133/275 (48%), Positives = 184/275 (66%), Gaps = 7/275 (2%)
Query: 2 KVGEENWDADKVRDGIVRXXXXXXXXXXXXXXXXKVVKTHVNEDGMCLSCGEKLVSIDLD 61
+VGE ++A +V++G++R V +T V DG C CGE+LV +D+D
Sbjct: 219 EVGEVEFEAGQVKEGVLRNGGGWHGQGWVGKGDWVVSRTSVGADGHCCCCGEQLVCVDID 278
Query: 62 PKETENFATSLSKLACQRETQSNFNNFQKWLKQHGPFDAVVDGANVGLANQH----NFSF 117
E E FA S++ LA +RE ++NF+ FQ WL++H ++A+VDGAN+GL Q+ FS
Sbjct: 279 DAEREKFAGSVAALAFEREVKANFSEFQAWLEKHASYEAIVDGANIGLYQQNFADGGFSI 338
Query: 118 SQLNNVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSN 177
SQL++VVK+L S K+ PL++LH R+ G +NP+++RL+E W NGALY TP GSN
Sbjct: 339 SQLDDVVKELYNRS-GKKWPLVVLHNKRLRG-LMENPSSRRLVEEWMNNGALYTTPNGSN 396
Query: 178 DDWFWLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQIRVSASAGRVSLVMPPR 237
DDW+WL+AAV +CLL+TNDEMRDH+F+L+GSNFF +WKE+HQ+ + G + L MPP
Sbjct: 397 DDWYWLFAAVKLRCLLVTNDEMRDHIFELIGSNFFNQWKERHQVHYTFVKGNLKLQMPPS 456
Query: 238 YSIVIQESANGSWHVPTVTSDDDHEIPRKWLCATR 272
YS+VIQES G WHVP + E R WLC TR
Sbjct: 457 YSLVIQESEKGYWHVP-LAPGTSCESTRCWLCITR 490
>Glyma08g04200.1
Length = 544
Score = 226 bits (575), Expect = 3e-59, Method: Compositional matrix adjust.
Identities = 122/274 (44%), Positives = 158/274 (57%), Gaps = 5/274 (1%)
Query: 2 KVGEENWDADKVRDGIVRXXXXXXXXXXXXXXXXKVVKTHVNEDGMCLSCGEKLVSIDLD 61
+VG+ WD +R+ I + V T + +DGMC C +L +IDLD
Sbjct: 181 RVGKRKWDERLIREAIENNGGGWHGQGWLGKGKWEAVHTTIGKDGMCKCCQVQLTTIDLD 240
Query: 62 PKETENFATSLSKLACQRETQSNFNNFQKWLKQHGPFDAVVDGANVGLANQHNFSFSQLN 121
P ETENFA S++ LA RE SNF FQ + Q F A + + SFS
Sbjct: 241 PVETENFAKSVASLAVMREKGSNFQKFQ--MLQMLVFSAKGGSCHTRQVTECGRSFSFFL 298
Query: 122 NVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSNDDWF 181
PSK+ PLIILH R+ G P N+ L++ W ALYATP GSNDDW+
Sbjct: 299 LPCLLFLLWLPSKKFPLIILHNKRIKGDKMDEPINRALIDKWNNADALYATPTGSNDDWY 358
Query: 182 WLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQIRVSAS-AGRVSLVMPPRYSI 240
WLYAA+ +CLL+TNDEMRDHLFQLLG++FFP+WKE+HQ+R S S G MPP S+
Sbjct: 359 WLYAAIKFRCLLVTNDEMRDHLFQLLGNDFFPKWKERHQVRFSFSDTGSPVFHMPPPCSV 418
Query: 241 VI-QESANGSWHVPTVTSDDDHEIPRKWLCATRS 273
VI QES G WH+P + ++ + E R+WLC TR+
Sbjct: 419 VIQQESEEGHWHIP-IDAELNDESERRWLCITRA 451
>Glyma05g35530.1
Length = 373
Score = 176 bits (445), Expect = 3e-44, Method: Compositional matrix adjust.
