Elucidating the lignocellulose digestion mechanism coptotermes curvignathus based on carbohydrate-active enzymes profile using the meta-transcriptomic approach

Pik, Kheng Hoe and Jie, Hung King and Kian, Huat Ong and Choon, Fah Bong and Nor Muhammad Mahadi, (2023) Elucidating the lignocellulose digestion mechanism coptotermes curvignathus based on carbohydrate-active enzymes profile using the meta-transcriptomic approach. Malaysian Applied Biology, 52 (5). pp. 177-186. ISSN 0126-8643

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Abstract

Termites are efficient lignocellulose decomposers that thrive on woody materials and contribute to carbon mineralization in both tropical and subtropical regions. Due to hydrolytic stability and crosslinking between the polysaccharides (cellulose & hemicellulose) and the lignin via ester and ether linkages, termites would require a large variety of enzymes to degrade lignocellulose. Coptotermes curvignathus, an endemic species of termite from Southeast Asia, has been classified as an urban pest in the region and is known as the largest and most aggressive among the oriental Coptotermes spp. Its Carbohydrate-Active enzymes (CAZymes) are the main interest of this study. RNA of C. curvignathus was extracted and sequenced using Illumina Hiseq 2000 sequencing platform, and de novo assembled with Trinity pipeline. There were 101 CAZymes families in C. curvignathus digestome. CAZymes break down complex carbohydrates and glycoconjugates for a large body of biological roles and perform their function, usually with high specificity. Enzymes coding for glycosyl hydrolase (GH) families had the highest transcript abundance, accounting for about 93% of the total CAZymes reads. This was followed by CBM (≈1%), GT family (≈4%), CE family (<1 %) AA family (<2 %) and PL family (<1 %). Due to the carbohydrate diversity exceeding the number of protein folds, CAZymes have evolved from a limited number of progenitors by acquiring novel specificities at substrate and product levels. Such a dizzying array of substrates and enzymes makes C. curvignathus a high-performance lignocellulose degrader

Item Type:Article
Keywords:Lignocellulose degradation; RNA sequencing; Termite gut; Wood-feeding termite
Journal:Malaysian Applied Biology Journal
ID Code:23150
Deposited By: Siti Zarenah Jasin
Deposited On:06 Mar 2024 05:00
Last Modified:06 Mar 2024 05:00

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