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Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Insulin resistance is an early predictor of development of noninsulin-dependent
diabetes mellitus
(NIDDM) in Pima Indians, a population with the highest reported prevalence of NIDDM. The insulin receptor plays a central role in mediating insulin action, and previous studies have demonstrated that mutations in the insulin receptor gene may cause insulin resistance. Therefore, we have cloned the insulin receptor cDNA from an insulin-resistant Pima Indian to determine if there is a mutation in the patient's insulin receptor gene. We obtained nine cDNA clones spanning exons 4-10 and 12-22 of the patient's insulin receptor gene. Polymorphisms in the nucleotide sequences for codons 523 (Ala), 1058 (His), and 1062 (Leu) provided useful markers to differentiate the patient's two alleles of the insulin receptor gene. These substitutions were silent, in that they did not alter the predicted amino acid sequence. The sequence of exons 1-3 and 11 was determined directly from genomic DNA that had been amplified using the polymerase chain reaction catalyzed by
Taq DNA polymerase
. Other investigators have reported defects in insulin binding and insulin receptor tyrosine kinase activity in diabetic Pima Indians. However, we did not detect any mutations in this patient's insulin receptor gene. Thus, these observations are consistent with the interpretation that the defects in insulin receptor function are acquired rather than derived from defects in the primary structure of the receptor.
...
PMID:The amino acid sequence of the insulin receptor is normal in an insulin-resistant Pima Indian. 231 37
Two sisters presented with severe insulin resistance and markedly decreased insulin binding to erythrocytes, cultured fibroblasts and transformed lymphocytes. The dose-response curve of insulin-stimulated amino acid uptake in the fibroblasts was shifted to the right. The molecular weight of the insulin receptor on the transformed lymphocytes from the patients was 210,000 and could not be dissociated to alpha- and beta-subunits by dithiothreitol treatment. However, the proreceptor was cleaved by trypsin and this led to the production of alpha-subunit with normal insulin binding. We performed cDNA sequence analysis of the cleavage site of the insulin proreceptor from the patients. The polymerase chain reaction was used to obtain a large amount of cDNA coding for the region including the interconnecting site. A thermostable
DNA polymerase
, Taq polymerase, successfully produced enough cDNA for the region to be sequenced. The results showed an AGG (Arg) to AGT (Ser) point mutation, resulting in the change of the interconnecting sequence of the two subunits from -Arg-Lys-Arg-Arg- to -Arg-Lys-Arg-Ser-. These results suggest that the tertiary structure change of the cleavage site leads to production of unprocessed insulin proreceptors.
Diabetes
Res Clin Pract 1989
PMID:Unprocessed insulin proreceptors due to point mutation at the cleavage site. 268 Mar 65
The
DNA polymerase
chain reaction can be a powerful tool for amplifying selected segments of genomic DNA for investigation of point mutations that are inaccessible via classic restriction-fragment-length polymorphism analysis. We have applied this method to an analysis of the incidence of heterozygosity for the mutant insulin allele insulin Wakayama (A3 Val----Leu) in two unrelated Japanese families having the hyperinsulinemic mutant insulin syndrome. The results indicate that this method is simple, sensitive, and accurate and should be useful for screening larger (diabetic) populations to detect single-base substitutions in the insulin gene that lead to either altered (pro)insulin structure and/or insulin production.
Diabetes
1988 Jul
PMID:Use of in vitro DNA amplification to screen family members for an insulin gene mutation. 329 4
In order to determine the effect of maternal
diabetes
on the somatic growth of the rat fetus and to elucidate mechanisms underlying the control of fetal growth, concentrations of DNA and proteins and DNA polymerase-alpha activities in neonates were examined. The maternal status was classified as normal (no urinary glucose excretion), mildly diabetic (0.01-0.99 g/day urinary glucose), and severely diabetic (1.00 g/day or more urinary glucose). The total DNA contents in mg/neonate were 26.8 +/- 2.2 (mean +/- SEM), 31.3 +/- 2.5, and 29.4 +/- 2.7 for neonates from normal, mildly diabetic and severely diabetic mothers, respectively. The
DNA polymerase
activities in (cpm/g neonate) X 10(-3) for the same groups of neonates were 432 +/- 58, 1,008 +/- 74, and 888 +/- 118, respectively. These results indicate that the neonatal macrosomia disappears as the severity of maternal
diabetes
increases. Furthermore,
DNA polymerase
is one of possible biochemical sites through which macrosomia is manifested in diabetic pregnancies.
