Miyakogusa Predicted Gene
- Lj1g3v3329370.1
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= Lj1g3v3329370.1 Non Chatacterized Hit- tr|I3T028|I3T028_LOTJA
Uncharacterized protein OS=Lotus japonicus PE=2
SV=1,98.84,0,DUF914,Protein of unknown function DUF914, eukaryotic;
Multidrug resistance efflux transporter EmrE,,CUFF.30390.1
(346 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g47720.1 612 e-175
Glyma08g47720.2 606 e-173
Glyma18g53770.1 602 e-172
Glyma10g44340.1 395 e-110
Glyma20g39170.1 208 7e-54
Glyma08g46950.1 52 7e-07
>Glyma08g47720.1
Length = 346
Score = 612 bits (1577), Expect = e-175, Method: Compositional matrix adjust.
Identities = 298/348 (85%), Positives = 322/348 (92%), Gaps = 4/348 (1%)
Query: 1 MAMDFRKFWTRNMLIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFLVIVY 60
M DF + WTRN LIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFL +VY
Sbjct: 1 MMFDFARIWTRNTLIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFLTLVY 60
Query: 61 GSILLYRRKPLKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIPCVMLLTW 120
G++LLYRRK LKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIP VMLLTW
Sbjct: 61 GTVLLYRRKALKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIPSVMLLTW 120
Query: 121 IFLKTKYRFLKITGVIVCIAGLVLVVFSDVHAGDRAGGSNPRKGDAIVFAGATLYAISNV 180
+FLKTKYRF KITGV+VC+AGLVLVVFSDVH+GDRAGGSNPRKGD +V AGATLYAISNV
Sbjct: 121 LFLKTKYRFKKITGVVVCVAGLVLVVFSDVHSGDRAGGSNPRKGDLLVIAGATLYAISNV 180
Query: 181 SEEFLIKNADRVELMGMLGLFGGIVSAIQISVLERNELKSIHWSAGAALPFVGFSVAMFM 240
SEEFL+K+ADRVELM MLGL GGI+SAIQIS+LERNELKSIHWSA AALPFVGF+VAMFM
Sbjct: 181 SEEFLVKSADRVELMAMLGLSGGIISAIQISILERNELKSIHWSAEAALPFVGFAVAMFM 240
Query: 241 FYSLVPVLLKINGSTMLNLSLLTSDMWAVVIRIFAYHEKVDWMYFVAFGAVTVGILIYSG 300
FYSLVPVLLKINGSTMLNLSLLTSDMWAV+IRIFAYHEKVDWMYFV+FGAVT+G++IYSG
Sbjct: 241 FYSLVPVLLKINGSTMLNLSLLTSDMWAVLIRIFAYHEKVDWMYFVSFGAVTIGLIIYSG 300
Query: 301 GDKDEDEDQHPLNSAEDP--PRIKQDEEAKSGNSSRGTGAGSSKTWVA 346
GD+ D+DQHP N+A D P +KQDEEA SGN S+G AGSSKTWVA
Sbjct: 301 GDR--DDDQHPPNAAIDDHRPAVKQDEEANSGNHSKGAAAGSSKTWVA 346
>Glyma08g47720.2
Length = 343
Score = 606 bits (1562), Expect = e-173, Method: Compositional matrix adjust.
