Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:4.1.1.6 (CAD)
4,420 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Syrian hamster cells resistant to N-(phosphonacetyl)-L-aspartate (PALA), a specific inhibitor of the aspartate transcarbamylase activity of the multifunctional protein CAD, overproduce this protein as a result of amplification of the CAD gene. We have used a sensitive in situ hybridization technique to localize CAD genomes in spreads of metaphase chromosomes from several independent PALA-resistant lines and from wild-type PALA-sensitive cells. The amplified genes were always found within chromosomes, usually in an expanded region of the short arm of chromosome B9. In wild-type cells, the CAD gene was also on the short arm of chromosome B9. In one mutant line, 90 to 100 CAD genes were found within an expanded B9 chromosome and 10 to 15 more were near the distal end of one arm of several different chromosomes. Another line contained most the genes in a telomeric chromosome or large chromosome fragment. The amplified genes were in chromosomal regions that were stained in a banded pattern by trypsin-Giemsa. A few double minute chromosomes were observed in a very small fraction of the total spreads examined. The it situ hybridizations were performed in the presence of 10% dextral sulfate 500, which increases the signal by as much as 100-fold. Using recombinant DNA plasmids nick-translated with [125I]dCTP to high specific radioactivity, 10 CAD genes in a single chromosomal region were revealed after 1 week of autoradiographic exposure, and the position of the unique gene could be seen after 1 month.
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PMID:Single-copy and amplified CAD genes in Syrian hamster chromosomes localized by a highly sensitive method for in situ hybridization. 618 Mar 4

Rodent cells resistant to PALA, a specific inhibitor of the aspartate transcarbamylase activity of the multifunctional CAD protein, overproduce CAD as a result of amplification of the CAD gene. We cloned a functional CAD gene from Syrian hamster cells using a cosmid vector. Two independently isolated cosmids containing CAD genes have inserts 40 and 45 kb long. We introduced the cloned genes into CAD-deficient Chinese hamster ovary (CHO) cell mutants by fusing them with protoplasts of Escherichia coli containing the cosmids. We also introduced the cloned genes into wild-type CHO cells by selecting cells that became resistant to high concentrations of PALA following protoplast fusion. The transformants of the mutant and wild-type CHO cells contain multiple active copies of the donated Syrian hamster CAD genes. The cloned genes in three independent transformants are integrated into host-cell chromosomes at single locations identified by in situ hybridization. In two of these transformants, the genes are located in one X chromosome or in a chromosome resembling the X. In the third case, the genes are located in a small metacentric or rearranged chromosome.
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PMID:The cloning and reintroduction into animal cells of a functional CAD gene, a dominant amplifiable genetic marker. 627

The aspartate transcarbamylase activity of mammalian cells is carried by a large multifunctional protein, CAD, that catalyzes the first three steps in the de novo pyrimidine biosynthetic pathway. Controlled proteolysis of CAD cleaved the polypeptide chain into several separate structural domains which carried the individual activities of the complex. The aspartate transcarbamylase activity was associated with a 40,000-dalton proteolytic fragment, which kinetic studies showed was released in one of the first proteolytic cleavages. The species was purified to homogeneity by chromatography on carboxymethyl-Sephadex. The isolated species, designated the aspartate transcarbamylase domain, had a molecular weight under denaturing conditions of 40,000 +/- 1,500, a pI = 9.4, and a sedimentation coefficient (S20,w) of 6.2. The sedimentation coefficient suggested that the isolated domain was an oligomer consisting of two or three identical copies of the 40,000-dalton proteolytic fragment. The aspartate saturation curve obtained at a saturating concentration of carbamyl phosphate gave Km = 2.1 X 10(-2)M and Vmax = 119.5 mumol/min/mg, corresponding to a turnover number of 4,780 min-1. Like the aspartate transcarbamylase activity of CAD, the activity was strongly inhibited by high concentrations of aspartate. The corresponding parameters from the carbamyl phosphate saturation curve were Km = 2.07 X 10(-5)M, Vmax = 52.5 mumol/min/mg, and a turnover number of 2,153 min-1. The similarity of these parameters to those obtained from a steady state kinetic study of CAD indicated that the tertiary structure of this region of the polypeptide chain was largely preserved in the isolated species. In the absence of stabilizing agents, the half-life of aspartate transcarbamylase activity of CAD was 60.2 h, while that of the isolated domain was 10.6 h. This result suggested that there were interactions with other regions of the molecule which stabilized the structure of the aspartate transcarbamylase domain in the intact complex.
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PMID:The isolation and characterization of the aspartate transcarbamylase domain of the multifunctional protein, CAD. 630 78

CAD is a multifunctional protein which catalyzes the first three steps of de novo uridine biosynthesis. Rodent cells resistant to PALA, a specific inhibitor of the ATCase activity of CAD, overproduce the CAD protein and CAD mRNA as a direct result of the amplification of the CAD gene. In order to study the mechanism of CAD gene amplification, a functional Syrian hamster CAD gene was inserted into a cosmid vector using molecular cloning techniques. The cloned genes were assayed for biological function by fusing CAD-deficient Chinese hamster ovary (CHO) cell mutants with protoplasts of E. coli containing the CAD cosmids. Two clones with functional CAD genes were isolated and shown to contain inserts 40 and 45 kb long. The cloned genes could also be introduced into wild type CHO cells by selecting for cells which became resistant to high PALA concentrations in a single step. Transformations of mutant and wild type CHO cells contained multiple active copies of the donated Syrian hamster CAD genes in addition to their endogenous CHO CAD genes. The cloned genes in all transformants analyzed are integrated into host cell chromosomes at single locations defined by in situ hybridization. Independently isolated transformants contain the donated genes in different chromosomes. Co-transformation of CHO cells with two different genes by protoplast fusion is also shown to be possible.
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PMID:Analysis of CAD gene amplification using a combined approach of molecular genetics and cytogenetics. 654 67

Eleven independent lines of Syrian hamster cells were selected by using very low levels of N-(phosphonacetyl)-L-aspartate (PALA), an inhibitor of aspartate transcarbamylase. The protocol employed insured that each resistant cell arose during one of the last divisions before selection was applied. Cells of each mutant line contained an amplification of the structural gene for CAD, a trifunctional protein which includes aspartate transcarbamylase and two other enzymes of UMP biosynthesis. Strikingly, despite the minimal selection employed, the degree of amplification of the CAD gene was 6 to 10 times the normal diploid number in all 11 cases. In situ hybridization indicated that the amplified CAD genes were almost always present at a single chromosomal site in each line. Therefore, one of the two alleles was amplified 11- to 19-fold. The rates at which cells became resistant to PALA, determined by fluctuation analysis, were 100 times less dependent on drug concentration than were the frequencies of resistant cells in steady-state populations. The relatively shallow dependence of this rate upon PALA concentration is consistent with our independent observation that most events gave rise to a similar degree of amplification. In six of six cell lines examined, the levels of CAD mRNA and aspartate transcarbamylase activity were elevated two- to fourfold. These lines were resistant to PALA concentrations 20- to 80-fold higher than the ones used for selection. The organization of amplified DNA was examined by hybridizing Southern blots with cloned DNA fragments containing amplified sequences, previously isolated from two cell lines resistant to high levels of PALA. A contiguous region of DNA approximately 44 kilobases long which included the CAD gene was amplified in five of five single-step mutants examined. Outside this region, these mutants shared amplified sequences with only one of the two highly resistant lines.
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PMID:Properties of single-step mutants of Syrian hamster cell lines resistant to N-(phosphonacetyl)-L-aspartate. 665 64

