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Epigenetics

Epigenetics of Depression: How Can Psychological Stress Alter Your DNA?

Banner schematic showing epigenetic modification targeting DNA.

By Emily Cartwright, PhD

Tags: 
Depression
DNA Methylation
DNA methyltransferase
Epigenetics
HDAC Inhibitors
Histone Acetyltransferases
Histone Deacetylation
histone modification
Mental Health
stress
DNMT3a
ERK
G9a
GR/NR3C1
Histone H3
RAC1
Ras
RG109
SLC6A4/5-HTTLPR/Serotonin transporter
Emily Cartwright

Chromatin reader domains of DNMT-targeting protein, UHRF1, are responsible for cancerous DNA hypermethylation

Expression of DNMT2 in human colon tissue shows cytoplasmic and nuclear staining in glandular cells, IHC

By Jamshed Arslan, Pharm. D., PhD.

Tags: 
Cancer
Cancer Research
Epigenetics
Immunohistochemistry
Western blot
uhrf1
DNMT3a
fibulin-2
jdp2
latexin
prostasin-prss8
icam-4
Jamshed Arslan

Negative feedback regulation of EPAS1 gene in non-small cell lung cancer through DNA methyltransferases

HIF-1 alpha expression in human lung tissue, IHC

By Jamshed Arslan Pharm.D.

Tags: 
Cancer
Epigenetics
Hypoxia
HIF-1 alpha
HIF-2 alpha
HIF-1 beta
EPAS1
ChIP
DNMT1
DNMT3a
Dnmt3b
Non-Small Cell Lung Cancer

Nickel induces migratory and invasive phenotype in human epithelial cells by epigenetically activating ZEB1

Epigenetic mechanisms Novus Biologicals

By Jamshed Arslan Pharm.D.

Tags: 
Cancer
Cancer Research
Epigenetics
Histones
ZEB1
EMT
Cadherin
claudin-1
Fibronectin
histone-h3
ChIP

Epigenetic Control of Autophagy

G9a expression in human MCF7 cell line ICC, immunocytochemistry, immunofluorescence, IF

By Christina Towers, PhD.

Tags: 
Autophagy
Epigenetics
autophagosome
mTOR
EZH2
TSC2
carm1
tfeb
AMPK
skp2
LC3B
WIPI1
tp53imp2
BRD4
transcription factor E3
mitf
g9a-ehmt2
Autophagic flux
Methylation
Acetylation
DNA methyltransferase
mTORC
Christina Towers

Bad news for stomach cancer: BAMBI protein inhibits gastric carcinoma via TGF-beta/epithelial-mesenchymal transition signaling

Collagen-I expression in rat colon tissue IHC

By Jamshed Arslan Pharm.D.

Tags: 
Epigenetics
Cancer
Tumor
Hypoxia
TGF-beta
HIF-1 alpha
Bambi
SOX4
VIM
MMP9
Ki67
IPO-38
N-cadherin
Collagen-1
Snai1
Acta2
Twist1
Fibronectin
EMT

Beyond Genes: Treating Memory Loss with Minimum Adverse Effects

By Jamshed Arslan Pharm.D.

Tags: 
HDAC
Alzheimer’s Disease
neurodegeneration
Epigenetics
Peptide Inhibitor

Autophagy: Pro or Anti-tumorigenic? And the role of epigenetics in this debate

By Christina Towers, PhD

Tags: 
Autophagy
Beclin 1
Kras
BRCA1
Cancer
Epigenetics

Epigenetic mechanisms: new insights on the regulation of autophagy

Autophagy more than a cytosolic event

Autophagy is a cellular process whereby cytosolic components are broken down and eliminated or recycled. As a homeostatic mechanism, basal autophagic activity eliminates excess or abnormal proteins and organelles1. As an induced process, autophagy may be triggered by various external challenges, such as decreased nutrient and energy resources, and oxidative stress1.

Tags: 
ATG proteins
Histones
DNA methyltransferase
Epigenetics
Autophagy
Autophagy genes
ATG5
DNMT2
H2B
Histone Ubiquitination
DNA Methylation
autophagosome

H4 - Monitoring global chromatin structure through histone modifications

Histones make up the main protein component of chromatin and are responsible for storing and organizing the genome in a compact yet accessible manner. In addition to storage, histones play an important role in the regulation of various cellular processes such as DNA replication, transcription, and mitosis by regulating the accessibility of DNA to various DNA-binding proteins. Simply put, chromatin exists in “open” and “closed” states.

Tags: 
H4 antibodies
Epigenetics
Histone H4

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