Identities = 295/342 (86%), Positives = 319/342 (93%), Gaps = 4/342 (1%)
Query: 7 KFWTRNMLIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFLVIVYGSILLY 66
+ WTRN LIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFL +VYG++LLY
Sbjct: 4 QIWTRNTLIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFLTLVYGTVLLY 63
Query: 67 RRKPLKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIPCVMLLTWIFLKTK 126
RRK LKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIP VMLLTW+FLKTK
Sbjct: 64 RRKALKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIPSVMLLTWLFLKTK 123
Query: 127 YRFLKITGVIVCIAGLVLVVFSDVHAGDRAGGSNPRKGDAIVFAGATLYAISNVSEEFLI 186
YRF KITGV+VC+AGLVLVVFSDVH+GDRAGGSNPRKGD +V AGATLYAISNVSEEFL+
Sbjct: 124 YRFKKITGVVVCVAGLVLVVFSDVHSGDRAGGSNPRKGDLLVIAGATLYAISNVSEEFLV 183
Query: 187 KNADRVELMGMLGLFGGIVSAIQISVLERNELKSIHWSAGAALPFVGFSVAMFMFYSLVP 246
K+ADRVELM MLGL GGI+SAIQIS+LERNELKSIHWSA AALPFVGF+VAMFMFYSLVP
Sbjct: 184 KSADRVELMAMLGLSGGIISAIQISILERNELKSIHWSAEAALPFVGFAVAMFMFYSLVP 243
Query: 247 VLLKINGSTMLNLSLLTSDMWAVVIRIFAYHEKVDWMYFVAFGAVTVGILIYSGGDKDED 306
VLLKINGSTMLNLSLLTSDMWAV+IRIFAYHEKVDWMYFV+FGAVT+G++IYSGGD+ D
Sbjct: 244 VLLKINGSTMLNLSLLTSDMWAVLIRIFAYHEKVDWMYFVSFGAVTIGLIIYSGGDR--D 301
Query: 307 EDQHPLNSAEDP--PRIKQDEEAKSGNSSRGTGAGSSKTWVA 346
+DQHP N+A D P +KQDEEA SGN S+G AGSSKTWVA
Sbjct: 302 DDQHPPNAAIDDHRPAVKQDEEANSGNHSKGAAAGSSKTWVA 343
>Glyma18g53770.1
Length = 346
Score = 602 bits (1553), Expect = e-172, Method: Compositional matrix adjust.
Identities = 296/348 (85%), Positives = 320/348 (91%), Gaps = 4/348 (1%)
Query: 1 MAMDFRKFWTRNMLIGLGLGQFLSLLITSTGFTSSELAKKGINAPTSQSFLNYVFLVIVY 60
M DF + WT N LIGLGLGQFLSLLITSTGFTSS+LAKKGINAPTSQSFLNYVFL +VY
Sbjct: 1 MMFDFGRIWTPNTLIGLGLGQFLSLLITSTGFTSSQLAKKGINAPTSQSFLNYVFLSLVY 60
Query: 61 GSILLYRRKPLKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIPCVMLLTW 120
G+ILLYRRK LKAKWYYYIILGLVDVEANFL VKAYQYTSLTSVMLLDCWSIP VMLLTW
Sbjct: 61 GTILLYRRKALKAKWYYYIILGLVDVEANFLGVKAYQYTSLTSVMLLDCWSIPSVMLLTW 120
Query: 121 IFLKTKYRFLKITGVIVCIAGLVLVVFSDVHAGDRAGGSNPRKGDAIVFAGATLYAISNV 180
+FLKTKYRF KITGV+VC+AGLVLVVFSDVH+GDRAGGSNPRKGD +V AGATLYAISNV
Sbjct: 121 LFLKTKYRFKKITGVVVCVAGLVLVVFSDVHSGDRAGGSNPRKGDLLVIAGATLYAISNV 180
Query: 181 SEEFLIKNADRVELMGMLGLFGGIVSAIQISVLERNELKSIHWSAGAALPFVGFSVAMFM 240
SEEFL+KNADRVELM MLGL GGI+SAIQ+S+LERNELKSIHWSA AALPFVGF+VAMFM
Sbjct: 181 SEEFLVKNADRVELMAMLGLSGGIISAIQMSILERNELKSIHWSAEAALPFVGFAVAMFM 240
Query: 241 FYSLVPVLLKINGSTMLNLSLLTSDMWAVVIRIFAYHEKVDWMYFVAFGAVTVGILIYSG 300
FYSLVPVLLK+NGSTMLNLSLLTSDMWAV+IRIFAYHEKVDWMYFV+FGAVT+G++IYSG
Sbjct: 241 FYSLVPVLLKVNGSTMLNLSLLTSDMWAVLIRIFAYHEKVDWMYFVSFGAVTIGLIIYSG 300
Query: 301 GDKDEDEDQHPLNSA--EDPPRIKQDEEAKSGNSSRGTGAGSSKTWVA 346
GD DEDQHP N+A + P +KQDEEA SGN S+GT AGSSKTWVA
Sbjct: 301 GDI--DEDQHPPNAAIVDLGPAVKQDEEANSGNHSKGTAAGSSKTWVA 346
>Glyma10g44340.1
Length = 226
Score = 395 bits (1014), Expect = e-110, Method: Compositional matrix adjust.
