Results 291 to 300 of about 16,481,877 (361)
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On the relationship between the plant cell and the plant
Seminars in Cell & Developmental Biology, 1998The mechanism by which higher plant cells divide is quite different from the animal system, and has implications for the way in which the processes of pattern formation, morphogenesis and cell differentiation are executed. The relationship between cell shape, cell division and differentiation and development will be considered from an evolutionary ...
K, Lindsey, J, Topping
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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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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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Current Opinion in Plant Biology, 2001
Plant cells adopt a diversity of different shapes that are adapted to their specific functions. Central to the development of specialised form is the modification of cell-wall composition and organisation. A number of recent papers emphasise the importance of the cell wall to cell shaping, in the definition of both localised regions that are expandable
C, Martin, K, Bhatt, K, Baumann
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Plant cells adopt a diversity of different shapes that are adapted to their specific functions. Central to the development of specialised form is the modification of cell-wall composition and organisation. A number of recent papers emphasise the importance of the cell wall to cell shaping, in the definition of both localised regions that are expandable
C, Martin, K, Bhatt, K, Baumann
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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
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Pharmacological Reviews, 2000
Flavonoids are nearly ubiquitous in plants and are recognized as the pigments responsible for the colors of leaves, especially in autumn. They are rich in seeds, citrus fruits, olive oil, tea, and red wine.
E. Middleton +2 more
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Flavonoids are nearly ubiquitous in plants and are recognized as the pigments responsible for the colors of leaves, especially in autumn. They are rich in seeds, citrus fruits, olive oil, tea, and red wine.
E. Middleton +2 more
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Annual Review of Plant Biology, 2003
Cell division in plants is controlled by the activity of cyclin-dependent kinase (CDK) complexes. Although this basic mechanism is conserved with all other eukaryotes, plants show novel features of cell-cycle control in the molecules involved and their regulation, including novel CDKs showing strong transcriptional regulation in mitosis.
Walter, Dewitte, James A H, Murray
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Cell division in plants is controlled by the activity of cyclin-dependent kinase (CDK) complexes. Although this basic mechanism is conserved with all other eukaryotes, plants show novel features of cell-cycle control in the molecules involved and their regulation, including novel CDKs showing strong transcriptional regulation in mitosis.
Walter, Dewitte, James A H, Murray
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Plant biology, 2021
Abiotic stresses have a detrimental impact on plant growth and productivity and are a major threat to sustainable crop production in rapidly changing environments.
U. Ghosh +4 more
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Abiotic stresses have a detrimental impact on plant growth and productivity and are a major threat to sustainable crop production in rapidly changing environments.
U. Ghosh +4 more
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Current Opinion in Genetics & Development, 1992
Plant cells interact during development through diverse mechanisms that range from genetically encoded signals to physical stresses. Pollen self-incompatibility is the best understood cell interaction in plants. Analysis of genes that appear to be involved in specific developmental signals, such as liguleless1 from maize and GLABROUS1 from Arabidopsis,
P W, Becraft, M, Freeling
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Plant cells interact during development through diverse mechanisms that range from genetically encoded signals to physical stresses. Pollen self-incompatibility is the best understood cell interaction in plants. Analysis of genes that appear to be involved in specific developmental signals, such as liguleless1 from maize and GLABROUS1 from Arabidopsis,
P W, Becraft, M, Freeling
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Trends in Plant Science, 2007
The past decade has provided biologists with a palette of genetically encoded, multicolored fluorescent proteins. The living plant cell turned into a 'coloring book' and today, nearly every text-book organelle has been highlighted in scintillating fluorescent colors.
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The past decade has provided biologists with a palette of genetically encoded, multicolored fluorescent proteins. The living plant cell turned into a 'coloring book' and today, nearly every text-book organelle has been highlighted in scintillating fluorescent colors.
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