Topic
Gibberellic acid
About: Gibberellic acid is a research topic. Over the lifetime, 6597 publications have been published within this topic receiving 109294 citations. The topic is also known as: GIBBERELLIN A3.
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TL;DR: Relatively high fruit set percentage and fruit number per tree was found in net-covered trees and in bagged or emasculated flowers, indicating that ‘Afourer’ mandarin presents facultative parthenocarpy.
34 citations
TL;DR: Treatment of the shoots of young pea seedlings with gibberellic acid affects the rates of K + absorption by the roots and ofK + transport to the shoot of intact plants.
34 citations
TL;DR: Study of the effects of exogenously applied ABA on nutrients uptake of rice roots under simulated acid rain (SAR) stress indicates that proper concentration of exogenous ABA could enhance tolerance of rice Roots to SAR stress by promoting nutrients uptake and balancing endogenous hormones.
Abstract: Application of proper ABA can improve acid tolerance of rice roots by balancing endogenous hormones and promoting nutrient uptake. Abscisic acid (ABA) has an important signaling role in enhancing plant tolerance to environmental stress. To alleviate the inhibition on plant growth and productivity caused by acid rain, it is crucial to clarify the regulating mechanism of ABA on adaptation of plants to acid rain. Here, we studied the effects of exogenously applied ABA on nutrients uptake of rice roots under simulated acid rain (SAR) stress from physiological, biochemical and molecular aspects. Compared to the single SAR treatment (pH 4.5 or 3.5), exogenous 10 μM ABA alleviated the SAR-induced inhibition of root growth by balancing endogenous hormones (abscisic acid, indole-3-acetic acid, gibberellic acid and zeatin), promoting nutrient uptake (nitrate, P, K and Mg) in rice roots, and increasing the activity of the plasma membrane H+-ATPase by up-regulating expression levels of genes (OSA2, OSA4, OSA9 and OSA10). However, exogenous 100 μM ABA exacerbated the SAR-caused inhibition of root growth by disrupting the balance of endogenous hormones, and inhibiting nutrient uptake (nitrate, P, K, Ca and Mg) through decreasing the activity of the plasma membrane H+-ATPase. These results indicate that proper concentration of exogenous ABA could enhance tolerance of rice roots to SAR stress by promoting nutrients uptake and balancing endogenous hormones.
34 citations
34 citations
TL;DR: This article showed that β-glucan solubilase in either germinating barley or in endosperm slices treated with gibberellic acid is synthesized before α-amylase and protease.
Abstract: β-Glucan solubilase in either germinating barley or in endosperm slices treated with gibberellic acid is synthesized before endo-β-glucanase, α-amylase and protease. In common with these enzymes, β-glucan solubilase is synthesized much sooner in endosperm slices than in whole grain. Gibberellic acid stimulates β-glucan solubilase synthesis in endosperm slices and most of the activity is rapidly released into the surounding medium, irrespective of whether the hormone is present. Inhibitors of RNA and protein synthesis block the formation of β-glucan solubilase.
Unlike β-glucanase, α-amylase and protease, β-glucan solubilase is present in significant quantity in untreated barley where it is concentrated in the embryo-containing half of the grain. The only β-glucan solubilase activity in barley is due to an acidic carboxypeptidase. Malt contains a small amount of a second solubilizing enzyme which appears to be an endo-β1, 3-glucanase.
34 citations