Catabolism of Alkylphenols in Rhodococcus via a Meta-Cleavage Pathway Associated With Genomic Islands

Autor: William W. Mohn, Jie Liu, Lindsay D. Eltis, David J. Levy-Booth, Gordon R. Stewart, Morgan M. Fetherolf
Rok vydání: 2019
Předmět:
Zdroj: Frontiers in Microbiology, Vol 10 (2019)
Frontiers in Microbiology
ISSN: 1664-302X
DOI: 10.3389/fmicb.2019.01862
Popis: The bacterial catabolism of aromatic compounds has considerable promise to convert lignin depolymerization products to commercial chemicals. Alkylphenols are a key class of depolymerization products whose catabolism is not well elucidated. We isolatedRhodococcus rhodochrousEP4 on 4-ethylphenol and applied genomic and transcriptomic approaches to elucidate alkylphenol catabolism in EP4 andRhodococcus jostiiRHA1. RNA-Seq and RT-qPCR revealed a pathway encoded by theaphABCDEFGHIQRSgenes that degrades 4-ethylphenol via themeta-cleavage of 4-ethylcatechol. This process was initiated by a two-component alkylphenol hydroxylase, encoded by theaphABgenes, which were up-regulated ~3,000-fold. Purified AphAB from EP4 had highest specific activity for 4-ethylphenol and 4-propylphenol (~2000 U/mg) but did not detectably transform phenol. Nevertheless, a ΔaphAmutant in RHA1 grew on 4-ethylphenol by compensatory up-regulation of phenol hydroxylase genes (pheA1-3). Deletion ofaphC, encoding an extradiol dioxygenase, prevented growth on 4-alkylphenols but not phenol. Disruption ofpcaLin the β-ketoadipate pathway prevented growth on phenol but not 4-alkylphenols. Thus, 4-ethylphenol and 4-propylphenol are catabolized exclusively viameta-cleavage in rhodococci while phenol is subject toortho-cleavage. Putative genomic islands encodingaphgeneswere identified in EP4 and several other rhodococci. Overall, this study identifies a 4-alkylphenol pathway in rhodococci, demonstrates key enzymes involved, and presents evidence that the pathway is encoded in a genomic island. These advances are of particular importance for wide-ranging industrial applications of rhodococci, including upgrading of lignocellulose biomass.ImportanceElucidation of bacterial alkylphenol catabolism is important for the development of biotechnologies to upgrade the lignin component of plant biomass. We isolated a new strain,Rhodococcus rhodochrousEP4, on 4-ethylphenol, an alkylphenol that occurs in lignin-derived streams, including reductive catalytic fractionation products of corn stover. We further demonstrated its degradation via ameta-cleavage pathway (Aph) with transcriptomics. A new class of Actinobacterial hydroxylase, AphAB, acts specifically on alkylphenols. Phylogenomic analysis indicated that theaphgenes occur on putative genomic islands in several rhodococcal strains. These genes were identified in the genetically-tractable strainRhodococcus jostiiRHA1. Strains missing this element cannot metabolise 4-ethylphenol and 4-propylphenol. Overall, we advanced the understanding of how aromatic compounds are degraded by environmental bacteria and identified enzymes that can be employed in the transition away from petro-chemicals towards renewable alternatives.
Databáze: OpenAIRE
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