Miyakogusa Predicted Gene
- Lj1g3v3891960.1
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= Lj1g3v3891960.1 Non Chatacterized Hit- tr|K3ZJC1|K3ZJC1_SETIT
Uncharacterized protein OS=Setaria italica
GN=Si026674,61.29,0.0000000000003,seg,NULL,CUFF.31357.1
(308 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma16g05700.1 531 e-151
Glyma16g26160.1 439 e-123
Glyma16g26160.2 381 e-106
Glyma02g07210.1 374 e-104
Glyma19g26840.1 224 7e-59
>Glyma16g05700.1
Length = 538
Score = 531 bits (1367), Expect = e-151, Method: Compositional matrix adjust.
Identities = 255/298 (85%), Positives = 269/298 (90%), Gaps = 5/298 (1%)
Query: 11 MLLQPFLVLCAMVTGVGLLLLAIRPLDPPIRVDFPRDFEXXXXXXXXXXXXXXXXXXEKP 70
MLLQPFLVLCA VTG+GL +LA+RPLDPPI VDFP+ E EKP
Sbjct: 11 MLLQPFLVLCATVTGLGLFMLALRPLDPPITVDFPKKIELGDSNSSSLNGGG-----EKP 65
Query: 71 CATVEEMGRDFEAGVVGMETVRVRRIIEDHFVLNGASRIRDLPPDQFCSHGFVLGKTAEA 130
CA VEEMG+DFEAGVVG ET+RVRRIIEDHF LNGASRIRDLPP+QFCSHGFVLGKTAEA
Sbjct: 66 CAAVEEMGKDFEAGVVGKETLRVRRIIEDHFDLNGASRIRDLPPEQFCSHGFVLGKTAEA 125
Query: 131 GFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFGEYISYSNFTFTMKEIKHLWRQNGCE 190
GFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFG+YISYSNFTFTM EIKHLWRQN CE
Sbjct: 126 GFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFGDYISYSNFTFTMNEIKHLWRQNLCE 185
Query: 191 SKYGRQLVMRTDDFEKPAQTNVLCSNWKEWEQPIIWFQGTTDHVAAQFFLKNIHSQMRIA 250
SKYGRQLVMRTDDFEKPAQTNVLCSNWKEW+QPIIWFQGTTD VAAQFFLKNIHSQMRIA
Sbjct: 186 SKYGRQLVMRTDDFEKPAQTNVLCSNWKEWKQPIIWFQGTTDAVAAQFFLKNIHSQMRIA 245
Query: 251 AFDLFGDPKVLGSRPNVFGELMRVLISPTKDVEAAVNWVIGGEENPDITLHMRMLMNR 308
AFDLFGDP+VLGS+PNVFGEL+RVLISP+KDVEAAVNWVIGGEENPDI+LHMRMLMNR
Sbjct: 246 AFDLFGDPQVLGSQPNVFGELLRVLISPSKDVEAAVNWVIGGEENPDISLHMRMLMNR 303
>Glyma16g26160.1
Length = 574
Score = 439 bits (1128), Expect = e-123, Method: Compositional matrix adjust.
