Miyakogusa Predicted Gene
- Lj1g3v3207810.1
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= Lj1g3v3207810.1 Non Chatacterized Hit- tr|D7TLY6|D7TLY6_VITVI
Putative uncharacterized protein OS=Vitis vinifera
GN=,39.13,0.00000000000003,F-box,F-box domain, cyclin-like; no
description,NULL; FBOX,F-box domain, cyclin-like; F-box
domain,F,CUFF.30187.1
(391 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma18g52370.1 572 e-163
Glyma20g23120.1 449 e-126
Glyma10g43670.1 441 e-124
Glyma02g10500.1 342 5e-94
Glyma18g52380.1 85 1e-16
Glyma07g00640.1 52 8e-07
Glyma13g33790.1 52 1e-06
>Glyma18g52370.1
Length = 392
Score = 572 bits (1475), Expect = e-163, Method: Compositional matrix adjust.
Identities = 283/392 (72%), Positives = 326/392 (83%), Gaps = 7/392 (1%)
Query: 6 AKDLFSNLPNEILRHIVSFLPNESAIETIFLSTRWRNLWNEALVRHGTKENITQVVAGFL 65
KDLFSNLP++IL IVSFLPNES++ET LSTRWR+LWNEALV+HGT+E+I VVA F+
Sbjct: 2 GKDLFSNLPDQILCRIVSFLPNESSLETSLLSTRWRDLWNEALVKHGTQEDIIGVVADFI 61
Query: 66 QRFEELDPLKHPRKLQFHFGEGRIVMATIANNSKLFLDFSTWKKELIEIQYELQFKLSKM 125
FEE DPLKHPRKLQFHF E +V T+ANNSKL LDFS WK+E I I YEL+FKLSK
Sbjct: 62 TNFEEFDPLKHPRKLQFHFAEESVVSVTVANNSKLMLDFSPWKEE-IPIGYELEFKLSKQ 120
Query: 126 -----QSFTSNISVKTLYLKSISYLTSGVASTIISNLEHLENLVIIECSGLQSLSIDSAS 180
QSF S SVKTL+LKS+S TS VA++I+SNLEHLENLV+I+C GL+SLS+DS S
Sbjct: 121 HIATYQSFPSTFSVKTLHLKSVSCFTSEVAASIVSNLEHLENLVVIDCKGLESLSVDSTS 180
Query: 181 ELQKLTIWDCLQLKSLHLRTSKLKSFQISGPLPLIRPEYHFNLSDAMLDFRLGPSCRNFK 240
EL KLTI DCL+LK+L L+TSKLKSF+ GPLPLIRPEYHFNLS+AMLDFRLG SC K
Sbjct: 181 ELHKLTILDCLELKTLRLKTSKLKSFRYRGPLPLIRPEYHFNLSNAMLDFRLGLSCSGLK 240
Query: 241 TRDFDATLLTIKNSQVLTLCKWTFEELIWPSVSPIAGSFKFYKLRELWWIDSY-KDEYNM 299
+DFDATLLTIKNS+VLTLCKWTFEELIWPS+SP++GSFKFYKLRELWWID+Y KDE N
Sbjct: 241 AKDFDATLLTIKNSEVLTLCKWTFEELIWPSISPLSGSFKFYKLRELWWIDNYNKDESNK 300
Query: 300 DALFCFLKLCPALEQLFVTIDPESYWTESTNSCLMQTTKCVELKHLKLVKLMGFTCRKDE 359
DALF FLKLCP LEQLFVT DPESY +NS +++ TKC ++HLKL+K MGF+ R+DE
Sbjct: 301 DALFSFLKLCPTLEQLFVTNDPESYLAGGSNSYVVKGTKCTGMEHLKLIKFMGFSSRRDE 360
Query: 360 ISLAKCLSHLIKGKPPKINTSDGNCWDAEFVQ 391
ISLAKCL HLIKGKPPKI TSDGN DA FV+
Sbjct: 361 ISLAKCLIHLIKGKPPKIKTSDGNSLDAMFVE 392
>Glyma20g23120.1
Length = 356
Score = 449 bits (1155), Expect = e-126, Method: Compositional matrix adjust.
