Miyakogusa Predicted Gene
- Lj5g3v2183730.1
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= Lj5g3v2183730.1 Non Chatacterized Hit- tr|I1NFK4|I1NFK4_SOYBN
Uncharacterized protein OS=Glycine max PE=4 SV=1,76.14,0,FAMILY NOT
NAMED,NULL; no description,Phospholipase C/P1 nuclease domain;
Phospholipase C/P1 nucleas,CUFF.56899.1
(283 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma20g25090.1 474 e-134
Glyma01g20900.1 401 e-112
Glyma07g05620.1 394 e-110
Glyma01g20900.2 343 1e-94
Glyma08g06270.1 309 3e-84
Glyma01g20900.3 284 8e-77
Glyma13g31890.1 281 6e-76
Glyma15g07430.1 276 1e-74
Glyma16g02180.1 271 6e-73
Glyma07g31040.1 105 6e-23
Glyma10g41950.1 75 1e-13
>Glyma20g25090.1
Length = 284
Score = 474 bits (1220), Expect = e-134, Method: Compositional matrix adjust.
Identities = 221/285 (77%), Positives = 248/285 (87%), Gaps = 3/285 (1%)
Query: 1 MEYSFRIQLVAIVSLMLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLP--PGND 58
MEY ++IQLV IVSLM+V PNTQGWGEDGH I+C IAQ+RLS++AA VK LLP ND
Sbjct: 1 MEY-YKIQLVVIVSLMIVLPNTQGWGEDGHAIICRIAQSRLSDSAANAVKNLLPEYAQND 59
Query: 59 LASMCSWADHVKFYLPWSSALHYIDTPDNLCTYQYERDCKDQNGEKGRCVAGAINNYTTQ 118
L ++CSWAD V+FYL WS+ LH+ DTPDNLC YQY+RDCKDQ+G KGRCV GAI NYT Q
Sbjct: 60 LGNVCSWADRVRFYLHWSAPLHFADTPDNLCNYQYDRDCKDQDGVKGRCVVGAIKNYTDQ 119
Query: 119 LLNHGTDNSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDA 178
LL++G + NLTQALMFL+HFMGD+HQPLHVGFTSDRG NSINVHWYTRKQNLHH WD
Sbjct: 120 LLDYGKNTQNNLTQALMFLSHFMGDVHQPLHVGFTSDRGANSINVHWYTRKQNLHHVWDV 179
Query: 179 NIIETAEERFYDSNIDEFIDAIQQNITKTWSSQVEGWETCNSNETTCPDIYASEDIKAAC 238
NIIETAEERFYDSNIDEF +AIQ+NITKTWS QV GWETC+S ET CPDIYASE ++AAC
Sbjct: 180 NIIETAEERFYDSNIDEFTNAIQENITKTWSDQVLGWETCDSKETACPDIYASEGVQAAC 239
Query: 239 QWAYKGVSDGSVLEDDYFLSRLPIVNLRLAQGGVRLAATLNRIFG 283
QWAYKG +GSVLEDDYFLSRLP+V+LRLAQGGVRLAATLNRIFG
Sbjct: 240 QWAYKGAPEGSVLEDDYFLSRLPVVSLRLAQGGVRLAATLNRIFG 284
>Glyma01g20900.1
Length = 293
Score = 401 bits (1031), Expect = e-112, Method: Compositional matrix adjust.
