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Author Correction: Bacterial pathogens deliver water- and solute-permeable channels to plant cells. [PDF]
NatureNomura K +5 more
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A Gravity-Responsive Time-Keeping Protein of the Plant and Animal Cell Surface
, 2003 D. James Morré
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Molecular Biology, 2020
A brief review of current data on the molecular biology of stem cells forming meristems and differentiating into various organs of angiosperms is presented. Different primary and secondary meristems are compared. The interactions of some hormones, regulatory gene networks, and signaling pathways in different types of meristems are described.
A S, Voronina, E S, Pshennikova
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A brief review of current data on the molecular biology of stem cells forming meristems and differentiating into various organs of angiosperms is presented. Different primary and secondary meristems are compared. The interactions of some hormones, regulatory gene networks, and signaling pathways in different types of meristems are described.
A S, Voronina, E S, Pshennikova
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Applied Biochemistry and Biotechnology, 1982
Plant cells have been immobilized in alginate, where they have been shown to retain their biological activity. Such systems can be utilized for bioconversions.
P, Brodelius, K, Mosbach
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Plant cells have been immobilized in alginate, where they have been shown to retain their biological activity. Such systems can be utilized for bioconversions.
P, Brodelius, K, Mosbach
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Current Opinion in Plant Biology, 2010
As our cover video illustrates, plant cells are very dynamic; their structure and molecular composition constantly changes as they progress through the cell cycle, divide, differentiate into specialised cell types, and respond to fluctuating environments. Progress in all of these areas is summarized in this issue.
Luschnig, C, Grierson, CS
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As our cover video illustrates, plant cells are very dynamic; their structure and molecular composition constantly changes as they progress through the cell cycle, divide, differentiate into specialised cell types, and respond to fluctuating environments. Progress in all of these areas is summarized in this issue.
Luschnig, C, Grierson, CS
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Plant Cell Suspension Cultures
2012Plant cell suspension cultures are widely used in plant biology as a convenient tool for the investigation of a wide range of phenomena, bypassing the structural complexity of the plant organism in toto. The homogeneity of an in vitro cell population, the large availability of material, the high rate of cell growth and the good reproducibility of ...
MOSCATIELLO, ROBERTO +2 more
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Current Opinion in Plant Biology, 2010
A major challenge in plant biology is to understand how functions in plant cells emerge from interactions between molecular components. Computational and mathematical modelling can encapsulate the relationships between molecular components and reveal how biological functions emerge.
Liu, J +3 more
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A major challenge in plant biology is to understand how functions in plant cells emerge from interactions between molecular components. Computational and mathematical modelling can encapsulate the relationships between molecular components and reveal how biological functions emerge.
Liu, J +3 more
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1985
Immobilization of plant cells is still a young technology but this review illustrates the potential it has for improving the production of phytochemicals. The similarity between the immobilized state and whole tissue is emphasized and the way in which this can be used to advantage is discussed.
A. Rosevear, C. A. Lambe
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Immobilization of plant cells is still a young technology but this review illustrates the potential it has for improving the production of phytochemicals. The similarity between the immobilized state and whole tissue is emphasized and the way in which this can be used to advantage is discussed.
A. Rosevear, C. A. Lambe
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Current Opinion in Plant Biology, 1999
Molecular controls of the plant cell cycle must integrate environmental signals within developmental contexts. Recent advances highlight the fundamental conservation of underlying cell cycle mechanisms between animals and plants, overlaid by a rich molecular and regulatory diversity that is specific to plant systems.
R P, Huntley, J A, Murray
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Molecular controls of the plant cell cycle must integrate environmental signals within developmental contexts. Recent advances highlight the fundamental conservation of underlying cell cycle mechanisms between animals and plants, overlaid by a rich molecular and regulatory diversity that is specific to plant systems.
R P, Huntley, J A, Murray
openaire +2 more sources