Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Query: EC:3.1.30.1 (
S1 nuclease
)
3,660
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Amphotropic and ecotropic packaging cell lines were used to obtain high titers (greater than 10(6) colony forming units/ml) of retroviruses encoding human
argininosuccinate synthetase
, and these viruses were used to transduce murine bone marrow cells using cocultivation in vitro. The bone marrow cells were transplanted into lethally irradiated recipient mice, and
argininosuccinate synthetase
activity was measured in peripheral blood. Transduction with amphotropic retrovirus resulted in short-term expression for a period of 1-8 weeks, and no animals expressed the human gene after 25 weeks. Over 60% of the animals transplanted with cells transduced with ecotropic retrovirus expressed the human gene 44 weeks post-transplant, although the level of expression varied over a wide range. Analysis of the DNA from transplanted animals demonstrated the presence of the human sequence in expressing animals, and
S1 nuclease
analysis of RNA confirmed the presence of the human RNA transcripts. Analysis of granulocyte/macrophage (GM) colonies derived from the bone marrow of transplanted, expressing animals revealed a correlation between the level of expression of the transduced gene with the percentage of GM colonies carrying the human gene sequence. These data demonstrate the feasibility of obtaining long-term expression of genes introduced into bone marrow cells using retroviral vectors and the feasibility of obtaining expression of a gene not normally expressed in bone marrow.
...
PMID:Long-term expression of human argininosuccinate synthetase in mice following bone marrow transplantation with retrovirus-transduced hematopoietic stem cells. 156 37
Liver-type arginase (EC 3.5.3.1) catalyzes the last step of urea synthesis and is expressed specifically in the liver of ureotelic animals. Expression of liver arginase is developmentally and hormonally regulated in coordination with other urea cycle enzymes. The gene for the rat enzyme was cloned and the structure determined. This gene is 12 kilobases long and is split into eight exons. All of the splice donor and acceptor sites conform to the GT/AG rule. The transcription initiation site was determined by
nuclease S1
mapping and primer extension. A "TATA box"-like sequence and a "CAAT box"-like sequence are present 27 and 60 bases upstream from the cap site, respectively. Upstream and downstream from the cap site, there are several sets of direct repeats and inverted repeats and several sequences resembling the transcription factor Sp1 binding sites, the enhancer core sequences, the glucocorticoid receptor binding sites, the 12-O-tetradecanoylphorbol-13-acetate responsive elements, and the putative elements for liver-specific expression of albumin genes. A 15-nucleotide sequence in the 5'-flanking region of the arginase gene is highly homologous with sequences in the 5'-flanking regions of the genes for rat ornithine carbamoyltransferase (EC 2.1.3.3) and for human
argininosuccinate synthetase
(
EC 6.3.4.5
), other two enzymes of the urea cycle.
...
PMID:Structural organization of the gene for rat liver-type arginase. 289 37
The structural abnormality of mRNA for
argininosuccinate synthetase
(
ASS
) and the structure of immune cross-reactive material for
ASS
(
ASS
-CRM) in the liver of a patient with type III citrullinemia were analyzed using dot and Northern blot hybridization,
S1 nuclease
analysis, and a sensitive enzyme-linked immunosorbent assay. The patient's liver contained no detectable
ASS
activity, the
ASS
-CRM content was about 0.5% of that in the control and the
ASS
mRNA content was almost normal. The
ASS
mRNA of the case was found to have an apparent structural abnormality; approximately 1.57 kb in length caused by a defect of about 0.1 kb near the 3' end of the coding region. Furthermore, gel filtration analysis revealed that the
ASS
-CRM had a molecular weight indistinguishable from the control
ASS
. These results indicate that the abnormal mRNA of the patient was translated in vivo to an immune-cross-reactive protein that was able to form a quaternary structure.
...
PMID:Structure of an abnormal messenger RNA for argininosuccinate synthetase in citrullinemia. 357 Mar
Canavanine-resistant (Canr) human cells overproduce
argininosuccinate synthetase
without the occurrence of gene amplification. Using calcium phosphate precipitation, genomic DNA from Canr human cells was used to carry out gene transfer into Chinese hamster cells, which do not express
argininosuccinate synthetase
activity. Growth in tissue culture medium with citrulline substituted for arginine was adequate to select enzyme-positive colonies. Six independent isolates were selected for detailed analysis by enzyme assay, Southern blotting, Northern blotting, and
S1 nuclease
analysis, the last of which distinguishes human and hamster mRNA. Five isolates were transferrants containing the human structural gene and synthesizing human enzyme. One isolate represented a cell line synthesizing Chinese hamster enzyme. The data document gene transfer of DNA fragments at least 80 kb in length, the low level of spontaneous activation of the
argininosuccinate synthetase
locus in Chinese hamster cells, the feasibility of this expression and selection system for DNA-mediated gene transfer, and a method for distinguishing the human and hamster gene products at an RNA level.