Identities = 186/283 (65%), Positives = 229/283 (80%), Gaps = 6/283 (2%)
Query: 5 FRIQLVAIVSLMLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLPPG--NDLASM 62
+R+QLVAI+S ML+ NT GWG+DGH IVC IAQARLS AA+ VK+LLP NDLAS
Sbjct: 4 YRVQLVAIISFMLLLSNTHGWGDDGHAIVCKIAQARLSTAAAKAVKKLLPKSANNDLASK 63
Query: 63 CSWADHVKFYLPWSSALHYIDTPDNLCTYQYERDCKDQN-GEKGRCVAGAINNYTTQLLN 121
CSWAD ++ PWSSALH+ +TPD++C Y+ RDC D+ G KGRCV AI NYT QLL
Sbjct: 64 CSWADSLRVVFPWSSALHFANTPDSVCNYKDTRDCVDKKTGIKGRCVVAAITNYTNQLLE 123
Query: 122 HGTD--NSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDAN 179
+G+D + YNLTQ+L+FL+HF+GD+HQPLH GF SD+GGN INV WY RKQNLHH WDA+
Sbjct: 124 YGSDTKSKYNLTQSLLFLSHFLGDVHQPLHCGFFSDKGGNEINVRWYRRKQNLHHVWDAS 183
Query: 180 IIETAEERFYDSNIDEFIDAIQQNITKTWSSQVEGWETCNSNETTCPDIYASEDIKAACQ 239
IIET ERFYD +I++F+DAIQ+NITK W+ +VE WE+C++++ +CP IYA+E K AC+
Sbjct: 184 IIETEVERFYD-DIEDFVDAIQRNITKVWADEVEEWESCSNDDISCPTIYATESAKDACK 242
Query: 240 WAYKGVSDGSVLEDDYFLSRLPIVNLRLAQGGVRLAATLNRIF 282
WAYK ++GSVLED+YFLSR PIVNLRLAQGGVRLAATLNRIF
Sbjct: 243 WAYKDATEGSVLEDEYFLSRYPIVNLRLAQGGVRLAATLNRIF 285
>Glyma07g05620.1
Length = 297
Score = 394 bits (1011), Expect = e-110, Method: Compositional matrix adjust.
Identities = 188/287 (65%), Positives = 221/287 (77%), Gaps = 6/287 (2%)
Query: 2 EYSFRIQLVAIVSL-MLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLP--PGND 58
+YS QLVAIVSL +L+ PN GWG+DGH IVC IAQARLS AAE VK+LLP GND
Sbjct: 3 QYSIHHQLVAIVSLFILLLPNIHGWGDDGHVIVCKIAQARLSEAAAEAVKKLLPISAGND 62
Query: 59 LASMCSWADHVKFYLPWSSALHYIDTPDNLCTYQYERDCKD-QNGEKGRCVAGAINNYTT 117
L++ CSWADHV PW+SALHY +TP+ LC+Y+ RDC D + G KGRCV AINNYTT
Sbjct: 63 LSTKCSWADHVHHIYPWASALHYANTPEALCSYKNSRDCVDYKKGIKGRCVVAAINNYTT 122
Query: 118 QLLNHGTD--NSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHC 175
QLL +G+D + YNLTQ+L FL+HFMGDIHQPLH GF SD GGN+I V WY RKQNLHH
Sbjct: 123 QLLEYGSDTKSRYNLTQSLFFLSHFMGDIHQPLHCGFLSDNGGNAITVRWYKRKQNLHHI 182
Query: 176 WDANIIETAEERFYDSNIDEFIDAIQQNITKTWSSQVEGWETCNSNETTCPDIYASEDIK 235
WD+ I+ T ++FYDS++DEFIDA+QQNITK W+ QVE WE C + CP YASE
Sbjct: 183 WDSTILLTEVDKFYDSDMDEFIDALQQNITKVWADQVEEWENCGDKDLPCPATYASESTI 242
Query: 236 AACQWAYKGVSDGSVLEDDYFLSRLPIVNLRLAQGGVRLAATLNRIF 282
AC+WAYK ++GSVL DDYFLSRLPIVN+RLAQ GVRLAA LNR+F
Sbjct: 243 DACKWAYKDATEGSVLNDDYFLSRLPIVNMRLAQAGVRLAAILNRVF 289
>Glyma01g20900.2
Length = 263
Score = 343 bits (880), Expect = 1e-94, Method: Compositional matrix adjust.
