Kiran Dixit scite author profile

Kiran Dixit

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5Publications

66Citation Statements Received

150Citation Statements Given

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Affiliations

Chaudhary Charan Singh Haryana Agricultural University

Publications

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Flower bud opening and senescence in roses (Rosa hybrida L.)

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2008

Plant Growth Regul

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The flower is the most significant and beautiful part of plants. Flowers are very useful organs in plant developmental phenomenon. During flower bud opening, various events takes place in a well defined sequence, representing all aspects of plant development, such as cell division, cellular differentiation, cell elongation or expansion and a wide spectrum of gene expression. The complexity of flower bud opening illustrates that various biological mechanisms are involved at different stages. Senescence represents the ultimate stage of floral development and results in wilting or abscission of whole flower or flower parts. Senescence is an active process and governed by a well defined cell death program. Once a flower bud opens, the programmed senescence of petal allows the removal of a metabolically active tissue. In leaves, this process can be reversed, but in floral tissue it cannot, indicating that a highly controlled genetic program for cell death is operating. The termination of a flower involves at least two, sometimes overlapping, mechanisms. In one, the perianth abscises before the majority of its cells initiate a cell death program. Abscission may occur before or during the mobilization of food reserves to other parts of the plant. Alternatively, the petals may be more persistent, so that cell deterioration and food remobilization occur while the petals are still part of the flower. The overall pattern of floral opening varies widely between plant genera, therefore, a number of senescence parameters have been used to group plants into somewhat arbitrary categories. Opening and senescence of rose flower is still an unsolved jigsaw in the world of floriculture industry and the mechanism behind the onset of the very early events in the sequence still remains to be elucidated. Hence, for advancing the knowledge on the pertinent aspect of bud opening and senescence the literature has been cited under this review.Keywords Abscisic acid Á Ascorbate peroxidase Á Catalase Á Ethylene Á Gibberellin Á Glutathione reductase Á Hydrogen peroxide Á Hydroxyl radical Á Lipoxygenase Á Pectin methyl esterase Á Polygalactouronase Á Peroxidase Á Relative water content Plant growths regulators Gibberellins (GAs)The role of GAs in petal growth has been demonstrated in many plants. Analysis of endogenous GAs in young petunia anthers and corolla indicated the

Hormonal regulation of flower senescence in roses (Rosa hybrida L.)

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2008

Plant Growth Regul

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To elucidate the role of the plant hormones -abscisic acid (ABA) and ethylene during flower senescence in roses, experiments were conducted on two cultivars of cut-roses (Rosa hybrida L.), 'Grandgala' and 'First Red,' obtained from a commercial grower. An apparent similarity was observed during flower senescence and accumulation of endogenous ABA in petal tissue. Several fold increase in ABA concentration was observed during the later stages of senescence which was found to be associated with a drastic reduction of flower water potential and water uptake. During the later stages of senescence (S5-S6) higher ABA concentration coincides with the elevated concentration of ethylene production. ABA and ethylene both stimulate senescence and are suggested to interact during flower senescence under water limitations.

Role of sucrose synthase and invertases during petal senescence in rose (Rosa hybridaL.)

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2008

The Journal of Horticultural Science and Biotechnology

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Role of superoxide dismutases during petal senescence in rose (Rosa hybridaL.)

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2007

The Journal of Horticultural Science and Biotechnology

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Senescence in rose (Rosa hybridaL.): role of the endogenous anti-oxidant system

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2008

The Journal of Horticultural Science and Biotechnology

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