...
PMID:Neonatal macrosomia in maternal diabetes. 742 59
The amplification of small amounts of nucleic acids via PCR (Mullis and Faloona, 1985) has undergone a tremendous development in biology, biochemistry, clinical diagnosis, and related fields. The typical three step reaction consisting of heat denaturation, primer annealing, and primer elongation together with the advanced technology in the instrumentation of thermal cyclers has made the reaction simple and fast. The idea to use a heat stable
DNA polymerase
, primers, and dNTPs in order to amplify double stranded DNA molecules in an exponential manner is not the only way to produce large amounts of nucleic acids starting from a few molecules only. This paper will give an overview of some alternatives and their applications.
Exp Clin Endocrinol
Diabetes
1995
PMID:RT-PCR and alternative methods to PCR for in vitro amplification of nucleic acids. 758 16
Histological analysis of surgically removed adrenal masses often fails to differentiate between benign and malignant tumors. In normal cells, the telomeric ends of the chromosomes are shortened with each cell division, leading to chromosome destabilization and cellular senescence after a critical number of cell cycles. In tumor cells, telomere shortening is prevented by a specific
DNA polymerase
, called telomerase. In an effort to clarify the role of telomerase in the pathogenesis of adrenal tumors, and to test whether its activity could serve as marker of malignancy, we measured telomerase activity in 41 human adrenal tissue samples that were classified both by the clinical course and by histological examination. Telomerase activity was determined by TRAP ELISA and expressed as high (>50% of positive control telomerase activity), medium (31-50%), low (11-30%), very low (< or = 10%), or absent (0%). The 8 normal adrenal tissue samples showed very low levels of telomerase activity. Mean telomerase activity also very low in 3/3 incidentalomas, 6/6 Cushing adenomas, 6/6 Conn adenomas, 7/7 adrenocortical carcinomas, 8/8 benign pheochromocytomas, and 2/3 malignant pheochromocytomas. In contrast, one malignant pheochromocytoma showed high telomerase activity. These data indicate that telomerase activity may not be a suitable marker for malignancy in the adrenal gland. Our results also challenge the current dogma of close correlation between cell dedifferentiation and telomerase activity.
Exp Clin Endocrinol
Diabetes
1999
PMID:Telomerase activity in benign and malignant adrenal tumors. 1043 67
Free radical mechanisms may be involved in the teratogenesis of
diabetes
. The contribution of oxidative stress in diabetic complications was investigated from the standpoint of oxidative damage to DNA, lipids, and proteins in the livers and embryos of pregnant diabetic rats.
Diabetes
was induced prior to pregnancy by the administration of streptozotocin (45 mg/kg). Two groups of diabetic rats were studied, one without any supplementation (D) and another treated during pregnancy with vitamin E (150 mg/d by gavage) (D + E). A control group was also included (C). The percentage of malformations in D rats were 44%, higher than the values observed in C (7%) and D + E (12%) animals. D Group rats showed a higher concentration of thiobarbituric acid reactive substances in the mother's liver, however, treatment with vitamin E decreased this by 58%. The levels of protein carbonyls in the liver of C, D, and D + E groups were similar. The "total levels" of the DNA adducts measured, both in liver and embryos C groups were similar to the D groups. Treatment of D groups with vitamin E reduced the levels by 17% in the liver and by 25% in the embryos. In terms of the "total levels" of DNA adducts, the embryos in diabetic pregnancy appear to be under less oxidative stress when compared with the livers of their mothers. Graziewicz et al. (Free Radical Biology & Medicine, 28:75-83, 1999) suggested "that Fapyadenine is a toxic lesion that moderately arrests DNA synthesis depending on the neighboring nucleotide sequence and interactions with the active site of
DNA polymerase
." Thus the increased levels of Fapyadenine in the diabetic livers and embryos may similarly arrest
DNA polymerase
, and in the case of this occurring in the embryos, contribute to the congenital malformations. It is now critical to probe the molecular mechanisms of the oxidative stress-associated development of diabetic congenital malformations.
...