Mutant Syrian hamster cell lines resistant to N-(phosphonacetyl)-L-aspartate, a potent and specific inhibitor of aspartate transcarbamylase, have amplified the gene coding for the multifunctional protein (CAD) that includes this activity. The average amount of DNA amplified is approximately 500 kilobases per gene copy, about 20 times the length of the CAD gene itself. A differential screening method which uses genomic DNAs as probes was developed to isolate recombinant phage containing fragments of amplified DNA. One probe was prepared by reassociating fragments of total genomic DNA from 165-28, a mutant cell line with 190 times the wild-type complement of CAD genes, until all of the sequences repeated about 200 times were annealed and then isolating the double-stranded DNA with hydroxyapatite. This DNA was highly enriched in sequences from the entire amplified region, whereas the same sequences were very rare in DNA prepared similarly from wild-type cells. After both DNAs were labeled by nick translation, highly repeated sequences were removed by hybridization to immobilized total genomic DNA from wild-type cells. A library of cloned DNA fragments from mutant 165-28 was screened with both probes, and nine independent fragments containing about 165 kilobases of amplified DNA, including the CAD gene, have been isolated so far. These cloned DNAs can be used to study the structure of the amplified region, to evaluate the nature of the amplification event, and to investigate gene expression from the amplified DNA. For example, one amplified fragment included a gene coding for a 3.8-kilobase, cytoplasmic, polyadenylated RNA which was overproduced greatly in cells resistant to N-(phosphonacetyl)-L-aspartate. The method for cloning amplified DNA is general and can be used to evaluate the possible involvement of gene amplification in phenomena such as drug resistance, transformation, or differentiation. DNA fragments corresponding to any region amplified about 10-fold or more can be cloned, even if no function for the region is known. The method for removing highly repetitive sequences from genomic DNA probes should also be of general use.
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PMID:General method for cloning amplified DNA by differential screening with genomic probes. 689 36

Most DNA replication origins in eukaryotes localize to nontranscribed regions, and there are no reports of origins within constitutively expressed genes. This observation has led to the proposal that there may be an incompatibility between origin function and location within a ubiquitously expressed gene. The biochemical and functional evidence presented here demonstrates that an origin of bidirectional replication (OBR) resides within the constitutively expressed housekeeping gene CAD, which encodes the first three reactions of de novo uridine biosynthesis (carbamoyl-phosphate synthetase, aspartate carbamoyltransferase, and dihydroorotase). The OBR was localized to a 5-kb region near the center of the Syrian hamster CAD transcriptional unit. DNA replication initiates within this region in the single-copy CAD gene in Syrian baby hamster kidney cells and in the large chromosomal amplicons that were generated after selection with N-phosphonacetyl-L-aspartate, a specific inhibitor of CAD. DNA synthesis also initiates within this OBR in autonomously replicating extrachromosomal amplicons (CAD episomes) located in an N-phosphonacetyl-L-aspartate-resistant clone (5P20) of CHOK1 cells. CAD episomes consist entirely of a multimer of Syrian hamster CAD cosmid sequences (cCAD1). These data limit the functional unit of replication initiation and timing control to the 42 kb of Syrian hamster sequences contained in cCAD1. In addition, the data indicate that the origin recognition machinery is conserved across species, since the same OBR region functions in both Syrian and Chinese hamster cells. Importantly, while cCAD1 exhibits characteristics of a complete replicon, we have not detected autonomous replication directly following transfection. Since the CAD episome was generated after excision of chromosomally integrated transfected cCAD1 sequences, we propose that prior localization within a chromosome may be necessary to "license" some biochemically defined OBRs to render them functional.
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PMID:Identification of an origin of bidirectional DNA replication in the ubiquitously expressed mammalian CAD gene. 762 8

Transforming growth factor beta 1 (TGF-beta 1) regulates a multitude of diverse biological functions in mammalian cells, and there is good evidence that aberrant expression of this growth factor can play an important role in mechanisms of malignant progression. We show that a TGF-beta 1-overexpressing mouse 10T1/2 cell line transfected with a TGF-beta 1 sequence that allows the synthesis of bioactive growth factor exhibits reduced sensitivity to the cytotoxic effects of the drug N-(phosphonacetyl)-L-aspartate (PALA) in colony-forming experiments. Furthermore, six independent 10T1/2 TGF-beta 1-transfected cell lines containing TGF-beta 1 gene expression under the control of a zinc sulfate-responsive metallothionein promoter were selected. In all cases, sensitivity to PALA cytotoxic effects was significantly reduced when cells were cultured under conditions that led to elevated levels of TGF-beta 1 gene expression when compared to cells containing basal levels of this growth factor. Fluctuation analysis to determine the rate of PALA resistance was performed with several TGF-beta 1-transfected cell lines in which growth factor expression was regulated by the metallothionein promoter. We observed significantly higher rates of PALA resistance/cell/generation in cell populations expressing high levels of TGF-beta 1 than in the same cells expressing relatively low levels of this growth factor. The only mechanism known for PALA resistance in mouse cells involves the amplification of the gene coding for the protein target of PALA, CAD, a multifunctional polypeptide containing carbamyl phosphate synthetase, aspartate transcarbamylase, and dihydroorotase. Southern blot analysis of colonies that survived normally cytotoxic concentrations of PALA exhibited CAD gene amplification. In total, these observations indicate that aberrant expression of TGF-beta 1 gene expression decreases the genetic stability of 10T1/2 cells, leading to increased rates of drug resistance and elevated gene amplification potential. The results of this study indicate a new malignancy related function for TGF-beta 1 alterations and suggest a novel role for aberrant expression of this growth factor in mechanisms of drug resistance and tumor progression.
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PMID:Drug resistance and gene amplification potential regulated by transforming growth factor beta 1 gene expression. 771 85

