Metagenomic Analysis of Hot Springs in Central India Reveals Hydrocarbon Degrading Thermophiles and Pathways Essential for Survival in Extreme Environments

Saxena, Rituja; Dhakan, Darshan B.; Mittal, Parul; Waiker, Prashant; Chowdhury, Anirban; Ghatak, Arundhuti; Sharma, Vineet K.

doi:10.3389/fmicb.2016.02123

Cited by 110 publications

(70 citation statements)

References 71 publications

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“…A study comparing metagenomes obtained from cold and hot deserts found thermophiles having a higher number of genes involved in metabolism and transport of carbohydrates and secondary metabolites (Le et al 2016) . Similar results were found in other studies of metagenomes from hot springs in India, where abundance of KEGG (Ogata et al 1999;Kanehisa et al 2017) pathways was investigated (Badhai, Ghosh, and Das 2015;Saxena et al 2016) .…”

Section: Introductionsupporting

confidence: 89%

“…Of the eight KEGG pathways -with significant over-representation of enzymes changing with temperature -four were previously identified as over-represented in metagenomic studies of high temperature habitats (Badhai, Ghosh, and Das 2015;Saxena et al 2016) : carbon fixation pathway in prokaryotes, pyruvate metabolism, methane metabolism and purine metabolism. The TCA cycle, another enriched KEGG pathway, is known to be extensively utilized in three thermophilic bacteria (Cordova et al 2017) .…”

Section: Discussionmentioning

confidence: 99%

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Correlating enzyme annotations with a large set of microbial growth temperatures reveals metabolic adaptations to growth at diverse temperatures

Engqvist

2018

Preprint

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Interpreting genomic data to identify temperature adaptations is challenging due to limited accessibility of growth temperature data. In this work I mine public culture collection websites to obtain growth temperature data for 21,498 organisms. Leveraging this unique dataset I identify 319 enzyme activities that either increase or decrease in abundance with temperature. This is a striking result showing that up to 9% of enzyme activities may represent metabolic changes important for adapting to growth at differing temperatures in microbes. Eight metabolic pathways were statistically enriched for these enzyme activities, further highlighting specific areas of metabolism that may be particularly important for such adaptations. Furthermore, I establish a correlation between 33 domains of unknown function (DUFs) with growth temperature in microbes, four of which (DUF438, DUF1524, DUF1957 and DUF3458_C) were significant in both archaea and bacteria. These DUFs may represent novel, as yet undiscovered, functions relating to temperature adaptation.

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Section: Introductionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Correlating enzyme annotations with a large set of microbial growth temperatures reveals metabolic adaptations to growth at diverse temperatures

Engqvist

2018

Preprint

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“…While constituting only 21.35% and 5.9% of bacterial sequences in the CA and BV mat, respectively , Pseudomonas has also been reported in thermal springs in India where, importantly, the presence of Pseudomonas stutzeri and Acidovorax spp. was linked to the possible presence of genes associated with hydrocarbon degradation pathways in the Anhoni hot springs (43.5–55°C) (Saxena et al., ). Presumptively, this implies that thermal springs are potential reservoirs of bacterial species that can be used in the bioremediation of polluted environments.…”

Section: Resultsmentioning

confidence: 99%

Thermophilic bacterial communities inhabiting the microbial mats of “indifferent” and chalybeate (iron‐rich) thermal springs: Diversity and biotechnological analysis