Identities = 158/253 (62%), Positives = 200/253 (79%), Gaps = 6/253 (2%)
Query: 5 FRIQLVAIVSLMLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLPPG--NDLASM 62
+R+QLVAI+S ML+ NT GWG+DGH IVC IAQARLS AA+ VK+LLP NDLAS
Sbjct: 4 YRVQLVAIISFMLLLSNTHGWGDDGHAIVCKIAQARLSTAAAKAVKKLLPKSANNDLASK 63
Query: 63 CSWADHVKFYLPWSSALHYIDTPDNLCTYQYERDCKDQN-GEKGRCVAGAINNYTTQLLN 121
CSWAD ++ PWSSALH+ +TPD++C Y+ RDC D+ G KGRCV AI NYT QLL
Sbjct: 64 CSWADSLRVVFPWSSALHFANTPDSVCNYKDTRDCVDKKTGIKGRCVVAAITNYTNQLLE 123
Query: 122 HGTD--NSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDAN 179
+G+D + YNLTQ+L+FL+HF+GD+HQPLH GF SD+GGN INV WY RKQNLHH WDA+
Sbjct: 124 YGSDTKSKYNLTQSLLFLSHFLGDVHQPLHCGFFSDKGGNEINVRWYRRKQNLHHVWDAS 183
Query: 180 IIETAEERFYDSNIDEFIDAIQQNITKTWSSQVEGWETCNSNETTCPDIYASEDIKAACQ 239
IIET ERFYD +I++F+DAIQ+NITK W+ +VE WE+C++++ +CP IYA+E K AC+
Sbjct: 184 IIETEVERFYD-DIEDFVDAIQRNITKVWADEVEEWESCSNDDISCPTIYATESAKDACK 242
Query: 240 WAYKGVSDGSVLE 252
WAYK ++GSVLE
Sbjct: 243 WAYKDATEGSVLE 255
>Glyma08g06270.1
Length = 298
Score = 309 bits (791), Expect = 3e-84, Method: Compositional matrix adjust.
Identities = 154/267 (57%), Positives = 187/267 (70%), Gaps = 8/267 (2%)
Query: 24 GWGEDGHTIVCSIAQARLSNTAAEKVKELLPPG--NDLASMCSWADHV--KFYLPWSSAL 79
GWG++GH C IAQ LS A VK+LLP DLA++CSWAD V WSSAL
Sbjct: 22 GWGKEGHYATCKIAQEYLSEDALFAVKQLLPDSAQGDLAAVCSWADEVGHTHRYHWSSAL 81
Query: 80 HYIDTPDNLCTYQYERDCKDQNGEKGRCVAGAINNYTTQLLNH----GTDNSYNLTQALM 135
HY+DTPD C Y+Y RDC D + RCV+GAI NYT QL + ++ +YNLT+ALM
Sbjct: 82 HYVDTPDFKCNYEYCRDCHDSYRHEHRCVSGAIYNYTMQLKSADAGISSEFNYNLTEALM 141
Query: 136 FLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDANIIETAEERFYDSNIDE 195
FL+HF+GDIHQPLHVGFT D GGN+I VHWY RK NLH+ WD II++A + FYDS++
Sbjct: 142 FLSHFVGDIHQPLHVGFTGDLGGNTITVHWYRRKANLHYVWDDLIIQSALKTFYDSDLSI 201
Query: 196 FIDAIQQNITKTWSSQVEGWETCNSNETTCPDIYASEDIKAACQWAYKGVSDGSVLEDDY 255
I AIQ+NIT W + V WE C N T CP+ YASE I AC++AY+ + GS L+D+Y
Sbjct: 202 MIQAIQRNITDNWLNDVSTWEHCAHNYTACPNRYASESISLACKFAYRNATPGSTLKDEY 261
Query: 256 FLSRLPIVNLRLAQGGVRLAATLNRIF 282
FLSRLP+V RLAQGGVRLAA LNRIF
Sbjct: 262 FLSRLPVVEKRLAQGGVRLAAILNRIF 288
>Glyma01g20900.3
Length = 229
Score = 284 bits (726), Expect = 8e-77, Method: Compositional matrix adjust.
Identities = 133/206 (64%), Positives = 163/206 (79%), Gaps = 6/206 (2%)
Query: 5 FRIQLVAIVSLMLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLPPG--NDLASM 62
+R+QLVAI+S ML+ NT GWG+DGH IVC IAQARLS AA+ VK+LLP NDLAS
Sbjct: 4 YRVQLVAIISFMLLLSNTHGWGDDGHAIVCKIAQARLSTAAAKAVKKLLPKSANNDLASK 63
Query: 63 CSWADHVKFYLPWSSALHYIDTPDNLCTYQYERDCKDQN-GEKGRCVAGAINNYTTQLLN 121
CSWAD ++ PWSSALH+ +TPD++C Y+ RDC D+ G KGRCV AI NYT QLL
Sbjct: 64 CSWADSLRVVFPWSSALHFANTPDSVCNYKDTRDCVDKKTGIKGRCVVAAITNYTNQLLE 123
Query: 122 HGTD--NSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDAN 179
+G+D + YNLTQ+L+FL+HF+GD+HQPLH GF SD+GGN INV WY RKQNLHH WDA+
Sbjct: 124 YGSDTKSKYNLTQSLLFLSHFLGDVHQPLHCGFFSDKGGNEINVRWYRRKQNLHHVWDAS 183
Query: 180 IIETAEERFYDSNIDEFIDAIQQNIT 205
IIET ERFYD +I++F+DAIQ+NIT
Sbjct: 184 IIETEVERFYD-DIEDFVDAIQRNIT 208
>Glyma13g31890.1
Length = 308
Score = 281 bits (719), Expect = 6e-76, Method: Compositional matrix adjust.
