Miyakogusa Predicted Gene
- Lj4g3v1335330.1
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= Lj4g3v1335330.1 Non Chatacterized Hit- tr|I1K0D2|I1K0D2_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.9918
PE=,86.39,0,seg,NULL; O-ACYLTRANSFERASE (MEMBRANE BOUND) DOMAIN
CONTAINING PROTEIN,NULL; PORCUPINE,NULL; MBOAT,M,CUFF.49054.1
(467 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma17g14070.1 830 0.0
Glyma05g03510.1 816 0.0
Glyma05g03510.2 665 0.0
>Glyma17g14070.1
Length = 463
Score = 830 bits (2143), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 396/463 (85%), Positives = 426/463 (92%)
Query: 5 LHLDSMAASIGVSVPVLRFLLCFVATIPLSFLWRFIPGRLPKHIFSAAVGVLLSYLSFGF 64
+ +DSMA SIGVSVPVLRFLLCF AT+PLSFL RF+P LPKH++S+ VGV LSYLSFGF
Sbjct: 1 MSMDSMATSIGVSVPVLRFLLCFAATVPLSFLCRFLPRGLPKHLYSSVVGVALSYLSFGF 60
Query: 65 SSNLHFLVPMFLGYASMLLHRPRCGIITFFLGFGYLIACHVYYMSGDAWKEGGIDATGAL 124
SSNLHFLVPMFLGYASMLL+RPRCGI+TFFLGFGYLI CHVYYMSGDAWKEGGIDATGAL
Sbjct: 61 SSNLHFLVPMFLGYASMLLYRPRCGILTFFLGFGYLIGCHVYYMSGDAWKEGGIDATGAL 120
Query: 125 MVLTLKVISCAINYNDGLLKEEGLREAQKKNRLVKLPSLIEYIGYCLCLGSHFAGPVFEM 184
MVLTLKVISCA+NYNDGLLKEEGLREAQKK RL+KLPSLIEYIGYCLC GSHFAGPV+EM
Sbjct: 121 MVLTLKVISCAVNYNDGLLKEEGLREAQKKYRLIKLPSLIEYIGYCLCCGSHFAGPVYEM 180
Query: 185 KDYLDWTEHKGIWGSASKGPSPSPYGATVRALVQAGLCMGLYLNLVPHFPLTKFTDPSYH 244
KDYLDWTE KGIWG+ +KGPSPSPYGAT+RAL+QAG CM +YLNLVPHFPL+KFTDP+YH
Sbjct: 181 KDYLDWTEGKGIWGTEAKGPSPSPYGATLRALLQAGFCMAMYLNLVPHFPLSKFTDPTYH 240
Query: 245 EWGFFKKLGYQYMSGFTARWKYYFXXXXXXXXXXXXGLGFSGWTESSPPKPRWDRAKNVD 304
EW F+KKL YQYMSGFTARWKYYF GLGFSGWT+SSPPKPRWDRAKNVD
Sbjct: 241 EWCFWKKLSYQYMSGFTARWKYYFIWSISEASIIISGLGFSGWTDSSPPKPRWDRAKNVD 300
Query: 305 IVGVELAKSAVVIPTVWNIQVSTWLRHYVYERLIQNGKKPGFFQLLATQTVSAIWHGLYP 364
I+GVE AKSAV IP VWNIQVSTWLRHYVYERLIQ GKKPGFFQLLATQTVSA+WHGLYP
Sbjct: 301 IIGVEFAKSAVTIPAVWNIQVSTWLRHYVYERLIQTGKKPGFFQLLATQTVSAVWHGLYP 360
Query: 365 GYIIFFVQSALMIAGSRVIYRWQQGVPPTMALVKNVLVFMNFAYTLLVLNYSSVGFMVLS 424
GYIIFFVQSALMIAGSRVIYRWQQ VPPTM+LVKNVLVF NFAYTLLVLNYS VGFMVLS
Sbjct: 361 GYIIFFVQSALMIAGSRVIYRWQQAVPPTMSLVKNVLVFTNFAYTLLVLNYSCVGFMVLS 420
Query: 425 LHETIASYGSVYYIGTVLPVVVILLGKVIKPGKPVRTKARKDQ 467
LHET+ASYGSVYYIGT++PVV+ILLGKVIKPGKP R+KARK+Q
Sbjct: 421 LHETLASYGSVYYIGTIVPVVMILLGKVIKPGKPARSKARKEQ 463
>Glyma05g03510.1
Length = 463
Score = 816 bits (2109), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 392/463 (84%), Positives = 420/463 (90%)
Query: 5 LHLDSMAASIGVSVPVLRFLLCFVATIPLSFLWRFIPGRLPKHIFSAAVGVLLSYLSFGF 64
+ +DSMAASIGVSVPVLRFLLCF AT+PLSFL R +P LPKH++SAAVGV LSYLSFG
Sbjct: 1 MAMDSMAASIGVSVPVLRFLLCFAATVPLSFLCRLLPRGLPKHLYSAAVGVALSYLSFGV 60
Query: 65 SSNLHFLVPMFLGYASMLLHRPRCGIITFFLGFGYLIACHVYYMSGDAWKEGGIDATGAL 124
SSNLHFLVPMFLGYASMLL RPRCGI+TFFLGFGYLI CHVYYMSGDAWKEGGIDATGAL
