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Richard A. Schneider
University of California, San Francisco
84Publications
28H-index
2,375Citations
Publications 83
Newest
#1Katherine C. Woronowicz (UCSF: University of California, San Francisco)H-Index: 2
#2Richard A. Schneider (UCSF: University of California, San Francisco)H-Index: 28
The amniote jaw complex is a remarkable amalgamation of derivatives from distinct embryonic cell lineages. During development, the cells in these lineages experience concerted movements, migrations, and signaling interactions that take them from their initial origins to their final destinations and imbue their derivatives with aspects of form including their axial orientation, anatomical identity, size, and shape. Perturbations along the way can produce defects and disease, but also generate the...
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#1Daniel Núñez-León (UZH: University of Zurich)H-Index: 2
#2Gabriel Aguirre-Fernández (UZH: University of Zurich)H-Index: 6
Last.Marcelo R. Sánchez-Villagra (UZH: University of Zurich)H-Index: 33
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#1Katherine C. Woronowicz (UCSF: University of California, San Francisco)H-Index: 2
#2Stephanie E. Gline (UCSF: University of California, San Francisco)H-Index: 4
Last.Richard A. Schneider (UCSF: University of California, San Francisco)H-Index: 28
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Author(s): Woronowicz, KC; Gline, SE; Herfat, ST; Fields, AJ; Schneider, RA | Abstract: How does form arise during development and change during evolution? How does form relate to function, and what enables embryonic structures to presage their later use in adults? To address these questions, we leverage the distinct functional morphology of the jaw in duck, chick, and quail. In connection with their specialized mode of feeding, duck develop a secondary cartilage at the tendon insertion of their...
3 CitationsSource
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More than two decades of work towards liberating scholarly publishing from paywalled constraints has left many within the scholarly community exploring ways to accelerate the transition to open access. Not all institutions or author communities will agree upon which strategies or funding approaches to undertake, and nor do they need to. But whichever strategy is pursued, having university faculty lead the charge represents the most effective way forward. Rachael G. Samberg, Richard A. Schneider,...
Author(s): Schneider, R | Abstract: This book is the first in a projected series on Evolutionary Cell Biology, the intent of which is to demonstrate the essential role of cellular mechanisms in transforming the genotype into the phenotype by transforming gene activity into ...
2 CitationsSource
#1Richard A. Schneider (UCSF: University of California, San Francisco)H-Index: 28
3 CitationsSource
#1Katherine C. Woronowicz (UCSF: University of California, San Francisco)H-Index: 2
#2Stephanie E. Gline (UCSF: University of California, San Francisco)H-Index: 4
Last.Richard A. Schneider (UCSF: University of California, San Francisco)H-Index: 28
view all 5 authors...
How does form arise during development and change during evolution? How does form relate to function, and what enables embryonic structures to presage their later use in adults? To address these questions, we leverage the distinct functional morphology of the jaw in duck, chick, and quail. In connection with their specialized mode of feeding, duck develop a secondary cartilage at the tendon insertion of their jaw adductor muscle on the mandible. An equivalent cartilage is absent in chick and qua...
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#1Rachael Samberg (UCSF: University of California, San Francisco)
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In 2017, four University of California (UC) campuses took a public stance on accelerating the transition to open access (OA) by endorsing the Open Access 2020 (OA2020) initiative’s Expression of Interest (EOI). OA2020 is an international effort to convert the existing corpus of scholarly journals from subscription-based access to OA. In March 2017, when the first three UC campuses—UC-Berkeley, UC-Davis, and UC-San Francisco—endorsed, 1,2 there had been only one U.S. signatory institution (Califo...
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#1Alex J. Hughes (UCSF: University of California, San Francisco)H-Index: 9
#2Hikaru Miyazaki (University of California, Berkeley)H-Index: 1
Last.Zev J. GartnerH-Index: 23
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Summary Many tissues fold into complex shapes during development. Controlling this process in vitro would represent an important advance for tissue engineering. We use embryonic tissue explants, finite element modeling, and 3D cell-patterning techniques to show that mechanical compaction of the extracellular matrix during mesenchymal condensation is sufficient to drive tissue folding along programmed trajectories. The process requires cell contractility, generates strains at tissue interfaces, a...
37 CitationsSource
#1Alex J. Hughes (UCSF: University of California, San Francisco)H-Index: 9
#2Hikaru Miyazaki (UCSF: University of California, San Francisco)H-Index: 1
Last.Zev J. Gartner (UCSF: University of California, San Francisco)H-Index: 23
view all 10 authors...
Many tissues fold during development into complex shapes. Engineering this process in vitro would represent an important advance for tissue engineering. We use embryonic tissue explants, finite element modeling, and 3D cell patterning techniques to show that a mechanical compaction of the ECM during mesenchymal condensation can drive tissue folding along programmed trajectories. The process requires cell contractility, generates strains at nearby tissue interfaces, and causes specific patterns o...
1 CitationsSource
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