eLife
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Published on Feb 8, 2019in eLife 7.62
Evgeniya V. Nazarova3
Estimated H-index: 3
(Cornell University),
Christine R. Montague4
Estimated H-index: 4
(Cornell University)
+ 3 AuthorsBrian C. VanderVen11
Estimated H-index: 11
(Cornell University)
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Published on Feb 28, 2019in eLife 7.62
Bradley Quade3
Estimated H-index: 3
(University of Texas Southwestern Medical Center),
Marcial Camacho2
Estimated H-index: 2
(Charité)
+ 7 AuthorsJosep Rizo70
Estimated H-index: 70
(University of Texas Southwestern Medical Center)
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Published on Jan 21, 2019in eLife 7.62
Vikas Nanda22
Estimated H-index: 22
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Published on Jan 23, 2019in eLife 7.62
Michelle S. Erwig2
Estimated H-index: 2
(Max Planck Society),
Julia Patzig9
Estimated H-index: 9
(Max Planck Society)
+ 9 AuthorsOlaf Jahn30
Estimated H-index: 30
(Max Planck Society)
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Published on Feb 7, 2019in eLife 7.62
Byounghoon Kim6
Estimated H-index: 6
(University of Wisconsin-Madison),
Shobha Kenchappa (University of Wisconsin-Madison)+ 4 AuthorsAri Rosenberg9
Estimated H-index: 9
(University of Wisconsin-Madison)
Modern neuroscience research often requires the coordination of multiple processes such as stimulus generation, real-time experimental control, as well as behavioral and neural measurements. The technical demands required to simultaneously manage these processes with high temporal fidelity limits the number of labs capable of performing such work. Here we present an open-source network-based parallel processing framework that eliminates these barriers. The Real-Time Experimental Control with Gra...
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Published on Jan 16, 2019in eLife 7.62
Mohammed Kaplan2
Estimated H-index: 2
(California Institute of Technology),
Debnath Ghosal4
Estimated H-index: 4
(California Institute of Technology)
+ 7 AuthorsGrant J. Jensen50
Estimated H-index: 50
(California Institute of Technology)
Bacteria are so small that for them, making their way through water is like swimming in roofing tar for us. In response, these organisms have evolved a molecular machine that helps them move in their environment. Named the bacterial flagellum, this complex assemblage of molecules is formed of three main parts: a motor that spans the inner and outer membranes of the cell, and then a ‘hook’ that connects to a long filament which extends outside the bacterium. More precisely, the motor is formed of...
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Published on Jan 16, 2019in eLife 7.62
Daniel Čapek3
Estimated H-index: 3
(Institute of Science and Technology Austria),
Michael Smutny7
Estimated H-index: 7
(University of Warwick)
+ 3 AuthorsCarl-Philipp Heisenberg64
Estimated H-index: 64
(Institute of Science and Technology Austria)
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Published on Jan 2, 2019in eLife 7.62
Oliver J Wilkinson (University of Bristol), Alejandro Martín-González1
Estimated H-index: 1
(Spanish National Research Council)
+ 4 AuthorsMark S. Dillingham30
Estimated H-index: 30
(University of Bristol)
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Published on Feb 8, 2019in eLife 7.62
Denise M Poltavski (Children's Hospital Los Angeles), Pauline Colombier (University of California, San Francisco)+ 3 AuthorsTakako Makita (Medical University of South Carolina)
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Published on Jan 18, 2019in eLife 7.62
Melissa A. Borgen2
Estimated H-index: 2
(Scripps Research Institute),
Andrew C. Giles7
Estimated H-index: 7
(Scripps Research Institute)
+ 1 AuthorsBrock Grill14
Estimated H-index: 14
(Scripps Research Institute)
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