Identities = 233/386 (60%), Positives = 284/386 (73%), Gaps = 33/386 (8%)
Query: 7 KDLFSNLPNEILRHIVSFLPNESAIETIFLSTRWRNLWNEALVRHGTKENITQVVAGFLQ 66
+DLFSNLP+E+L IVSFLPNESA+ET +STRWR+LWN+ LVRHGT ++IT VVAGFL
Sbjct: 2 EDLFSNLPDEVLSCIVSFLPNESALETSLISTRWRDLWNQVLVRHGTTQDITGVVAGFLS 61
Query: 67 RFEELDPLKHPRKLQFHFGEGRIVM-ATIANNSKLFLDFSTWKKELIEIQYELQFKLSKM 125
RFEELDPLKHPRKLQFHF + + A+IA N+ +
Sbjct: 62 RFEELDPLKHPRKLQFHFADQDTALFASIATNN--------------------------L 95
Query: 126 QSFTSNISVKTLYLKSISYLTSGVASTIISNLEHLENLVIIECSGLQSLSIDSASELQKL 185
+ VKTLYLKS+S+LTS + S+I+SNLEHLE L+I+EC+GLQSL I+S S+L KL
Sbjct: 96 NTVPPTFLVKTLYLKSVSHLTSELVSSIVSNLEHLEKLMIVECTGLQSLFIESESKLHKL 155
Query: 186 TIWDCLQLKSLHLRTSKLKSFQISGPLPLIRPEYHFNLSDAMLDFRLGPSCRNFKTRDFD 245
TI DC QLKSLHLRTSKLK F++ GPLP I PE HFNLS AMLDFRLGPSC +FK +DF+
Sbjct: 156 TILDCPQLKSLHLRTSKLKRFRLHGPLPKIWPESHFNLSHAMLDFRLGPSCADFKAQDFN 215
Query: 246 ATLLTIKNSQVLTLCKWTFEELIWPSVSPIAGSFKFYKLRELWWIDSYKDEYNMDALFCF 305
TLLTIKN + LTLC+WTF+ LIWPS+SP +G+F FYK+RELWWI +++ E +M+AL F
Sbjct: 216 QTLLTIKNCEALTLCEWTFQALIWPSISP-SGNFIFYKIRELWWIHNHRGENSMEALVSF 274
Query: 306 LKLCPALEQLFVTIDPESYWTESTNSCLMQTTK-CVELKHLKLVKLMGFTCRKDEISLAK 364
LKLCPALEQLFVT D SY +NSCL Q TK +L+HLK +K MGFT R DEIS+AK
Sbjct: 275 LKLCPALEQLFVTNDSTSYSAPRSNSCLTQATKYSTKLEHLKRIKFMGFTNRVDEISVAK 334
Query: 365 CLSHLIKGKPPKINTSDGNCWDAEFV 390
L L++G+PPKI T C +A V
Sbjct: 335 RLIELVRGEPPKIET----CLNAVLV 356
>Glyma10g43670.1
Length = 376
Score = 441 bits (1134), Expect = e-124, Method: Compositional matrix adjust.
