Merlin Thompson scite author profile

Biological methane utilization, one of the main sinks of the greenhouse gas in nature, represents an attractive platform for production of fuels and value-added chemicals. Despite the progress made in our understanding of the individual parts of methane utilization, our knowledge of how the whole-cell metabolic network is organized and coordinated is limited. Attractive growth and methane-conversion rates, a complete and expert-annotated genome sequence, as well as large enzymatic, 13C-labeling, and transcriptomic datasets make Methylomicrobium alcaliphilum 20ZR an exceptional model system for investigating methane utilization networks. Here we present a comprehensive metabolic framework of methane and methanol utilization in M. alcaliphilum 20ZR. A set of novel metabolic reactions governing carbon distribution across central pathways in methanotrophic bacteria was predicted by in-silico simulations and confirmed by global non-targeted metabolomics and enzymatic evidences. Our data highlight the importance of substitution of ATP-linked steps with PPi-dependent reactions and support the presence of a carbon shunt from acetyl-CoA to the pentose-phosphate pathway and highly branched TCA cycle. The diverged TCA reactions promote balance between anabolic reactions and redox demands. The computational framework of C1-metabolism in methanotrophic bacteria can represent an efficient tool for metabolic engineering or ecosystem modeling.

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Transcriptome profiling reveals signaling conditions dictating human spermatogonia fate in vitro

Tan

Song

Thompson

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Spermatogonial stem cells (SSCs) are essential for the generation of sperm and have potential therapeutic value for treating male infertility, which afflicts >100 million men world-wide. While much has been learned about rodent SSCs, human SSCs remain poorly understood. Here, we molecularly characterize human SSCs and define conditions favoring their culture. To achieve this, we first identified a cell-surface protein, PLPPR3, that allowed purification of human primitive undifferentiated spermatogonia (uSPG) highly enriched for SSCs. Comparative RNA-sequencing analysis of these enriched SSCs with differentiating SPG (KIT+ cells) revealed the full complement of genes that shift expression during this developmental transition, including genes encoding key components in the TGF-β, GDNF, AKT, and JAK-STAT signaling pathways. We examined the effect of manipulating these signaling pathways on cultured human SPG using both conventional approaches and single-cell RNA-sequencing analysis. This revealed that GDNF and BMP8B broadly support human SPG culture, while activin A selectively supports more advanced human SPG. One condition—AKT pathway inhibition—had the unique ability to selectively support the culture of primitive human uSPG. This raises the possibility that supplementation with an AKT inhibitor could be used to culture human SSCs in vitro for therapeutic applications.

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Mp38-11 transcriptome Analysis Reveals Conditions for Culturing Human Spermatogonial Stem-Like Cells

Tan¹,

Song²,

Thompson³

et al. 2020

Journal of Urology

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Author Correction: Methane utilization in Methylomicrobium alcaliphilum 20ZR: a systems approach

Akberdin

Thompson

Hamilton

et al. 2018

Sci Rep

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Systems Biology and Metabolic Modeling of C1-Metabolism

Akberdin

Thompson

Kalyuzhnaya

2018

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Merlin Thompson

Methane utilization in Methylomicrobium alcaliphilum 20ZR: a systems approach

Transcriptome profiling reveals signaling conditions dictating human spermatogonia fate in vitro

Mp38-11 transcriptome Analysis Reveals Conditions for Culturing Human Spermatogonial Stem-Like Cells

Author Correction: Methane utilization in Methylomicrobium alcaliphilum 20ZR: a systems approach

Systems Biology and Metabolic Modeling of C1-Metabolism

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