Metagenomic analysis of buffalo rumen microbiome: Effect of roughage diet on Dormancy and Sporulation genes

• Published in: Meta Gene Vol. 2; pp. 252 - 268
• Main Authors: Singh, K.M., Reddy, B., Patel, A.K., Panchasara, H., Parmar, N., Patel, A.B., Shah, T.M., Bhatt, V.D., Joshi, C.G.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.12.2014; Elsevier
• Subjects: Dormancy; Ion Torrent PGM; Mehsani buffalo; Metagenome; Sporulation; Dormancy; Mehsani buffalo; Ion Torrent PGM; Sporulation; Metagenome
• ISSN: 2214-5400; 2214-5400
• DOI: 10.1016/j.mgene.2014.01.005

Buffalo rumen microbiome experiences a variety of diet stress and represents reservoir of Dormancy and Sporulation genes. However, the information on genomic responses to such conditions is very limited. The Ion Torrent PGM next generation sequencing technology was used to characterize general microbial diversity and the repertoire of microbial genes present, including genes associated with Dormancy and Sporulation in Mehsani buffalo rumen metagenome. The research findings revealed the abundance of bacteria at the domain level and presence of Dormancy and Sporulation genes which were predominantly associated with the Clostridia and Bacilli taxa belonging to the phyla Firmicutes. Genes associated with Sporulation cluster and Sporulation orphans were increased from 50% to 100% roughage treatment, thereby promoting sporulation all along the treatments. The spore germination is observed to be the highest in the 75% roughage treatment both in the liquid and solid rumen fraction samples with respect to the decrease in the values of the genes associated with spore core dehydration, thereby facilitating spore core hydration which is necessary for spore germination. •Dormancy and Sporulation genes were predominantly associated with Clostridia and Bacilli taxa.•Sporulation cluster and Sporulation orphans were increased from 50% to 100% roughage diet.•Spore germination was highest in the 75% roughage diet.