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Query: UNIPROT:P00492 (
hypoxanthine-guanine phosphoribosyltransferase
)
2,385
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hypoxanthine phosphoribosyltransferase
(HPRT, IMP:pyrophosphate phosphoribosyltransferase, EC 2.4.2.8) can be purified 5-to 10,000-fold from extracts of HeLa (human) cells by a three-step procedure consisting of high-speed centrifugation, adsorption to Sepharose-conjugated HPRT antibody, and sodium dodecyl sulfate/polyacrylamide gel electrophoresis. Purified enzyme labeled in vivo with radioactive lysine,
arginine
, or methionine was digested with trypsin and the tryptic peptides were separated by column chromatography on Bio-Rad cation exchanger Aminex A-5. Less than 50 ng (2 pmol) of HPRT is required to produce a tryptic peptide pattern. A methionine-labeled peptide was identified as the COOH-terminus because it was not labeled with either lysine or
arginine
. We have compared the tryptic peptide patterns of normal HeLaHPRT and a crossreacting HPRT protein lacking enzyme activity from HeLa mutant H23 [Milman et al. (1976) Proc. Natl. Acad. Sci. USA 73, 4589--4593]. The mutant protein has a new lysine-labeled peptide, but the chromatography patterns of
arginine
- or methionine-labeled peptides appear identical to those of the normal protein. The appearance in the H23 mutant HPRT protein of a new tryptic peptide provides strong evidence for a mutation in the HPRT structural gene. The tryptic peptide patterns were used to determine the total number of residues of labeled amino acid in the protein, and the values are reasonably consistent with those determined by conventional amino acid analysis pf erythrocyte HPRT.
...
PMID:Tryptic peptide analysis of normal and mutant forms of hypoxanthine phosphoribosyltransferase from HeLa cells. 26 86
Hypoxanthine phosphoribosyltransferase
(IMP:pryophosphate phosphoribosyltransferase, EC 2.4.2.8) from human erythrocytes has been purified 13 000-fold to apparent homogeneity. The native enzyme has a sedimentation coefficient of 5.9 S, determined by analytical ultracentrifugation, and a molecular weight of 81 000-83 000, determined by sedimentation equilibrium centrifugation. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicates a subunit molecular weight of 26 000, suggesting that the enzyme is a trimer. Isoelectric focusing resolves three peaks of enzyme activity at pH 5.6, 5.7 and 5.9. The amino acid composition of hypoxanthine phosphoribosyltrasferase is 17 Lys, 5 His, 12
Arg
, 0 Trp, 31 Asx, 12 Thr, 14 Ser, 16 Glx, 14 Pro, 19 Gly, 12 Ala, 5 Cys, 18 Val, 5 Met, 11 Ile, 20 Leu, 10 Tyr, and 9 Phe. The enzyme appears to have a blocked N terminus.
...
PMID:Human hypoxanthine phosphoribosyltransferase. Purification and properties. 86 Dec 17
The Lesch-Nyhan disease is caused by an almost complete lack of the enzyme
hypoxanthine-guanine phosphoribosyltransferase
(
HPRT
). Partial
HPRT
-deficiency, associated with less severe phenotype, has also been identified. We have characterized mutations occurring in
HPRT
cDNA isolated from patients with
HPRT
-deficiency with an emphasis on examining the more unusual partial variants of
HPRT
-deficiency.
HPRT
cDNA was amplified by PCR, cloned and analyzed by automated DNA sequence analysis. Twenty-two, unrelated individuals with
HPRT
deficiency were studied including eight classic Lesch-Nyhan patients and fourteen patients representing the different groups of partial
HPRT
deficiency. We found a diverse pattern of mutations with point mutations accounting for the majority of abnormal
HPRT
genes. Nonsense mutations and exon deletions were only found in
HPRT
cDNA isolated from classic Lesch-Nyhan patients. Mutations associated with partial
HPRT
-deficiency were frequently located in the amino terminal part of the molecule. A CpG mutational hot spot was identified at the position for
Arg
-51 in the
HPRT
protein. Two hyperuricemic patients exhibited unusual splice site mutations: in one this led to the creation of an additional exon in the
HPRT
gene and in the other part of exon 6 was missing in a subpopulation of the transcripts, producing the effect of a dominant, negative mutation.