The nucleotide sequences of the genes encoding the enzyme aspartate transcarbamoylase (ATCase) from Pseudomonas putida have been determined. Our results confirm that the P. putida ATCase is a dodecameric protein composed of two types of polypeptide chains translated coordinately from overlapping genes. The P. putida ATCase does not possess dissociable regulatory and catalytic functions but instead apparently contains the regulatory nucleotide binding site within a unique N-terminal extension of the pyrB-encoded subunit. The first gene, pyrB, is 1,005 bp long and encodes the 334-amino-acid, 36.4-kDa catalytic subunit of the enzyme. The second gene is 1,275 bp long and encodes a 424-residue polypeptide which bears significant homology to dihydroorotase (DHOase) from other organisms. Despite the homology of the overlapping gene to known DHOases, this 44.2-kDa polypeptide is not considered to be the functional product of the pyrC gene in P. putida, as DHOase activity is distinct from the ATCase complex. Moreover, the 44.2-kDa polypeptide lacks specific histidyl residues thought to be critical for DHOase enzymatic function. The pyrC-like gene (henceforth designated pyrC') does not complement Escherichia coli pyrC auxotrophs, while the cloned pyrB gene does complement pyrB auxotrophs. The proposed function for the vestigial DHOase is to maintain ATCase activity by conserving the dodecameric assembly of the native enzyme. This unique assembly of six active pyrB polypeptides coupled with six inactive pyrC' polypeptides has not been seen previously for ATCase but is reminiscent of the fused trifunctional CAD enzyme of eukaryotes.
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PMID:Aspartate transcarbamoylase genes of Pseudomonas putida: requirement for an inactive dihydroorotase for assembly into the dodecameric holoenzyme. 789 97

The multifunctional protein CAD catalyzes the first three steps in de novo pyrimidine biosynthesis in mammalian cells. Glutamine-dependent carbamyl-phosphate synthetase (CPSase), aspartate transcarbamylase, and dihydroorotase activities are carried by a 243-kDa polypeptide chain that is organized into discrete functional domains connected by interdomain linkers. One of the connecting chain segments, the DA linker bridging the dihydroorotase and aspartate transcarbamylase domains, is unusually long (109 residues) and conserved in length in all eukaryotic species. A plasmid (pCK-CAD10) that encodes the entire 243-kDa polypeptide was constructed and expressed in Escherichia coli. The recombinant protein was purified to homogeneity by ion exchange and gel filtration chromatography. The purified protein had kinetic parameters that were close to those obtained for native CAD. Moreover, the CPSase activity was allosterically regulated. Gel filtration showed that the recombinant protein had the same molecular mass as native CAD. Thus, this complex mammalian protein is expressed and folds correctly in bacterial cells and, despite its extreme protease sensitivity, can be isolated intact. A deletion mutant that lacked the DA linker was then constructed. The kinetic parameters of the mutant protein were, for the most part, unaltered, showing that the DA linker is not essential for the proper folding or optimal functioning of the individual domains. However, a significant decrease in the thermal stability of the CPSase domain suggested that the linker helps to stabilize the complex. Moreover, the channeling of carbamyl phosphate, determined by measuring the extent to which the exogenously added intermediate could dilute the endogenous carbamyl phosphate pool, was appreciably reduced when the DA linker was removed. Thus, although the domains function autonomously, some of the linkers are important for interdomain interactions in CAD.
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PMID:Cloning and expression of the mammalian multifunctional protein CAD in Escherichia coli. Characterization of the recombinant protein and a deletion mutant lacking the major interdomain linker. 791 46


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