Miyakogusa Predicted Gene
- Lj0g3v0092039.1
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= Lj0g3v0092039.1 tr|F2EGT7|F2EGT7_HORVD Predicted protein
OS=Hordeum vulgare var. distichum PE=2
SV=1,33.48,6e-16,Tmemb_161AB,Transmembrane protein 161A/B;
seg,NULL,CUFF.5026.1
(456 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma20g29620.1 660 0.0
Glyma10g38230.1 616 e-176
Glyma09g30880.1 224 2e-58
>Glyma20g29620.1
Length = 460
Score = 660 bits (1704), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 341/462 (73%), Positives = 381/462 (82%), Gaps = 8/462 (1%)
Query: 1 MLHFLLSYKNPLLQASLSLTLAFILAFFRIPIFFLHGLQTYIHPDSQPQSN-GLRAAIRR 59
ML +L YKNPLL SL+L LAF AFF+IP+FFLHGLQTYIHPDSQPQSN GLRAAIRR
Sbjct: 1 MLELVLLYKNPLLHTSLTLILAFTFAFFKIPLFFLHGLQTYIHPDSQPQSNNGLRAAIRR 60
Query: 60 PG-IDNYQPLSSKTSAELRKRSKAKDKVDFDENNAQIFRLRLDEGHLQSRLYVDQYCAAF 118
PG ID+YQPLSSKT+AEL+KR+K+ +K DFDENNAQIFR+ LD HLQSRL++DQYC AF
Sbjct: 61 PGSIDSYQPLSSKTAAELKKRNKSNNKSDFDENNAQIFRITLDHAHLQSRLFIDQYCVAF 120
Query: 119 TVSFVALFSILVHSFLDSKEDHGLLKTGVIVPXXXXXXXXYSWGSTLAKTAFERSASRRS 178
T+SF AL ++ +H+FLDS ++ G GV VP YSWGS LAKT FERSASRR
Sbjct: 121 TLSFAALSTLFLHTFLDSPQNRGFFSNGVFVPVLLSILSLYSWGSLLAKTTFERSASRRF 180
Query: 179 EKQLSIVFGVLGVFLGLMFVPEGASLVLDFHFGVPVDGPMRVFIAALMGCLAGFLFIPAG 238
EKQLS+V G LG FLGL+FVPEG +LVL+F FGV DG RVF+AALMGCL+GFLFIPA
Sbjct: 181 EKQLSVVLGGLGFFLGLLFVPEGLALVLEFRFGVQFDGFWRVFVAALMGCLSGFLFIPAS 240
Query: 239 RSARCFWLGTDQIRCNLSMITCGWFASTILYANQLLVIFVALLWITPLSEIFVNTNYNNN 298
RSARCFWLGTDQIRCNLSMITCG F ILY NQ+LVIFVALLWITPL+EIFVN N
Sbjct: 241 RSARCFWLGTDQIRCNLSMITCGRFTCAILYVNQMLVIFVALLWITPLAEIFVNK--GNG 298
Query: 299 KGGSGIGSAEKLVGNLGFLPSDFSNFRRWCLLGSSLLQIVAVRLNLQMYLNEALLSWYQR 358
SG G+AEKLVGN+GFLPSDF +FR+WCLLGS LLQIVA+R NLQMYLNEALLSWYQR
Sbjct: 299 VAKSGFGNAEKLVGNVGFLPSDFGSFRKWCLLGSGLLQIVALRPNLQMYLNEALLSWYQR 358
Query: 359 LHVSKVPDLDYSRAKMFLHNHYVCLVVLQFLGPPMLVLVFLGLSQIDSP-SFGN---LPS 414
LH SKVPDLDYSRAKMFLHNHY+CLVVLQFLGPP+LVL+FLGLSQID SFGN L
Sbjct: 359 LHASKVPDLDYSRAKMFLHNHYLCLVVLQFLGPPVLVLLFLGLSQIDDGVSFGNFAMLND 418
Query: 415 ILPSSTFVKEVALFFAWWVNFLWAIYSSVILMLHRHCILYVS 456
+LP F KEVA F AWW FLWA++SSVILMLHRHC+LYVS
Sbjct: 419 LLPGFAFFKEVAFFLAWWATFLWALFSSVILMLHRHCVLYVS 460
>Glyma10g38230.1
Length = 452
Score = 616 bits (1588), Expect = e-176, Method: Compositional matrix adjust.
