Miyakogusa Predicted Gene
- Lj0g3v0083589.2
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= Lj0g3v0083589.2 Non Chatacterized Hit- tr|I1MNS0|I1MNS0_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.15324
PE,84.94,0,TATD-RELATED DEOXYRIBONUCLEASE FAMILY PROTEIN,NULL; TATD
FAMILY DEOXYRIBONUCLEASE,TatD family; TatD_,CUFF.4379.2
(312 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma16g26700.4 495 e-140
Glyma16g26700.3 495 e-140
Glyma16g26700.2 495 e-140
Glyma16g26700.1 495 e-140
Glyma02g07660.1 125 5e-29
Glyma09g17320.1 70 4e-12
>Glyma16g26700.4
Length = 311
Score = 495 bits (1275), Expect = e-140, Method: Compositional matrix adjust.
Identities = 245/312 (78%), Positives = 257/312 (82%), Gaps = 1/312 (0%)
Query: 1 MMKLFDAHCHLQDPRILSKAHQLIKTAQDKGVARFAVNGVCEQDWHLVKNLAETYPCVIP 60
M++L DAHCHLQDPRILSKA LIKTAQD GVA FAVNGV EQDWH VK LAETYP VIP
Sbjct: 1 MLRLLDAHCHLQDPRILSKAPHLIKTAQDTGVAYFAVNGVSEQDWHSVKQLAETYPSVIP 60
Query: 61 CFGLHPWYVAERSPDWFKTLKDYFDSTPSAAVGEIGVDKGSQGRKIDFSEQVEVLTQQLE 120
CFGLHPW+V ERSP+WF+TLK+YFDSTPSAAVGEIGVDKGS G+KIDFSEQ+EVL QQLE
Sbjct: 61 CFGLHPWFVKERSPNWFQTLKEYFDSTPSAAVGEIGVDKGSHGKKIDFSEQIEVLRQQLE 120
Query: 121 LAKELNKPASIHCVRAFGDLLELMKSVGPFPAGVILHSYLGSAEMVPEFSKLGAYFSFSG 180
LAKELNKPAS+HCVRAFGDLLELMK +GPFPAGVILHSYLGSAEMV EFSKLGAYFSFSG
Sbjct: 121 LAKELNKPASVHCVRAFGDLLELMKFLGPFPAGVILHSYLGSAEMVHEFSKLGAYFSFSG 180
Query: 181 FXXXXXXXXXXXXXXXVPSDRILLETDAPDALPKSNIDSLLFVEGDASLSEEFQAQRXXX 240
F VP DRILLETDAPDALP SNIDSL FVEGD SL+EE AQ
Sbjct: 181 FLMSLKASKAKKMLKMVPPDRILLETDAPDALPMSNIDSLYFVEGDTSLTEELLAQT-TT 239
Query: 241 XXXXXXXXXXXXHVLKDVSMLPKETLNHPANIRNVLDYVASMLEITKEELAELSYQNAVR 300
HVL D SMLPKETLNHPANI NVLDYVASMLEITKEELAELSYQNAVR
Sbjct: 240 SSTSGSSLGNSSHVLADASMLPKETLNHPANIHNVLDYVASMLEITKEELAELSYQNAVR 299
Query: 301 LFSYEGSKILQK 312
L SYEGSK+LQK
Sbjct: 300 LLSYEGSKVLQK 311
>Glyma16g26700.3
Length = 311
Score = 495 bits (1275), Expect = e-140, Method: Compositional matrix adjust.