Identities = 190/228 (83%), Positives = 207/228 (90%), Gaps = 2/228 (0%)
Query: 105 MLLDCWSIPCVMLLTWIFLKTKYRFLKITGVIVCIAGLVLVVFSDVHAGDRAGGSNPRKG 164
MLLDCWSIPCVML TWIFLKTKY F K+TGV+VCIAGLVLVVFSDVHAGDRAGGSNP G
Sbjct: 1 MLLDCWSIPCVMLFTWIFLKTKYGFKKVTGVVVCIAGLVLVVFSDVHAGDRAGGSNPSIG 60
Query: 165 DAIVFAGATLYAISNVSEEFLIKNADRVELMGMLGLFGGIVSAIQISVLERNELKSIHWS 224
D +V AGATLYA+SNVSEEFL+KNADRVELM MLGLFGGI+SAIQIS+LERNELKSIHWS
Sbjct: 61 DILVIAGATLYAVSNVSEEFLVKNADRVELMAMLGLFGGIISAIQISILERNELKSIHWS 120
Query: 225 AGAALPFVGFSVAMFMFYSLVPVLLKINGSTMLNLSLLTSDMWAVVIRIFAYHEKVDWMY 284
AGA LPFVGF+VAMFMFYSLVPVLLKINGSTMLNLSLLTSDMWAV+IRIFAYHEKVDWMY
Sbjct: 121 AGAVLPFVGFAVAMFMFYSLVPVLLKINGSTMLNLSLLTSDMWAVLIRIFAYHEKVDWMY 180
Query: 285 FVAFGAVTVGILIYSGGDKDEDEDQHPLNSAEDPPRIKQDEEAKSGNS 332
+VAFGAV VG++IYSGGD DE++D H + AED + + DEEA SG S
Sbjct: 181 YVAFGAVVVGLIIYSGGDGDENQDPH--HVAEDASQRQHDEEATSGKS 226
>Glyma20g39170.1
Length = 139
Score = 208 bits (530), Expect = 7e-54, Method: Compositional matrix adjust.
Identities = 102/135 (75%), Positives = 113/135 (83%), Gaps = 9/135 (6%)
Query: 71 LKAKWYYYIILGLVDVEANFLVVKAYQYTSLTSVMLLDCWSIPCVMLLTWIFLKTKYRFL 130
L AKWYYYI+LGLVDVEA FLVVKAYQYTSLTSVMLLDCWSIPCVML TWIFLKTKYRF
Sbjct: 13 LWAKWYYYILLGLVDVEAKFLVVKAYQYTSLTSVMLLDCWSIPCVMLFTWIFLKTKYRFK 72
Query: 131 KITGVIVCIAGLVLVVFSDVHAGDRAGGSNPRKGDAIVFAGATLYAISNVSEEFLIKNAD 190
KI G++VCIAG A ++ G SNPR GD +V AGA+LYA+SNVSEEFL+KNAD
Sbjct: 73 KIIGLVVCIAGF---------ATEQVGRSNPRIGDILVIAGASLYAVSNVSEEFLVKNAD 123
Query: 191 RVELMGMLGLFGGIV 205
RVELM MLGLFGG++
Sbjct: 124 RVELMAMLGLFGGVI 138
>Glyma08g46950.1
Length = 438
Score = 52.4 bits (124), Expect = 7e-07, Method: Compositional matrix adjust.
Identities = 35/118 (29%), Positives = 61/118 (51%), Gaps = 7/118 (5%)
Query: 95 AYQYTSLTSVMLLDCWSIPCVMLLTWIFLKTKYRFLKITGVIVCIAGLVLVVFSDVHAGD 154
+ +YT++TS +L S L++ FL ++ +LK+ V++C+AG ++V D +G
Sbjct: 186 SLKYTTVTSNTILSSASSLFTFLVSLAFLGERFTWLKLFSVLLCMAGTIIVSLGDSQSGL 245
Query: 155 RAGGSNPRKGDAIVFAGATLYA--ISNVSEEFLIKN-----ADRVELMGMLGLFGGIV 205
SNP GD A A LYA I+ + ++ + A + +G LGLF ++
Sbjct: 246 ATVASNPLLGDIFALASAGLYAVYITLIRKKLPDDDGKSGEASTAQFLGFLGLFNVLI 303