Miyakogusa Predicted Gene
- Lj6g3v1618290.2
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= Lj6g3v1618290.2 Non Chatacterized Hit- tr|D7TKP7|D7TKP7_VITVI
Putative uncharacterized protein OS=Vitis vinifera
GN=,67.11,0,seg,NULL; Toprim_4,Toprim domain; AAA_25,NULL; no
description,Toprim domain; P-loop containing nucle,CUFF.59703.2
(695 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma09g03310.1 808 0.0
Glyma15g14240.1 807 0.0
Glyma09g03340.1 341 2e-93
Glyma15g14250.1 245 9e-65
Glyma09g03320.1 204 2e-52
Glyma07g15870.1 103 7e-22
>Glyma09g03310.1
Length = 456
Score = 808 bits (2086), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 378/429 (88%), Positives = 405/429 (94%), Gaps = 1/429 (0%)
Query: 256 IFWQEADTEKILYGVDDIVGQSDIIIVEGEMDKLAMEEAGFRNCVSVPDGAPPAVSSKE- 314
+FWQEA+TEKI YG+DDIVG +DIIIVEGEMDKLAMEEAGF NCVSVPDGAPP+VSSKE
Sbjct: 1 MFWQEANTEKIFYGLDDIVGHNDIIIVEGEMDKLAMEEAGFFNCVSVPDGAPPSVSSKEE 60
Query: 315 LPPTEKDRKYQYLWNCKNELKQASRIILATDGDQPGQALAEELARRIGKEKCWRVRWPKK 374
LPP +KD+KYQYLWNCK+ELK+A+R+ILATDGD PGQALAEELARRIGKEKCWRVRWP+K
Sbjct: 61 LPPQDKDKKYQYLWNCKDELKKATRVILATDGDPPGQALAEELARRIGKEKCWRVRWPRK 120
Query: 375 GRDGNCKDANEVLMYLGPEALREVIENAELFPIRGLFNFRDYFDEIDAYYHRTQGYDIGL 434
R NCKDANEVLMYLGP+AL+EVIENAEL+PIRGLFNFRDYFDEIDAYYHRT GYDIG+
Sbjct: 121 SRSDNCKDANEVLMYLGPDALKEVIENAELYPIRGLFNFRDYFDEIDAYYHRTLGYDIGI 180
Query: 435 STGWNNLNELYNVVPGELTIVTGVPNSGKSEWIDALICNLNKSDGWKFALCSMENKVSQH 494
STGWNNLN+LYNVVPGELTIVTGVPNSGKSEWIDAL+CNLN+ GWKFALCSMENKV +H
Sbjct: 181 STGWNNLNDLYNVVPGELTIVTGVPNSGKSEWIDALLCNLNEIAGWKFALCSMENKVREH 240
Query: 495 ARKLLEKHWKKPFINSRYGEHAERMSVEEYEQGKLWLSDTFYLIRCEDDALPNVKWVLEL 554
ARKLLEKH KKPF N RYGE ERMSVEE+EQGKLWLSDTF LIRCED++LPN+ WVL+L
Sbjct: 241 ARKLLEKHLKKPFFNERYGESVERMSVEEFEQGKLWLSDTFSLIRCEDNSLPNISWVLDL 300
Query: 555 AKAAVLRHGVRGLVIDPYNELDHQRPPNQTETEYVSQMLTLIKRFAQHHGCHVWFVAHPR 614
AKAAVLRHGVRGLVIDPYNELDHQRPPNQTETEYVSQMLTLIKRFAQHHGCHVWFVAHPR
Sbjct: 301 AKAAVLRHGVRGLVIDPYNELDHQRPPNQTETEYVSQMLTLIKRFAQHHGCHVWFVAHPR 360
Query: 615 QLHNWVGGPPNLYDISGSAHFINKCDNGIVIHRNRDPEAGALDQVQVCVRKVRNKVAGTI 674
QLHNWVG PPNLYDISGSAHFINKCDNGIVIHRNRDPE+G +DQVQVCVRKVRNKVAGTI
Sbjct: 361 QLHNWVGDPPNLYDISGSAHFINKCDNGIVIHRNRDPESGPIDQVQVCVRKVRNKVAGTI 420
Query: 675 GEAFLAYNR 683
GEA L YNR
Sbjct: 421 GEAMLLYNR 429
>Glyma15g14240.1
Length = 438
Score = 807 bits (2085), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 377/423 (89%), Positives = 401/423 (94%)
Query: 260 EADTEKILYGVDDIVGQSDIIIVEGEMDKLAMEEAGFRNCVSVPDGAPPAVSSKELPPTE 319
EA+TEKI YG+DDIVG SDIIIVEGEMDKLAMEEAGF NCVSVPDGAPP++SSKELPP +
Sbjct: 1 EANTEKIFYGLDDIVGHSDIIIVEGEMDKLAMEEAGFLNCVSVPDGAPPSISSKELPPQD 60
Query: 320 KDRKYQYLWNCKNELKQASRIILATDGDQPGQALAEELARRIGKEKCWRVRWPKKGRDGN 379