Identities = 245/312 (78%), Positives = 257/312 (82%), Gaps = 1/312 (0%)
Query: 1 MMKLFDAHCHLQDPRILSKAHQLIKTAQDKGVARFAVNGVCEQDWHLVKNLAETYPCVIP 60
M++L DAHCHLQDPRILSKA LIKTAQD GVA FAVNGV EQDWH VK LAETYP VIP
Sbjct: 1 MLRLLDAHCHLQDPRILSKAPHLIKTAQDTGVAYFAVNGVSEQDWHSVKQLAETYPSVIP 60
Query: 61 CFGLHPWYVAERSPDWFKTLKDYFDSTPSAAVGEIGVDKGSQGRKIDFSEQVEVLTQQLE 120
CFGLHPW+V ERSP+WF+TLK+YFDSTPSAAVGEIGVDKGS G+KIDFSEQ+EVL QQLE
Sbjct: 61 CFGLHPWFVKERSPNWFQTLKEYFDSTPSAAVGEIGVDKGSHGKKIDFSEQIEVLRQQLE 120
Query: 121 LAKELNKPASIHCVRAFGDLLELMKSVGPFPAGVILHSYLGSAEMVPEFSKLGAYFSFSG 180
LAKELNKPAS+HCVRAFGDLLELMK +GPFPAGVILHSYLGSAEMV EFSKLGAYFSFSG
Sbjct: 121 LAKELNKPASVHCVRAFGDLLELMKFLGPFPAGVILHSYLGSAEMVHEFSKLGAYFSFSG 180
Query: 181 FXXXXXXXXXXXXXXXVPSDRILLETDAPDALPKSNIDSLLFVEGDASLSEEFQAQRXXX 240
F VP DRILLETDAPDALP SNIDSL FVEGD SL+EE AQ
Sbjct: 181 FLMSLKASKAKKMLKMVPPDRILLETDAPDALPMSNIDSLYFVEGDTSLTEELLAQT-TT 239
Query: 241 XXXXXXXXXXXXHVLKDVSMLPKETLNHPANIRNVLDYVASMLEITKEELAELSYQNAVR 300
HVL D SMLPKETLNHPANI NVLDYVASMLEITKEELAELSYQNAVR
Sbjct: 240 SSTSGSSLGNSSHVLADASMLPKETLNHPANIHNVLDYVASMLEITKEELAELSYQNAVR 299
Query: 301 LFSYEGSKILQK 312
L SYEGSK+LQK
Sbjct: 300 LLSYEGSKVLQK 311
>Glyma16g26700.2
Length = 311
Score = 495 bits (1275), Expect = e-140, Method: Compositional matrix adjust.
Identities = 245/312 (78%), Positives = 257/312 (82%), Gaps = 1/312 (0%)
Query: 1 MMKLFDAHCHLQDPRILSKAHQLIKTAQDKGVARFAVNGVCEQDWHLVKNLAETYPCVIP 60
M++L DAHCHLQDPRILSKA LIKTAQD GVA FAVNGV EQDWH VK LAETYP VIP
Sbjct: 1 MLRLLDAHCHLQDPRILSKAPHLIKTAQDTGVAYFAVNGVSEQDWHSVKQLAETYPSVIP 60
Query: 61 CFGLHPWYVAERSPDWFKTLKDYFDSTPSAAVGEIGVDKGSQGRKIDFSEQVEVLTQQLE 120
CFGLHPW+V ERSP+WF+TLK+YFDSTPSAAVGEIGVDKGS G+KIDFSEQ+EVL QQLE
Sbjct: 61 CFGLHPWFVKERSPNWFQTLKEYFDSTPSAAVGEIGVDKGSHGKKIDFSEQIEVLRQQLE 120
Query: 121 LAKELNKPASIHCVRAFGDLLELMKSVGPFPAGVILHSYLGSAEMVPEFSKLGAYFSFSG 180
LAKELNKPAS+HCVRAFGDLLELMK +GPFPAGVILHSYLGSAEMV EFSKLGAYFSFSG
Sbjct: 121 LAKELNKPASVHCVRAFGDLLELMKFLGPFPAGVILHSYLGSAEMVHEFSKLGAYFSFSG 180
Query: 181 FXXXXXXXXXXXXXXXVPSDRILLETDAPDALPKSNIDSLLFVEGDASLSEEFQAQRXXX 240
F VP DRILLETDAPDALP SNIDSL FVEGD SL+EE AQ
Sbjct: 181 FLMSLKASKAKKMLKMVPPDRILLETDAPDALPMSNIDSLYFVEGDTSLTEELLAQT-TT 239
Query: 241 XXXXXXXXXXXXHVLKDVSMLPKETLNHPANIRNVLDYVASMLEITKEELAELSYQNAVR 300
HVL D SMLPKETLNHPANI NVLDYVASMLEITKEELAELSYQNAVR
Sbjct: 240 SSTSGSSLGNSSHVLADASMLPKETLNHPANIHNVLDYVASMLEITKEELAELSYQNAVR 299
Query: 301 LFSYEGSKILQK 312
L SYEGSK+LQK
Sbjct: 300 LLSYEGSKVLQK 311
>Glyma16g26700.1
Length = 311
Score = 495 bits (1275), Expect = e-140, Method: Compositional matrix adjust.
