J
J. Milne
Researcher at Stanford University
Publications - 14
Citations - 3556
J. Milne is an academic researcher from Stanford University. The author has contributed to research in topics: Renewable energy & Guard cell. The author has an hindex of 10, co-authored 14 publications receiving 3117 citations. Previous affiliations of J. Milne include Carnegie Institution for Science.
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Journal ArticleDOI
Toward a Systems Approach to Understanding Plant Cell Walls
Chris Somerville,Chris Somerville,Stefan Bauer,Ginger Brininstool,Michelle R Facette,Michelle R Facette,Thorsten Hamann,J. Milne,Erin Osborne,Alexander R. Paredez,Alexander R. Paredez,Staffan Persson,Theodore K. Raab,Sonja Vorwerk,Heather Youngs,Heather Youngs +15 more
TL;DR: Progress in integrating biophysical, developmental, and genetic information into a useful model will require a system-based approach.
Journal ArticleDOI
Biophysical and economic limits to negative CO2 emissions
Pete Smith,Steven J. Davis,Felix Creutzig,Sabine Fuss,Jan C. Minx,Jan C. Minx,Benoit Gabrielle,Etsushi Kato,Robert B. Jackson,Annette Cowie,Elmar Kriegler,Detlef P. van Vuuren,Detlef P. van Vuuren,Joeri Rogelj,Joeri Rogelj,Philippe Ciais,J. Milne,Josep G. Canadell,David L. McCollum,Glen P. Peters,Robbie M. Andrew,Volker Krey,Gyami Shrestha,Pierre Friedlingstein,Thomas Gasser,Arnulf Grubler,Wolfgang K. Heidug,Matthias Jonas,Chris D. Jones,Florian Kraxner,Emma Littleton,J. Lowe,José Roberto Moreira,Nebojsa Nakicenovic,Michael Obersteiner,Anand Patwardhan,Mathis Rogner,Edward S. Rubin,Ayyoob Sharifi,Asbjørn Torvanger,Yoshiki Yamagata,Jae Edmonds,Cho Yongsung +42 more
TL;DR: In this article, the authors quantify potential global impacts of different negative emissions technologies on various factors (such as land, greenhouse gas emissions, water, albedo, nutrients and energy) to determine the biophysical limits to, and economic costs of, their widespread application.
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Identification of genes required for cellulose synthesis by regression analysis of public microarray data sets
TL;DR: To identify factors involved in cellulose biosynthesis, a regression method was used to analyze 408 publicly available Affymetrix Arabidopsis microarrays and found the general approach developed here is useful for identification of elements of multicomponent processes.
Journal ArticleDOI
Cell wall arabinan is essential for guard cell function
TL;DR: This work shows that degradation of cell wall arabinan prevents either stomatal opening or closing, and suggests that arabinans maintain flexibility in the cell wall by preventing homogalacturonan polymers from forming tight associations.
Journal ArticleDOI
Mutations in UDP-Glucose:Sterol Glucosyltransferase in Arabidopsis Cause Transparent Testa Phenotype and Suberization Defect in Seeds
Seth DeBolt,Wolf-Riidiger Scheible,Kathrin Schrick,Manfred Auer,Fred Beisson,Volker Bischoff,Pierrette Bouvier-Navé,Andrew Carroll,Kian Hématy,Yonghua Li,J. Milne,Meera Nair,Hubert Schaller,Marcin Zemla,Chris Somerville +14 more
TL;DR: A membrane function for SGs and acyl SGs in trafficking of lipid polyester precursors and cellulose biosynthesis was observed in the double mutant, inconsistent with a predicted role forSGs in priming cellulose synthesis.