Identities = 236/393 (60%), Positives = 293/393 (74%), Gaps = 26/393 (6%)
Query: 7 KDLFSNLPNEILRHIVSFLPNESAIETIFLSTRWRNLWNEALVRHG-TKENITQVVAGFL 65
+D FSNLP+EIL IVSFLP +ET +STRWR+LWN+ALVRHG T++++ VVAGFL
Sbjct: 2 EDPFSNLPDEILSCIVSFLP----LETSLISTRWRDLWNQALVRHGSTQDDVASVVAGFL 57
Query: 66 QRFEELDPLKHPRKLQFHFGEGRIVM-ATIANNSKLFLDFSTWKKELIEIQYELQFKLSK 124
RFEELDPLKHPRKL FHF + + A+IA N+ ++ QYEL+F L+K
Sbjct: 58 SRFEELDPLKHPRKLHFHFSDQDTALFASIATNN-------------LKKQYELKFILNK 104
Query: 125 MQSFTSNIS----VKTLYLKSISYLTSGVASTIISNLEHLENLVIIECSGLQSLSIDSAS 180
+ + VKTLYLKS+S+LTS + S+I+SNLEHLE LVI+EC+GLQSL I+S S
Sbjct: 105 HHITHNTVPPTFLVKTLYLKSVSHLTSELISSIVSNLEHLEKLVIVECTGLQSLFIESES 164
Query: 181 ELQKLTIWDCLQLKSLHLRTSKLKSFQISGPLPLIRPEYHFNLSDAMLDFRLGPSCRNFK 240
+L +LTI DC QLKSLHLRTSKLKSF++ GPLP I PE HFNLS AML+FRLGPSC +FK
Sbjct: 165 KLHELTILDCPQLKSLHLRTSKLKSFRLDGPLPTIWPESHFNLSHAMLNFRLGPSCADFK 224
Query: 241 TRDFDATLLTIKNSQVLTLCKWTFEELIWPSVSPIAGSFKFYKLRELWWIDSYKDEYNMD 300
+ F+ TLLTIKN + LTLC+WTF+ELIWPS+SP +G+F FYK+RELWWI +++ E +MD
Sbjct: 225 AQYFNQTLLTIKNCEALTLCEWTFQELIWPSISP-SGNFIFYKIRELWWIHNHRGENSMD 283
Query: 301 ALFCFLKLCPALEQLFVTIDPESYWTESTNS-CLMQTTK-CVELKHLKLVKLMGFTCRKD 358
L FLKLCPALEQLFVT D SY +NS CL Q T+ +L+HLK +K MGFT R D
Sbjct: 284 TLVSFLKLCPALEQLFVTNDSTSYSAPRSNSYCLTQETEYSTKLEHLKRIKFMGFTNRVD 343
Query: 359 EISLAKCLSHLIKGKPPKINTSDGNCWDAEFVQ 391
EIS+AK L L+KG+PPKI TSD +C + VQ
Sbjct: 344 EISVAKKLIELVKGEPPKIETSDESCLNVVIVQ 376
>Glyma02g10500.1
Length = 209
Score = 342 bits (876), Expect = 5e-94, Method: Compositional matrix adjust.
Identities = 163/208 (78%), Positives = 182/208 (87%), Gaps = 1/208 (0%)
Query: 185 LTIWDCLQLKSLHLRTSKLKSFQISGPLPLIRPEYHFNLSDAMLDFRLGPSCRNFKTRDF 244
LTI DCL+LK+LHL+TS+LKSF+ GPLPL+RPEYHFNL DAMLDFRLG SC KT+DF
Sbjct: 2 LTILDCLELKTLHLKTSRLKSFRYRGPLPLLRPEYHFNLRDAMLDFRLGLSCSGLKTKDF 61
Query: 245 DATLLTIKNSQVLTLCKWTFEELIWPSVSPIAGSFKFYKLRELWWIDSY-KDEYNMDALF 303
DATLLTIKN +VLTLCKWTFEELIWPS+SP++GSF FYKLRELWWID+Y +DEYN DALF
Sbjct: 62 DATLLTIKNCEVLTLCKWTFEELIWPSISPLSGSFIFYKLRELWWIDNYHEDEYNTDALF 121
Query: 304 CFLKLCPALEQLFVTIDPESYWTESTNSCLMQTTKCVELKHLKLVKLMGFTCRKDEISLA 363
FLKLCP+LE LFVTIDPESY +NSCLM+ TKC EL+HLKL+K MGF+ RKDEISLA
Sbjct: 122 SFLKLCPSLEHLFVTIDPESYSAGGSNSCLMKGTKCTELEHLKLIKFMGFSSRKDEISLA 181
Query: 364 KCLSHLIKGKPPKINTSDGNCWDAEFVQ 391
KCL HLIKGKPPKI TSDGNC DA FVQ
Sbjct: 182 KCLIHLIKGKPPKIKTSDGNCLDAVFVQ 209
>Glyma18g52380.1
Length = 98
Score = 85.1 bits (209), Expect = 1e-16, Method: Composition-based stats.
