Miyakogusa Predicted Gene

Lj3g3v2317870.1
Show Alignment:  

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= Lj3g3v2317870.1 Non Chatacterized Hit- tr|I1JMG9|I1JMG9_SOYBN
Uncharacterized protein (Fragment) OS=Glycine max
PE=4,79.73,0,seg,NULL; TRNA (GUANINE-N(7)-)-METHYLTRANSFERASE,NULL;
3-DEOXY-D-MANNO-OCTULOSONIC-ACID TRANSFERASE/,CUFF.43836.1
         (299 letters)

Database: Glyma1.pep 
           75,778 sequences; 25,431,882 total letters

Searching..................................................done



                                                                 Score    E
Sequences producing significant alignments:                      (bits) Value

Glyma03g24260.1                                                       462   e-130
Glyma07g12610.1                                                       434   e-122
Glyma04g08330.1                                                        64   1e-10
Glyma06g08450.1                                                        63   4e-10

>Glyma03g24260.1 
          Length = 288

 Score =  462 bits (1189), Expect = e-130,   Method: Compositional matrix adjust.
 Identities = 228/291 (78%), Positives = 249/291 (85%), Gaps = 9/291 (3%)

Query: 8   MLRRVSPFLIIPSLTPTPS-LPFCSNCNLHSSTSPXXXXXXXXXXXXREPHLHSTQLVAA 66
           ++ R SPFL  P   PTPS L F SNC++ SS               ++P   S+QLVA 
Sbjct: 4   LMLRFSPFLATP---PTPSSLSFSSNCHVSSSAQ-----ATLQQQHEQQPLPQSSQLVAL 55

Query: 67  EYADLNLSYDLDLGHVRIRQHVNPLSSSFSVPAQVPDWNQVFADPSLPLMVDIGCGSGRF 126
           EYADLNLSY+LDLGHVRIRQHVNPLSSSFSVPAQVPDWN  FADP+LPLMVDIGCGSGRF
Sbjct: 56  EYADLNLSYNLDLGHVRIRQHVNPLSSSFSVPAQVPDWNHAFADPTLPLMVDIGCGSGRF 115

Query: 127 LMWLAKRTPKERNYLGLEIRQRLVKRAEIWVKDLALDNIHFLFANATISFKQLVESYPGP 186
           LMWLAKRTPKERN+LGLEIR+R+VKRAE W KDLALDNI FLFANATISFKQLVESYPGP
Sbjct: 116 LMWLAKRTPKERNFLGLEIRERIVKRAESWAKDLALDNILFLFANATISFKQLVESYPGP 175

Query: 187 LLLVSILCPDPHFKKKHHKRRVLQKSLVGSIVDNLMPGGQVFVQSDVLEVALDMRNQFDE 246
           L+LVS+LCPDPHFKKKHHKRRVLQK LVG+IVDNLMPGGQVF+QSDV+E+ALDMRNQFDE
Sbjct: 176 LVLVSVLCPDPHFKKKHHKRRVLQKPLVGAIVDNLMPGGQVFIQSDVIEMALDMRNQFDE 235

Query: 247 VDALKHIDDSNPAMLCDSEGWLLSNPMEIRTEREIHAEFEGAKIYRRLYQR 297
           V  LKHI+  +PAMLCDSEGWLLSNPM IRTEREIHAE EGAKIYRRLYQ+
Sbjct: 236 VKTLKHIEVLDPAMLCDSEGWLLSNPMAIRTEREIHAEHEGAKIYRRLYQK 286


>Glyma07g12610.1 
          Length = 287

 Score =  434 bits (1115), Expect = e-122,   Method: Compositional matrix adjust.
 Identities = 205/238 (86%), Positives = 221/238 (92%)

Query: 60  STQLVAAEYADLNLSYDLDLGHVRIRQHVNPLSSSFSVPAQVPDWNQVFADPSLPLMVDI 119
           S+QLVA EYADLNLS++LDLGHVRIRQHVNPLSSS SVPAQVP+WN  FADP+LPLMVDI
Sbjct: 44  SSQLVALEYADLNLSHNLDLGHVRIRQHVNPLSSSLSVPAQVPEWNHAFADPTLPLMVDI 103

Query: 120 GCGSGRFLMWLAKRTPKERNYLGLEIRQRLVKRAEIWVKDLALDNIHFLFANATISFKQL 179
           GCGSGRFLMWLAKRTPKERN+LGLEIRQ++VKRAE W KDLALDN+HFLFANATISFKQL
Sbjct: 104 GCGSGRFLMWLAKRTPKERNFLGLEIRQKIVKRAESWAKDLALDNVHFLFANATISFKQL 163