Identities = 329/465 (70%), Positives = 365/465 (78%), Gaps = 22/465 (4%)
Query: 1 MLHFLLSYKNPLLQASLSLTLAFILAFFRIPIFFLHGLQTYIHPDSQPQS-NGLRAAIRR 59
ML +L YKNPLL SL+L LAF AFF+IP+ FLHGLQTYIHPDSQPQS NGLRAAIRR
Sbjct: 1 MLELVLLYKNPLLHTSLTLILAFTFAFFKIPLLFLHGLQTYIHPDSQPQSSNGLRAAIRR 60
Query: 60 PG-IDNYQPLSSKTSAELRKRSKAKDKV---DFDENNAQIFRLRLDEGHLQSRLYVDQYC 115
PG ID YQPLSSKT+AE++KR+K+ + DFDENNAQIFR+ LD HLQSRL++DQYC
Sbjct: 61 PGSIDGYQPLSSKTAAEIKKRNKSNNNNNKSDFDENNAQIFRITLDHAHLQSRLFIDQYC 120
Query: 116 AAFTVSFVALFSILVHSFLDSKEDHGLLKTGVIVPXXXXXXXXYSWGSTLAKTAFERSAS 175
AFT+SF ALF++L+H+FLDS ++ G GV VP YSWGS LAKT FERSAS
Sbjct: 121 VAFTLSFAALFTLLLHTFLDSPDNRGFFANGVFVPFLVSILSLYSWGSLLAKTTFERSAS 180
Query: 176 RRSEKQLSIVFGVLGVFLGLMFVPEGASLVLDFHFGVPVDGPMRVFIAALMGCLAGFLFI 235
RRSEK LS G P L L+F GVP+DG R FIAALMGCLAGFLFI
Sbjct: 181 RRSEKHLS----------GFCLFPR-VWLGLEFRIGVPLDGFRRFFIAALMGCLAGFLFI 229
Query: 236 PAGRSARCFWLGTDQIRCNLSMITCGWFASTILYANQLLVIFVALLWITPLSEIFVNTNY 295
PA RSARCFWLGTDQIRCNLSMITCGWF ILYANQ+LVI VALLWITPL+EIFVN
Sbjct: 230 PASRSARCFWLGTDQIRCNLSMITCGWFTRAILYANQMLVIVVALLWITPLAEIFVNKG- 288
Query: 296 NNNKGGSGIGSAEKLVGNLGFLPSDFSNFRRWCLLGSSLLQIVAVRLNLQMYLNEALLSW 355
N SG G+AEKLVGN+GFL SDF +FR+WCLLGS LLQIVA+R NLQMYLNEALLSW
Sbjct: 289 -NGVAKSGFGNAEKLVGNVGFLASDFGSFRKWCLLGSGLLQIVALRPNLQMYLNEALLSW 347
Query: 356 YQRLHVSKVPDLDYSRAKMFLHNHYVCLVVLQFLGPPMLVLVFLGLSQIDSP----SFGN 411
YQRLH SKVPDLDYSRAKMFLHNHY+CLVVLQFLGPP+LVL+FLGLSQID SF
Sbjct: 348 YQRLHASKVPDLDYSRAKMFLHNHYLCLVVLQFLGPPVLVLLFLGLSQIDDAVSFGSFTV 407
Query: 412 LPSILPSSTFVKEVALFFAWWVNFLWAIYSSVILMLHRHCILYVS 456
L +LP F KEVALF AWWV FLWA++SSVILMLHRHC+LYVS
Sbjct: 408 LNDLLPGFAFFKEVALFLAWWVTFLWALFSSVILMLHRHCVLYVS 452
>Glyma09g30880.1
Length = 259
Score = 224 bits (571), Expect = 2e-58, Method: Compositional matrix adjust.
Identities = 123/196 (62%), Positives = 140/196 (71%), Gaps = 18/196 (9%)
Query: 195 LMFVPEGASLVLDFHFGVPVDGPMRVFIAALMGCLAGFLFIPAGRSARCFWLGTDQIRCN 254
L+FVPEG +LVL+F FGV DG RVF+AALMGCL+G LFIPA RSARCFWLG DQIRCN
Sbjct: 65 LLFVPEGVALVLEFRFGVQFDGFWRVFVAALMGCLSGILFIPASRSARCFWLGNDQIRCN 124
Query: 255 LSMITCGWFASTILYANQLLVIFVALLWITPLSEIFVNTNYNNNKGGSGIGSAEKLVGNL 314
LSMIT L+ + L+EIFVN N SG G+AEKLV N+
Sbjct: 125 LSMIT-----------CGCLLYLLLCCGPPLLAEIFVNKG--NGVAKSGFGNAEKLVENV 171
Query: 315 GFLPSDFSNFRRWCLLGSSLLQIVAVRLNLQMYLNEALLSWYQRLHVSKVPDLDYSRAK- 373
GFLPSDF +FR+WCLLGS LLQIVA+R NLQMYLNEALLSWYQRLH SKVPDL+Y +AK
Sbjct: 172 GFLPSDFGSFRKWCLLGSGLLQIVALRPNLQMYLNEALLSWYQRLHASKVPDLNYRKAKV 231
Query: 374 ---MFLHNHYV-CLVV 385
MF+H+ C VV
Sbjct: 232 NLIMFVHHLLTFCFVV 247