Identities = 39/47 (82%), Positives = 41/47 (87%)
Query: 221 FNLSDAMLDFRLGPSCRNFKTRDFDATLLTIKNSQVLTLCKWTFEEL 267
FNLSDAMLDFRLG SCR K +DFDATLLTIKN +VLTLCKWTFEE
Sbjct: 47 FNLSDAMLDFRLGLSCRGLKAKDFDATLLTIKNFEVLTLCKWTFEEF 93
>Glyma07g00640.1
Length = 299
Score = 52.4 bits (124), Expect = 8e-07, Method: Compositional matrix adjust.
Identities = 64/252 (25%), Positives = 108/252 (42%), Gaps = 47/252 (18%)
Query: 11 SNLPNEILRHIVSFLPNESAIETIFLSTRWRNLWNEALVRHGTKENITQVVAGFLQRFEE 70
SNLP+E+L I+S L +SA++T LS RWR++W + V FL
Sbjct: 2 SNLPDEVLHRILSTLDAKSAVQTCVLSKRWRHVWT------------SLPVLNFLD--SS 47
Query: 71 LDPLKHPRKLQFHFGEGRIVMATIANNSKLFLDFSTWKKELIEIQYELQFKLSKMQSFTS 130
D H + HF R + I+ L+F+ EL + + + + T
Sbjct: 48 FDDFLHFQCFVDHFLSRRDASSNIS-----VLNFACTDHELDDGHTHIVDSIIDHVTLTP 102
Query: 131 NISVKTLYLKSISYLTSGVASTIISNLEHL---ENLVIIECSGL--QSLSID--SASELQ 183
I+++ LY+ VA I+ L L ++L ++ + + ++ + D S + L
Sbjct: 103 PITIQGLYI---------VAECIVGKLPQLSICQSLTTLKLAHISTETTTFDFLSLTHLH 153
Query: 184 KLTIWDCLQLKSLHLRTSK----LKSFQISGP------LPLIRPEYHFNLSDAMLDFRLG 233
DCL LK L+L + + F+I P + L+R + F+ SD +
Sbjct: 154 LFDCRDCLNLKHLYLHRCQYYGGFQRFKIFAPKLTLLSIALMRVDEMFD-SDCTIQL-FT 211
Query: 234 PSCRNFKTRDFD 245
P ++F DFD
Sbjct: 212 PKLQSFTYCDFD 223
>Glyma13g33790.1
Length = 357
Score = 52.0 bits (123), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 30/94 (31%), Positives = 48/94 (51%), Gaps = 16/94 (17%)
Query: 7 KDLFSNLPNEILRHIVSFLPNESAIETIFLSTRWRNLWNEALVRHGTKENITQVVAGFLQ 66
KD+FS+LP+ I+ I+S LP + A+ T LS RWRNLW H
Sbjct: 2 KDIFSDLPDVIIGRILSILPTKEAVRTSILSKRWRNLWKFVTKLH--------------- 46
Query: 67 RFEELDPLKHPRKLQFHFGEGRIVMATIANNSKL 100
F++++P + + +FHF + + NNS++
Sbjct: 47 -FQDIEPYRRNKIDKFHFLDFVYGVLFHLNNSRI 79