Miyakogusa Predicted Gene
- Lj1g3v3779370.1
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= Lj1g3v3779370.1 tr|D7CUN9|D7CUN9_TRURR Kelch repeat-containing
protein (Precursor) OS=Truepera radiovictrix (strain
,30.24,2e-17,Kelch_4,NULL; Kelch_6,NULL; Kelch motif,NULL; no
description,Kelch-type beta propeller; SUBFAMILY NO,CUFF.31179.1
(268 letters)
Database: Medicago_aa4.0v1
62,319 sequences; 21,947,249 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Medtr0018s0170.2 | galactose oxidase/kelch repeat protein | HC |... 513 e-146
Medtr0018s0170.1 | galactose oxidase/kelch repeat protein | HC |... 513 e-146
Medtr4g007970.1 | galactose oxidase/kelch repeat protein | HC | ... 485 e-137
>Medtr0018s0170.2 | galactose oxidase/kelch repeat protein | HC |
scaffold0018:68203-74675 | 20130731
Length = 418
Score = 513 bits (1321), Expect = e-146, Method: Compositional matrix adjust.
Identities = 241/269 (89%), Positives = 254/269 (94%), Gaps = 1/269 (0%)
Query: 1 MAHSHLGVATDG-RYIYVVSGQYGPQCRGPINRAYVLDTVTKKWDSLPPLPFPRYAPATQ 59
MA+SHLG+ATDG RYIY+VSGQYGPQCRGP +VLDT T W++LPPLPFPRYAPATQ
Sbjct: 149 MANSHLGIATDGKRYIYIVSGQYGPQCRGPTAIVFVLDTKTTTWNNLPPLPFPRYAPATQ 208
Query: 60 LWKGRLHVMGGSKENRHTPGLDHWSLAVKDGKALEKQWRTEIPIPRGGPHRACIAVNDRL 119
LW+GRLHVMGGSKENRHTPGLDHWSLAVK+GKALEKQWRTEIPIPRGGPHRACI VNDRL
Sbjct: 209 LWRGRLHVMGGSKENRHTPGLDHWSLAVKEGKALEKQWRTEIPIPRGGPHRACIVVNDRL 268
Query: 120 FVIGGQEGDFMAKPGSPIFKCSRRFEVVYKDVYMLDEEMKWKVLPPMPKPNSHIECAWVI 179
+VIGGQEGDFM KPGSPIFKCSRR EVVY DVYMLDEEMKWKVLPPMPKPNSHIECAWVI
Sbjct: 269 YVIGGQEGDFMPKPGSPIFKCSRRLEVVYGDVYMLDEEMKWKVLPPMPKPNSHIECAWVI 328
Query: 180 VNNSIIITGGTTEKHPETKRMMLVGEVFQFHLDSMKWSVIGKLPYRIKTTLAGFWDGWLY 239
VNNSIIITGGTTEKHP TKRMMLVGEVFQF+LD+MKWSVIGKLPYR+KTTLAGFWDGWLY
Sbjct: 329 VNNSIIITGGTTEKHPVTKRMMLVGEVFQFNLDTMKWSVIGKLPYRVKTTLAGFWDGWLY 388
Query: 240 FTSGQRDRGPDNPQPKKVVGEMWRTKLSL 268
FTSGQRDRGPDNPQP+KVVGE WRT LSL
Sbjct: 389 FTSGQRDRGPDNPQPRKVVGETWRTNLSL 417
>Medtr0018s0170.1 | galactose oxidase/kelch repeat protein | HC |
scaffold0018:68203-72162 | 20130731
Length = 418
Score = 513 bits (1321), Expect = e-146, Method: Compositional matrix adjust.
