The ω‐transaminase engineering database (oTAED): A navigation tool in protein sequence and structure space

The ω‐Transaminase Engineering Database (oTAED) was established as a publicly accessible resource on sequences and structures of the biotechnologically relevant ω‐transaminases (ω‐TAs) from Fold types I and IV. The oTAED integrates sequence and structure data, provides a classification based on fold...

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Veröffentlicht in:	Proteins, structure, function, and bioinformatics structure, function, and bioinformatics, 2018-05, Vol.86 (5), p.566-580
Hauptverfasser:	Buß, Oliver, Buchholz, Patrick C. F., Gräff, Maike, Klausmann, Peter, Rudat, Jens, Pleiss, Jürgen
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino acid sequence Annotations BioCatNet Catalysis Conserved sequence Data bases Data processing Engineering Enzymes Equivalence fold type I fold type IV Homology Navigation Numbering schemes PLP‐dependent enzymes Protein folding Protein structure Proteins Similarity standard numbering scheme Stereoselectivity Substrate specificity Substrates Transaminase Transaminases
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creator	Buß, Oliver Buchholz, Patrick C. F. Gräff, Maike Klausmann, Peter Rudat, Jens Pleiss, Jürgen
description	The ω‐Transaminase Engineering Database (oTAED) was established as a publicly accessible resource on sequences and structures of the biotechnologically relevant ω‐transaminases (ω‐TAs) from Fold types I and IV. The oTAED integrates sequence and structure data, provides a classification based on fold type and sequence similarity, and applies a standard numbering scheme to identify equivalent positions in homologous proteins. The oTAED includes 67 210 proteins (114 655 sequences) which are divided into 169 homologous families based on global sequence similarity. The 44 and 39 highly conserved positions which were identified in Fold type I and IV, respectively, include the known catalytic residues and a large fraction of glycines and prolines in loop regions, which might have a role in protein folding and stability. However, for most of the conserved positions the function is still unknown. Literature information on positions that mediate substrate specificity and stereoselectivity was systematically examined. The standard numbering schemes revealed that many positions which have been described in different enzymes are structurally equivalent. For some positions, multiple functional roles have been suggested based on experimental data in different enzymes. The proposed standard numbering schemes for Fold type I and IV ω‐TAs assist with analysis of literature data, facilitate annotation of ω‐TAs, support prediction of promising mutation sites, and enable navigation in ω‐TA sequence space. Thus, it is a useful tool for enzyme engineering and the selection of novel ω‐TA candidates with desired biochemical properties.
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subjects	Amino acid sequence Annotations BioCatNet Catalysis Conserved sequence Data bases Data processing Engineering Enzymes Equivalence fold type I fold type IV Homology Navigation Numbering schemes PLP‐dependent enzymes Protein folding Protein structure Proteins Similarity standard numbering scheme Stereoselectivity Substrate specificity Substrates Transaminase Transaminases
title	The ω‐transaminase engineering database (oTAED): A navigation tool in protein sequence and structure space
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