User profiles for M. Ackerman-Lavert
Michal Ackerman-LavertPostdoc, MIGAL Verified email at campus.technion.ac.il Cited by 230 |
Growth models from a brassinosteroid perspective
M Ackerman-Lavert, S Savaldi-Goldstein - Current opinion in plant biology, 2020 - Elsevier
… Author links open overlay panel Michal Ackerman-Lavert , Sigal Savaldi-Goldstein …
Bosch, M. Ibanes, AI Cano-Delgado … M. Ibanes, N. Fabregas, J. …
Bosch, M. Ibanes, AI Cano-Delgado … M. Ibanes, N. Fabregas, J. …
[HTML][HTML] The root meristem is shaped by brassinosteroid control of cell geometry
Growth extent and direction determine cell and whole-organ architecture. How they are
spatio-temporally modulated to control size and shape is not well known. Here we tackled this …
spatio-temporally modulated to control size and shape is not well known. Here we tackled this …
[PDF][PDF] Interdependent nutrient availability and steroid hormone signals facilitate root growth plasticity
Plants acquire essential elements from inherently heterogeneous soils, in which phosphate
and iron availabilities vary. Consequently, plants have developed adaptive strategies to …
and iron availabilities vary. Consequently, plants have developed adaptive strategies to …
[PDF][PDF] Auxin requirements for a meristematic state in roots depend on a dual brassinosteroid function
Root meristem organization is maintained by an interplay between hormone signaling
pathways that both interpret and determine their accumulation and distribution. The interacting …
pathways that both interpret and determine their accumulation and distribution. The interacting …
Root meristem shaping via brassinosteroid-controlled cell geometry
Growth extent and direction determine cell and whole-organ architecture. How they are
spatiotemporally modulated to control size and shape? Here we tackled this question by …
spatiotemporally modulated to control size and shape? Here we tackled this question by …
Author Correction: The root meristem is shaped by brassinosteroid control of cell geometry
In the version of this article initially published, there were errors in the Fig. 1 color key. In the
key,“Cortex” should have been by the blue bar, rather than yellow, and “Endodermis” by the …
key,“Cortex” should have been by the blue bar, rather than yellow, and “Endodermis” by the …
[PDF][PDF] Plant signaling: Interplay of brassinosteroids and auxin in root meristems
W Xuan, T Beeckman - Current Biology, 2021 - cell.com
… influence of this dual effect of BR on the meristematic state of the root, Ackerman-Lavert et
al.… Ackerman-Lavert et al.undertook the challenge of examining the roles of both BR and auxin …
al.… Ackerman-Lavert et al.undertook the challenge of examining the roles of both BR and auxin …
Wheat type one protein phosphatase promotes salt and osmotic stress tolerance in arabidopsis via auxin-mediated remodelling of the root system
The control of optimal root growth and plant stress responses depends largely on a variety
of phytohormones among which auxin and brassinosteroids (BRs) are the most influential. …
of phytohormones among which auxin and brassinosteroids (BRs) are the most influential. …
Specificity in root domain accumulation of Phytoglobin1 and nitric oxide (NO) determines meristematic viability in water-stressed Brassica napus roots
MM Mira, S Ibrahim, K So, R Kowatsch… - Annals of …, 2023 - academic.oup.com
Background and Aims Drought reduces plant productivity, especially in the susceptible species
Brassica napus. Water stress, mimicked by applications of 10 % polyethylene glycol (PEG…
Brassica napus. Water stress, mimicked by applications of 10 % polyethylene glycol (PEG…
[CITATION][C] An Attempt to Reveal how the Presence of Neighboring Fruitlets in the Apple (Malus Domestica) Inflorescence Increases the Abscission Rate of Particular …
M Ackerman-Lavert - 2015 - Hebrew University of Jerusalem