BLASTP 2.2.26 [Sep-21-2011]
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= 023395
(283 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|2G04|A Chain A, Crystal Structure Of Fatty Acid-Coa Racemase From
Mycobacterium Tuberculosis H37rv
pdb|2G04|B Chain B, Crystal Structure Of Fatty Acid-Coa Racemase From
Mycobacterium Tuberculosis H37rv
pdb|2G04|C Chain C, Crystal Structure Of Fatty Acid-Coa Racemase From
Mycobacterium Tuberculosis H37rv
pdb|2G04|D Chain D, Crystal Structure Of Fatty Acid-Coa Racemase From
Mycobacterium Tuberculosis H37rv
pdb|2G04|E Chain E, Crystal Structure Of Fatty Acid-Coa Racemase From
Mycobacterium Tuberculosis H37rv
pdb|2G04|F Chain F, Crystal Structure Of Fatty Acid-Coa Racemase From
Mycobacterium Tuberculosis H37rv
Length = 359
Score = 29.6 bits (65), Expect = 2.0, Method: Compositional matrix adjust.
Identities = 25/85 (29%), Positives = 38/85 (44%), Gaps = 11/85 (12%)
Query: 185 IGRKVDLNAHASYESLAQTLEEMFFASTPAINSIGGEKDLATKAFKLLDGLSEFVLTYED 244
+G+ VD LAQ + M IG +D + LLDG + F YE
Sbjct: 182 VGQVVDAAMVDGVSVLAQMMWTM--------KGIGSLRD--QRESFLLDGGAPFYRCYET 231
Query: 245 KEGDWMLVGDV-PWRYATIILHLGV 268
+G +M VG + P +A ++ LG+
Sbjct: 232 SDGKYMAVGAIEPQFFAALLSGLGL 256
>pdb|1X74|A Chain A, Alpha-Methylacyl-Coa Racemase From Mycobacterium
Tuberculosis- Mutational And Structural Characterization
Of The Fold And Active Site
pdb|1X74|B Chain B, Alpha-Methylacyl-Coa Racemase From Mycobacterium
Tuberculosis- Mutational And Structural Characterization
Of The Fold And Active Site
pdb|1X74|C Chain C, Alpha-Methylacyl-Coa Racemase From Mycobacterium
Tuberculosis- Mutational And Structural Characterization
Of The Fold And Active Site
pdb|1X74|D Chain D, Alpha-Methylacyl-Coa Racemase From Mycobacterium
Tuberculosis- Mutational And Structural Characterization
Of The Fold And Active Site
pdb|2GCE|A Chain A, The 1,1-Proton Transfer Reaction Mechanism By Alpha-
Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A SMOOTH,
METHIONINE- Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCE|B Chain B, The 1,1-Proton Transfer Reaction Mechanism By Alpha-
Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A SMOOTH,
METHIONINE- Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCE|C Chain C, The 1,1-Proton Transfer Reaction Mechanism By Alpha-
Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A SMOOTH,
METHIONINE- Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCE|D Chain D, The 1,1-Proton Transfer Reaction Mechanism By Alpha-
Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A SMOOTH,
METHIONINE- Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCI|A Chain A, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AsparteHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCI|B Chain B, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AsparteHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCI|C Chain C, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AsparteHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GCI|D Chain D, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AsparteHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD0|A Chain A, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD0|B Chain B, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD0|C Chain C, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD0|D Chain D, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD2|A Chain A, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD2|B Chain B, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD2|C Chain C, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD2|D Chain D, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD6|A Chain A, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD6|B Chain B, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD6|C Chain C, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2GD6|D Chain D, The 1,1-Proton Transfer Reaction Mechanism By
Alpha-Methylacyl-Coa Racemase Is Catalyzed By An
AspartateHISTIDINE PAIR AND INVOLVES A Smooth,
Methionine-Rich Surface For Binding The Fatty Acyl
Moiety
pdb|2YIM|A Chain A, The Enolisation Chemistry Of A Thioester-Dependent
Racemase: The 1.4 A Crystal Structure Of A Complex With
A Planar Reaction Intermediate Analogue
pdb|2YIM|B Chain B, The Enolisation Chemistry Of A Thioester-Dependent
Racemase: The 1.4 A Crystal Structure Of A Complex With
A Planar Reaction Intermediate Analogue
pdb|2YIM|C Chain C, The Enolisation Chemistry Of A Thioester-Dependent
Racemase: The 1.4 A Crystal Structure Of A Complex With
A Planar Reaction Intermediate Analogue
pdb|2YIM|D Chain D, The Enolisation Chemistry Of A Thioester-Dependent
Racemase: The 1.4 A Crystal Structure Of A Complex With
A Planar Reaction Intermediate Analogue
Length = 360
Score = 28.5 bits (62), Expect = 4.9, Method: Compositional matrix adjust.
Identities = 15/44 (34%), Positives = 26/44 (59%), Gaps = 1/44 (2%)
Query: 226 TKAFKLLDGLSEFVLTYEDKEGDWMLVGDV-PWRYATIILHLGV 268
T+ +LDG + + TYE +G ++ VG + P YA ++ LG+
Sbjct: 211 TRGANMLDGGAPYYDTYECADGRYVAVGAIEPQFYAAMLAGLGL 254
Database: pdbaa
Posted date: Mar 3, 2013 10:34 PM
Number of letters in database: 14,973,337
Number of sequences in database: 62,578
Lambda K H
0.317 0.134 0.411
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 5,356,665
Number of Sequences: 62578
Number of extensions: 177582
Number of successful extensions: 405
Number of sequences better than 100.0: 4
Number of HSP's better than 100.0 without gapping: 0
Number of HSP's successfully gapped in prelim test: 4
Number of HSP's that attempted gapping in prelim test: 405
Number of HSP's gapped (non-prelim): 4
length of query: 283
length of database: 14,973,337
effective HSP length: 98
effective length of query: 185
effective length of database: 8,840,693
effective search space: 1635528205
effective search space used: 1635528205
T: 11
A: 40
X1: 16 ( 7.3 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.7 bits)
S2: 51 (24.3 bits)