Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:6.4.1.2 (
acetyl-CoA carboxylase
)
2,876
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fatty acid synthase and
Acetyl-CoA carboxylase
are both key enzymes of lipogenesis and may play a crucial role in the weight variability of abdominal adipose tissue in the growing chicken. They are encoded by the FASN and ACACA genes, located on human Chromosome (Chr) 17q25 and on Chr 17q12 or 17q21 respectively, a large region of conserved synteny among mammals. We have localized the homologous chicken genes FASN and ACACA coding for these enzymes, by single-strand conformation polymorphism analysis on different linkage groups of the Compton and East Lansing consensus genetic maps and by FISH on two different chicken microchromosomes. Although synteny is not conserved between these two genes, our results revealed linkage in chicken between FASN and
NDPK
(nucleoside diphosphate kinase), a homolog to the human
NME1
and NME2 genes (non-metastatic cell proteins 1 and 2), both located on human Chr 17q21.3, and also between FASN and H3F3B (H3 histone family 3B), located on human Chr 17q25. The analysis of mapping data from the literature for other chicken and mammalian genes indicates rearrangements have occurred in this region in the mammalian lineage since the mammalian and avian radiation.
...
PMID:Mapping of FASN and ACACA on two chicken microchromosomes disrupts the human 17q syntenic group well conserved in mammals. 953 Jun 26
Nucleoside diphosphate kinase (
NDPK
,
NM23
/awd) belongs to a multifunctional family of highly conserved proteins (approximately 16-20 kDa) containing two well-characterized isoforms (
NM23-H1
and -H2; also known as
NDPK
A and B).
NDPK
catalyses the conversion of nucleoside diphosphates into nucleoside triphosphates, regulates a diverse array of cellular events and can act as a protein histidine kinase. AMPK (AMP-activated protein kinase) is a heterotrimeric protein complex that responds to cellular energy status by switching off ATP-consuming pathways and switching on ATP-generating pathways when ATP is limiting. AMPK was first discovered as an activity that inhibited preparations of ACC1 (
acetyl-CoA carboxylase
), a regulator of cellular fatty acid synthesis. We report that
NM23-H1
/
NDPK
A and AMPK alpha1 are associated in cytosol from two different tissue sources: rat liver and a human lung cell line (Calu-3). Co-immunoprecipitation and binding assay data from both cell types show that the H1/A (but not H2/B) isoform of
NDPK
is associated with AMPK complexes containing the alpha1 (but not alpha2) catalytic subunit. Manipulation of
NM23-H1
/
NDPK
A nucleotide transphosphorylation activity to generate ATP (but not GTP) enhances the activity of AMPK towards its specific peptide substrate in vitro and also regulates the phosphorylation of ACC1, an in vivo target for AMPK. Thus novel
NM23-H1
/
NDPK
A-dependent regulation of AMPK alpha1-mediated phosphorylation is present in mammalian cells.
...
PMID:A novel physical and functional association between nucleoside diphosphate kinase A and AMP-activated protein kinase alpha1 in liver and lung. 1916 May 68
Nucleoside diphosphate kinase (NDPK) (
nm23
/awd) belongs to a multifunctional family of highly conserved proteins (approximately 16 to 20 kDa) including two well-characterized isoforms (
NDPK-A
and -B). NDPK catalyzes the conversion of nucleoside diphosphates to nucleoside triphosphates, regulates a diverse array of cellular events, and can act as a protein histidine kinase. AMP-activated protein kinase (AMPK) is a heterotrimeric protein complex that responds to the cellular energy status by switching off ATP-consuming pathways and switching on ATP-generating pathways when ATP is limiting. AMPK was first discovered as an activity that inhibited preparations of
acetyl coenzyme A carboxylase
1 (ACC1), a regulator of cellular fatty acid synthesis. We recently reported that
NDPK-A
(but not NDPK-B) selectively regulates the alpha1 isoform of AMPK independently of the AMP concentration such that the manipulation of
NDPK-A
nucleotide trans-phosphorylation activity to generate ATP enhanced the activity of AMPK. This regulation occurred irrespective of the surrounding ATP concentration, suggesting that "substrate channeling" was occurring with the shielding of NDPK-generated ATP from the surrounding medium. We speculated that AMPK alpha1 phosphorylated
NDPK-A
during their interaction, and here, we identify two residues on
NDPK-A
targeted by AMPK alpha1 in vivo. We find that
NDPK-A
S122 and S144 are phosphorylated by AMPK alpha1 and that the phosphorylation status of S122, but not S144, determines whether substrate channeling can occur. We report the cellular effects of the S122 mutation on ACC1 phosphorylation and demonstrate that the presence of E124 (absent in NDPK-B) is necessary and sufficient to permit both AMPK alpha1 binding and substrate channeling.
...
PMID:Understanding the molecular basis of the interaction between NDPK-A and AMPK alpha 1. 1877 71
