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[HTML][HTML] Biosynthetic pathways of hormones in plants
Phytohormones exhibit a wide range of chemical structures, though they primarily originate
from three key metabolic precursors: amino acids, isoprenoids, and lipids. Specific amino …
from three key metabolic precursors: amino acids, isoprenoids, and lipids. Specific amino …
The impact of one carbon metabolism on histone methylation
The effect of one carbon metabolism on DNA methylation has been well described, bridging
nutrition, metabolism, and epigenetics. This modification is mediated by the metabolite S …
nutrition, metabolism, and epigenetics. This modification is mediated by the metabolite S …
[HTML][HTML] Nutritional epigenetics in cancer
Alterations in the epigenome are well known to affect cancer development and progression.
Epigenetics is highly influenced by the environment, including diet, which is a source of …
Epigenetics is highly influenced by the environment, including diet, which is a source of …
[HTML][HTML] Methyl-metabolite depletion elicits adaptive responses to support heterochromatin stability and epigenetic persistence
S-adenosylmethionine (SAM) is the methyl-donor substrate for DNA and histone
methyltransferases that regulate epigenetic states and subsequent gene expression. This …
methyltransferases that regulate epigenetic states and subsequent gene expression. This …
One carbon metabolism and its implication in health and immune functions
S Dang, A Jain, G Dhanda… - Cell Biochemistry …, 2024 - Wiley Online Library
One carbon (1C) metabolism is critical for cellular viability and physiological homeostasis.
Starting from its crucial involvement in purine biosynthesis to posttranslational modification …
Starting from its crucial involvement in purine biosynthesis to posttranslational modification …
[HTML][HTML] H3K4 methylation in aging and metabolism
During the process of aging, extensive epigenetic alterations are made in response to both
exogenous and endogenous stimuli. Here, we summarize the current state of knowledge …
exogenous and endogenous stimuli. Here, we summarize the current state of knowledge …
Research progress on therapeutic targeting of quiescent cancer cells
J Zhang, J Si, L Gan, C Di, Y **e, C Sun… - Artificial cells …, 2019 - Taylor & Francis
Cellular quiescence (G0) is a sleep-like cellular state that allows cells to maintain the ability
to re-enter and exit the proliferative cycle. Quiescent cancer cells are considered a …
to re-enter and exit the proliferative cycle. Quiescent cancer cells are considered a …
Is there a histone code for cellular quiescence?
Many of the cells in our bodies are quiescent, that is, temporarily not dividing. Under certain
physiological conditions such as during tissue repair and maintenance, quiescent cells …
physiological conditions such as during tissue repair and maintenance, quiescent cells …
In quiescent G0 phase, Schizosaccharomyces pombe Mis4 ensures full nuclear separation during the subsequent M phase
M Suma, O Arakawa, Y Tahara, K Sajiki… - Journal of Cell …, 2025 - journals.biologists.com
Evolutionarily conserved Mis4 establishes cohesion between replicated sister chromatids in
vegetatively proliferating cells. In the fission yeast, Schizosaccharomyces pombe, defects in …
vegetatively proliferating cells. In the fission yeast, Schizosaccharomyces pombe, defects in …
A systematic quantitative approach comprehensively defines domain-specific functional pathways linked to Schizosaccharomyces pombe heterochromatin regulation …
Heterochromatin plays a critical role in regulating gene expression and maintaining genome
integrity. While structural and enzymatic components have been linked to heterochromatin …
integrity. While structural and enzymatic components have been linked to heterochromatin …