2017

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Microbial mats are occasionally reported in thermal springs and information on such mats is very scarce. In this study, microbial mats were collected from two hot springs (Brandvlei (BV) and Calitzdorp (CA)), South Africa and subjected to scanning electron microscopy (SEM) and targeted 16S rRNA gene amplicon analysis using Next Generation Sequencing (NGS). Spring water temperature was 55°C for Brandvlei and 58°C for Calitzdorp while the pH of both springs was slightly acidic, with an almost identical pH range (6.2–6.3). NGS analysis resulted in a total of 4943 reads, 517 and 736 OTUs for BV and CA at, respectively, a combined total of 14 different phyla in both samples, 88 genera in CA compared to 45 in BV and 37.64% unclassified sequences in CA compared to 27.32% recorded in BV. Dominant bacterial genera in CA microbial mat were Proteobacteria (29.19%), Bacteroidetes (9.41%), Firmicutes (9.01%), Cyanobacteria (6.89%), Actinobacteria (2.65%), Deinococcus‐Thermus (2.57%), and Planctomycetes (1.94%) while the BV microbial mat was dominated by Bacteroidetes (47.3%), Deinococcus‐Thermus (12.35%), Proteobacteria (7.98%), and Planctomycetes (2.97%). Scanning electron microscopy results showed the presence of microbial filaments possibly resembling cyanobacteria, coccids, rod‐shaped bacteria and diatoms in both microbial mats. Dominant genera that were detected in this study have been linked to different biotechnological applications including hydrocarbon degradation, glycerol fermentation, anoxic‐fermentation, dehalogenation, and biomining processes. Overall, the results of this study exhibited thermophilic bacterial community structures with high diversity in microbial mats, which have a potential for biotechnological exploitation.

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“…The following groups of thermophiles are commonly suggested based on their optimal growth temperature: moderate thermophiles growing between 50 and 70°C with an optimum of 55-65°C, extreme thermophiles growing optimally at temperatures between 65 and 80°C, and hyperthermophiles with Correspondence: Dr. Margarita Kambourova (margikam@ microbio.bas.bg), Institute of Microbiology, Bulgarian Academy of Sciences, Acad. Such compounds significantly contribute to biotechnological advancements in recent years [4][5][6]. 26, 1113 Sofia, Bulgaria Abbreviation: EPSs, exopolysaccharides optimum growth higher than 80°C [3].…”

Section: Introductionmentioning

confidence: 99%

“…These microorganisms have developed unique metabolic and physiological capabilities to thrive in extreme habitats and to produce particular metabolites that are rarely present in microbes of modest environments. Such compounds significantly contribute to biotechnological advancements in recent years [4][5][6]. Among compounds involved in thermophilic adaptation, enzymes and exopolysaccharides (EPSs) are of special biotechnological interest due to their unusual stability not only to high temperatures but also to detergents, organic solvents, high salt concentrations.…”

Section: Introductionmentioning

confidence: 99%

Thermostable enzymes and polysaccharides produced by thermophilic bacteria isolated from Bulgarian hot springs

Kambourova

2018

Engineering in Life Sciences

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Thermostable enzymes (thermozymes) have been recognized as extremophilic compounds with a greatest biotechnological importance in different industrial areas. Quite recently exopolysaccharides (EPSs) synthesized by thermophiles became an object of increased research interest due to their unique properties appropriate for some specific industrial needs. Thermophilic producers of biotechnologically valuable enzymes and novel EPS were isolated by our group from Bulgarian thermal springs with a diverse geotectonic origin and different water properties. Laboratory reactor processes for their production were developed in batch and continuous cultures. Some of the synthesized thermostable enzymes were among the first described in their groups, for example, the single known thermostable gellan lyase that demonstrated specific activity higher than that of the mesophilic enzymes. Isolated by us thermostable xylanase was able to degrade more than 60% of beechwood xylan in a coprocess with an archaeal β‐xylosidase. Lipase purified by us was active between 55 and 90°C with an optimum at 75–80°C in a large pH range. It was able to degrade a broad range of substrates. Isolates from Bulgarian hot springs synthesized EPS with novel composition and high thermostability. Thus, Bulgarian hot springs harbor a wide set of thermophilic producers of novel enzymes and EPS with potential for a large number of biotechnological applications.

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Metagenomic Analysis of Hot Springs in Central India Reveals Hydrocarbon Degrading Thermophiles and Pathways Essential for Survival in Extreme Environments

Cited by 110 publications

References 71 publications

Correlating enzyme annotations with a large set of microbial growth temperatures reveals metabolic adaptations to growth at diverse temperatures

Correlating enzyme annotations with a large set of microbial growth temperatures reveals metabolic adaptations to growth at diverse temperatures

Thermophilic bacterial communities inhabiting the microbial mats of “indifferent” and chalybeate (iron‐rich) thermal springs: Diversity and biotechnological analysis

Thermostable enzymes and polysaccharides produced by thermophilic bacteria isolated from Bulgarian hot springs

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