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Effect of Morphine Withdrawal on Gls1 Gene Regulation in IEC18 Cells
Aditya Das
,
Christy Eslinger
,
Subhas Das
Graduate Student Research
Biochemistry & Microbiology
Research output
:
Contribution to conference
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Poster
›
peer-review
Overview
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Dive into the research topics of 'Effect of Morphine Withdrawal on Gls1 Gene Regulation in IEC18 Cells'. Together they form a unique fingerprint.
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Biochemistry, Genetics and Molecular Biology
Azacitidine
50%
Cell Culture
50%
Colon
100%
Cytosine
50%
Demethylating Agent
50%
DNA Methylation
50%
DNA Methyltransferase
50%
Enzyme
100%
Epigenetic Modification
50%
Epigenetics
50%
Epigenomics
50%
Gene Control
100%
Gene Expression
50%
Gene Sequence
50%
Glutamic Acid
50%
Glutamine
50%
Immunity
50%
Methylation
100%
Mucosa
50%
Neurotransmitter
50%
Prevalence
50%
RNA
50%
S-Adenosyl Methionine
50%
Upregulation
50%
Medicine and Dentistry
Azacitidine
25%
Cell Culture
25%
Chronic Inflammation
25%
Colon
50%
Crohn's Disease
25%
Cytosine
25%
Disease
25%
DNA Methylation
25%
DNA Methyltransferase
25%
Epigenetic Modification
25%
Epigenomics
25%
Epithelial Cell
25%
Gene Control
100%
Gene Expression
25%
Gene Sequence
25%
Glutamic Acid
25%
Glutamine
25%
Immune System
25%
Inflammatory Bowel Disease
100%
Methyl Group
25%
Methylation
50%
Morphine
25%
Morphine Withdrawal
100%
Mucosa
25%
Neurotransmitter
25%
Prevalence
25%
S-Adenosyl Methionine
25%
Serositis
25%
Trinitrobenzenesulfonic Acid
75%
Ulcerative Colitis
25%
Upregulation
25%
Keyphrases
Azacytidine
16%
BV2 Cells
16%
Cell Culture
16%
Chronic Inflammation
16%
Colon
33%
Crohn's Colitis
16%
Cytosine
16%
Demethylating Agents
16%
DNA Methylation (DNAm)
16%
DNA Methyltransferase 1 (DNMT1)
16%
Epigenetic Modification
16%
Epigenetics
16%
Gastrointestinal Tract
16%
Gene Expression
16%
Gene Regulation
100%
Gene Sequencing
16%
Glutamate
16%
Glutaminase 1 (GLS1)
100%
Glutamine
16%
Hypermethylation
33%
Immune System
16%
Inflammation
16%
Inflammatory Bowel Disease
66%
Inflammatory Response
16%
Intestinal Epithelial Cells
16%
LPS Treatment
16%
Methyl Groups
16%
Methylation
16%
Methylation Status
16%
Morphine
16%
Morphine Withdrawal
100%
Mucosa
16%
Narcotics
16%
Neurotransmitters
16%
Paradoxical Effect
16%
S-adenosylmethionine
16%
Trinitrobenzene Sulfonic Acid
50%
United States
16%
Neuroscience
Azacitidine
25%
Cell Culture
25%
Cytosine
25%
DNA Methylation
25%
DNA Methyltransferase
25%
Epigenetic Modification
25%
Epigenetics
25%
Epithelial Cells
25%
Gene Control
100%
Gene Expression
25%
Gene Sequence
25%
Glutamic Acid
25%
Glutamine
25%
Inflammatory Bowel Disease
100%
Methylation
50%
Morphine
25%
Morphine Withdrawal
100%
Mucous Membrane
25%
Neurotransmitter
25%
S Adenosylmethionine
25%
Pharmacology, Toxicology and Pharmaceutical Science
2,4,6-Trinitrobenzenesulfonic Acid
75%
Azacitidine
25%
Cell Culture
25%
Chronic Inflammation
25%
Crohn's Disease
25%
Cytosine
25%
Disease
25%
DNA Methyltransferase
25%
Glutamic Acid
25%
Glutamine
25%
Inflammation
50%
Inflammatory Bowel Disease
100%
Methyl Group
25%
Morphine
100%
Narcotic Agent
25%
Neurotransmitter
25%
Prevalence
25%
S-Adenosyl Methionine
25%
Ulcerative Colitis
25%