Identities = 214/305 (70%), Positives = 242/305 (79%), Gaps = 9/305 (2%)
Query: 13 LQPFLVLCAMVTGVGLLLLAIRPLDPPIRVDFP---------RDFEXXXXXXXXXXXXXX 63
L+PF VLC VTG GLL+L++R LD P P
Sbjct: 13 LKPFFVLCVSVTGFGLLVLSLRLLDAPASSTVPLSRASSSSSEFNTSSKNGSRVKGVVAV 72
Query: 64 XXXXEKPCATVEEMGRDFEAGVVGMETVRVRRIIEDHFVLNGASRIRDLPPDQFCSHGFV 123
EKPC TVEEMG DF +GV E++RVRR+I++HF+ NGASR+RD PP+QFC HGFV
Sbjct: 73 RRVGEKPCKTVEEMGEDFTSGVGKKESLRVRRMIQNHFLANGASRVRDFPPEQFCRHGFV 132
Query: 124 LGKTAEAGFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFGEYISYSNFTFTMKEIKHL 183
LGK +EAGFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFG+YISYSNFTFT+KEIKHL
Sbjct: 133 LGKASEAGFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFGDYISYSNFTFTVKEIKHL 192
Query: 184 WRQNGCESKYGRQLVMRTDDFEKPAQTNVLCSNWKEWEQPIIWFQGTTDHVAAQFFLKNI 243
WR GCESKYGR+LVMR DDF KP +TNV+CSNWK+W+QPIIWFQGT D VAAQFFLKN+
Sbjct: 193 WRHKGCESKYGRKLVMRIDDFMKPVETNVICSNWKKWKQPIIWFQGTVDSVAAQFFLKNM 252
Query: 244 HSQMRIAAFDLFGDPKVLGSRPNVFGELMRVLISPTKDVEAAVNWVIGGEENPDITLHMR 303
HSQMR AA +LFGDP+VLG RPNVFGELMRVLISP++DVEAAVNWVIGG ENPDI+LHMR
Sbjct: 253 HSQMRTAALNLFGDPQVLGLRPNVFGELMRVLISPSEDVEAAVNWVIGGGENPDISLHMR 312
Query: 304 MLMNR 308
MLM+R
Sbjct: 313 MLMHR 317
>Glyma16g26160.2
Length = 551
Score = 381 bits (979), Expect = e-106, Method: Compositional matrix adjust.
Identities = 190/305 (62%), Positives = 219/305 (71%), Gaps = 32/305 (10%)
Query: 13 LQPFLVLCAMVTGVGLLLLAIRPLDPPIRVDFP---------RDFEXXXXXXXXXXXXXX 63
L+PF VLC VTG GLL+L++R LD P P
Sbjct: 13 LKPFFVLCVSVTGFGLLVLSLRLLDAPASSTVPLSRASSSSSEFNTSSKNGSRVKGVVAV 72
Query: 64 XXXXEKPCATVEEMGRDFEAGVVGMETVRVRRIIEDHFVLNGASRIRDLPPDQFCSHGFV 123
EKPC TVEEMG DF +GV E++RVRR+I++HF+ NGASR+RD PP+QFC HGFV
Sbjct: 73 RRVGEKPCKTVEEMGEDFTSGVGKKESLRVRRMIQNHFLANGASRVRDFPPEQFCRHGFV 132
Query: 124 LGKTAEAGFGNEMYKVLTAAALSIMLNRSLIIGQTRGKYPFGEYISYSNFTFTMKEIKHL 183
LGK +EAGFGNE+ GKYPFG+YISYSNFTFT+KEIKHL
Sbjct: 133 LGKASEAGFGNEI-----------------------GKYPFGDYISYSNFTFTVKEIKHL 169
Query: 184 WRQNGCESKYGRQLVMRTDDFEKPAQTNVLCSNWKEWEQPIIWFQGTTDHVAAQFFLKNI 243
WR GCESKYGR+LVMR DDF KP +TNV+CSNWK+W+QPIIWFQGT D VAAQFFLKN+
Sbjct: 170 WRHKGCESKYGRKLVMRIDDFMKPVETNVICSNWKKWKQPIIWFQGTVDSVAAQFFLKNM 229
Query: 244 HSQMRIAAFDLFGDPKVLGSRPNVFGELMRVLISPTKDVEAAVNWVIGGEENPDITLHMR 303
HSQMR AA +LFGDP+VLG RPNVFGELMRVLISP++DVEAAVNWVIGG ENPDI+LHMR
Sbjct: 230 HSQMRTAALNLFGDPQVLGLRPNVFGELMRVLISPSEDVEAAVNWVIGGGENPDISLHMR 289
Query: 304 MLMNR 308
MLM+R
Sbjct: 290 MLMHR 294
>Glyma02g07210.1
Length = 554
Score = 374 bits (961), Expect = e-104, Method: Compositional matrix adjust.
