New lipolytic enzyme family defined from isolation and characterization of two esterases from a metagenomic library Bayer et al. (EstGK1 and EstZ3) Lee et al. (EstD2) (Family XV Arpigny et Jaeger (1999))(Charbonneau et al. had defined a family XV but the enzyme described in this paper is really is a subset of familly XIII. See notice of this paper in Plos One). The enzyme in this family are esterase with maximum activity towards C4 aliphatic chains and undetectable activity towards C10 and longer chains
A metagenomic fosmid library from bovine rumen was used to identify clones with lipolytic activity. One positive clone was isolated. The gene responsible for the observed phenotype was identified by in vitro transposon mutagenesis and sequencing and was named est10. The 367 amino acids sequence harbors a signal peptide, the conserved secondary structure arrangement of alpha/beta hydrolases, and a GHSQG pentapeptide which is characteristic of esterases and lipases. Homology based 3D-modelling confirmed the conserved spatial orientation of the serine in a nucleophilic elbow. By sequence comparison, Est10 is related to hydrolases that are grouped into the non-specific Pfam family DUF3089 and to other characterized esterases that were recently classified into the new family XV of lipolytic enzymes. Est10 was heterologously expressed in Escherichia coli as a His-tagged fusion protein, purified and biochemically characterized. Est10 showed maximum activity towards C4 aliphatic chains and undetectable activity towards C10 and longer chains which prompted its classification as an esterase. However, it was able to efficiently catalyze the hydrolysis of aryl esters such as methyl phenylacetate and phenyl acetate. The optimum pH of this enzyme is 9.0, which is uncommon for esterases, and it exhibits an optimal temperature at 40 degrees C. The activity of Est10 was inhibited by metal ions, detergents, chelating agents and additives. We have characterized an alkaline esterase produced by a still unidentified bacterium belonging to a recently proposed new family of esterases.
Title: Indication for a new lipolytic enzyme family: isolation and characterization of two esterases from a metagenomic library Bayer S, Kunert A, Ballschmiter M, Greiner-Stoeffele T Ref: J Molecular Microbiology Biotechnol, 18:181, 2010 : PubMed
We have isolated several novel esterase genes from a sheep rumen metagenomic library using the activity-based cluster screening approach as a highly efficient screening technology. The two most remarkable esterase genes, designated estGK1 and estZ3, were further examined. Sequence analysis of estGK1 and estZ3 revealed that they encoded proteins covering 322 and 317 amino acids, respectively. Both proteins were biochemically characterized. EstGK1 and EstZ3 have only minor overall sequence similarity to known esterases. We propose that, together with other hypothetical enzymes, they constitute a new family of lipolytic enzymes. EstGK1 harbors the catalytic serine in the conserved pentapeptide GHSQG, which is typical for lipases, whereas EstZ3 and several other hypothetical proteins contain the pentapeptide SHSQG, a new variation of the conserved motif in lipolytic enzyme families.
Soil metagenome constitutes a reservoir for discovering novel enzymes from the unculturable microbial diversity. From three plant rhizosphere metagenomic libraries comprising a total of 142,900 members of recombinant plasmids, we obtained 14 recombinant fosmids that exhibited lipolytic activity. A selected recombinant plasmid, pFLP-2, which showed maximum lipolytic activity, was further analyzed. DNA sequence analysis of the subclone in pUC119, pELP-2, revealed an open reading frame of 1,191 bp encoding a 397-amino-acid protein. Purified EstD2 exhibited maximum enzymatic activity towards p-nitrophenyl butyrate, indicating that it is an esterase. Purified EstD2 showed optimal activity at 35 degC and at pH 8.0. The K(m) and K(cat) values were determined to be 79.4 uM and 120.5/s, respectively. The esterase exhibited an increase in enzymatic activity in the presence of 15% butanol and 15% methanol. Phylogenetic analysis revealed that the lipolytic protein EstD2 may be a member of a novel family of lipolytic enzymes. Several hypothetical protein homologs of EstD2 were found in the database. A hypothetical protein from Phenylobacterium zucineum HLK1, a close homolog of EstD2, displayed lipolytic activity when the corresponding gene was expressed in Escherichia coli. Our results suggest that the other hypothetical protein homologs of EstD2 might also be members of this novel family.
