A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
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Fruit Calcium: Transport and PhysiologyIntegrating Physiology and Architecture in Models of Fruit Expansion.Vegetable Grafting: The Implications of a Growing Agronomic Imperative for Vegetable Fruit Quality and Nutritive Value.Comparative physiology of elemental distributions in plants.Plant cation/H+ exchangers (CAXs): biological functions and genetic manipulations.Evolutionary adaptation of plant annexins has diversified their molecular structures, interactions and functional roles.Fruit quality of sweet pepper as affected by foliar Ca applications to mitigate the supply of saline water under a climate change scenario.Assessment of calcium and zinc accumulation in cultivated and wild apples.Comparative effect of partial root-zone drying and deficit irrigation on incidence of blossom-end rot in tomato under varied calcium rates.Fruit transpiration in kiwifruit: environmental drivers and predictive model.Calcium partitioning and allocation and blossom-end rot development in tomato plants in response to whole-plant and fruit-specific abscisic acid treatments.Non-destructive Measurement of Calcium and Potassium in Apple and Pear Using Handheld X-ray Fluorescence.Role of pectin methylesterases in cellular calcium distribution and blossom-end rot development in tomato fruit.Interaction between calcium and potassium modulates elongation rate in cotton fiber cells.Dynamic alternations in cellular and molecular components during blossom-end rot development in tomatoes expressing sCAX1, a constitutively active Ca2+/H+ antiporter from Arabidopsis.Abscisic acid triggers whole-plant and fruit-specific mechanisms to increase fruit calcium uptake and prevent blossom end rot development in tomato fruit.High light decreases xylem contribution to fruit growth in tomato.Growth and comprehensive quality index of tomato under rain shelters in response to different irrigation and drainage treatments.Increased calcium levels and prolonged shelf life in tomatoes expressing Arabidopsis H+/Ca2+ transporters.Linking Fruit Ca Uptake Capacity to Fruit Growth and Pedicel Anatomy, a Cross-Species Study.Improving crop mineral nutritionMechanisms Involved in Calcium Deficiency Development in Tomato Fruit in Response to Gibberellins
P2860
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P2860
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
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2005年论文
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name
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@ast
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@en
type
label
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@ast
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@en
prefLabel
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@ast
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@en
P2860
P356
P1433
P1476
A cellular hypothesis for the induction of blossom-end rot in tomato fruit.
@en
P2093
P2860
P304
P356
10.1093/AOB/MCI065
P407
P577
2005-01-10T00:00:00Z