PMID:Oxidative damage in pregnant diabetic rats and their embryos. 1112 18
To study the relationship of the polymorphism of the insulin receptor substrate-1 (IRS-1) gene 5'-flanking regulatory sequence and Type 2
diabetes
, the IRS-1 gene 5'-flanking regulatory sequence was scanned by PCR-SSCP in 78 healthy control subjects and 76 Type 2 diabetic subjects. Applying PCR-denatured polyacrylamide gel electrophoresis and silver staining, the insertion/deletion polymorphism of the CAG-rich region was analyzed. The genome DNA of the normal and variant subjects was amplified with high-fidelity pfu
DNA polymerase
. The purified and digested target fragments were then subcloned into the pCAT Basic vector. Each allele was identified according to the mobility by the restrictive endonuclease digestion of the recombinant combined with denatured polyacrylamide gel electrophoresis and silver staining, and finally the constructive plasmids containing different alleles were analyzed by DNA sequencing. Firstly, we found several insertion/deletion variations in the CAG-rich region of IRS-1 gene. Secondly, 7 genotypes and 6 alleles(T1-T6) in this site were detected. Moreover, T5 and T6 were only observed in Type 2 diabetic group.
...
PMID:[Study on base insertion/deletion of CAG-rich region in insulin receptor substrate-1 5'-regulatory sequence]. 1253 35
The accumulation of multiple mitochondrial DNA (mtDNA) deletions in stable tissues is a distinctive feature of several autosomal disorders, characterized by Progressive External Ophthalmoplegia (PEO), ptosis, and proximal myopathy. At least three nuclear genes are responsible for these disorders: ANT1 and C10orf2 cause autosomal dominant PEO, while mutations of
DNA polymerase
gammaA (POLG1 or POLG) gene on chromosome 15q25 causes both autosomal dominant and recessive forms of PEO. To investigate the contribution of these genes to the sporadic cases of PEO with multiple mtDNA deletions, we studied 31 mitochondrial myopathy patients without any family history for the disorder: 23 had PEO with myopathy, with or without the additional features of pigmentary retinopathy, ataxia, neurosensorial hypoacusia and
diabetes mellitus
, 7 presented isolated myopathy and one a peripheral neuropathy with ptosis. In all patients Southern blot of muscle DNA showed multiple mtDNA deletions; screening for ANT1 and C10ORF2 genes was negative. POLG analysis revealed mutations in eight patients; in six of them the mutations were allelic, while two patients were heterozygous. Five mutations were new, namely one stop codon (c.2407C>T/p.R709X) and four missense mutations (c.1085G>C/p.G268A; c.1967G>A/p.R562Q; c.2702G>C/p.R807P; c.3076C>T/p.H932W). A high degree of conservation was observed for all the new missense mutations. Only patients presenting PEO as part of their clinical phenotype had POLG mutations, in seven of them together with myopathic signs and in one with a sensori-motor peripheral neuropathy.
...
PMID:POLG mutations in sporadic mitochondrial disorders with multiple mtDNA deletions. 1463 18
Oxidative stress plays an important role in tissue damage caused by hypoglycemia and
diabetes
, which may be the result of deterioration in glucose homeostasis caused by these metabolic disorders. The present study examined the effects of insulin-induced hypoglycemia and streptozotocin induced
diabetes
on mitochondrial lipid peroxidation and antioxidant enzymes from different brain regions, namely, cerebral hemispheres, cerebellum, brain stem and diencephalon. In situ localization of DNA single strand breaks (SSBs) were also studied by
DNA polymerase
-I mediated biotin dATP labeled nick translation method after inducing hypoglycemia and
diabetes
. Significant decrease in mitochondrial catalase, manganese superoxide-dismutase (Mn-SOD) and reduced glutathione (GSH) content and increase in the lipid peroxidation (LPx) and glutathione peroxidase (GPx) activity was observed under these metabolic stress conditions with more pronounced effects in hypoglycemic group. We conclude that during severe energy deprivation following hypoglycemia and
diabetes
, mitochondrial free radicals scavenger system is down regulated, which leads to reactive oxygen species (ROS) generation. High levels of ROS in turn activate the processes leading to DNA damage. DNA SSBs, which indicates nuclear disintegration is an important feature of neuronal cell death.
...
PMID:Impact of hypoglycemia and diabetes on CNS: correlation of mitochondrial oxidative stress with DNA damage. 1522 97
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