KD+KYQYLWNCK+ELK+A+R+ILATDGD PGQALAEELARRIGKEKCWRVRWP+K R N
Sbjct: 61 KDKKYQYLWNCKDELKKATRVILATDGDPPGQALAEELARRIGKEKCWRVRWPRKSRSDN 120
Query: 380 CKDANEVLMYLGPEALREVIENAELFPIRGLFNFRDYFDEIDAYYHRTQGYDIGLSTGWN 439
CKDANEVLMYLGP+AL+EVIENAEL+PIRGLFNFRDYFDEIDAYYHRT GYDIG+STGWN
Sbjct: 121 CKDANEVLMYLGPDALKEVIENAELYPIRGLFNFRDYFDEIDAYYHRTLGYDIGISTGWN 180
Query: 440 NLNELYNVVPGELTIVTGVPNSGKSEWIDALICNLNKSDGWKFALCSMENKVSQHARKLL 499
NLN+LYNVVPGELTIVTGVPNSGKSEWIDAL+CNLN+ GWKFALCSMENKV +HARKLL
Sbjct: 181 NLNDLYNVVPGELTIVTGVPNSGKSEWIDALLCNLNEIVGWKFALCSMENKVREHARKLL 240
Query: 500 EKHWKKPFINSRYGEHAERMSVEEYEQGKLWLSDTFYLIRCEDDALPNVKWVLELAKAAV 559
EKH KKPF N RYGE ERMSVEE+EQGKLWLSDTF LIRCEDD+LPN+ WVL+LAKAAV
Sbjct: 241 EKHLKKPFFNERYGESVERMSVEEFEQGKLWLSDTFSLIRCEDDSLPNISWVLDLAKAAV 300
Query: 560 LRHGVRGLVIDPYNELDHQRPPNQTETEYVSQMLTLIKRFAQHHGCHVWFVAHPRQLHNW 619
LRHGVRGLVIDPYNELDHQRPPNQTETEYVSQMLTLIKRFAQHHGCHVWFVAHPRQLHNW
Sbjct: 301 LRHGVRGLVIDPYNELDHQRPPNQTETEYVSQMLTLIKRFAQHHGCHVWFVAHPRQLHNW 360
Query: 620 VGGPPNLYDISGSAHFINKCDNGIVIHRNRDPEAGALDQVQVCVRKVRNKVAGTIGEAFL 679
VGGPPNLYDISGSAHFINKCDNGIVIHRNRDPEAG +DQVQVCVRKVRNKVAGTIGEA L
Sbjct: 361 VGGPPNLYDISGSAHFINKCDNGIVIHRNRDPEAGPIDQVQVCVRKVRNKVAGTIGEAIL 420
Query: 680 AYN 682
YN
Sbjct: 421 LYN 423
>Glyma09g03340.1
Length = 375
Score = 341 bits (875), Expect = 2e-93, Method: Compositional matrix adjust.
Identities = 178/330 (53%), Positives = 227/330 (68%), Gaps = 8/330 (2%)
Query: 77 ASYSTVP-RPARLENPEDSSVHM-KFEALKKKLKVVGIETE-TCLPGQHNHLTCPECLGG 133
A +T+P P E DSS K + LK+K++++GI E +CLPG++++L CP+C GG
Sbjct: 45 ARATTLPTSPGGAEQVVDSSFDAPKVKLLKQKMELLGINLEKSCLPGKYHNLFCPKCKGG 104
Query: 134 NSAEKSLSLYIAPDWDSAVWVCFRGTCGWTGSTQGFAGSSSYPTKKGQVIPVKKKRALKE 193
E+SLS +I D + A+W CFR CGW G + G R L E
Sbjct: 105 QLKERSLSFHIISDCEFAMWRCFRAQCGWAGQV----SADDKELYSGVCTNANLYRQLAE 160
Query: 194 EDLELEPLCSELVAYFSERLITKETLQRNDVKQRKYGDQIVIAFPYHRNGTLVSCKYRDI 253
E L LEPL E+VAYF ERLI+++TL RN V+Q ++ VIAF Y +NG LV CKYR +
Sbjct: 161 ESLGLEPLGPEVVAYFGERLISEKTLSRNAVRQLS-NNKTVIAFTYKQNGLLVGCKYRTM 219
Query: 254 NKIFWQEADTEKILYGVDDIVGQSDIIIVEGEMDKLAMEEAGFRNCVSVPDGAPPAVSSK 313
K FWQ +KILYG+DDI S+IIIVEGE+DKL++EEAGF+NCVSVP GAP VSSK
Sbjct: 220 EKRFWQGKGADKILYGIDDISQASEIIIVEGEIDKLSLEEAGFQNCVSVPVGAPEKVSSK 279
Query: 314 ELPPTEKDRKYQYLWNCKNELKQASRIILATDGDQPGQALAEELARRIGKEKCWRVRWPK 373
+LPP EKD ++YLWNCK L +A RIILATD D PGQALAEELARR+G+E+CWRV WPK
Sbjct: 280 DLPPIEKDTAFRYLWNCKEYLDKAVRIILATDNDPPGQALAEELARRLGRERCWRVLWPK 339
Query: 374 KGRDGNCKDANEVLMYLGPEALREVIENAE 403
K + KDANEVL Y+G +AL++++ENAE
Sbjct: 340 KDEFSSFKDANEVLKYMGADALKKLVENAE 369
>Glyma15g14250.1
Length = 220
Score = 245 bits (626), Expect = 9e-65, Method: Compositional matrix adjust.
Identities = 137/223 (61%), Positives = 163/223 (73%), Gaps = 5/223 (2%)
Query: 1 MLLRHPHTLFPLFTSSKLATTMTTQTLFHTIPFXXXXXXXXXXXXXXXX-XAFFTVFCSK 59
M LR+PHTL PLFTS KL TTM TQTLFH+ PF FFTVFCSK
Sbjct: 1 MRLRYPHTLLPLFTSLKL-TTMNTQTLFHSSPFPNLKNTFFSQRRRFPSHRPFFTVFCSK 59
Query: 60 PVSKHLPSPLRTNGYAGASYSTVPRPARLENPEDSSVHMKFEALKKKLKVVGIETETCLP 119
P+S++ PSPLRTNGY G+S++++PRP +LE+P + SV + LKKKL+ +G+ET C P
Sbjct: 60 PISRNPPSPLRTNGYHGSSHASIPRPVQLESPMEKSVEFQLNILKKKLEAIGMETGMCEP 119
Query: 120 GQHNHLTCPECLGGNSAEKSLSLYIAPDWDSAVWVCFRGTCGWTGSTQGFAGSSSYPTKK 179
GQ+NHL CPECLGG+ E+SLSLYIAPD SA W CFRG CGW GSTQ FAGSSS +
Sbjct: 120 GQYNHLLCPECLGGDQEERSLSLYIAPDGGSAAWNCFRGKCGWKGSTQAFAGSSS---AR 176
Query: 180 GQVIPVKKKRALKEEDLELEPLCSELVAYFSERLITKETLQRN 222
QV PVKK R + EE+LELEPLC ELV YFSERLI+K+TL+RN
Sbjct: 177 TQVDPVKKIRKITEEELELEPLCDELVVYFSERLISKQTLERN 219
>Glyma09g03320.1
Length = 188
Score = 204 bits (520), Expect = 2e-52, Method: Compositional matrix adjust.
Identities = 104/189 (55%), Positives = 133/189 (70%), Gaps = 4/189 (2%)
Query: 22 MTTQTLFHTIPFXXXXXXXXXXXXXXX-XXAFFTVFCSKPVSKHLPSPLRTNGYAGASYS 80
MTTQT FH+ PF FFTVFCSKP+S++ P PLRTNGY GAS +
Sbjct: 1 MTTQTFFHSSPFPNLKNTLFSQRHRFPCHRPFFTVFCSKPISRNPPLPLRTNGYHGASQA 60
Query: 81 TVPRPARLENPEDSSVHMKFEALKKKLKVVGIETETCLPGQHNHLTCPECLGGNSAEKSL 140
++PRP +LE+P + ++ ++ LKKKL+ +G+ETE C PGQ+NHL CPECLGG+ E+SL
Sbjct: 61 SIPRPVQLESPVEKNMELQLNILKKKLEAIGVETEMCEPGQYNHLLCPECLGGDQEERSL 120
Query: 141 SLYIAPDWDSAVWVCFRGTCGWTGSTQGFAGSSSYPTKKGQVIPVKKKRALKEEDLELEP 200
SLYIAPD SA W CFRG CGW GSTQ FAGS+S + Q+ PVKK R + EE+LELEP
Sbjct: 121 SLYIAPDGGSAAWNCFRGKCGWKGSTQAFAGSNS---ARTQLAPVKKIRKITEEELELEP 177
Query: 201 LCSELVAYF 209
LC E++ ++
Sbjct: 178 LCDEVIKFY 186
>Glyma07g15870.1
Length = 63
Score = 103 bits (257), Expect = 7e-22, Method: Composition-based stats.
Identities = 44/63 (69%), Positives = 55/63 (87%)
Query: 384 NEVLMYLGPEALREVIENAELFPIRGLFNFRDYFDEIDAYYHRTQGYDIGLSTGWNNLNE 443
++VLMYLG +AL+EVIEN +L+PI GLFNF+ YFDEIDAY HRT GYD+G++T WNN N+
Sbjct: 1 SQVLMYLGLDALKEVIENTKLYPIHGLFNFKYYFDEIDAYDHRTLGYDVGITTRWNNPND 60
Query: 444 LYN 446
LYN
Sbjct: 61 LYN 63