Identities = 245/312 (78%), Positives = 257/312 (82%), Gaps = 1/312 (0%)
Query: 1 MMKLFDAHCHLQDPRILSKAHQLIKTAQDKGVARFAVNGVCEQDWHLVKNLAETYPCVIP 60
M++L DAHCHLQDPRILSKA LIKTAQD GVA FAVNGV EQDWH VK LAETYP VIP
Sbjct: 1 MLRLLDAHCHLQDPRILSKAPHLIKTAQDTGVAYFAVNGVSEQDWHSVKQLAETYPSVIP 60
Query: 61 CFGLHPWYVAERSPDWFKTLKDYFDSTPSAAVGEIGVDKGSQGRKIDFSEQVEVLTQQLE 120
CFGLHPW+V ERSP+WF+TLK+YFDSTPSAAVGEIGVDKGS G+KIDFSEQ+EVL QQLE
Sbjct: 61 CFGLHPWFVKERSPNWFQTLKEYFDSTPSAAVGEIGVDKGSHGKKIDFSEQIEVLRQQLE 120
Query: 121 LAKELNKPASIHCVRAFGDLLELMKSVGPFPAGVILHSYLGSAEMVPEFSKLGAYFSFSG 180
LAKELNKPAS+HCVRAFGDLLELMK +GPFPAGVILHSYLGSAEMV EFSKLGAYFSFSG
Sbjct: 121 LAKELNKPASVHCVRAFGDLLELMKFLGPFPAGVILHSYLGSAEMVHEFSKLGAYFSFSG 180
Query: 181 FXXXXXXXXXXXXXXXVPSDRILLETDAPDALPKSNIDSLLFVEGDASLSEEFQAQRXXX 240
F VP DRILLETDAPDALP SNIDSL FVEGD SL+EE AQ
Sbjct: 181 FLMSLKASKAKKMLKMVPPDRILLETDAPDALPMSNIDSLYFVEGDTSLTEELLAQT-TT 239
Query: 241 XXXXXXXXXXXXHVLKDVSMLPKETLNHPANIRNVLDYVASMLEITKEELAELSYQNAVR 300
HVL D SMLPKETLNHPANI NVLDYVASMLEITKEELAELSYQNAVR
Sbjct: 240 SSTSGSSLGNSSHVLADASMLPKETLNHPANIHNVLDYVASMLEITKEELAELSYQNAVR 299
Query: 301 LFSYEGSKILQK 312
L SYEGSK+LQK
Sbjct: 300 LLSYEGSKVLQK 311
>Glyma02g07660.1
Length = 131
Score = 125 bits (314), Expect = 5e-29, Method: Compositional matrix adjust.
Identities = 83/170 (48%), Positives = 90/170 (52%), Gaps = 39/170 (22%)
Query: 143 LMKSVGPFPAGVILHSYLGSAEMVPEFSKLGAYFSFSGFXXXXXXXXXXXXXXXVPSDRI 202
+ +S+GPFP GVILHS LGSAEMVPEFSKL AYFSFSGF
Sbjct: 1 IFRSLGPFPPGVILHSCLGSAEMVPEFSKLSAYFSFSGFLMSLKAS-------------- 46
Query: 203 LLETDAPDALPKSNIDSLLFVEGDASLSEEFQAQRXXXXXXXXXXXXXXXHVLKDVSMLP 262
+T + IDSL FVEGD SL EE AQ
Sbjct: 47 --KTKKMLKMYYIYIDSLHFVEGDTSLIEELLAQTTT----------------------- 81
Query: 263 KETLNHPANIRNVLDYVASMLEITKEELAELSYQNAVRLFSYEGSKILQK 312
T VLDYVASML ITKE+LAELSYQNAVRL SYEGSK+LQK
Sbjct: 82 SSTSGSSLGTCFVLDYVASMLLITKEDLAELSYQNAVRLLSYEGSKVLQK 131
>Glyma09g17320.1
Length = 63
Score = 69.7 bits (169), Expect = 4e-12, Method: Composition-based stats.
Identities = 30/50 (60%), Positives = 37/50 (74%)
Query: 17 LSKAHQLIKTAQDKGVARFAVNGVCEQDWHLVKNLAETYPCVIPCFGLHP 66
L+KA QL+K +D + F VNGV +QD + VK LA+TYPC IPCFGLHP
Sbjct: 13 LNKAFQLMKATKDTDIRYFTVNGVFDQDRNSVKQLAKTYPCAIPCFGLHP 62