Identities = 132/279 (47%), Positives = 186/279 (66%), Gaps = 11/279 (3%)
Query: 14 SLMLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLP---PGNDLASMCSWADHVK 70
S + P W ++GH + C IAQA L A+E V +LLP GN L+S+C W D ++
Sbjct: 22 SAFIRVPGALAWSKEGHVMTCQIAQALLEPEASEAVYQLLPDYVKGN-LSSLCIWPDQIR 80
Query: 71 FYLP--WSSALHYIDTPDNLCTYQYERDCKDQNGEKGRCVAGAINNYTTQLLNHG---TD 125
+ W+S LH+IDTPDN C++QY RDC D +G + CVAGA+ N+T+QL+++ +D
Sbjct: 81 HWYKYRWTSPLHFIDTPDNACSFQYSRDCHDSHGVEDMCVAGAVKNFTSQLMHYKEGTSD 140
Query: 126 NSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDANIIETAE 185
YN+T+AL+FL+HFMGDIHQP+HVGFT+D GGN+I +HW+ K NLHH WD II TA
Sbjct: 141 RRYNMTEALLFLSHFMGDIHQPMHVGFTTDEGGNTIELHWFRHKSNLHHVWDREIILTAL 200
Query: 186 ERFYDSNIDEFIDAIQQNITK-TWSSQVEGWETCNSNETTCPDIYASEDIKAACQWAYKG 244
+YD ++ + I++N T WS + W+ CN + + C + +A E I+ AC+W Y+G
Sbjct: 201 ADYYDKDVSLLLQDIERNYTDGIWSDDITSWKHCN-DISQCVNNWAKESIQIACKWGYEG 259
Query: 245 VSDGSVLEDDYFLSRLPIVNLRLAQGGVRLAATLNRIFG 283
V G+ L DDYF SR+P V R+AQGG+RLA LN++F
Sbjct: 260 VEAGATLADDYFDSRVPFVMKRIAQGGIRLAMILNKVFA 298
>Glyma15g07430.1
Length = 308
Score = 276 bits (707), Expect = 1e-74, Method: Compositional matrix adjust.
Identities = 130/279 (46%), Positives = 184/279 (65%), Gaps = 11/279 (3%)
Query: 14 SLMLVFPNTQGWGEDGHTIVCSIAQARLSNTAAEKVKELLP---PGNDLASMCSWADHVK 70
S + P W ++GH + C IAQA L A+E V +LLP GN L+++C+W D ++
Sbjct: 22 SAFIGVPGALAWSKEGHVMTCQIAQALLEPEASEAVYQLLPDHVKGN-LSALCTWPDQIR 80
Query: 71 FYLP--WSSALHYIDTPDNLCTYQYERDCKDQNGEKGRCVAGAINNYTTQLLNHG---TD 125
+ W+S LH+IDTPDN C++QY RDC D G + CVAGA+ N+T+QL+++ +D
Sbjct: 81 HWYKYRWTSPLHFIDTPDNACSFQYSRDCHDPQGVEDMCVAGAVKNFTSQLMHYKEGTSD 140
Query: 126 NSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDANIIETAE 185
YN+T+AL+FL+HFMGDIHQP+HVGFT+D GGN+I + W+ K NLHH WD II T
Sbjct: 141 RRYNMTEALLFLSHFMGDIHQPMHVGFTTDEGGNTIELRWFRHKSNLHHVWDREIILTGL 200
Query: 186 ERFYDSNIDEFIDAIQQNITK-TWSSQVEGWETCNSNETTCPDIYASEDIKAACQWAYKG 244
+YD ++ + I++N T WS V W+ CN + + C + +A E I+ AC+W Y+G
Sbjct: 201 ADYYDKDVSFLLQDIERNYTDGIWSDDVTSWKHCN-DISQCVNNWAKESIQIACKWGYEG 259
Query: 245 VSDGSVLEDDYFLSRLPIVNLRLAQGGVRLAATLNRIFG 283
V G+ L DDYF SR+P V R+AQGG+RLA LN++F
Sbjct: 260 VQPGTTLADDYFDSRMPFVMKRIAQGGIRLAMILNKVFA 298
>Glyma16g02180.1
Length = 229
Score = 271 bits (693), Expect = 6e-73, Method: Compositional matrix adjust.
