Molecular basis of 3-ketothiolase deficiency: identification of an AG to AC substitution at the splice acceptor site of intron 10 causing exon 11 skipping.

3-Ketothiolase deficiency (3KTD) is the result of a deficiency in mitochondrial acetoacetyl-CoA thiolase (T2). The molecular basis of 3KTD was analyzed in a patient (GK10) and his family at the protein, cDNA and gene levels. Protein analyses showed that GK10's T2 protein was undetectable in fibroblasts even with the pulse-protein labeling method and that his parents were carriers of 3KTD. Complementary DNA analyses with PCR showed that T2 cDNA in the patient lacked the normal exon 11 sequence and that his parents were obligatory carriers of the DNA sequence which canceled exon 11. When the PCR-amplified genomic fragments around exon 11 were sequenced, an AG to AC mutation at the 3' splice site of intron 10 was detected. This mutation is presumed to be responsible for exon 11 skipping.     

Bovine melanocortin receptor 4: cDNA sequence, polymorphisms and mapping

A cDNA encoding the bovine melanocortin receptor 4 (MC4R) was cloned and sequenced. Comparing human, pig and rat homologues showed a 87, 85 and 89% identity on the DNA level, respectively, and over 90% on the protein level. The bovine MC4R gene was mapped to BTU 24 by radiation hybrid mapping. Two nucleotide changes were identified by single stranded conformation polymorphism (SSCP) and sequencing. The substitutions proved to be a T to C and G (allele B) to A (allele A) resulting, respectively, in a conservative valine to alanine substitution (Val 145 Ala) and an alanine to threonine (Ala 172 Thr). Using PCR-RFLP, 13 different cattle breeds were screened for the presence of the Ala 172 Thr substitution. With the exception of one Red Pied animal, allele A could only be detected in Red Holstein animals.     

The Ca2+-sensing receptor gene (PCAR1) mutation T151M in isolated autosomal dominant hypoparathyroidism

Isolated autosomal dominant hypoparathyroidism is a heterogeneous disorder characterized by parathyroid hormone (PTH) deficiency, hypocalcemia and hyperphosphatemia. The candidate gene approach was used to study a large Norwegian family. The loci for the PTH gene, PTH receptor gene and RET protooncogene were excluded using dinucleotide markers and restriction fragment length polymorphism analysis. Complete cosegregation of this trait was found with the chromosomal region 3q13, using the short tandem repeat markers D3S1267, D3S1269, D3S1303, D3S1518, and RHO. This region contains the candidate locus for the Ca²⁺-sensing receptor (PCAR1). By single-strand conformation polymorphism (SSCP) analysis of all PCAR1 exons followed by automated sequencing, we identified a C to T transition in exon 2 (cDNA position 452) on the mutant allele in the family. The mutation predicts a substitution of Thr to Met in amino acid position 151 (T151M). A StyI restriction site created by the nucleotide substitution was used to confirm the mutation on all alleles, as well as to exclude it among 100 normal alleles (blood donors). SSCP analysis also identified a novel polymorphism of PCAR1 intron 4 (1609–88t→c) on normal alleles.The T151M mutation is located in the extracellular N-terminal domain of PCAR1, which belongs to the superfamily of G protein-coupled receptors. We suggest that this is a gain-of-function mutation that increases the sensitivity of the receptor to [Ca²⁺], thereby decreasing the calcium set point. Received: 29 September 1995 / Revised: 19 January 1996     

Mutations in lipopolysaccharide-binding protein (LBP) gene change the susceptibility to clinical mastitis in Chinese Holstein

Mastitis is an unsolved human challenge all dairy farms facing with, which leads to immeasurable economic loss to the farmers. LBP gene plays a vital role in the innate immune recognition of Gram-negative bacterium that is a major cause of bovine clinical mastitis, but little is known about LBP mutations and their effects on cows' susceptibility to clinical mastitis. In this study, PCR-SSCP method was adopted to analyze SNPs of LBP gene in Chinese Holstein for the first time. 17 SNPs were found in the promoter core region, exon1, exon2, exon3, exon4 and exon8. The mutation g.-81C?→?T in promoter leads to an AP-2 binding site lost. Two mutations, g.11T?→?C (4 Leu?→?Ser) and g.68G?→?C (23Gly?→?Ala) in signal peptide brought about molecular secondary structural change, meanwhile, g.11T?→?C made a Big-1 domain lost, and there was an N-myristoylation site at the g.68G/C locus. The three mutations above were in complete linkage disequilibrium in allele A. In mature LBP protein, five mutations were found: g.3034G?→?A(36Asp?→?Asn), g.3040A?→?G(38Asn?→?Asp), g.3056T?→?C(43Ile?→?Thr) in allele D; g.4619G?→?A(67Ala?→?Thr) in allele F; 19975G?→?A (282Val?→?Met) in allele J. And SNPs in allele D and F were in complete linkage disequilibrium, also in which 38Asn?→?Asp and 67Ala?→?Thr influenced the protein secondary structure. Prediction of the 3-D structure shows mutations 36Asp?→?Asn, 38Asn?→?Asp and 43 Ile?→?Thr were on the concave surface of LBP protein at barrel-N, 67Ala?→?Thr was in the apolar pocket at barrel-N. Motif analysis shows 36Asp?→?Asn causes loss of a CK2 phosphorylation site, 67 Ala?→?Thr forms a new PKC phosphorylation site. And 43Ile?→?Thr, 67Ala?→?Thr made hydrophobic amino acids to be hydrophilic amino acids. Interestingly, the morbidity of AB (mixed type g.-81C/T, g.11T/C, g.68G/C), CD (mixed type g.3034G/A, g.3040A/G, g.3056T/C) and EF (mixed type g.4619G/A) genotype cows are significant higher than others in this study (P?相似文献   

A novel mutation of the MFN2 gene in a Chinese family with Charcot-Marie-Tooth disease

Charcot-Marie-Tooth (CMT) is a group of clinically and genetically heterogeneous inherited neuromuscular disorders. At present, more than 30 loci have been reported to be associated with CMT disease; point mutations in the mitofusin 2 (MFN2) gene is one of the most common causes. We studied a Chinese family with CMT disease in which the phenotype of affected individuals varied, and the weakness condition of the distal legs in males, except the proband, was less severe than in females in this family. Linkage analysis and PCR sequencing revealed a missense mutation (NM_014874.3:c.1066 A>G) in the MFN2 gene, resulting in an animo acid substitution of threonine to alanine in condon 356 (Thr356Ala). This is a novel phenotype and mutation for CMT family.     

Mutations in the lysosomal beta-galactosidase gene that cause the adult form of GM1 gangliosidosis.

Three adult patients with acid beta-galactosidase deficiency/GM1 gangliosidosis who were from two unrelated families of Scandinavian descent were found to share a common point mutation in the coding region of the corresponding gene. The patients share common clinical features, including early dysarthria, mild ataxia, and bone abnormalities. When cDNA from the two patients in family 1 was PCR amplified and sequenced, most (39/41) of the clones showed a C-to-T transition (C-->T) at nucleotide 245 (counting from the initiation codon). This mutation changes the codon for Thr(ACG) to Met(ATG). Mutant and normal sequences were also found in that position in genomic DNA, indicating the presence of another mutant allele. Genomic DNA from the patient in family 2 revealed the same point mutation in one allele. It was determined that in each family only the father carried the C-->T mutation. Expression studies showed that this mutation produced 3%-4% of beta-galactosidase activity, confirming its deleterious effects. The cDNA clones from the patients in family 1 that did not contain the C-->T revealed a 20-bp insertion of intronic sequence between nucleotides 75 and 76, the location of the first intron. Further analysis showed the insertion of a T near the 5' splice donor site which led to the use of a cryptic splice site. It appears that the C-->T mutation results in enough functional enzyme to produce a mild adult form of the disease, even in the presence of a second mutation that likely produces nonfunctional enzyme.     

Message amplification phenotyping of an inherited delta-aminolevulinate dehydratase deficiency in a family with acute hepatic porphyria

The molecular basis of the enzymatic defect responsible for acute hepatic porphyria due to delta-aminolevulinate dehydratase (ALAD) deficiency was investigated in a family including a proband with the acute disease. In order to delineate the mutation in the proband, cDNA for deficient ALAD was synthesized from the proband's cells. The ALAD phenotype was studied by message amplification phenotyping with total RNA extracted from lymphoblastoid cells of the proband and his family members. Two independent mutant alleles of ALAD were identified in the proband's cells. One mutant allele was shown to result in an amino acid substitution at residue 274 (Ala274----Thr). Message amplification phenotyping studies have also permitted us to define the ALAD phenotype of each subject in the family. This is the first mutation to be recognized in the human ALAD gene.     

Mutation screening of the FSH receptor gene in infertile men.

Follicle stimulating hormone (FSH) is important for controlling spermatogenesis through binding with its receptor. However, little information is available on mutations of the FSH and its receptor gene in infertile men. To study the genetic defects, which caused problems in spermatogenesis, we screened the point mutations of the FSH receptor gene in infertile men with high serum FSH concentrations. Seventy male infertile patients with high FHS levels (> 12 mIU/ml) were screened for mutations in each of the 10 exons of the FSH receptor gene, using genomic DNA PCR and a single-strand conformation polymorphism (SSCP) analysis. From this study, three shifted bands were detected by SSCP. The first shifted band was found in the PCR product of exon 4, including the exon-intron boundary sequence in only one patient. The sequence analysis revealed a nucleotide A to T substitution in intron 3 (IVS3-4A-->T). The second shifted band was detected in exon 10 with high frequency (33%). A nucleotide A to G substitution was found at the position of the 994th nucleotide, predicting a Thr to Ala substitution at the position of the 307th amino acid (Thr307Ala). The third shifted band in the 3' region of exon 10 was detected frequently in infertile patient and normal groups. It was tightly linked to the Thr307Ala variant. Thus, all of the abnormalities represent neutral polymorphisms, and not pathological mutations of the FSH receptor gene. In conclusion, we did not confirm that the genomic mutation of the FSH receptor is a major genetic cause in Korean infertile patients with high FSH levels.     

D2 Thr92Ala and PPARγ2 Pro12Ala polymorphisms interact in the modulation of insulin resistance in type 2 diabetic patients

Type 2 deiodinase (D2) converts T4 into its active metabolite T3, an essential step in thyroid metabolism. A Thr92Ala polymorphism in the gene encoding D2 has been inconsistently associated with insulin resistance (IR). Recently, it was reported that the D2 Thr92Ala (rs225014) and the peroxisome proliferator-activated receptor (PPAR) γ2 Pro12Ala (rs1801282) polymorphisms interact in the modulation of metabolic syndrome in nondiabetic subjects. Here, we investigated the effect of both polymorphisms, isolated or in combination, on IR in patients with type 2 diabetes mellitus (DM2). The D2 Thr92Ala and PPARγ2 Pro12Ala polymorphisms were genotyped in 721 DM2 patients. IR was evaluated using the homeostasis model assessment-IR (HOMA(IR)) index in a subgroup of 246 DM2 subjects. The frequencies of D2 Ala92 and PPARγ2 Ala12 variants were 0.390 and 0.074, respectively. Patients carrying D2 Ala/Ala genotype had a higher fasting plasma insulin and HOMA(IR) index as compared to patients carrying Thr/Ala or Thr/Thr genotypes (P = 0.022 and P = 0.001, respectively). A significant synergistic effect was observed between D2 Thr92Ala and PPARγ2 Pro12Ala polymorphisms on HOMA(IR) index, with carriers of both D2 Ala/Ala genotype and PPARγ2 Ala12 allele showing the highest HOMA(IR) values, after adjusting for age, gender, BMI, and use of medication for DM2 (P = 0.010). In conclusion, DM2 patients harboring both D2 Ala/Ala genotype and PPARγ2 Ala12 allele seem to present more severe IR than those with other D2/PPARγ2 genotype combinations. These findings suggest that these polymorphisms interact in the IR modulation, which may constitute a potential therapeutic target.     

Nonsynonymous polymorphic sites in the apolipoprotein (apo) A-IV gene are associated with changes in the concentration of apo B- and apo A-I-containing lipoproteins in a normal population.

The aims of this study were to detect polymorphic sites in the apolipoprotein (apo) A-IV gene, to establish their frequencies, to determine potential haplotypes, and to investigate the role of these polymorphisms in lipid metabolism. A sequencing study of four individuals led to the identification of two synonymous mutations (codons 9 and 54) and three nonsynonymous mutations (Val-8----Met, Gln360----His, and Thr347----Ser) and of a VNTR polymorphism within a series of three or four CTGT repeats in the noncoding region of exon 3. Frequencies of these polymorphisms were determined in 291 students by using naturally occurring (BstEII for the synonymous mutation in codon 54, HinfI for Thr347----Ser, and Fnu4HI for Gln360----His) or artificially introduced restriction-enzyme cutting sites (BstEII for the synonymous mutation in codon 9 and MamI for Val-8----Met), subsequent to PCR amplification. The four-base deletion/insertion polymorphism and its localization cis or trans to the mutations in codons 347 and 360 were studied by direct sequencing of PCR-amplified DNA from 87 students. Frequencies of the rarer alleles were .007 for apo A-IV-8:Met, .04 for the synonymous mutation in codon 9, .14 for the synonymous mutation in codon 54, .16 for apo A-IV347:Ser, .07 for apo A-IV360:His, and .39 for the four-base of insertion. Apo A-IV360:His in all cases was cis-localized to the (CTGT)3 repeat and apo A-IV347:Thr; and apo A-IV347:Ser was cis-localized to the (CTGT)4 repeat and apo A-IV360:Gln. Four haplotypes formed from these three polymorphic sites were thus found. The apo A-IV347:Ser allele was associated both with significantly lower plasma apo B concentrations in both sexes and with significantly lower LDL-cholesterol concentrations in men. Heterozygous carriers of apo A-IV360:His exhibited significantly higher concentrations of LDL-cholesterol and lower Lp(a) concentrations, compared with apo A-IV360:Gln homozygotes. We could not confirm the previously reported association of apo A-IV360:His with elevated HDL-cholesterol concentrations. In the population, the Val-8----Met polymorphism was not associated with significantly different lipid concentrations, but in a family study the Met-8 allele was associated with lower HDL-cholesterol and higher LDL-cholesterol concentrations. In conclusion, our results indicate an important role of the apo A-IV gene locus in the metabolism of apo B and, to a lesser extent, apo A-I containing lipoproteins.     

Identification of two separate allelic mutations in the lipoprotein lipase gene of a patient with the familial hyperchylomicronemia syndrome.

The molecular defects resulting in a deficiency of lipoprotein lipase activity in a patient with the familial hyperchylomicronemia syndrome have been identified. Increased lipoprotein lipase mass but undetectable lipoprotein lipase activity in the patient's post-heparin plasma indicate the presence of an inactive enzyme. No major gene rearrangements were identified by Southern blot analysis of the patient's lipoprotein lipase gene and Northern blot hybridization revealed an lipoprotein lipase mRNA of normal size. Sequence analysis of polymerase chain reaction-amplified lipoprotein lipase cDNA identified two separate allelic mutations. A T to C transition at nucleotide 836 results in the substitution of Ile194, located near the putative interfacial recognition site of lipoprotein lipase, to a Thr. A G to A mutation at base 983 leads to the substitution of a His for Arg243 and the loss of a HhaI restriction enzyme site. Arg243 is near His241, which has been postulated to be part of the catalytic triad of lipoprotein lipase. Direct sequencing of amplified cDNA and digestion with HhaI established that the proband is a compound heterozygote for each base substitution. Transient expression of each of the mutant lipoprotein lipase cDNAs in human embryonal kidney-293 cells resulted in the synthesis of enzymically inactive proteins, establishing the functional significance of the mutations. We conclude that the Ile194 to Thr194 and Arg243 to His243 substitutions occur in lipoprotein lipase regions essential for normal enzyme activity and each mutation results in the expression of a nonfunctional enzyme leading to the hyperchylomicronemia syndrome manifested in the proband.     

The rs225017 Polymorphism in the 3′UTR of the Human DIO2 Gene Is Associated with Increased Insulin Resistance

The Thr92Ala (rs225014) polymorphism in the type 2 deiodinase (DIO2) gene has been associated with insulin resistance (IR) and decreased enzyme activity in human tissues but kinetic studies failed to detect changes in the mutant enzyme, suggesting that this variant might be a marker of abnormal DIO2 expression. