Miyakogusa Predicted Gene
- Lj1g3v1355740.1
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= Lj1g3v1355740.1 tr|B8PJK2|B8PJK2_POSPM Predicted protein
OS=Postia placenta (strain ATCC 44394 / Madison 698-R)
GN=P,30.43,0.00003,F-box,F-box domain, cyclin-like; SUBFAMILY NOT
NAMED,NULL; FAMILY NOT NAMED,NULL; A Receptor for Ubi,CUFF.27264.1
(293 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma06g16220.2 483 e-136
Glyma06g16220.1 483 e-136
Glyma08g00410.1 417 e-117
Glyma05g32750.1 327 1e-89
Glyma17g35280.1 50 4e-06
Glyma14g09890.1 49 6e-06
>Glyma06g16220.2
Length = 630
Score = 483 bits (1243), Expect = e-136, Method: Compositional matrix adjust.
Identities = 237/297 (79%), Positives = 260/297 (87%), Gaps = 4/297 (1%)
Query: 1 MLPEPCDSST-LLFLPDDVFAIVSQFLSPRDVCNLALCCKSLNTLVASEKIWLTQCEVLG 59
M PE DSS LLFLPDDVFAIVS+F+SPRDVCNL LCCKSLN LVASEK+WLTQC++L
Sbjct: 1 MEPEHHDSSNMLLFLPDDVFAIVSRFMSPRDVCNLCLCCKSLNALVASEKLWLTQCDLLS 60
Query: 60 IVPHKDLVEWRKGVLSYKALCRFLLSVQPLIGIWVHQNPELGNVVYVMPGFVSVVGCRII 119
VPHKDLVEWRKGV SYKALCRFL+SV+PLIGIWVHQNPELGNVVYVMPGFVSVVGCRII
Sbjct: 61 TVPHKDLVEWRKGVASYKALCRFLMSVKPLIGIWVHQNPELGNVVYVMPGFVSVVGCRII 120
Query: 120 PQELGPLGVEDGPILWASVFEVICDFDGSTMFFLHGREKGVDYVYPGSVESIDRSCNVLL 179
PQELGPLG+E+GPILWASVFEV+ D DGS MFFLHGREKGV+YVYPGSV+ DRSCNVLL
Sbjct: 121 PQELGPLGIEEGPILWASVFEVVSDLDGSMMFFLHGREKGVNYVYPGSVKVADRSCNVLL 180
Query: 180 LEVEPSGHKKVSSLLQSKSFAHQSGVEVSA---KVCRSSSDISGSKRVGGNSEATVTFSK 236
LEVEP G + VS+LLQSKSF H SGVE S+ KVCRS+SD+S S+RV GN E V+F K
Sbjct: 181 LEVEPGGCRNVSALLQSKSFVHHSGVEESSSSRKVCRSNSDVSSSQRVVGNGEGMVSFGK 240
Query: 237 LAFFDRRRLLEVTTSNVRKTVPDKVTGPLFPRLRDDEENFQKDLVLLWERRSSLCQM 293
LAF DRR+LLEVTTS VR+ VPDK+ GPLFP LRDDEENFQKDLVLLW+RRS L QM
Sbjct: 241 LAFSDRRKLLEVTTSQVRQKVPDKMIGPLFPGLRDDEENFQKDLVLLWKRRSLLSQM 297
>Glyma06g16220.1
Length = 632
Score = 483 bits (1243), Expect = e-136, Method: Compositional matrix adjust.
