Adaptation to herbivory by the Tammar wallaby includes bacterial and glycoside hydrolase profiles different from other herbivores

Pope, Phillip B.; Denman, Stuart E.; Jones, Martin O.; Tringe, Susannah G.; Barry, Kerrie; Malfatti, Stephanie; McHardy, Alice C.; Cheng, Jan‐Fang; Hugenholtz, Philip; McSweeney, Christopher S.; Morrison, Mark

doi:10.1073/pnas.1005297107

Cited by 197 publications

(208 citation statements)

References 41 publications

(41 reference statements)

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“…Glycoside hydrolase genes were also identified, and over 929 genes and modules were recovered from 47 different CAZy families (carbohydrate active enzymes). Although there were not significant differences in the abundance of debranching enzymes in comparisons of the GSM, giant panda 22 , tammar 23 and termite 24 hindguts, there were considerably more GH78 sequences in GSM. As in giant panda, the abundance of cellulases and endohemicellulases in GSM was generally lower than in human, cattle and termite (Supplementary Table 34).…”

Section: Stomach Metagenomics and Cellulose Metabolismmentioning

confidence: 73%

Whole-genome sequencing of the snub-nosed monkey provides insights into folivory and evolutionary history

et al. 2014

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Colobines are a unique group of Old World monkeys that principally eat leaves and seeds rather than fruits and insects. We report the sequencing at 146× coverage, de novo assembly and analyses of the genome of a male golden snub-nosed monkey (Rhinopithecus roxellana) and resequencing at 30× coverage of three related species (Rhinopithecus bieti, Rhinopithecus brelichi and Rhinopithecus strykeri). Comparative analyses showed that Asian colobines have an enhanced ability to derive energy from fatty acids and to degrade xenobiotics. We found evidence for functional evolution in the colobine RNASE1 gene, encoding a key secretory RNase that digests the high concentrations of bacterial RNA derived from symbiotic microflora. Demographic reconstructions indicated that the profile of ancient effective population sizes for R. roxellana more closely resembles that of giant panda rather than its congeners. These findings offer new insights into the dietary adaptations and evolutionary history of colobine primates.Knowledge of the patterns and processes underlying the evolution of alternative dietary strategies in nonhuman primates is critical to understanding hominin evolution, nutritional ecology and applications in biomedicine 1 . Colobines, a group of Old World monkeys, serve as an important model organism for studying the evolution of the primate diet because of their adaptation to folivory: they primarily eat leaves and seeds rather than fruits and insects as their major food source. In their specialized and compartmentalized stomachs, colobines allow symbiotic bacteria in the foregut to ferment structural carbohydrates and then recover nutrients by digesting the bacteria 2 . This strategy is similar to that used by other foregut fermenters found in an evolutionarily distantly related group of mammals (for example, artiodactyls). Although a number of primate genomes have been sequenced thus far, high-quality genome sequence information is absent for Asian and African colobines, a key group for elucidating the evolution and adaptation of primates as a whole. Snub-nosed monkeys (Rhinopithecus species) are a group of endangered colobines, which were once widely distributed in Asia but are now limited to mountain forests in China and Vietnam 3 (Supplementary Fig. 1).The golden snub-nosed monkey (GSM, R. roxellana) is recognized as an iconic endangered species in China for its golden coat, blue facial coloration, snub nose and specialized life history. Among its congeners, the black-white snub-nosed monkey (R. bieti), endemic to the Tibetan plateau, has the highest altitudinal distribution (>4,000 m above sea level) of any nonhuman primate. Given the above features and the fact that Rhinopithecus species consume difficult-to-digest foods that contain tannins (for example, leaves and pine seeds), we expected to identify genetic adaptations that enhance the breakdown of toxins, improve the regulation of energy metabolism and facilitate the digestion of symbiotic microbacteria. RESULTS Genomic sequences and the accumulation of...