Identities = 241/269 (89%), Positives = 254/269 (94%), Gaps = 1/269 (0%)
Query: 1 MAHSHLGVATDG-RYIYVVSGQYGPQCRGPINRAYVLDTVTKKWDSLPPLPFPRYAPATQ 59
MA+SHLG+ATDG RYIY+VSGQYGPQCRGP +VLDT T W++LPPLPFPRYAPATQ
Sbjct: 149 MANSHLGIATDGKRYIYIVSGQYGPQCRGPTAIVFVLDTKTTTWNNLPPLPFPRYAPATQ 208
Query: 60 LWKGRLHVMGGSKENRHTPGLDHWSLAVKDGKALEKQWRTEIPIPRGGPHRACIAVNDRL 119
LW+GRLHVMGGSKENRHTPGLDHWSLAVK+GKALEKQWRTEIPIPRGGPHRACI VNDRL
Sbjct: 209 LWRGRLHVMGGSKENRHTPGLDHWSLAVKEGKALEKQWRTEIPIPRGGPHRACIVVNDRL 268
Query: 120 FVIGGQEGDFMAKPGSPIFKCSRRFEVVYKDVYMLDEEMKWKVLPPMPKPNSHIECAWVI 179
+VIGGQEGDFM KPGSPIFKCSRR EVVY DVYMLDEEMKWKVLPPMPKPNSHIECAWVI
Sbjct: 269 YVIGGQEGDFMPKPGSPIFKCSRRLEVVYGDVYMLDEEMKWKVLPPMPKPNSHIECAWVI 328
Query: 180 VNNSIIITGGTTEKHPETKRMMLVGEVFQFHLDSMKWSVIGKLPYRIKTTLAGFWDGWLY 239
VNNSIIITGGTTEKHP TKRMMLVGEVFQF+LD+MKWSVIGKLPYR+KTTLAGFWDGWLY
Sbjct: 329 VNNSIIITGGTTEKHPVTKRMMLVGEVFQFNLDTMKWSVIGKLPYRVKTTLAGFWDGWLY 388
Query: 240 FTSGQRDRGPDNPQPKKVVGEMWRTKLSL 268
FTSGQRDRGPDNPQP+KVVGE WRT LSL
Sbjct: 389 FTSGQRDRGPDNPQPRKVVGETWRTNLSL 417
>Medtr4g007970.1 | galactose oxidase/kelch repeat protein | HC |
chr4:1332245-1337777 | 20130731
Length = 409
Score = 485 bits (1248), Expect = e-137, Method: Compositional matrix adjust.
Identities = 221/268 (82%), Positives = 249/268 (92%)
Query: 1 MAHSHLGVATDGRYIYVVSGQYGPQCRGPINRAYVLDTVTKKWDSLPPLPFPRYAPATQL 60
MAHSHLG+ATDGRYIY+V+GQYGPQCRGP + +VLDT TK+W LPPLP PRYAPATQL
Sbjct: 140 MAHSHLGMATDGRYIYIVNGQYGPQCRGPTSDTFVLDTETKQWSGLPPLPVPRYAPATQL 199
Query: 61 WKGRLHVMGGSKENRHTPGLDHWSLAVKDGKALEKQWRTEIPIPRGGPHRACIAVNDRLF 120
W+GRLHVMGGSKENRHTPGL+HWSLAVK+GKALEK+WR+EIPIP GGPHRAC+ NDRL+
Sbjct: 200 WRGRLHVMGGSKENRHTPGLEHWSLAVKNGKALEKEWRSEIPIPHGGPHRACVVANDRLY 259
Query: 121 VIGGQEGDFMAKPGSPIFKCSRRFEVVYKDVYMLDEEMKWKVLPPMPKPNSHIECAWVIV 180
V+GGQEGDFMAKPGSPIFKCSRR EVVY DVYMLD+EMKWKVLPPMPK NSHIE AWV+V
Sbjct: 260 VLGGQEGDFMAKPGSPIFKCSRRMEVVYPDVYMLDDEMKWKVLPPMPKQNSHIEFAWVLV 319
Query: 181 NNSIIITGGTTEKHPETKRMMLVGEVFQFHLDSMKWSVIGKLPYRIKTTLAGFWDGWLYF 240
NNSI+I GGTTEKHPETK+M+L GEVFQF+L+++KWSVIGKLPYR+KTTL GFW+GWLYF
Sbjct: 320 NNSIVIAGGTTEKHPETKKMVLNGEVFQFNLNTLKWSVIGKLPYRVKTTLVGFWNGWLYF 379
Query: 241 TSGQRDRGPDNPQPKKVVGEMWRTKLSL 268
TSGQRD+GPD+P PKKVVG+MWRTKL L
Sbjct: 380 TSGQRDKGPDDPSPKKVVGDMWRTKLKL 407