signaling pathways play a key role in wheat stem development: Phytohormones
can regulate the plant stem height.
This includes gene involved in transcription and regulatory factors, osmotic adjustment, phytohormone
and oxidative stress related, molecular chaperones, transporters, and various metabolic genes.
Deviations from standard germination parameters may result from physiological processes in the seed that are affected by phytotoxins, the most reported being the suppression of enzyme activities and / or phytohormones
related to the hydrolysis of the reserve materials of the embryo at the beginning of development (SINGH et al.
14] has examined the effect of phytohormones
on this species in vitro for propagation, their method yielded low number of shoots and cannot be recommended for large-scale production and cultivation.
Expression, subcellular localization and phytohormone
stimulation of a functional sucrose transporter (MdSUT1) in apple fruit.
IAA was assayed using ELISA kits (Phytodetek, Agdia Inc, Elkhart, IN, USA).
Imayavaramban, 2001, "Use of Biofertilizer, phytohormone
and zinc as a cost effective agrotecnique for increasing sesame productivity," Sesame and Safflower Newsletter, 16, pp.
As a consequence, there is an accumulation of a phytohormone
called 3-indol-acetic acid, which undergoes further reactions in the wine.
Quebec researchers have shown that both products contain equally important quantities of terpenes, in particular, abscisic acid, a phytohormone
New from REN is its Sirtuin Phytohormone
Replenishing Cream (pounds 40) aiming to combat the signs of ageing caused by hormonal change with its blend of phytohormones
derived from wild yam.
In the rhizosphere, microbial phytohormone
production can stimulate root branching (Patten and Glick 2002).
Photoperiodic control of growth, development and phytohormone
balance in Solanum tuberosum.
2014), interfering in the vegetal development and leading to functional disorders, metabolic impairments such as unregulated phytohormone
synthesis, among others (SILVA et al.
During the culturing, regulatory effects of different phytohormone
combinations on organ differentiation and development were significantly different.
Our specific aims during the LUSH SPIKE project are to: (i) discover quantitative trait loci (QTL) for spikelet survival and grain number per spike and validate these QTL in bi-parental doubled-haploid mapping populations, (ii) isolate and functionally characterize Mendelized QTL using a map-based approach, (iii) reveal gene regulatory networks determining spikelet survival during the critical spike growth period from AP to heading, and (iv) elucidate spatio-temporal patterns of metabolite and phytohormone
distributions in spike and spikelet sections during the critical growth period, using mass spectrometric imaging.