Formation and breakdown of ABA

TL;DR: The present results show that the changes in ABA content observed during tuber dormancy progression are the result of a dynamic equilibrium of ABA biosynthesis and degradation that increasingly favours catabolism as dormancy progresses.

TL;DR: Tomato mutants defective in ethylene perception (never ripe) did not produce the xanthoxal and ABA increases and growth inhibition induced by auxins in wild-type plants, which suggests that auxin-stimulated ethylene triggers ABA accumulation and the consequent growth inhibition.

TL;DR: The physiological parameters, the transcription levels of several genes involved in the abscisic acid (ABA) metabolism pathway, and the ABA and H2S contents in wheat leaves and roots under drought stress in response to exogenous NaHS treatment indicated that ABA participates in drought tolerance induced by exogenous H2 S.

TL;DR: In this article , a population of 195 diverse re-sequenced accessions from 40 countries was evaluated for the seed germination rate (GR) without dormancy breaking (WDB) as a control and under dry heating (DH) and gibberellic acid (GA) treatments, as dormancy-breaking agents to identify QTLs for rice seed dormancy.

TL;DR: The DOXP pathway of IPP formation starts from D-glyceraldehyde-3-phosphate and pyruvate, with DOXP-synthase as the starting enzyme, and provides new insight into the regulation of chloroplast metabolism.

TL;DR: This chapter discusses the role of hormones in plant growth, development, and senescence, and the mechanism of action of auxin and cytokinin in prokaryotes, as well as other aspects of hormone synthesis and action.

TL;DR: A new ABA-deficient mutant of maize has been identified and the corresponding gene, Vp14, has been cloned and the recombinant VP14 protein catalyzes the cleavage of 9-cis-epoxy-carotenoids to form C25 apo-aldehydes and xanthoxin, a precursor of ABA in higher plants.

TL;DR: The viviparous seed mutants of maize identify genes involved in synthesis and perception of ABA, a apocarotenoid synthesized from cleavage of carotenoids, which regulates seed maturation and stress responses in plants.