David Garcia scite author profile

Transposon mutagenesis is a powerful technique in microbial genetics for the identification of genes in uncharacterized pathways. Recently, the throughput of transposon mutagenesis techniques has been dramatically increased through the combination of DNA barcoding and high-throughput sequencing. Here we show that, when applied to catabolic pathways, barcoded transposon libraries can be used to distinguish redundant pathways, decompose complex pathways into substituent modules, discriminate between enzyme homologs, and rapidly identify previously-hypothetical enzymes in an unbiased genome-scale search. We use this technique to identify two genes, which we name and, are involved in the degradation of the lignin-derived aromatic compound sinapic acid in the non-model bacterium We show that DesC is a methyl-esterase acting on an intermediate formed during sinapic acid catabolism, providing the last enzyme in a proposed catabolic pathway. This approach will be particularly useful in the identification of complete pathways suitable for heterologous expression in metabolic engineering. Identification of the genes involved in specific biochemical transformations is a key step in predicting microbial function from nucleic acid sequences and in engineering microbes to endow them with new functions. We have shown that new techniques for transposon mutagenesis can dramatically simplify this process and allow the rapid identification of genes in uncharacterized pathways. These techniques provide the necessary scale to fully elucidate complex biological networks such as those used to degrade mixtures of lignin-derived aromatic compounds.

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Pathway discovery and engineering for cleavage of a β-1 lignin-derived biaryl compound

Presley

Werner²,

Katahira³

et al. 2021

Metabolic Engineering

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A lysate proteome engineering strategy for enhancing cell-free metabolite production

Garcia

Dinglasan

Shrestha

et al. 2021

Metabolic Engineering Communications

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David Garcia

Rapid, Parallel Identification of Catabolism Pathways of Lignin-Derived Aromatic Compounds in Novosphingobium aromaticivorans

Pathway discovery and engineering for cleavage of a β-1 lignin-derived biaryl compound

A lysate proteome engineering strategy for enhancing cell-free metabolite production

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