Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.1.1.6 (CAD)
 4,420 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ser1406 of the allosteric region of the hamster CAD enzyme, carbamyl phosphate synthetase II (CPSase), is known to be phosphorylated in vitro by cAMP-dependent protein kinase (PKA). Metabolic labeling experiments described here demonstrate that CAD is phosphorylated in somatic cells in culture. Phosphorylation is stimulated by treating cells with 8-bromo-cAMP, a PKA activator. The stimulation is essentially prevented by pretreatment with H-89, a PKA specific inhibitor. Substitution of Ser1406 with alanine results in an enzyme with kinetics and allosteric regulation indistinguishable from unsubstituted CAD. However, substitution to glutamic acid increases CPSase activity by reducing the apparent Km (ATP). The UTP concentration required to give 50% inhibition is increased rendering this altered enzyme significantly less sensitive to feedback inhibition, but allosteric activation by PRPP is unaffected. While these data do not prove that Ser1406 is phosphorylated in vivo, they do indicate that a specific alteration at this residue can affect allosteric regulation.
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PMID:Site-directed substitution of Ser1406 of hamster CAD with glutamic acid alters allosteric regulation of carbamyl phosphate synthetase II. 921

Tandem mass spectrometry (MS/MS) of 28 residue peptides harboring gamma-carboxylated glutamic acid residues, a posttranslational modification of several proenzymes of the blood coagulation cascade, using either collisions or infrared photons results in complete ejection of the gamma-CO2 moieties (-44 Da) before cleavage of peptide-backbone bonds. However, MS/MS using electron capture dissociation (ECD) in a Fourier transform mass spectrometer cleaves backbone bonds without ejecting CO2, allowing direct localization of this labile modification. Sulfated side chains are also retained in ECD backbone fragmentations of a 21-mer peptide, although CAD causes extensive SO3 loss. ECD thus is a unique complement to conventional methods for MS/MS, causing less undesirable loss of side-chain functionalities as well as more desirable backbone cleavages.
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PMID:Localization of labile posttranslational modifications by electron capture dissociation: the case of gamma-carboxyglutamic acid. 1051 47

Early-onset torsion dystonia is a hereditary movement disorder thought to be caused by decreased release of dopamine into the basal ganglia, without apparent neuronal degeneration. Recent cloning of the gene responsible for this disease, TOR1A (DYT1), identified the encoded protein, torsinA, as a member of the AAA+ superfamily of chaperone proteins and revealed highest levels of expression in dopaminergic neurons in human brain. Most cases of this disease are caused by a deletion of one glutamic acid residue in the C-terminal region of the protein. Antibodies generated against torsinA revealed expression of a predominant immunoreactive protein species similar to the predicted size of 37.8 kDa in neural, glial and fibroblastic lines by western blot analysis. This protein is N-glycosylated with high mannose content and not, apparently, phosphoryl-ated. Overexpression of torsinA in mouse neural CAD cells followed by immunocytochemistry, revealed a dramatically different pattern of distribution for wild-type and mutant forms of the protein. The wild-type protein was found throughout the cytoplasm and neurites with a high degree of co-localization with the endoplasmic reticulum (ER) marker, protein disulfide isomerase. In contrast, the mutant protein accumulated in multiple, large inclusions in the cytoplasm around the nucleus. These inclusions were composed of membrane whorls, apparently derived from the ER. If disrupted processing of the mutant protein leads to its accumulation in multilayer membranous structures in vivo, these may interfere with membrane trafficking in neurons.
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PMID:Mutant torsinA, responsible for early-onset torsion dystonia, forms membrane inclusions in cultured neural cells. 1081 22

Early onset dystonia is a movement disorder caused by loss of a glutamic acid residue (Glu(302/303)) in the carboxyl-terminal portion of the AAA+ protein, torsinA. We identified the light chain subunit (KLC1) of kinesin-I as an interacting partner for torsinA, with binding occurring between the tetratricopeptide repeat domain of KLC1 and the carboxyl-terminal region of torsinA. Coimmunoprecipitation analysis demonstrated that wild-type torsinA and kinesin-I form a complex in vivo. In cultured cortical neurons, both proteins co-localized along processes with enrichment at growth cones. Wild-type torsinA expressed in CAD cells co-localized with endogenous KLC1 at the distal end of processes, whereas mutant torsinA remained confined to the cell body. Subcellular fractionation of adult rat brain revealed torsinA and KLC associated with cofractionating membranes, and both proteins were co-immunoprecipitated after cross-linking cytoplasmically oriented proteins on isolated rat brain membranes. These studies suggest that wild-type torsinA undergoes anterograde transport along microtubules mediated by kinesin and may act as a molecular chaperone regulating kinesin activity and/or cargo binding.
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PMID:The early onset dystonia protein torsinA interacts with kinesin light chain 1. 1497 Jan 96

DFF40/CAD, the major apoptotic nuclease, is specific for double-stranded DNA. However, RNA and single-stranded DNA, though not substrates for the enzyme, compete with double-stranded DNA and inhibit its cleavage by the nuclease. In addition, other anionic polymers, like poly-glutamic acid and heparin also inhibit DFF40/CAD, the latter one being highly effective at nanomolar concentrations. The inhibitory poly-anions bind to the nuclease and impair its ability to bind double-stranded DNA. We propose that such poly-anions bind to the positively charged surface formed by alpha4 helices of the DFF40/CAD homodimer. This surface has been proposed recently to bind to either the major groove of DNA or poly (ADP-ribose), another inhibitor of the nuclease.
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PMID:The apoptotic endonuclease DFF40/CAD is inhibited by RNA, heparin and other polyanions. 1669 57