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New aminopeptidase from "microbial dark matter" archaeon.


ABSTRACT: Marine sediments host a large population of diverse, heterotrophic, uncultured microorganisms with unknown physiologies that control carbon flow through organic matter decomposition. Recently, single-cell genomics uncovered new key players in these processes, such as the miscellaneous crenarchaeotal group. These widespread archaea encode putative intra- and extracellular proteases for the degradation of detrital proteins present in sediments. Here, we show that one of these enzymes is a self-compartmentalizing tetrameric aminopeptidase with a preference for cysteine and hydrophobic residues at the N terminus of the hydrolyzed peptide. The ability to perform detailed characterizations of enzymes from native subsurface microorganisms, without requiring that those organisms first be grown in pure culture, holds great promise for understanding key carbon transformations in the environment as well as identifying new enzymes for biomedical and biotechnological applications.

SUBMITTER: Michalska K 

PROVIDER: S-EPMC4550370 | biostudies-literature | 2015 Sep

REPOSITORIES: biostudies-literature

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New aminopeptidase from "microbial dark matter" archaeon.

Michalska Karolina K   Steen Andrew D AD   Chhor Gekleng G   Endres Michael M   Webber Austen T AT   Bird Jordan J   Lloyd Karen G KG   Joachimiak Andrzej A  

FASEB journal : official publication of the Federation of American Societies for Experimental Biology 20150610 9


Marine sediments host a large population of diverse, heterotrophic, uncultured microorganisms with unknown physiologies that control carbon flow through organic matter decomposition. Recently, single-cell genomics uncovered new key players in these processes, such as the miscellaneous crenarchaeotal group. These widespread archaea encode putative intra- and extracellular proteases for the degradation of detrital proteins present in sediments. Here, we show that one of these enzymes is a self-com  ...[more]

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