Identities = 237/297 (79%), Positives = 260/297 (87%), Gaps = 4/297 (1%)
Query: 1 MLPEPCDSST-LLFLPDDVFAIVSQFLSPRDVCNLALCCKSLNTLVASEKIWLTQCEVLG 59
M PE DSS LLFLPDDVFAIVS+F+SPRDVCNL LCCKSLN LVASEK+WLTQC++L
Sbjct: 1 MEPEHHDSSNMLLFLPDDVFAIVSRFMSPRDVCNLCLCCKSLNALVASEKLWLTQCDLLS 60
Query: 60 IVPHKDLVEWRKGVLSYKALCRFLLSVQPLIGIWVHQNPELGNVVYVMPGFVSVVGCRII 119
VPHKDLVEWRKGV SYKALCRFL+SV+PLIGIWVHQNPELGNVVYVMPGFVSVVGCRII
Sbjct: 61 TVPHKDLVEWRKGVASYKALCRFLMSVKPLIGIWVHQNPELGNVVYVMPGFVSVVGCRII 120
Query: 120 PQELGPLGVEDGPILWASVFEVICDFDGSTMFFLHGREKGVDYVYPGSVESIDRSCNVLL 179
PQELGPLG+E+GPILWASVFEV+ D DGS MFFLHGREKGV+YVYPGSV+ DRSCNVLL
Sbjct: 121 PQELGPLGIEEGPILWASVFEVVSDLDGSMMFFLHGREKGVNYVYPGSVKVADRSCNVLL 180
Query: 180 LEVEPSGHKKVSSLLQSKSFAHQSGVEVSA---KVCRSSSDISGSKRVGGNSEATVTFSK 236
LEVEP G + VS+LLQSKSF H SGVE S+ KVCRS+SD+S S+RV GN E V+F K
Sbjct: 181 LEVEPGGCRNVSALLQSKSFVHHSGVEESSSSRKVCRSNSDVSSSQRVVGNGEGMVSFGK 240
Query: 237 LAFFDRRRLLEVTTSNVRKTVPDKVTGPLFPRLRDDEENFQKDLVLLWERRSSLCQM 293
LAF DRR+LLEVTTS VR+ VPDK+ GPLFP LRDDEENFQKDLVLLW+RRS L QM
Sbjct: 241 LAFSDRRKLLEVTTSQVRQKVPDKMIGPLFPGLRDDEENFQKDLVLLWKRRSLLSQM 297
>Glyma08g00410.1
Length = 621
Score = 417 bits (1073), Expect = e-117, Method: Compositional matrix adjust.
Identities = 205/291 (70%), Positives = 236/291 (81%), Gaps = 1/291 (0%)
Query: 3 PEPCDSSTLLFLPDDVFAIVSQFLSPRDVCNLALCCKSLNTLVASEKIWLTQCEVLGIVP 62
PEPCD + LL LPDDVF +VS+FL PRDVCNL+LCCKSL L +SEK+W QC ++G+VP
Sbjct: 4 PEPCDPNFLLCLPDDVFGMVSRFLLPRDVCNLSLCCKSLYALSSSEKVWFPQCYMVGVVP 63
Query: 63 HKDLVEWRKGVLSYKALCRFLLSVQPLIGIWVHQNPELGNVVYVMPGFVSVVGCRIIPQE 122
KDLVEWR+GV SY+ALCRFLLSV+PL+GIWVHQNPELGN+VYVMPGFVSVVGCRIIPQE
Sbjct: 64 QKDLVEWREGVSSYQALCRFLLSVKPLLGIWVHQNPELGNLVYVMPGFVSVVGCRIIPQE 123
Query: 123 LGPLGVEDGPILWASVFEVICDFDGSTMFFLHGREKGVDYVYPGSVESIDRSCNVLLLEV 182
LGPLG++DGPI W+SVFEVI DFDGS FFLHGRE+G+DYVY GSV+ ID SCNVLLLEV
Sbjct: 124 LGPLGIQDGPIQWSSVFEVIGDFDGSATFFLHGREEGMDYVYRGSVKYIDESCNVLLLEV 183
Query: 183 EPSGHKKVSSLLQSKSFAHQSGVEVSAKVCRSSSDISGSKRVGGNSEATVTFSKLAFFDR 242
EP +LLQS+S SG VS +VCRS+ ++S ++VGGN E V FSKLAF DR
Sbjct: 184 EPREQNYGINLLQSRSL-DDSGGTVSGEVCRSNRELSRLQKVGGNDEEMVPFSKLAFSDR 242
Query: 243 RRLLEVTTSNVRKTVPDKVTGPLFPRLRDDEENFQKDLVLLWERRSSLCQM 293
R+LLEVT S VR+ VP GPLFPRLRDD +NFQKD VLL ERR CQM
Sbjct: 243 RKLLEVTISLVRQEVPSVAAGPLFPRLRDDCDNFQKDFVLLKERREVFCQM 293
>Glyma05g32750.1
Length = 538
Score = 327 bits (838), Expect = 1e-89, Method: Compositional matrix adjust.