Sbjct: 61 SSNLHFLVPMFLGYASMLLFRPRCGILTFFLGFGYLIGCHVYYMSGDAWKEGGIDATGAL 120
Query: 125 MVLTLKVISCAINYNDGLLKEEGLREAQKKNRLVKLPSLIEYIGYCLCLGSHFAGPVFEM 184
MVLTLKVISCA+NYNDGLLKEEGLREAQKK RL+KLPSLIEYIGYCLC GSHFAGPV+EM
Sbjct: 121 MVLTLKVISCAVNYNDGLLKEEGLREAQKKYRLIKLPSLIEYIGYCLCCGSHFAGPVYEM 180
Query: 185 KDYLDWTEHKGIWGSASKGPSPSPYGATVRALVQAGLCMGLYLNLVPHFPLTKFTDPSYH 244
KDYLDWTE KGIW + +KGP PSPYGAT+RAL+QAG CM +YLNLVPHFPL+KFTDP+YH
Sbjct: 181 KDYLDWTEGKGIWSTEAKGPLPSPYGATLRALLQAGFCMAMYLNLVPHFPLSKFTDPTYH 240
Query: 245 EWGFFKKLGYQYMSGFTARWKYYFXXXXXXXXXXXXGLGFSGWTESSPPKPRWDRAKNVD 304
EW F+KKL YQYMSGFTARWKYYF GLGFSGWT+SSPPKP WDRAKNVD
Sbjct: 241 EWCFWKKLSYQYMSGFTARWKYYFIWSISEASIIISGLGFSGWTDSSPPKPCWDRAKNVD 300
Query: 305 IVGVELAKSAVVIPTVWNIQVSTWLRHYVYERLIQNGKKPGFFQLLATQTVSAIWHGLYP 364
I+GVE AKSAV IP VWNIQVSTWLRHYVYERLIQ GKKPGF QLLATQTVSA+WHGLYP
Sbjct: 301 IIGVEFAKSAVTIPAVWNIQVSTWLRHYVYERLIQTGKKPGFIQLLATQTVSAVWHGLYP 360
Query: 365 GYIIFFVQSALMIAGSRVIYRWQQGVPPTMALVKNVLVFMNFAYTLLVLNYSSVGFMVLS 424
GYIIFFVQSALMIAGSRVIYRWQQ VPPTM+LVKNVLVF NFAYTLLVLNYS VGFMVLS
Sbjct: 361 GYIIFFVQSALMIAGSRVIYRWQQAVPPTMSLVKNVLVFTNFAYTLLVLNYSCVGFMVLS 420
Query: 425 LHETIASYGSVYYIGTVLPVVVILLGKVIKPGKPVRTKARKDQ 467
LHET+ASYGSVYYIGT++PVV+ILL KVIKPGKP R+KARK+Q
Sbjct: 421 LHETLASYGSVYYIGTIIPVVLILLAKVIKPGKPARSKARKEQ 463
>Glyma05g03510.2
Length = 380
Score = 665 bits (1715), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 319/379 (84%), Positives = 340/379 (89%)
Query: 5 LHLDSMAASIGVSVPVLRFLLCFVATIPLSFLWRFIPGRLPKHIFSAAVGVLLSYLSFGF 64
+ +DSMAASIGVSVPVLRFLLCF AT+PLSFL R +P LPKH++SAAVGV LSYLSFG
Sbjct: 1 MAMDSMAASIGVSVPVLRFLLCFAATVPLSFLCRLLPRGLPKHLYSAAVGVALSYLSFGV 60
Query: 65 SSNLHFLVPMFLGYASMLLHRPRCGIITFFLGFGYLIACHVYYMSGDAWKEGGIDATGAL 124
SSNLHFLVPMFLGYASMLL RPRCGI+TFFLGFGYLI CHVYYMSGDAWKEGGIDATGAL
Sbjct: 61 SSNLHFLVPMFLGYASMLLFRPRCGILTFFLGFGYLIGCHVYYMSGDAWKEGGIDATGAL 120
Query: 125 MVLTLKVISCAINYNDGLLKEEGLREAQKKNRLVKLPSLIEYIGYCLCLGSHFAGPVFEM 184
MVLTLKVISCA+NYNDGLLKEEGLREAQKK RL+KLPSLIEYIGYCLC GSHFAGPV+EM
Sbjct: 121 MVLTLKVISCAVNYNDGLLKEEGLREAQKKYRLIKLPSLIEYIGYCLCCGSHFAGPVYEM 180
Query: 185 KDYLDWTEHKGIWGSASKGPSPSPYGATVRALVQAGLCMGLYLNLVPHFPLTKFTDPSYH 244
KDYLDWTE KGIW + +KGP PSPYGAT+RAL+QAG CM +YLNLVPHFPL+KFTDP+YH
Sbjct: 181 KDYLDWTEGKGIWSTEAKGPLPSPYGATLRALLQAGFCMAMYLNLVPHFPLSKFTDPTYH 240
Query: 245 EWGFFKKLGYQYMSGFTARWKYYFXXXXXXXXXXXXGLGFSGWTESSPPKPRWDRAKNVD 304
EW F+KKL YQYMSGFTARWKYYF GLGFSGWT+SSPPKP WDRAKNVD
Sbjct: 241 EWCFWKKLSYQYMSGFTARWKYYFIWSISEASIIISGLGFSGWTDSSPPKPCWDRAKNVD 300
Query: 305 IVGVELAKSAVVIPTVWNIQVSTWLRHYVYERLIQNGKKPGFFQLLATQTVSAIWHGLYP 364
I+GVE AKSAV IP VWNIQVSTWLRHYVYERLIQ GKKPGF QLLATQTVSA+WHGLYP
Sbjct: 301 IIGVEFAKSAVTIPAVWNIQVSTWLRHYVYERLIQTGKKPGFIQLLATQTVSAVWHGLYP 360
Query: 365 GYIIFFVQSALMIAGSRVI 383
GYIIFFVQSALMIAGSR I
Sbjct: 361 GYIIFFVQSALMIAGSRGI 379