1972 - Fellow of John Simon Guggenheim Memorial Foundation
Russell L. Jones mainly focuses on Biochemistry, Aleurone, Abscisic acid, Gibberellic acid and Germination. His study in Superoxide dismutase, Cytoplasm, Organelle, Enzyme and Vacuole is done as part of Biochemistry. His Aleurone research is multidisciplinary, relying on both Secretion, Programmed cell death, Endoplasmic reticulum, Cell biology and Protoplast.
His study looks at the relationship between Endoplasmic reticulum and topics such as Microbody, which overlap with Amylase. His Abscisic acid study incorporates themes from Gibberellin, Cell and Intracellular. In his research on the topic of Germination, Imbibition is strongly related with Seedling.
The scientist’s investigation covers issues in Biochemistry, Aleurone, Gibberellic acid, Gibberellin and Secretion. His Biochemistry research integrates issues from Hypocotyl, Biophysics and Cell biology. His work deals with themes such as Endoplasmic reticulum, Abscisic acid, Protoplast and Amylase, which intersect with Aleurone.
The various areas that Russell L. Jones examines in his Gibberellic acid study include Molecular biology and Messenger RNA. The concepts of his Gibberellin study are interwoven with issues in Endosperm, Chromatography and Metabolism. His Secretion research includes elements of Cell and Cell wall.
Russell L. Jones mainly focuses on Biochemistry, Aleurone, Abscisic acid, Germination and Botany. His study in Biochemistry concentrates on Superoxide dismutase, Vacuole, Protein kinase A, Organelle and Cytoplasm. The study incorporates disciplines such as Gene expression, Storage protein, Reactive oxygen species, Cell biology and Programmed cell death in addition to Aleurone.
His Programmed cell death study integrates concerns from other disciplines, such as Secretion, Cell, Protoplast and Intracellular. His Abscisic acid research is multidisciplinary, incorporating elements of Gibberellin and Glyoxylate cycle. His research on Germination also deals with topics like
His primary scientific interests are in Aleurone, Biochemistry, Abscisic acid, Germination and Programmed cell death. His is doing research in Superoxide dismutase and Catalase, both of which are found in Biochemistry. His study in Abscisic acid is interdisciplinary in nature, drawing from both Gibberellin and Cell biology.
Russell L. Jones interconnects Cell, Arabidopsis thaliana, DNA, Incubation and Protoplast in the investigation of issues within Cell biology. Russell L. Jones has researched Germination in several fields, including Arabidopsis and Seedling. His work carried out in the field of Programmed cell death brings together such families of science as Plant hormone, Secretion and Intracellular.
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Group‐contribution estimation of activity coefficients in nonideal liquid mixtures
Aage Fredenslund;Russell L. Jones;John M. Prausnitz.
Aiche Journal (1975)
Apoplastic Synthesis of Nitric Oxide by Plant Tissues
Paul C. Bethke;Murray R. Badger;Russell L. Jones.
The Plant Cell (2004)
Plant Cells Contain Two Functionally Distinct Vacuolar Compartments
Nadine Paris;C.Michael Stanley;Russell L Jones;John C Rogers.
Nitric Oxide Acts as an Antioxidant and Delays Programmed Cell Death in Barley Aleurone Layers
Maria Veronica Beligni;Angelika Fath;Paul C. Bethke;Lorenzo Lamattina.
Plant Physiology (2002)
The Arabidopsis Aleurone Layer Responds to Nitric Oxide, Gibberellin, and Abscisic Acid and Is Sufficient and Necessary for Seed Dormancy
Paul C. Bethke;Igor G.L. Libourel;Natsuyo Aoyama;Yong-Yoon Chung.
Plant Physiology (2007)
Nitric oxide reduces seed dormancy in Arabidopsis
Paul C. Bethke;Igor G. L. Libourel;Russell L. Jones.
Journal of Experimental Botany (2006)
Cell death of barley aleurone protoplasts is mediated by reactive oxygen species.
Paul C. Bethke;Russell L. Jones.
Plant Journal (2001)
Regulation of synthesis and transport of secreted proteins in cereal aleurone.
Russell L. Jones;John V. Jacobsen.
International Review of Cytology-a Survey of Cell Biology (1991)
Perception of Gibberellin and Abscisic Acid at the External Face of the Plasma Membrane of Barley (Hordeum vulgare L.) Aleurone Protoplasts.
S. Gilroy;R. L. Jones.
Plant Physiology (1994)
Dormancy of Arabidopsis seeds and barley grains can be broken by nitric oxide
Paul C. Bethke;Frank Gubler;John V. Jacobsen;Russell L. Jones.
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