2016
DOI: 10.1007/s00792-016-0846-6
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Analysis of the metatranscriptome of microbial communities of an alkaline hot sulfur spring revealed different gene encoding pathway enzymes associated with energy metabolism

Abstract: Alkaline sulfur hot springs notable for their specialized and complex ecosystem powered by geothermal energy are abundantly rich in different chemotrophic and phototrophic thermophilic microorganisms. Survival and adaptation of these organisms in the extreme environment is specifically related to energy metabolism. To gain a better understanding of survival mechanism of the organisms in these ecosystems, we determined the different gene encoding enzymes associated with anaerobic pathways of energy metabolism b… Show more

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Cited by 20 publications
(8 citation statements)
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“…The metabolic potential analysis of metagenomic sequences of Polok and Reshi inferred gene homologs mapped to different metabolic pathways such as nitrification, sulfur-oxidation, methanogenesis, carbohydrateactive enzymes, and antimicrobial compounds, etc. The operation of these pathways is related to the utilization of chemical energy into the metabolic functions of the niche microflora [40]. The microorganisms have evolved the genetic potential to metabolize the abundant chemical compounds in the thermoaquatic ecosystems for survival purposes [41,42].…”
Section: Discussionmentioning
confidence: 99%
“…The metabolic potential analysis of metagenomic sequences of Polok and Reshi inferred gene homologs mapped to different metabolic pathways such as nitrification, sulfur-oxidation, methanogenesis, carbohydrateactive enzymes, and antimicrobial compounds, etc. The operation of these pathways is related to the utilization of chemical energy into the metabolic functions of the niche microflora [40]. The microorganisms have evolved the genetic potential to metabolize the abundant chemical compounds in the thermoaquatic ecosystems for survival purposes [41,42].…”
Section: Discussionmentioning
confidence: 99%
“…Analysis of nitrogen metabolic potential across MAGs revealed a higher abundance of genes involved in nitrite and nitrate reduction and ammonia assimilation. Reportedly, the anerobic respiration by chemoorganoheterotrophic bacteria utilizing nitrate (NO3 - ) as electron acceptor producing ammonia ions (NH4 + ) termed as dissimilatory nitrate reduction to ammonia (DNRA) and this process is prevalent in hot springs (Dodsworth et al ., 2011, Tripathy et al ., 2016, Alcamán-Arias et al ., 2018). So, we investigated the genes involved in dissimilatory reduction of nitrate to ammonia were (n= 181) NaNiT, NaRas, NaRper, NaRres, NaT, NiRas1, NiRas2, NiRres1, NiRres2, NiT, Reg which were found to be highly enriched in order by BU> MG> SH> KB> CS (Figure 2C).…”
Section: Resultsmentioning
confidence: 99%
“…In the last few years, cellulases, amylases, chitinases, proteases, esterases, oxireductases, nitrilases and many other enzymes have been discovered in extreme environments as shown in Table 1. Both high throughput sequencing and PCR detection of conserved regions of enzymes can be used for the discovery of novel enzymes as a new approach these days [36,53].…”
Section: Sequence-based Metagenomicsmentioning
confidence: 99%