Identities = 171/291 (58%), Positives = 201/291 (69%), Gaps = 52/291 (17%)
Query: 3 PEPCDSSTLLFLPDDVFAIVSQFLSPRDVCNLALCCKSLNTLVASEKIWLTQCEVLGIVP 62
PEPCD S LL LPDDVF +VS+FL PRDVCNL+LCCKSL L +SEK+W TQC+++G+VP
Sbjct: 4 PEPCDLSFLLCLPDDVFGLVSRFLLPRDVCNLSLCCKSLYALGSSEKVWFTQCDMVGVVP 63
Query: 63 HKDLVEWRKGVLSYKALCRFLLSVQPLIGIWVHQNPELGNVVYVMPGFVSVVGCRIIPQE 122
KDLVEWR+GV SYK+LCRFLLSV+PL+GIWV+QNPELGN+VYVMPGFVSVVGCRIIPQE
Sbjct: 64 QKDLVEWREGVSSYKSLCRFLLSVKPLLGIWVNQNPELGNLVYVMPGFVSVVGCRIIPQE 123
Query: 123 LGPLGVEDGPILWASVFEVICDFDGSTMFFLHGREKGVDYVYPGSVESIDRSCNVLLLEV 182
LGPLG++DGPI W+SVFEVI DFDGS FFLHGRE+G+DYVY
Sbjct: 124 LGPLGIQDGPIQWSSVFEVIGDFDGSATFFLHGREEGMDYVY------------------ 165
Query: 183 EPSGHKKVSSLLQSKSFAHQSGVEVSAKVCRSSSDISGSKRVGGNSEATVTFSKLAFFDR 242
CR + ++ RVG E SKL+F DR
Sbjct: 166 --------------------------LICCRVGAWMT---RVGRYQE-----SKLSFSDR 191
Query: 243 RRLLEVTTSNVRKTVPDKVTGPLFPRLRDDEENFQKDLVLLWERRSSLCQM 293
R+LLEVT +R+ V GPLFPRLRDD +NFQKDLVLL ERR+ C+M
Sbjct: 192 RKLLEVTIGLLRQEVSSVAAGPLFPRLRDDCDNFQKDLVLLKERRAIFCEM 242
>Glyma17g35280.1
Length = 444
Score = 49.7 bits (117), Expect = 4e-06, Method: Compositional matrix adjust.
Identities = 39/156 (25%), Positives = 67/156 (42%), Gaps = 14/156 (8%)
Query: 9 STLLFLPDDVFAIVSQFLSPRDVCNLALCCKSLNTLVASE-KIWLTQCEVLGIVPHKDLV 67
S+ P+D+ + FL P ++ LA K + +L A++ K+W + CE + +
Sbjct: 10 SSFTDFPEDIQVCILSFLGPPEIATLACTSKRMGSLCATDSKLWFSMCERR-WGSYTRIT 68
Query: 68 EWRKG---VLSYKALCRFLLSVQPLIGIWVHQNPELGNVVYVMPGFVSVVGCRIIPQELG 124
+W +G LS+K L L + L+G W + ++++ G + R+ P
Sbjct: 69 QWAQGKNPTLSFKHLYNTLHRWENLLGFWRRSGTGIPSLLFFEWGPSFISASRVSPSASD 128
Query: 125 P----LGVEDGPILWASVFE-----VICDFDGSTMF 151
GV P LW S+ E D DG + F
Sbjct: 129 SNSVTYGVTKTPFLWMSLSEEGHVVTYLDPDGRSDF 164
>Glyma14g09890.1
Length = 412
Score = 48.9 bits (115), Expect = 6e-06, Method: Compositional matrix adjust.
Identities = 33/131 (25%), Positives = 60/131 (45%), Gaps = 5/131 (3%)
Query: 14 LPDDVFAIVSQFLSPRDVCNLALCCKSLNTLVAS-EKIWLTQCEVLGIVPHKDLVEW-RK 71
P+D+ + FL P ++ LA K L +L ++ K+W + CE + + +W +K
Sbjct: 4 FPEDIQVSILSFLGPSEIATLACTSKKLGSLCSTVSKLWFSMCERR-WGSNTRITQWAQK 62
Query: 72 GVLSYKALCRFLLSVQPLIGIWVHQNPELGNVVYVMPGFVSVVGCRIIP--QELGPLGVE 129
+S+K L L + L+G W + ++++ G + R+ P + GV
Sbjct: 63 PAISFKQLYHTLHRWENLLGFWRRSGTGIPSLLFFEWGPSFISASRVSPSDSDSNTYGVT 122
Query: 130 DGPILWASVFE 140
P LW S+ E
Sbjct: 123 KTPFLWMSLSE 133