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Auxin metabolism
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Auxin metabolism encompasses transport, conjugation, deconjugation, conversion, and catabolism. The balance between auxin metabolism and biosynthesis determines the actual level of the hormone in a given cell and consequently plays an important role in many developmental processes from seed germination to fruit ripening. Mass spectrometry used in conjunction with stable isotope labeling studies has enabled comprehensive examination of auxin biosynthesis and turnover along with the identification of many auxin conjugate. It appears that the conjugate moiety may signal the metabolic fate (e.g. storage and eventual hydrolysis to free hormone, or catabolism). Recently identified auxin‐metabolizing enzymes are encoded by gene families which vary in specificity for auxin metabolites. The expression patterns of these genes will reveal a great deal about the mechanics of auxin metabolism.
Title: Auxin metabolism
Description:
Auxin metabolism encompasses transport, conjugation, deconjugation, conversion, and catabolism.
The balance between auxin metabolism and biosynthesis determines the actual level of the hormone in a given cell and consequently plays an important role in many developmental processes from seed germination to fruit ripening.
Mass spectrometry used in conjunction with stable isotope labeling studies has enabled comprehensive examination of auxin biosynthesis and turnover along with the identification of many auxin conjugate.
It appears that the conjugate moiety may signal the metabolic fate (e.
g.
storage and eventual hydrolysis to free hormone, or catabolism).
Recently identified auxin‐metabolizing enzymes are encoded by gene families which vary in specificity for auxin metabolites.
The expression patterns of these genes will reveal a great deal about the mechanics of auxin metabolism.
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