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Title: Transcriptomic Analysis of Xylan Utilization Systems in Paenibacillus sp

Author: Sawhney, Neha; Crooks, Casey; St. John, Franz; Preston, James F.; Kelly, R. M.;

Date: 2014

Source: Applied and Environmental Microbiology

Publication Series: Scientific Journal (JRNL)

Description: Xylans, including methylglucuronoxylans (MeGXn) and methylglucuronoarabinoxylans (MeGAXn), are the predominant polysaccharides in hemicellulose fractions of dicots and monocots available for conversion to biofuels and chemicals. Paenibacillus sp. strain JDR-2 (Pjdr2) efficiently depolymerizes MeGXn and MeGAXn and assimilates the generated oligosaccharides, resulting in efficient saccharification and subsequent metabolism of these polysaccharides. A xylan utilization regulon encoding a cell associated GH10 (glycoside hydrolase family 10) endoxylanase, transcriptional regulators, ABC (ATP binding cassette) transporters, an intracellular GH67 α-glucuronidase, and other glycoside hydrolases contributes to complete metabolism. This GH10/GH67 system has been proposed to account for preferential utilization of xylans compared to free oligo- and monosaccharides. To identify additional genes contributing to MeGXn and MeGAXn utilization, the transcriptome of Pjdr2 has been sequenced following growth on each of these substrates as well as xylose and arabinose. Increased expression of genes with different substrates identified pathways common or unique to the utilization of MeGXn or MeGAXn. Coordinate upregulation of genes comprising the GH10/GH67 xylan utilization regulon is accompanied with upregulation of genes encoding a GH11 endoxylanase and a GH115 α-glucuronidase, providing evidence for a novel complementary pathway for processing xylans. Elevated expression of genes encoding a GH43 arabinoxylan arabinofuranohydrolase and an arabinose ABC transporter on MeGAXn but not on MeGXn supports a process in which arabinose may be removed extracellularly followed by its rapid assimilation. Further development of Pjdr2 for direct conversion of xylans to targeted products or introduction of these systems into fermentative strains of related bacteria may lead to biocatalysts for consolidated bioprocessing of hemicelluloses released from lignocellulose.

Keywords: Xylan, Transcriptome, Paenibacillus, lignocellulose

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Citation:


Sawhney, Neha; Crooks, Casey; St. John, Franz; Preston, James F.; Kelly, R. M. 2014. Transcriptomic Analysis of Xylan Utilization Systems in Paenibacillus sp. Strain JDR-2. Applied and Environmental Microbiology. 81(4): 1490-1501.

 


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