List of MeSH codes (G06)

The following is a partial list of the "G" codes for Medical Subject Headings (MeSH), as defined by the United States National Library of Medicine (NLM).

This list continues the information at List of MeSH codes (G05). Codes following these are found at List of MeSH codes (G07). For other MeSH codes, see List of MeSH codes.

The source for this content is the set of 2006 MeSH Trees from the NLM.

MeSH G06biochemical phenomena, metabolism, and nutrition

MeSH G06.184 – biochemical phenomena

MeSH G06.184.029 – acid-base equilibrium

MeSH G06.184.035aerobiosis

MeSH G06.184.060allosteric regulation

MeSH G06.184.065amino acid substitution

MeSH G06.184.070anaerobiosis

MeSH G06.184.124base composition

MeSH G06.184.154 – binding sites

MeSH G06.184.179body composition

MeSH G06.184.202 – brain chemistry

MeSH G06.184.227calcification, physiologic

MeSH G06.184.307diffusion

MeSH G06.184.320down-regulation

MeSH G06.184.348 – energy transfer

MeSH G06.184.368 – enzyme activation

MeSH G06.184.378enzyme stability

MeSH G06.184.405 – fermentation

MeSH G06.184.480 – ion transport

MeSH G06.184.568membrane fluidity

MeSH G06.184.589molecular mimicry

MeSH G06.184.603 – molecular structure

MeSH G06.184.620nitrogen fixation

MeSH G06.184.627nitrosation

MeSH G06.184.642 – nucleic acid denaturation

MeSH G06.184.661nucleic acid hybridization

MeSH G06.184.680 – nucleic acid renaturation

MeSH G06.184.708osmosis

MeSH G06.184.775 – protein binding

MeSH G06.184.794 – protein denaturation

MeSH G06.184.797protein folding

MeSH G06.184.800protein hybridization

MeSH G06.184.807protein renaturation

MeSH G06.184.835rna stability

MeSH G06.184.842sequence homology

MeSH G06.184.850signal transduction

MeSH G06.184.872 – structure-activity relationship

MeSH G06.184.880 – substrate specificity

MeSH G06.184.910up-regulation

MeSH G06.184.941 – virus replication

MeSH G06.184.963 – water-electrolyte balance

MeSH G06.535metabolism

MeSH G06.535.023 – absorption

MeSH G06.535.095acylation

MeSH G06.535.130alkylation

MeSH G06.535.140amination

MeSH G06.535.166biological transport

MeSH G06.535.233biotinylation

MeSH G06.535.256carbohydrate metabolism

MeSH G06.535.300cyclization

MeSH G06.535.305dealkylation

MeSH G06.535.310deamination

MeSH G06.535.315decarboxylation

MeSH G06.535.320dimerization

MeSH G06.535.327 – electron transport

MeSH G06.535.335 – energy metabolism

MeSH G06.535.355enterohepatic circulation

MeSH G06.535.368 – enzyme activation

MeSH G06.535.475esterification

MeSH G06.535.504glycosylation

MeSH G06.535.506hydrogenation

MeSH G06.535.508hydrolysis

MeSH G06.535.510hydroxylation

MeSH G06.535.516 – kallikrein-kinin system

MeSH G06.535.520lipid metabolism

MeSH G06.535.650nitrogen fixation

MeSH G06.535.655nitrosation

MeSH G06.535.710oxidative stress

MeSH G06.535.723 – oxygen consumption

MeSH G06.535.770 – peptide biosynthesis

MeSH G06.535.780pharmacokinetics

MeSH G06.535.790phosphorylation

MeSH G06.535.800 – protein binding

MeSH G06.535.805renin–angiotensin system

MeSH G06.535.839 – rna processing, post-transcriptional

MeSH G06.535.873secretory rate

MeSH G06.535.890 – substrate cycling

MeSH G06.535.910tissue distribution

MeSH G06.696nutrition

MeSH G06.696.116animal nutrition

MeSH G06.696.259 – child nutrition

MeSH G06.696.384diet

MeSH G06.696.560 – maternal nutrition

MeSH G06.696.736 – nutritional requirements

MeSH G06.696.738nutritional status

MeSH G06.696.741 – nutritive value


The list continues at List of MeSH codes (G07).

gollark: Minoteaur, my highly WIP notes thing, uses CommonMark + extensions.
gollark: For the stuff I *do* have stored digitally, they're wikitext, which allows formatting a bit.
gollark: I somehow have the ability to remember *random facts* pretty well over time, but arbitrarily forget life events and where I just put something down.
gollark: Ah yes, because brains are famously very* reliable** at remembering important things with no degradation.
gollark: Recalling things?
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