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image: Opinion: How to Define Cell Type

Opinion: How to Define Cell Type

By , , and | November 1, 2017

Advances in single-cell technologies have revealed vast differences between cells once thought to be in the same category, calling into question how we define cell type in the first place.

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image: Contributors

Contributors

By | November 1, 2017

Meet some of the people featured in the November 2017 issue of The Scientist.

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image: Infographic: Breaking into the Brain

Infographic: Breaking into the Brain

By | November 1, 2017

The blood-brain barrier is a collection of specialized cells and proteins that control the movement of molecules from the blood to the central nervous system.

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image: Infographic: Understanding Our Diverse Brain

Infographic: Understanding Our Diverse Brain

By , , and | November 1, 2017

Recent advances in single-cell omics and other techniques are revealing variation at genomic, epigenomic, transcriptomic, and posttranscriptomic levels.

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image: Lessons in Memory from a Champ

Lessons in Memory from a Champ

By | November 1, 2017

A four-time winner of the USA Memory Championship is helping scientists understand how the brain works.

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image: Advancing Techniques Reveal the Brain’s Impressive Diversity

Advancing Techniques Reveal the Brain’s Impressive Diversity

By , , and | November 1, 2017

No two neurons are alike. What does that mean for brain function?

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image: Getting Drugs Past the Blood-Brain Barrier

Getting Drugs Past the Blood-Brain Barrier

By | November 1, 2017

To treat neurological disease, researchers develop techniques to bypass or trick the guardian of the central nervous system.

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Research in human patients and mice reveals the role of the circadian clock in the risk of heart damage at different times of day.

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With the arrival of a new class of single-nucleotide editors, researchers can target the most common type of pathogenic SNP in humans.

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image: RNA Editing Possible with CRISPR-Cas13

RNA Editing Possible with CRISPR-Cas13

By | October 25, 2017

Scientists extend the capabilities of the CRISPR-Cas system to include precise manipulations of RNA sequences in human cells.

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