Structural analysis of the alcohol acyltransferase protein family from Cucumismelo shows that enzyme activity depends on an essential solvent channel

Galaz S.; Morales-Quintana, L; Moya-Leon, MA; Herrera R.

Abstract

Alcohol acyltransferases (AAT) play a key role in ester biosynthesis. In Cucumismelo var.cantalupensis, AATs are encoded by a gene family of four members (CmAAT14). CmAAT1, CmAAT3 and CmAAT4 are capable of synthesizing esters, with CmAAT1 the most active. CmAAT2 is inactive and has an Ala268 residue instead of a threonine which is present in all other active AATs, although the role of this residue is still unclear. The present work aims to understand the molecular mechanism involved in ester biosynthesis in melon fruit and to clarify the importance of the Ala268 residue. First, structural models for each protein were built by comparative modelling methodology. Afterwards, conformational interaction between the protein and several ligands, alcohols and acyl-CoAs was explored by molecular docking and molecular dynamics simulation. Structural analysis showed that CmAATs share a similar structure. Also, well-defined solvent channels were described in the CmAATs except for CmAAT2 which does not have a proper channel and instead has a small pocket around Ala268. Residues of the catalytic HxxxD motif interact with substrates within the solvent channel, with Ser363 also important. Strong binding interaction energies were described for the best substrate couple of each CmAAT (hexyl-, benzyl- and cinnamyl-acetate for CmAAT1, 3 and 4 respectively). CmAAT1 and CmAAT2 protein surfaces share similar electrostatic potentials; nevertheless the entrance channels for the substrates differ in location and electrostatic character, suggesting that Ala268 might be responsible for that. This could partly explain the major differences in activity reported for these two enzymes. Database Structural data have been deposited in the Protein Model Data Bank under the following accession numbers: CmAAT1 (PM0078514); CmAAT2 (PM0078515); CmAAT3 (PM0078516); CmAAT4 (PM0078517)

Más información

Título según WOS: Structural analysis of the alcohol acyltransferase protein family from Cucumismelo shows that enzyme activity depends on an essential solvent channel
Título según SCOPUS: Structural analysis of the alcohol acyltransferase protein family from Cucumis melo shows that enzyme activity depends on an essential solvent channel
Título de la Revista: FEBS JOURNAL
Volumen: 280
Número: 5
Editorial: WILEY-BLACKWELL
Fecha de publicación: 2013
Página de inicio: 1344
Página final: 1357
Idioma: English
URL: http://doi.wiley.com/10.1111/febs.12127
DOI:

10.1111/febs.12127

Notas: ISI, SCOPUS