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Section: Stomach Metagenomics and Cellulose Metabolismmentioning

confidence: 73%

Whole-genome sequencing of the snub-nosed monkey provides insights into folivory and evolutionary history

et al. 2014

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“…Bacterial communities in ant fungus gardens FO Aylward et al communities such as the Tammar wallaby foregut (Pope et al, 2010) and termite hindgut (Warnecke et al, 2007), fungus gardens contained relatively fewer cellulases and hemicellulases, but similar numbers of oligosaccharide-degrading enzymes.…”

Section: Metabolic Potential Of Bacterial Lineagesmentioning

confidence: 99%

Metagenomic and metaproteomic insights into bacterial communities in leaf-cutter ant fungus gardens

et al. 2012

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Herbivores gain access to nutrients stored in plant biomass largely by harnessing the metabolic activities of microbes. Leaf-cutter ants of the genus Atta are a hallmark example; these dominant neotropical herbivores cultivate symbiotic fungus gardens on large quantities of fresh plant forage. As the external digestive system of the ants, fungus gardens facilitate the production and sustenance of millions of workers. Using metagenomic and metaproteomic techniques, we characterize the bacterial diversity and physiological potential of fungus gardens from two species of Atta. Our analysis of over 1.2 Gbp of community metagenomic sequence and three 16S pyrotag libraries reveals that in addition to harboring the dominant fungal crop, these ecosystems contain abundant populations of Enterobacteriaceae, including the genera Enterobacter, Pantoea, Klebsiella, Citrobacter and Escherichia. We show that these bacterial communities possess genes associated with lignocellulose degradation and diverse biosynthetic pathways, suggesting that they play a role in nutrient cycling by converting the nitrogen-poor forage of the ants into B-vitamins, amino acids and other cellular components. Our metaproteomic analysis confirms that bacterial glycosyl hydrolases and proteins with putative biosynthetic functions are produced in both fieldcollected and laboratory-reared colonies. These results are consistent with the hypothesis that fungus gardens are specialized fungus-bacteria communities that convert plant material into energy for their ant hosts. Together with recent investigations into the microbial symbionts of vertebrates, our work underscores the importance of microbial communities in the ecology and evolution of herbivorous metazoans.

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“…In the sequence homology-based annotation of AcXEs, it has been demonstrated [50,51] that the use of conserved catalytic residues and block patterns in multiple sequence alignments for constructing phylogenetic trees is a more reliable guide to predicting enzyme specificity [52].…”

Section: Acxe Phylogenymentioning

confidence: 99%

“…For confirmatory studies, 'synthetic metagenomics' [112] can be employed to synthesize predicted genes or the genes can be mined from the actual metagenomic libraries via PCR analysis using specific oligonucleotide probes [113]. Sequence homology-based metagenomic screening has been employed to identify CAZymes [50,51,114], but only one of such experiments have resulted in the functional characterization of AcXEs [51]. However, considering their sequence similarities with other non-AcXE CEs, sequence homology-predicted AcXEs may not provide accurate information on functional properties.…”

Section: Mining Metagenomes For Novel Acxesmentioning

confidence: 99%

Phylogeny, classification and metagenomic bioprospecting of microbial acetyl xylan esterases

Adesioye

Makhalanyane

Biely

et al. 2016

Enzyme and Microbial Technology

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Highlights• AcXEs occur in several CAZy families, and show promiscuous substrate specificities.• A strong AcXE sequence to specificity link would be a valuable functional predictor.• There is a clear need for novel AcXE enzymes with detailed substrate specificity data.• Functional metagenomics would be the most effective means for identifying new AcXEs.• A lack of suitable substrates limits high throughput metagenomic biomining of AcXEs.

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Adaptation to herbivory by the Tammar wallaby includes bacterial and glycoside hydrolase profiles different from other herbivores

Cited by 197 publications

References 41 publications

Whole-genome sequencing of the snub-nosed monkey provides insights into folivory and evolutionary history

Whole-genome sequencing of the snub-nosed monkey provides insights into folivory and evolutionary history

Metagenomic and metaproteomic insights into bacterial communities in leaf-cutter ant fungus gardens

Phylogeny, classification and metagenomic bioprospecting of microbial acetyl xylan esterases

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