Ignet

Gene Information

Gene symbol: AMPD1

Gene name: adenosine monophosphate deaminase 1

HGNC ID: 468

Synonyms: MAD, MADA

Related Genes

#	Gene Symbol	Number of hits
1	ADA	1 hits
2	INS	1 hits
3	MYOZ2	1 hits
4	TNF	1 hits

Related Sentences

#	PMID	Sentence
1	15793265	We tested the candidate gene AMP deaminase 1 (AMPD1) for association with insulin-related traits because it codes for an enzyme that has the potential to influence multiple aspects of insulin pharmacodynamics.
2	15793265	By converting AMP to inosine monophosphate, AMPD1 plays a major role in regulating cellular AMP levels; AMP activates AMP kinase, an enzyme that modulates cellular energy and insulin action.
3	15793265	Insulin clearance is a highly heritable trait, and specific haplotypes within the AMPD1 gene, which encodes a skeletal muscle-specific protein, are associated with variation in insulin clearance.
4	15793265	We postulated that the processes of insulin action and insulin clearance in skeletal muscle are highly regulated and that AMPD1 function may play an important role in these phenomena.
5	15793265	We tested the candidate gene AMP deaminase 1 (AMPD1) for association with insulin-related traits because it codes for an enzyme that has the potential to influence multiple aspects of insulin pharmacodynamics.
6	15793265	By converting AMP to inosine monophosphate, AMPD1 plays a major role in regulating cellular AMP levels; AMP activates AMP kinase, an enzyme that modulates cellular energy and insulin action.
7	15793265	Insulin clearance is a highly heritable trait, and specific haplotypes within the AMPD1 gene, which encodes a skeletal muscle-specific protein, are associated with variation in insulin clearance.
8	15793265	We postulated that the processes of insulin action and insulin clearance in skeletal muscle are highly regulated and that AMPD1 function may play an important role in these phenomena.
9	15793265	We tested the candidate gene AMP deaminase 1 (AMPD1) for association with insulin-related traits because it codes for an enzyme that has the potential to influence multiple aspects of insulin pharmacodynamics.
10	15793265	By converting AMP to inosine monophosphate, AMPD1 plays a major role in regulating cellular AMP levels; AMP activates AMP kinase, an enzyme that modulates cellular energy and insulin action.
11	15793265	Insulin clearance is a highly heritable trait, and specific haplotypes within the AMPD1 gene, which encodes a skeletal muscle-specific protein, are associated with variation in insulin clearance.
12	15793265	We postulated that the processes of insulin action and insulin clearance in skeletal muscle are highly regulated and that AMPD1 function may play an important role in these phenomena.
13	15793265	We tested the candidate gene AMP deaminase 1 (AMPD1) for association with insulin-related traits because it codes for an enzyme that has the potential to influence multiple aspects of insulin pharmacodynamics.
14	15793265	By converting AMP to inosine monophosphate, AMPD1 plays a major role in regulating cellular AMP levels; AMP activates AMP kinase, an enzyme that modulates cellular energy and insulin action.
15	15793265	Insulin clearance is a highly heritable trait, and specific haplotypes within the AMPD1 gene, which encodes a skeletal muscle-specific protein, are associated with variation in insulin clearance.
16	15793265	We postulated that the processes of insulin action and insulin clearance in skeletal muscle are highly regulated and that AMPD1 function may play an important role in these phenomena.
17	19845893	AMP deaminase-1 (AMPD1, C34T) and adenosine deaminase (ADA, G22A), were analyzed.
18	19845893	There were no associations between AMPD1 C34T or ADA G22A genotypes and TNF-alpha or its receptors.
19	19845893	AMP deaminase-1 (AMPD1, C34T) and adenosine deaminase (ADA, G22A), were analyzed.
20	19845893	There were no associations between AMPD1 C34T or ADA G22A genotypes and TNF-alpha or its receptors.