EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Familial isolated growth hormone deficiency type IA results from homozygosity for either a 6.7-kb or a 7.6-kb hGH-1 gene deletion. Genomic DNA was extracted from circulating lymphocytes of 78 subjects with severe isolated growth hormone deficiency (height less than -4.5 SD score) and studied by polymerase chain amplification and by restriction endonuclease analysis looking for gene deletions within the hGH-gene cluster. The individuals analyzed were broadly grouped into three different populations (North-European, n = 32; Mediterranean, n = 22; and Turkish, n = 24). Ten out of 78 patients studied presented with an hGH-1 gene deletion; eight out of these 10 showed a 6.7-kb gene deletion, the remaining two a 7.6-kb hGH-1 gene deletion. Five of the 10 subjects developed anti-hGH antibodies to hGH replacement followed by a stunted growth response. Family studies of the affected patients were performed, revealing consanguinity in all the families, and the corresponding heterozygosity for the deletion was present in each of the parents. The results of our study revealed a prevalence for an hGH-1 gene deletion in three out of 32 North-European, three out of 22 Mediterranean, and four out of 24 Turkish patients with growth hormone deficiency (height less than 4.5 SD score). These data are important for prenatal diagnosis of at-risk pregnancies and for families at risk for recurrence and underline clearly the fact that the hGH-I gene deletion represents a common cause for growth hormone deficiency associated with severe growth retardation (height less than -4.5 SD score).
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PMID:Prevalence of human growth hormone-1 gene deletions among patients with isolated growth hormone deficiency from different populations. 160 35

Familial isolated GH deficiency type 1A (IGHD1A) results from deletion of both GH alleles. To facilitate detection of cases of IGHD1A, we have developed a rapid method that uses polymerase chain reaction amplification of small amounts of genomic DNA, digestion with a single restriction endonuclease, and visualization of DNA fragments after gel electrophoresis. Employing this method we have identified two subjects with IGHD1A among a cohort of seven Chinese subjects with severe growth retardation due to GHD.
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PMID:Use of polymerase chain reaction in detection of growth hormone gene deletions. 234 91

We show the autoradiograms of DNA from one child affected of familial isolated growth hormone deficiency type I-A. Restriction endonuclease analysis of DNA isolated from leukocytes was done using 32P-labeled human GH cDNA clone as a probe. DNA analysis using the restriction endonuclease Bam HI revealed that the 3.8 kb restriction fragment, which contain the normal hGH-N gene, was absent. Since these deletions preclude production of any GH-N protein, affected individuals tend to be immunologically intolerant to exogenous GH. The child was homozygote and after treatment with exogenous GH developed a high titre of antibodies to GH and growth arrest. This is the first case of this genetic disorder studied in Spain.
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PMID:[Diagnosis by DNA analysis in familial isolated growth hormone deficiency type I-A]. 271 9

The pattern of BamHI fragments of DNA from three children suggested to suffer the isolated growth hormone deficiency type. IA was not different from normal pattern registered in blot hybridization with [32P]cDNA of the growth hormone gene. The data permits one to exclude the above mentioned disease that is characterized by the deletion of HGH-N gene. The analogous DNA restriction analysis using HindIII restriction endonuclease has shown, that neither the sick children, nor their parents carry the deletion in heterozygotic state. The study of normal polymorphism of the restriction fragments length has shown that as for as the frequency of polymorphic MspI restriction endonuclease sites A and B in the growth hormone gene cluster (0.67 and 0.75 respectively) is concerned the Russian population in Moscow is closer to Mediterranean one than to North-european.
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PMID:[Use of growth hormone genes for the diagnosis of the disease of dwarfism]. 284 62

Using restriction endonuclease analysis of genomic DNA hybridized to a human chorionic somatomammotropin (hCS) complementary (c)DNA probe, we studied four young Jewish patients with isolated growth hormone deficiency (IGHD), and 15 family members. One family originated in Iraq, two in Yemen and one in Iran. Each patient was homozygous for a deletion of approximately 7.5 kilobases, which included the hGH-N gene. Three of the deletions were associated with the same restriction fragment length polymorphism haplotype, while the deletion in the child of Iranian descent was associated with a different haplotype. All the patients were treated with three injections per week of pituitary human growth hormone (hGH) for periods of 2 1/2 to 14 1/2 years. All had a good growth response. Three reached normal and one almost normal height. Repeated serum analyses revealed absence of anti-hGH antibodies. Thus, the presently described patients differ from those previously reported from Switzerland, Argentina and Japan, all of whom developed anti-hGH antibodies during treatment, with resultant slowing or arresting of growth. Expression of heterozygosity in family members was variable with regard to stature, hGH reserve and insulin-like growth factor I (IGF-I) levels. It is hypothesized that hGH-N gene deletion is not the sole determinant of immune response during hGH treatment, and that the difference between the current series and other cases needs further investigation.
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PMID:Human growth hormone gene deletion without antibody formation or growth arrest during treatment--a new disease entity? 300 92

