Literature DB >> 32055027

Next-generation physiology approaches to study microbiome function at single cell level.

Roland Hatzenpichler1, Viola Krukenberg2, Rachel L Spietz2, Zackary J Jay2.   

Abstract

The function of cells in their native habitat often cannot be reliably predicted from genomic data or from physiology studies of isolates. Traditional experimental approaches to study the function of taxonomically and metabolically diverse microbiomes are limited by their destructive nature, low spatial resolution or low throughput. Recently developed technologies can offer new insights into cellular function in natural and human-made systems and how microorganisms interact with and shape the environments that they inhabit. In this Review, we provide an overview of these next-generation physiology approaches and discuss how the non-destructive analysis of cellular phenotypes, in combination with the separation of the target cells for downstream analyses, provide powerful new, complementary ways to study microbiome function. We anticipate that the widespread application of next-generation physiology approaches will transform the field of microbial ecology and dramatically improve our understanding of how microorganisms function in their native environment.

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Year:  2020        PMID: 32055027      PMCID: PMC7133793          DOI: 10.1038/s41579-020-0323-1

Source DB:  PubMed          Journal:  Nat Rev Microbiol        ISSN: 1740-1526            Impact factor:   60.633


  146 in total

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Review 5.  Major New Microbial Groups Expand Diversity and Alter our Understanding of the Tree of Life.

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  37 in total

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6.  Stabilizing microbial communities by looped mass transfer.

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7.  Luminescence lifetime imaging of three-dimensional biological objects.

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9.  Active site-dominated electromagnetic enhancement of surface-enhanced Raman spectroscopy (SERS) on a Cu triangle plate.

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Review 10.  Prokaryotic taxonomy and nomenclature in the age of big sequence data.

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