Identities = 99/261 (37%), Positives = 133/261 (50%), Gaps = 65/261 (24%)
Query: 36 KVVKTHVNEDGMCLSCGEKLVSIDLDPKETENFATSLSKLACQRETQSNFNNFQKWLKQH 95
+VV T + DG+C CG +L +IDLDP ET+NFA ++ LA RE SNF FQK+
Sbjct: 105 EVVHTTIGNDGLCKCCGVQLTTIDLDPVETQNFANLVASLAVMREKGSNFQKFQKF---- 160
Query: 96 GPFDAVVDGANVGLANQHNFSFSQLNNVVKQLRQISPSKRLPLIILHVSRVTGGPAQNPN 155
PLIILH R G P
Sbjct: 161 -----------------------------------------PLIILHNKRSKGDKMDEPI 179
Query: 156 NKRLLEHWRENGALYATPQGSNDDWFWLYAAVSCKCLLLTNDEMRDHLFQLLGSNFFPRW 215
N+ L++ W ALYATP GSND+W+WLYAA+ +CLL+TNDEMRDHLFQLLG++FFP+W
Sbjct: 180 NRSLIDKWNNADALYATPSGSNDNWYWLYAAIKFRCLLVTNDEMRDHLFQLLGNDFFPKW 239
Query: 216 KEKHQIRVSASAGRVSLVMPPRYSIVIQESANGSWHVPTVTSDDD--HEIPRKWLCATRS 273
KE+HQ ++++ ES + + V SD + +E R+WLC TR+
Sbjct: 240 KERHQ------------------AVLMLESLSSKFKVRFSFSDTELNYEPERRWLCITRA 281
Query: 274 SNKSLHNLWTSSISTSEAGKG 294
L ++SI + KG
Sbjct: 282 KLDVLSKDSSTSIDSKPLQKG 302
>Glyma02g30940.1
Length = 182
Score = 70.1 bits (170), Expect = 3e-12, Method: Compositional matrix adjust.
Identities = 41/113 (36%), Positives = 56/113 (49%), Gaps = 11/113 (9%)
Query: 92 LKQHGPFDAVVDGANVGLANQHNFS----------FSQLNNVVKQLRQISPSKRLPLIIL 141
L+Q DA++ +NQ +F Q++ V ++ Q PSK+ PLIIL
Sbjct: 69 LEQGACLDALISLVMDSSSNQMDFEKCSGIMEVADTRQISVVANEICQRLPSKKFPLIIL 128
Query: 142 HVSRVTGGPAQNPNNKRLLEHWRENGALYATPQGSNDDWFWLYAAVSCKCLLL 194
H R+ G P N+ L++ W ALYATP GSNDD WL + C L L
Sbjct: 129 HNKRIKGDKMDEPINRALIDKWNNADALYATPTGSNDDCLWLNHVI-CLALFL 180
>Glyma01g31870.1
Length = 274
Score = 63.9 bits (154), Expect = 2e-10, Method: Compositional matrix adjust.
Identities = 30/45 (66%), Positives = 36/45 (80%), Gaps = 2/45 (4%)
Query: 190 KCLLLTNDEMRDHLFQLLGSNFFPRWKEKHQIRVSAS--AGRVSL 232
KCLL+TNDEMRDHLFQLL ++FFP+WKE+HQ V + G VSL
Sbjct: 220 KCLLVTNDEMRDHLFQLLVNDFFPKWKERHQSLVKSCNMLGFVSL 264
>Glyma18g06880.1
Length = 42
Score = 58.2 bits (139), Expect = 1e-08, Method: Composition-based stats.
Identities = 24/34 (70%), Positives = 29/34 (85%), Gaps = 1/34 (2%)
Query: 181 FWLYAAVSCKCLLLTNDEMRDHLFQLLGSN-FFP 213
FWLYAA+ KCL+ TND+M DHLFQLLG++ FFP
Sbjct: 1 FWLYAAIKFKCLIFTNDDMTDHLFQLLGNDVFFP 34