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MACiE Entries homologous to 1ozh

MACiE does not contain the PDB code you entered, but MACiE contains the following PDB codes that are homologous to it:


MACiE Entry: 1dtw
EC 1.2.4.4
3-methyl-2-oxobutanoate dehydrogenase (2-methylpropanoyl-transferring)
Species: Homo sapiens
Catalytic Residues:  Glu76B  Ser162A  His291A  Ser292A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 1mcz
EC 4.1.1.7
benzoylformate decarboxylase
Species: Pseudomonas putida
Catalytic Residues:  Ser26B  Glu28B  Glu47B  His70B  His281A  Gly401A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 1n0h
EC 2.2.1.6
acetolactate synthase
Species: Saccharomyces cerevisiae
Catalytic Residues:  Glu139A  Gln202A  Lys251A  Met582B  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  


MACiE Entry: 1pow
EC 1.2.3.3
pyruvate oxidase
Species: Lactobacillus plantarum
Catalytic Residues:  Glu59B  Phe121A  Gln122A  Val394A  Phe479A  Ile480A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 1pvd
EC 4.1.1.1
pyruvate decarboxylase
Species: Saccharomyces cerevisiae
Catalytic Residues:  Asp28B  Glu51B  His114B  His115B  Gly417A  Glu477A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 1trk
EC 2.2.1.1
transketolase
Species: Saccharomyces cerevisiae
Catalytic Residues:  His30A  His263A  Glu418B  His481B  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

These enzymes differ only at the serial number level of the EC classification.
It is likely that the mechanisms of these enzymes can be transferred with relative confidence.



MACiE Entry: 1w85
EC 1.2.4.1
pyruvate dehydrogenase (acetyl-transferring)
Species: Geobacillus stearothermophilus
Catalytic Residues:  Glu59B  His128B  Arg267C  His271C  Tyr281C  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 2ag0
EC 4.1.2.38
benzoin aldolase
Species: Pseudomonas fluorescens
Catalytic Residues:  His29B  Glu50B  Gln113B  Gly419A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Gln420A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 2pan
EC 4.1.1.47
tartronate-semialdehyde synthase
Species: Escherichia coli
Catalytic Residues:  Val25A  Val51A  Leu421A  Leu476A  Ile479A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.



MACiE Entry: 3ey9
EC 1.2.2.2
pyruvate dehydrogenase (cytochrome)
Species: Escherichia coli
Catalytic Residues:  Glu50B  Phe122A  Gln133A  Val380A  Phe465A  
CSA Entry: 1ozh
EC 2.2.1.6
acetolactate synthase
Species: Klebsiella pneumoniae
Catalytic Residues:  Pro547A  

Whilst these entries are considered homologous, they differ at the Class level of the EC Classification.
The mechanisms are unlikely to be the same.