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Mismatched ancestral origins of mitochondrial and nuclear DNA boost mouse health.

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image: A New Role for Marine Archaea

A New Role for Marine Archaea

By | July 1, 2016

Researchers discover acetogenesis in archaea, suggesting an important role for these little-studied organisms in generating organic carbon below the seafloor.

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image: Archaea’s Role in Carbon Cycle

Archaea’s Role in Carbon Cycle

By | July 1, 2016

Bathyarchaeota undergo acetogenesis, generating organic carbon below the seafloor.

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image: Hot Off the Presses

Hot Off the Presses

By | July 1, 2016

The Scientist reviews Serendipity, Complexity, The Human Superorgasism, and Love and Ruin

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image: Marine Bacteria Share Carbon Assimilation Duties

Marine Bacteria Share Carbon Assimilation Duties

By | July 1, 2016

Taxonomic differences in bacterioplankton amino acid uptake

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image: Multicellular Cooperation Curbs Cheating

Multicellular Cooperation Curbs Cheating

By | July 1, 2016

An experimental evolution study shows that more cheaters arise when bread mold fungal cells are less related to one another.

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image: Your Office Has a Distinct Microbiome

Your Office Has a Distinct Microbiome

By | July 1, 2016

Researchers detail the major factors shaping the microbiomes that surround us while we work.

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image: Immune Cell–Stem Cell Cooperation

Immune Cell–Stem Cell Cooperation

By , and | July 1, 2016

Understanding interactions between the immune system and stem cells could pave the way for successful stem cell–based regenerative therapies.

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image: Immune Cells' Role in Tissue Maintenance and Repair

Immune Cells' Role in Tissue Maintenance and Repair

By , and | July 1, 2016

The cells of the mammalian immune system do more than just fight off pathogens; they are also important players in stem cell function and are thus crucial for maintaining homeostasis and recovering from injury.

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image: Single-Cell RNA Sequencing Reveals Neuronal Diversity

Single-Cell RNA Sequencing Reveals Neuronal Diversity

By | June 23, 2016

Using a new approach to analyze the transcriptomes of thousands of individual cell nuclei in postmortem brains, researchers identify multiple neuronal subtypes.

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