Results 21 to 30 of about 4,997 (214)
Phenols and bud dormancy [PDF]
summaryQualitative analyses of the endogenous phenols of Fagus sylvatica L. were determined separately in leaf primordia and bud scales of dormant buds (apical, subapical and basal) of Fagus sylvatica L. until bud burst.Qualitative analyses in all leaf primordia showed the presence of phenols which are potential cofactors of IAA oxidase (vanillic acid,
ARNALDO CODIGNOLA +2 more
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Biochemical Studies of Bud Dormancy in Tanweed [PDF]
By definition, a dormant vegetative bud is viable but it fails to grow when subjected to environmental conditions normally favorable for growth. An understanding of the biochemistry of dormant and active buds is needed to serve as a basis for solving the problem of artificially breaking or inducing bud dormancy. The present study was conducted with the
Lipke, W. G. +2 more
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This communication describes the photoperiod-temperature interaction which markedly affects bud dormancy in certain Populus genotypes. High temperatures qualitatively inhibit the normal short-day control of the onset of dormancy. This finding contrasts sharply with the general conclusion that light and temperature operate independently in the photo ...
DM Paton, RR Willing
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Regulatory circuits involving bud dormancy factor PpeDAM6. [PDF]
AbstractDORMANCY-ASSOCIATED MADS-BOX (DAM) genes have recently emerged as key potential regulators of the dormancy cycle and climate adaptation in perennial species. Particularly, PpeDAM6 has been proposed to act as a major repressor of bud dormancy release and bud break in peach (Prunus persica).
Lloret A +10 more
europepmc +7 more sources
Metabolites in Cherry Buds to Detect Winter Dormancy
Winter dormancy is still a “black box” in phenological models, because it evades simple observation. This study presents the first step in the identification of suitable metabolites which could indicate the timing and length of dormancy phases for the sweet cherry cultivar ‘Summit’.
Frank-M. Chmielewski, Klaus-P. Götz
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Roles of endoplasmic reticulum stress and unfolded protein response associated genes in seed stratification and bud endodormancy during chilling accumulation in Prunus persica. [PDF]
Dormancy mechanisms in seeds and buds arrest growth until environmental conditions are optimal for development. A genotype-specific period of chilling is usually required to release dormancy, but the underlying molecular mechanisms are still not fully ...
Xi Ling Fu +7 more
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Most deciduous fruit trees cultivated in the temperate zone require a genotype-dependent amounts of chilling exposure for dormancy release and bud break.
Hisayo Yamane +10 more
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Advance of DAM-like genes in bud dormancy of deciduous fruit trees in Rosaceae family [PDF]
Dormancy is a biological characteristic that adapts to seasonal changes during the long-term evolution of plants, which is of great significance for the safe overwintering of fruit trees and the exploration of the cultivation mode for facility fruit ...
ZHAO Yalin, WANG Lirong
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Prunus mume (Rosaceae, Prunoideae) serves as an excellent ornamental woody plant with a large-temperature-range cultivation scope. Its flower buds require a certain low temperature to achieve flowering circulation. Thus, it is important to delve into the
Kai Zhao +8 more
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Flower Bud Dormancy in Prunus Species [PDF]
Peer ...
Fadón Adrián, Erica +2 more
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