510-50-9 Usage
Description
Gibberellic acid methyl ester is a synthetic plant growth regulator and a derivative of the plant hormone Gibberellin, which plays a crucial role in regulating growth and various developmental processes in plants.
Uses
Used in Agriculture:
Gibberellic acid methyl ester is used as a growth stimulant for promoting germination, seedling growth, and fruit development in various crops. It helps in overcoming dormancy, improving fruit set, and enhancing overall crop yield.
Used in Horticulture:
In horticulture, gibberelic acid methyl ester is used as a growth regulator to encourage sprouting, flower induction, and to improve the quality and appearance of ornamental plants. It can also be used to break dormancy and synchronize flowering in certain species.
Used in Plant Tissue Culture:
Gibberellic acid methyl ester is used as a growth factor in plant tissue culture applications, where it aids in the development of plantlets from callus tissue and promotes root and shoot formation.
Used in Post-harvest Treatment:
Gibberellic acid methyl ester is used as a post-harvest treatment to enhance fruit ripening, improve fruit quality, and extend the shelf life of certain fruits and vegetables.
Used in Research:
In scientific research, gibberelic acid methyl ester is used as a tool to study the effects of Gibberellin on plant growth and development, as well as to investigate the underlying mechanisms of action and signaling pathways related to Gibberellin-responsive processes.
Check Digit Verification of cas no
The CAS Registry Mumber 510-50-9 includes 6 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 3 digits, 5,1 and 0 respectively; the second part has 2 digits, 5 and 0 respectively.
Calculate Digit Verification of CAS Registry Number 510-50:
(5*5)+(4*1)+(3*0)+(2*5)+(1*0)=39
39 % 10 = 9
So 510-50-9 is a valid CAS Registry Number.
510-50-9Relevant articles and documents
Stork,Singh
, p. 7109 (1979)
Syntheses of Gibberellins A15 and A24, the Key Metabolites in Gibberellin Biosynthesis
Bon, David J.-Y. D.,Mander, Lewis N.,Lan, Ping
, p. 6566 - 6572 (2018/05/30)
Gibberellins (GAs) are essential phytohormones involved in numerous aspects of plant growth and development. Notably, the biochemistry and genetics of GA biosynthesis, which is associated with their endogenous regulation, have been largely resolved; however, a crucial unsolved question remains: the precise mechanism of the stepwise oxidation and subsequent removal of C-20 from C20 precursors, leading to bioactive C19 gibberellins, is still unresolved. To satisfy numerous requests from biologists, practical preparations of certain GAs that were isolated in miniscule quantities are highly demanded. Herein, we report the first practical syntheses of GA15 and GA24, the key C20 metabolites in gibberellin biosynthesis, from commercially available GA3. The protocols are robust and offer the capacity to produce GA24 and GA15 under gram scales in high overall yields and thus aid in further biological and related studies.
Synthesis and biological evaluation of pharbinilic acid and derivatives as NF-κB pathway inhibitors
Annand,Bruno,Mapp,Schindler
supporting information, p. 8990 - 8993 (2015/05/27)
A 7-step synthesis of pharbinilic acid, a member of the gibberellin family of natural products and the first naturally occurring allogibberic acid, is reported. An efficient decarboxylative aromatization reaction enables the synthesis of pharbinilic acid and related analogs for evaluation as modulators of NF-κB activity. Remarkably, one analog displays a 2 μM IC50 in an NF-κB activity assay and inhibits an endogenous NF-κB-regulated pathway.
