Leor Eshed Williams
Overview
Explore the profile of Leor Eshed Williams including associated specialties, affiliations and a list of published articles.
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14
Citations
232
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Recent Articles
1.
Lavie O, Williams L
Methods Mol Biol
. 2024 Nov;
2873:333-347.
PMID: 39576610
Next-generation sequencing has revolutionized epigenetics research, enabling a comprehensive analysis of DNA methylation and histone modification profiles to explore complex biological systems at unprecedented depth. Deciphering the intricate epigenetic mechanisms...
2.
Lavie O, Buxdorf K, Williams L
Plant Methods
. 2024 Sep;
20(1):141.
PMID: 39267047
Background: Cannabis sativa L. is a versatile medicinal plant known for its therapeutic properties, derived from its diverse array of secondary metabolites synthesized primarily in female flower organs. Breeding cannabis...
3.
Kumar M, Ayzenshtat D, Rather G, Zemach H, Belausov E, Williams L, et al.
Plant J
. 2024 Aug;
120(2):578-597.
PMID: 39215624
De novo shoot apical meristem (SAM) organogenesis during regeneration in tissue culture has been investigated for several decades, but the precise mechanisms governing early-stage cell fate specification remain elusive. In...
4.
Muzika N, Kamai T, Williams L, Kleiman M
Physiol Plant
. 2024 Apr;
176(2):e14312.
PMID: 38651242
In plant tissue culture, callus formation serves as a crucial mechanism for regenerating entire plants, enabling the differentiation of diverse tissues. Researchers have extensively studied the influence of media composition,...
5.
Altered expression of SELF-PRUNING disrupts homeostasis and facilitates signal delivery to meristems
McGarry R, Kaur H, Lin Y, Puc G, Williams L, Knaap E, et al.
Plant Physiol
. 2023 Feb;
192(2):1517-1531.
PMID: 36852887
Meristem maintenance, achieved through the highly conserved CLAVATA-WUSCHEL (CLV-WUS) regulatory circuit, is fundamental in balancing stem cell proliferation with cellular differentiation. Disruptions to meristem homeostasis can alter meristem size, leading...
6.
Fal K, Berr A, Le Masson M, Faigenboim A, Pano E, Ishkhneli N, et al.
New Phytol
. 2023 Feb;
238(3):1085-1100.
PMID: 36779574
Chromatin is a dynamic platform within which gene expression is controlled by epigenetic modifications, notably targeting amino acid residues of histone H3. Among them is lysine 27 of H3 (H3K27),...
7.
Williams L
Annu Rev Genet
. 2021 Sep;
55:661-681.
PMID: 34546796
Plants exhibit remarkable lineage plasticity, allowing them to regenerate organs that differ from their respective origins. Such developmental plasticity is dependent on the activity of pluripotent founder cells or stem...
8.
Gadri Y, Williams L, Peleg Z
Plant Sci
. 2020 Jun;
295:110105.
PMID: 32534624
Sesame is an important oil-crop worldwide. Complex tradeoffs between various yield components significantly affect the outcome yield. Our aims were to characterize the effect of genotype, environment and management, and...
9.
Negin B, Shemer O, Sorek Y, Williams L
PLoS One
. 2017 Apr;
12(4):e0176093.
PMID: 28445492
The WUSCHEL homeobox transcription factor is required to specify stem-cell identity at the shoot apical meristem and its ectopic expression is sufficient to induce de novo shoot meristem formation. Yet,...
10.
Mandel T, Candela H, Landau U, Asis L, Zelinger E, Carles C, et al.
Development
. 2016 Mar;
143(9):1612-22.
PMID: 26989178
The shoot apical meristem (SAM) of angiosperm plants is a small, highly organized structure that gives rise to all above-ground organs. The SAM is divided into three functional domains: the...