Identities = 192/305 (62%), Positives = 224/305 (73%), Gaps = 11/305 (3%)
Query: 13 LQPFLVLCAMVTGVGLLLLAIRPLDPPI------RVDFPRDFEXXXXXXXXXXXXXXXXX 66
L+P VLC +VTG+GLL+L++RPL P+ R R
Sbjct: 13 LKPLFVLCVVVTGLGLLVLSLRPLMLPLVAPCLSRELLLRSSTLFPTMGRAWKASGGRHV 72
Query: 67 XEKPCATVEEMGRDFEAGVVGMETVRVRRIIEDHFVLNGASRIRDLPPDQFCSHGFVLGK 126
E+PC TVEEMG DF GV G E++RVRRII++HF+ NGASR+RDLPP+QFC HGFVLGK
Sbjct: 73 GERPCKTVEEMGEDFGGGV-GKESLRVRRIIQNHFLANGASRVRDLPPEQFCRHGFVLGK 131
Query: 127 TAEAGFGNEMYKVLTAAALSIMLNRSLIIGQTRG---KYPFGEYISYSNFTFTMKEIKHL 183
+EAGFGNEMYKVLTAAALSIMLNRSLII QTR K+ + I ++ F +
Sbjct: 132 ASEAGFGNEMYKVLTAAALSIMLNRSLIISQTRHIALKHNLCQ-IFFALFCCVVLSSIIN 190
Query: 184 WRQNGCESKYGRQLVMRTDDFEKPAQTNVLCSNWKEWEQPIIWFQGTTDHVAAQFFLKNI 243
GCESKYGR+LV+R DDF KP +TNV+CSNWK+W+QPIIWF GT D VAAQFFLKNI
Sbjct: 191 TLHKGCESKYGRKLVIRIDDFMKPVETNVICSNWKKWKQPIIWFHGTVDSVAAQFFLKNI 250
Query: 244 HSQMRIAAFDLFGDPKVLGSRPNVFGELMRVLISPTKDVEAAVNWVIGGEENPDITLHMR 303
HSQMR AA +LF DP+VLG RPNVFGELMRVLI P++DVEAAVNWVIGG ENPDI+LHMR
Sbjct: 251 HSQMRTAALNLFSDPQVLGIRPNVFGELMRVLIFPSEDVEAAVNWVIGGGENPDISLHMR 310
Query: 304 MLMNR 308
MLMNR
Sbjct: 311 MLMNR 315
>Glyma19g26840.1
Length = 356
Score = 224 bits (572), Expect = 7e-59, Method: Compositional matrix adjust.
Identities = 105/132 (79%), Positives = 116/132 (87%), Gaps = 10/132 (7%)
Query: 177 MKEIKHLWRQNGCESKYGRQLVMRTDDFEKPAQTNVLCSNWKEWEQPIIWFQGTTDHVAA 236
M E+KHLWRQN CESKYGRQLVMRTDDFEKPAQTNVLCSNWKEW+QPII
Sbjct: 1 MNEVKHLWRQNDCESKYGRQLVMRTDDFEKPAQTNVLCSNWKEWKQPII----------C 50
Query: 237 QFFLKNIHSQMRIAAFDLFGDPKVLGSRPNVFGELMRVLISPTKDVEAAVNWVIGGEENP 296
FL+NIHSQMRIAAFDLFGDP+VLGS+PNVFGEL+RVLISP+K+VEAAVNWVIG EENP
Sbjct: 51 SVFLENIHSQMRIAAFDLFGDPQVLGSQPNVFGELLRVLISPSKEVEAAVNWVIGDEENP 110
Query: 297 DITLHMRMLMNR 308
DI+LHM++LMNR
Sbjct: 111 DISLHMQILMNR 122