Proteome profiling of Enriched Membrane-associated Proteins Unraveled a Novel Sophorose and cello-oligosaccharide Transporter in Trichoderma reesei

Author:

Nogueira Karoline Maria Vieira1,Kamath Karthik Shantharam1,Cheruku Anusha1,Oshiquiri Letícia Harumi1,de Paula Renato Graciano1,Carraro Claudia1,Pedersoli Wellington Ramos1,Vieira Luiz Carlos1,Steindorff Andrei Stecca2,Amirkhani Ardeshir3,McKay Matthew J.3,Nevalainen Helena3,Molloy Mark P.3,Silva Roberto N.1,Mendes Vanessa1

Affiliation:

1. Universidade de São Paulo

2. Joint Genome Institute

3. Macquarie University

Abstract

Abstract Background Trichoderma reesei is an organism extensively used in the bioethanol industry, owing to its capability to produce enzymes capable of breakdown holocellulose into simple sugars. The uptake of carbohydrates generated from cellulose breakdown is crucial to induce the signaling cascade that triggers cellulase production. However, the sugar transporters involved in this process in T. reesei remain poorly identified and characterized. Results To address this gap, this study used temporal membrane proteomics analysis to identify five known and nine putative sugar transporters that may be involved in cellulose degradation by T. reesei. Docking analysis pointed out potential ligands for the putative sugar transporter Tr44175. Further functional validation of this transporter was carried out in Saccharomyces cerevisiae. The results showed that Tr44175 transports a variety of sugar molecules, including cellobiose, cellotriose, cellotetraose, and sophorose. Conclusion This study has unveiled a transporter Tr44175 capable of transporting cellobiose, cellotriose, cellotetraose, and sophorose. Our study represents the first inventory of T. reesei sugar transportome once exposed to cellulose. This work will contribute to bioethanol production from cellulosic biomass.

Publisher

Research Square Platform LLC

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