...
PMID:Genomic DNA-mediated gene transfer for argininosuccinate synthetase. 659 68
Citrullinaemia is a human inborn error of metabolism resulting from the deficiency of
argininosuccinate synthetase
. In a previous study of cultured skin fibroblasts from citrullinaemia patients, we showed that the presumed defects in DNA were not detectable by Southern blotting analysis, and that only 2 of 11 cell lines contained detectable enzyme antigen. All citrullinaemia cell lines contained hybridizable mRNA but slight size heterogeneity was noted. Here we report the extension of the analysis of the RNA using
S1 nuclease
mapping techniques. Among six cell lines examined, five showed an abnormality of mRNA detectable by
S1 nuclease
analysis. The data indicate that a minimum of three out of five non-consanguineous patients represent compound heterozygotes. The
S1 nuclease
detectable defects may represent deletions or rearrangements in the genomic DNA, or more probably represent examples of abnormal RNA splicing. The approach used here is useful for molecular analysis of genetic defects, for prenatal diagnosis, and for study of genetic variation.
...
PMID:Abnormal mRNA for argininosuccinate synthetase in citrullinaemia. 682 33
Citrullinaemia is an inborn error of metabolism resulting from a deficiency of
argininosuccinate synthetase
. Previous studies of RNA of
argininosuccinate synthetase
of citrullinaemia patients using
S1 nuclease
analysis have identified a class of so-called RNA-negative alleles in which no stable mRNA can be detected. To investigate the nature of mutation responsible for such a phenotype, a compound heterozygous citrullinaemia carrying an RNA-negative allele and an allele with a 3' splice site mutation in intron 6 (IVS6-2A>G) was analysed. Using sequences of a DNA polymorphism and the IVS6-2A>G mutation as markers, approximately equal amounts of pre-mRNAs from allelic genes were detected suggesting that RNA-negative phenotype could not be the result of defect in transcription initiation. A C-to-T transition converting the CGA arginine codon at residue 279 to a TGA termination codon (R279X) was identified by cDNA sequencing. No accumulation of partially spliced pre-mRNAs containing introns immediately upstream and downstream of the nonsense mutation was observed. In addition, no mRNA species of abnormal size was detected when cDNA from the RNA-negative allele was analysed. Hence, there is no indication of nonsense-associated altered splicing (NAS). The most likely event responsible for the RNA-negative phenotype appears to be nonsense-mediated mRNA decay (NMD).
...
PMID:A nonsense mutation is responsible for the RNA-negative phenotype in human citrullinaemia. 1157 57
Microsatellites are abundant in the human genome and may acquire context-dependent functions. A highly polymorphic GT microsatellite is located downstream of the poly(A) signal of the human
argininosuccinate synthetase
(ASS1) gene. The ASS1 participates in urea and nitric oxide production and is a rate-limiting enzyme in arginine biosynthesis. To examine possible involvement of the GT microsatellite in ASS1 mRNA 3'-end formation, ASS1 minigene constructs were used in transient transfection for assessment of poly(A) site usage by
S1 nuclease
mapping. Synthesis of the major human ASS1 mRNA is found to be controlled by two consecutive non-canonical poly(A) signals, UAUAAA and AUUAAA, located 7 nucleotides apart where a U-rich sequence and the GU microsatellite serve as their respective downstream GU/U-rich elements. Moreover, AUUAAA utilization is affected by the GU-repeat number possibly leading to differential regulation of ASS1 polyadenylation in individuals with different repeat numbers. Interestingly, the less efficient UAUAAA motif is noted to be the major ASS1 poly(A) signal possibly as a result of an indispensable downstream U-rich element and restricted utilization of the AUUAAA motif by the presence of extended GU-repeats. The UAUAAA motif and the GT microsatellite are conserved only in primates whereas AUUAAA motif is present in all mammals analyzed. The suboptimal UAUAAA motif and the utilization of the polymorphic GT microsatellite as polyadenylation signal of the ASS1 gene may be used as a strategy in primates to modulate ASS1 level in response to interactions of genetic and environmental factors.
...
PMID:Modulation of formation of the 3'-end of the human argininosuccinate synthetase mRNA by GT-repeat polymorphism. 2438 22