Query: 180 VESYPGPLLLVSILCPDPHFKKKHHKRRVLQKSLVGSIVDNLMPGGQVFVQSDVLEVALD 239
           VESYPGPL LVSILCPDPHFKK+HHKRRVLQK LV +IVDNLMPGGQVF QSDV E+ALD
Sbjct: 164 VESYPGPLALVSILCPDPHFKKRHHKRRVLQKPLVDAIVDNLMPGGQVFTQSDVFEMALD 223

Query: 240 MRNQFDEVDALKHIDDSNPAMLCDSEGWLLSNPMEIRTEREIHAEFEGAKIYRRLYQR 297
           MRNQFDEV+ LKHI+  NP+MLCDSEGWLL NPM IRTEREIHAE EGAKIYRRLYQ+
Sbjct: 224 MRNQFDEVETLKHIEVLNPSMLCDSEGWLLGNPMGIRTEREIHAEHEGAKIYRRLYQK 281


>Glyma04g08330.1 
          Length = 255

 Score = 64.3 bits (155), Expect = 1e-10,   Method: Compositional matrix adjust.
 Identities = 67/234 (28%), Positives = 108/234 (46%), Gaps = 33/234 (14%)

Query: 83  RIRQHVNPLSSS-FSVPAQVP--DWN----QVF-----ADPSLPL-MVDIGCGSGRFLMW 129
           R R H NPLS S F VP      D++    Q+F     AD S  +   D+GCG G  L+ 
Sbjct: 23  RARAHSNPLSDSHFPVPISPSHVDYSLHYPQLFPLSGQADSSKKIQFADVGCGFGGLLIS 82

Query: 130 LAKRTPKERNYLGLEIRQRLVKRAEIWVKDLALDNIHFLFANATISFKQLVESYP----- 184
           L+   P E   +G+E+R ++ +  +  +  L + N    + N ++     ++  P     
Sbjct: 83  LSTLFP-ETLMIGMELRDKVTEYVKERISSLRVANPG-QYQNVSVVRTNSMKYIPNYFEK 140

Query: 185 GPLLLVSILCPDPHFKKKHHKRRVLQKSLVGSIVDNLMPGGQVFVQSDVLEVALDMRNQF 244
           G L  +  L PDPHFK+K+H+RRV+   L+      L  GG ++  SDV E+        
Sbjct: 141 GTLSKMFFLFPDPHFKEKNHRRRVISPFLLDEYAYVLEVGGIIYTISDVEELG------- 193

Query: 245 DEVDALKHIDDSNPAMLCDSEGWLLSNPMEIRTEREIHAEFEGAKIYRRLYQRW 298
              D +K   +++P     +E  L ++P+    +    A  EG K+ R   Q +
Sbjct: 194 ---DWMKSCLENHPMFEALTEKELEADPV---VKLLSSATEEGQKVARNEGQTF 241


>Glyma06g08450.1 
          Length = 255

 Score = 63.2 bits (152), Expect = 4e-10,   Method: Compositional matrix adjust.
 Identities = 61/235 (25%), Positives = 103/235 (43%), Gaps = 26/235 (11%)

Query: 83  RIRQHVNPLSSS-FSVPAQVPDWNQVFADPSL------------PLMVDIGCGSGRFLMW 129
           R R H NPLS S F VP      +     P L                D+GCG G  L+ 
Sbjct: 23  RARAHSNPLSDSHFPVPISPSHVDYSLHYPQLLPSSGQADTFKKIQFADVGCGFGGLLIS 82

Query: 130 LAKRTPKERNYLGLEIRQRLVKRAEIWVKDLALDNIHFLFANATISFKQLVESYP----- 184
           L+   P E   +G+E+R ++ +  +  +  L + N    + N ++     ++  P     
Sbjct: 83  LSTLFP-ETLMIGMELRDKVTEYVKERILSLRVANPG-QYQNVSVVRTNSMKYIPNYFEK 140

Query: 185 GPLLLVSILCPDPHFKKKHHKRRVLQKSLVGSIVDNLMPGGQVFVQSDVLEVALDMRNQF 244
           G L  +  L PDPHFK+K+H+RRV+   L+      L  GG ++  +DV E+   M++  
Sbjct: 141 GTLSKMFFLFPDPHFKEKNHRRRVISPFLLDEYAYVLEVGGIIYTITDVEELGYWMKSCL 200

Query: 245 DEVDALKHIDDSNPAMLCDSEGWLLSNPMEIRTEREIHAEFEGAKIYRRLYQRWV 299
           +     + + D    +  D+   LLS+     TE        G + ++ +++R V
Sbjct: 201 ENHRMFEALTDKE--LEADAVVKLLSSA----TEEGQKVARNGGQTFQAIFRRIV 249