An 11 year old Austrian boy with isolated growth hormone deficiency type I A is described. On institution of GH therapy at the age of 2 2/12 years there was only a short growth response and anti-GH-antibodies with high binding capacity were detected, and growth was inhibited. Examination of the nuclear DNA by restriction endonuclease analysis demonstrated a defect of the GH-N gene in the patient. The results suggest the deletion in this Austrian family is different from that seen in other patients. The parents were heterozygous for the deletion and had a subnormal GH response to stimulation with arginine, but their somatomedin-C concentrations and their heights were normal. The patients' sister was of normal height, hormone analyses were normal, and the GH-N gene was not affected.
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PMID:Growth hormone deficiency due to GH-N gene deletion in an Austrian family. 353 31

Nuclear DNA from individuals belonging to nine different families in which two sibs were affected with isolated growth hormone deficiency type I were studied by restriction endonuclease analysis. By using 32P-labeled human growth hormone or the homologous human chorionic somatomammotropin complementary DNA (cDNA) sequences as a probe, the growth hormone genes of affected individuals from all families yielded normal restriction patterns. Polymorphic restriction endonuclease sites (HincII and MspI), which are closely linked to the structural gene for growth hormone on chromosome 17, were used as markers in linkage analysis of DNA of family members. Of the nine affected sib pairs two were concordant, three were possibly concordant, and four were discordant for both linked markers. Since only concordant sib pairs would have inherited the same growth hormone alleles, further studies to identify mutations of the growth hormone genes should be limited to this subgroup. It is unlikely that the discordance observed in four of the sib pairs is due to recombination, because the polymorphic HincII site is only 116 base-pairs from the -26 codon of the growth hormone gene. Thus, in at least four of the nine families, the mutation responsible for isolated growth hormone deficiency is not within or near the structural gene for growth hormone on chromosome 17.
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PMID:Genetic analysis of familial isolated growth hormone deficiency type I. 628 24

A Japanese family is described in which a 7-year-old child had isolated growth hormone deficiency type 1A, as described by Illig et al. He was shown to be homozygous for a deletion of the structural gene for hGH (hGH-N gene). Initially his growth rate responded well to hGH administration, but rapidly he developed high titers of hGH antibodies, and growth ceased. At that time, a somatomedin-C generation test gave negative results, suggesting that the growth arrest was related to the inability of hGH to generate somatomedin. Both parents were heterozygous for the hGH-N gene deletion and had a low hGH response to arginine and L-dopa tolerance tests, but had normal basal somatomedin-C levels and normal somatomedin-C generation tests. This family is the fourth to be reported with IGHD type 1A caused by deletion of the hGH-N gene. This cause of growth hormone deficiency can be distinguished from other severe autosomal recessive types of hGH deficiency by the demonstration of the deletion of hGH-N gene using restriction endonuclease analysis.
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PMID:Isolated growth hormone deficiency type 1A in a Japanese family. 653 75

The phenotypic characteristics of isolated growth hormone deficiency (IGHD) type IB in humans, such as autosomal recessive inheritance, time of onset of growth retardation, diminished secretion of growth hormone (GH) and IGF-I, proportional reduction in weight and size, and delay in sexual maturation, has much in common with the phenotype of the homozygous little/little (lit/lit) mouse. Sequencing of the GH releasing hormone (GHRH) receptor in lit/lit mice has shown a single nucleotide substitution within the extracellular peptide binding domain at codon 60 that changed aspartic acid to glycine. Therefore, the GHRH receptor is a reasonable candidate gene for causing IGHD in humans. DNA from 65 unrelated healthy Caucasians of normal stature and 65 children with IGHD type IB of whom 12 did not respond to exogenous treatment with GHRH were studied. Restriction endonuclease analysis, linkage studies, and polymerase chain reaction amplification and sequencing of the whole extracellular domain including the first three membrane spanning domains of the GHRH receptor gene were performed. None of the analyses revealed any structural abnormalities in these patients with IGHD. This suggests that a lit/lit mouse equivalent is an unlikely explanation for the majority of children with IGHD. Although gross structural abnormalities in the whole gene have been ruled out in this study, mutations in the carboxyl terminus are still possible, and, therefore, the remaining part of the gene needs to be sequenced.
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PMID:Isolated growth hormone deficiency: testing the little mouse hypothesis in man and exclusion of mutations within the extracellular domain of the growth hormone-releasing hormone receptor. 861 1

Familial growth hormone deficiency type 1A is an autosomal recessive disease, caused by various homogenous deletions of both alleles of growth hormone gene 1 (hGH1). The hGH1 gene deletion is an event occurring between the 5' and the 3' flanking regions by unequal recombination, which causes a deletion in the hGH1 gene, mostly of 6.7 kb and rarely 7.6 or 7.0 kb in size. Two brothers diagnosed with GH deficiency syndrome were sent to our hospital for further evaluation. DNA samples of the probands and controls were amplified by PCR; restriction endonuclease analysis was done with Sma I enzyme and the patterns were evaluated. Gel electrophoresis results showed that the two brothers had a 7.0 kb deletion. These are the third and fourth cases reported with a 7.0 kb deletion. Both patients responded well to replacement therapy and did not develop antibodies against rGH. No other relatives presented with macro deletions in the hGH1 gene.
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PMID:Two brothers with a 7.0 kb gene deletion associated with isolated growth hormone deficiency type 1A. 888 54

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