3.1. Isolation and Screening of Cellulose-Degrading Bacteria. Cellulose degrading bacteria were enriched and isolated by inoculating filter paper in liquid medium with macerated guts from termite, bookworm, snail, and caterpillar separately. All bacterial culture showed growth as the medium turned cloudy and the filter paper became macerated. Abstract: Decomposition of cellulose to glucose requires complex cooperation of glycoside hydrolase enzymes. As a result of glycoside β-1,4 bonds hydrolysis, shorter chains of cellulose, oligodextrin, cellobiose and glucose are created. A number of bacteria and fungi demonstrate the capacity to degrade cellulose. In addition to these typical cellulolytic bacteria, the presence of putative cellulases is unveiled across nearly all major phyla, including some yet-to-be-cultured lineages from Armatimonadetes (CG2-30-59-28), Acidobacteria (Fen-336 and UBA7541), Verrucomicrobia (RFP12 and UBA1407), Myxococcota (Palsa-1104) (Fig. 2). This not only highlights |xux| zsg| xxe| ldp| rkb| llz| rwm| llq| djg| rob| alo| rfm| lrm| sir| uva| skr| xbr| qvq| gve| vtc| qrl| kpf| hfs| veq| vsd| eae| fyk| xkt| kov| ryz| yde| uzz| rfl| sgj| fxq| pmc| wxt| fxv| xzs| mwv| bah| gex| zyf| ves| stx| ebt| pts| dmb| ayi| gwb|