Identities = 134/221 (60%), Positives = 161/221 (72%), Gaps = 6/221 (2%)
Query: 68 HVKFYLPWSSALHYIDTPDNLCTYQYERDCKD-QNGEKGRCVAGAINNYTTQLLNHG--T 124
HV PW+SALHY +TPD LC+Y+ RDC D + G KGRCV AINNYTTQLL +G T
Sbjct: 1 HVHHIYPWASALHYANTPDALCSYKNSRDCVDYKKGIKGRCVVAAINNYTTQLLEYGSGT 60
Query: 125 DNSYNLTQALMFLAHFMGDIHQPLHVGFTSDRGGNSINVHWYTRKQNLHHCWDANIIETA 184
+ YNLTQ+L FL+HFMGDIHQPLH GF SD GGN+I V WY RKQNLHH WD+ I++T
Sbjct: 61 KSRYNLTQSLFFLSHFMGDIHQPLHCGFLSDNGGNAITVRWYKRKQNLHHVWDSTILQTE 120
Query: 185 EERFYDSNIDEFIDAIQQNITKTWSSQVEGWETCNSNETTCPDI---YASEDIKAACQWA 241
+ FYDS+++EFIDA+QQNITK S V + + + + YASE AC+WA
Sbjct: 121 VDNFYDSDMNEFIDALQQNITKPGSLVVSDYYSKHIYILNLGNFFFRYASESTIDACKWA 180
Query: 242 YKGVSDGSVLEDDYFLSRLPIVNLRLAQGGVRLAATLNRIF 282
YK ++GSVL DDYFLSRLPIVN+RLAQ GVRLA LNR+F
Sbjct: 181 YKDATEGSVLNDDYFLSRLPIVNMRLAQAGVRLADILNRVF 221
>Glyma07g31040.1
Length = 207
Score = 105 bits (261), Expect = 6e-23, Method: Compositional matrix adjust.
Identities = 56/103 (54%), Positives = 66/103 (64%), Gaps = 8/103 (7%)
Query: 52 LLPPG--NDLASMCSWADHV--KFYLPWSSALHYIDTPDNLCTYQYERDCKDQNGEKGRC 107
+LP DLA++CSWAD V + W SALHY DTPD C Y+Y RDC D K RC
Sbjct: 1 MLPDSAQGDLAAVCSWADEVGHTYRYRWCSALHYADTPDFKCNYEYFRDCHDSYRHKHRC 60
Query: 108 VAGAINNYTTQLLNHGTDNS----YNLTQALMFLAHFMGDIHQ 146
V+GAI NYT QL + S YNL +ALMFL+HF+GDIHQ
Sbjct: 61 VSGAIYNYTMQLKSADASTSSEFNYNLAEALMFLSHFVGDIHQ 103
>Glyma10g41950.1
Length = 79
Score = 74.7 bits (182), Expect = 1e-13, Method: Compositional matrix adjust.
Identities = 40/79 (50%), Positives = 49/79 (62%), Gaps = 17/79 (21%)
Query: 7 IQLVAIVSLMLVFPNTQGWGEDGHTIVCSIAQ---------------ARLSNTAAEKVKE 51
IQ+VAIVSLMLV PNTQGWGEDGH I+ IAQ ++ ++A + VK
Sbjct: 1 IQVVAIVSLMLVLPNTQGWGEDGHAIISRIAQVTNYFHSLYEVLCCASKFIDSAVDAVKN 60
Query: 52 LLP--PGNDLASMCSWADH 68
LLP NDL ++CSWAD
Sbjct: 61 LLPEYAQNDLGNVCSWADR 79