Results 251 to 260 of about 173,833 (408)
Tryptophan as an Auxin Precursor in Cucumber Seedlings [PDF]
, 1969 John Sherwin, William K. Purves
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Overall explanation of auxin mechanisms that control vascular differentiation in leaves and organ development in flowers. [PDF]
PlantaAloni R.
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Plant Biotechnology Journal, EarlyView.Summary With changes in complex environments, plants, especially their leaves, are constantly adapting. Aquatic plants face more diverse and harsh survival situations. However, their adaptive mechanisms are largely unknown. Euryale ferox is a floating leaf aquatic plant characterized by large and rapidly expanding leaves that serve as a model for ...
Ailian Liu +12 more
wiley +1 more source
Recovery of labeled ribonucleic acid following administration of labeled auxin to green pea stem sections. [PDF]
, 1965 Frank E. Bendana +3 more
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Upregulation of an IAA-Glucosyltransferase <i>OsIAGLU</i> in Rice (<i>Oryza sativa</i> L.) Impairs Root Gravitropism by Disrupting Starch Granule Homeostasis. [PDF]
Plants (Basel)Chen G, Fu X, Ruan X, Yu X, Hou D, Xu H.
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Plant Biotechnology Journal, EarlyView.Summary Cold and saline–alkali stress are typical abiotic stresses on forage in middle and high latitudes, and they frequently occur simultaneously, decreasing the yield and quality of forage. Ascorbic acid plays an essential role in reactive oxygen species metabolism in response to abiotic stress.
Weileng Guo +6 more
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Studies on Auxin Protectors. IV. The Effect of Manganese on Auxin Protector-I of the Japanese Morning Glory [PDF]
, 1968 Tom Stonier +2 more
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From root to embryogenic transition: WOX5 reprograms plant somatic cells via auxin-mediated pathways. [PDF]
BMC Plant BiolWójcik AM +3 more
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