...
PMID:Characterization of mutations in phenotypic variants of hypoxanthine phosphoribosyltransferase deficiency. 130 16
A nonsense mutation at the CpG-site in the codon for
Arg
(169) in the gene for
hypoxanthine phosphoribosyltransferase
(
hprt
) was identified by genomic polymerase chain reaction (PCR) and DNA sequencing in cultured fibroblasts from two brothers with Lesch Nyhan's syndrome. The recurrence of mutation at this CpG-site in several unrelated Lesch-Nyhan families suggests that deamination of 5-methylcytosine is a possible mechanism for mutagenesis. The level of
hprt
-mRNA in the fibroblasts of the patients was similar to that in healthy controls, whereas
hprt
-enzyme activity was not detectable. The mutation in this family was also identified in five female relatives and prenatally in a male fetus. Unexpectedly, results from hair follicle analyses and fibroblast selection studies in 8-azaguanine and 6-thioguanine medium showed a non-carrier phenotype in three of the female heterozygotes, whereas X-inactivation mosaicism was demonstrated in one heterozygote. A possible explanation for the apparent non-random X-inactivation in this family is the co-existence of the
hprt
mutation with an undefined X-linked lethal mutation. This observation is of practical relevance for carrier detection in other Lesch-Nyhan families.
...
PMID:Mutation analysis and prenatal diagnosis in a Lesch-Nyhan family showing non-random X-inactivation interfering with carrier detection tests. 161 89
The isoenzyme of
hypoxanthine-guanine phosphoribosyltransferase
(HPRT, E.C.2.4.2.8) functions in the metabolic salvage of purines. Partial HPRT deficiency is associated with gouty arthritis, while absence of activity results in Lesch-Nyhan (LN) syndrome. We characterized five unrelated patients with HPRT deficiency to understand the spectrum of molecular defects using Southern and Northern blot, polymerase chain amplification of HPRT mRNA and DNA sequencing, and oligonucleotide hybridization analysis of the HPRT gene. Southern blot analysis of DNA indicated that mutations leading to HPRT deficiency in our five patients were not the result of major chromosomal rearrangements or deletions. Sequencing analysis of the amplified DNA from three different patients with HPRT deficiency implied three unique molecular abnormalities: 1) one single-base substitution at codon 54 (from ATG to CTG) resulting in the replacement of methionine with leucine in an LN patient, 2) two single-base substitutions at codon 179 (from GTT to GGT) and at codon 180 (from GGA to AGA) resulting in the replacement of valine with glycine and glycine with
arginine
in a gouty patient, and 3) 51 nucleotide deletion between nucleotides 747 and 797 resulting in the formation of shorter sized HPRT mRNA and putative two amino-acid deleted HPRT protein in another gouty patient. These results are the direct molecular evidence of genetic heterogeneity in mutant HPRT.
...
PMID:Molecular analysis of hypoxanthine-guanine phosphoribosyltransferase mutations in five unrelated Japanese patients. 257 41
Complete deficiency of
hypoxanthine-guanine phosphoribosyltransferase
(
HPRT
) causes the
Lesch-Nyhan syndrome
. Previous characterization of a mutant form of
HPRT
, HPRTYale, from a subject with the
Lesch-Nyhan syndrome
revealed normal mRNA and protein concentrations, no residual catalytic activity, and cathodal migration upon PAGE. We have cloned and sequenced HPRTYale cDNA. The nucleotide sequence of full-length HPRTYale cDNA revealed a single nucleotide substitution compared with normal
HPRT
cDNA: G----C at nucleotide position 211. This transversion predicts substitution of
arginine
for glycine at amino acid position 71, explaining the cathodal migration of HPRTYale. Chou-Fasman secondary structure analysis predicts a change in the probability of beta-turn formation in the region containing the mutation. Inclusion of the bulky
arginine
side chain in place of glycine probably disrupts protein folding as well. Cloning mutant forms of cDNA allows identification of specific mutations, provides insight into mutational mechanisms, and facilitates structure-function analysis of mutant proteins.
...
PMID:Identification of a single nucleotide change in the hypoxanthine-guanine phosphoribosyltransferase gene (HPRTYale) responsible for Lesch-Nyhan syndrome. 291 Sep 2
We have developed a method for the direct analysis of a
hypoxanthine-guanine phosphoribosyltransferase
(
HPRT
) allele associated with a deficiency of enzyme activity and an early onset of gout. The functionally abnormal enzyme coded for by this mutant allele (HPRTToronto) differs from the normal enzyme by an
arginine
-to-glycine substitution at position 50. A single base change in the codon for
arginine
50 can explain this substitution. Direct analysis of this point mutation is based on the observation that it abolishes a Taq I recognition site in
HPRT
DNA. As predicted, DNA from individuals with the HPRTToronto allele exhibited an abnormal restriction pattern when digested with Taq I and probed with
HPRT
complimentary DNA: a normal 2.0-kb fragment is replaced by a 4.0-kb fragment. The 4.0/2.0-kb restriction fragment variation was used to detect the HPRTToronto allele in a heterozygote that was otherwise normal with respect to the classical techniques used to diagnose heterozygosity in
HPRT
deficiency.
...
PMID:Human hypoxanthine-guanine phosphoribosyltransferase. Detection of a mutant allele by restriction endonuclease analysis. 630 10
HPRTMunich is a mutant form of human
hypoxanthine-guanine phosphoribosyltransferase
that was isolated from a patient who presented with gout and a partial deficiency of enzyme activity. Profound abnormalities in the catalytic function of HPRTMunich are responsible for the deficiency of enzyme activity in vivo. Tryptic peptides of HPRTMunich were mapped by reverse phase high pressure liquid chromatography in an attempt to define the precise abnormality in its primary structure. Sequence analysis of aberrant peptides localized the structural alteration in HPRTMunich to residue 103. Several additional findings suggest that the mutation in this variant is most likely a serine to
arginine
substitution at residue 103. This amino acid substitution lies within the putative hypoxanthine-binding site of human
hypoxanthine-guanine phosphoribosyltransferase
possibly explaining its selective effect on intrinsic enzyme activity and binding of hypoxanthine.
...
PMID:Human hypoxanthine-guanine phosphoribosyltransferase. Structural alteration in a dysfunctional enzyme variant (HPRTMunich) isolated from a patient with gout. 670 36
A mutant form of human
hypoxanthine-guanine phosphoribosyltransferase
(HPRTToronto) was isolated from erythrocytes of a male patient with gout due to a partial deficiency of enzyme activity. The tryptic peptides of HPRTToronto were mapped by reverse-phase high pressure liquid chromatography in an attempt to define the precise abnormality in its primary structure. Sequence analysis of the single aberrant peptide in HPRTToronto revealed an
arginine
to glycine amino acid substitution at position 50. A single nucleotide change in the codon for
arginine
50 (CGA leads to GGA) could explain this substitution.
...
PMID:Human hypoxanthine-guanine phosphoribosyltransferase. 685 90
The entire amino acid sequence of
hypoxanthine-guanine phosphoribosyltransferase
from human erythrocytes has been defined. Peptide fragments formed by cleavage at
arginine
, glutamic acid, and methionine residues were analyzed by Edman degradation or digestion with carboxypeptidase. The complete primary structure of human
hypoxanthine-guanine phosphoribosyltransferase
was established by sequence analysis of 17 peptide fragments, 15 of which were purified by reverse-phase high pressure liquid chromatography. The enzyme is 217 residues long with a molecular weight equal to 24,470. Mass spectroscopy indicated that the NH2-terminal alanine is acetylated.
...
PMID:Human hypoxanthine-guanine phosphoribosyltransferase. Complete amino acid sequence of the erythrocyte enzyme. 710 41
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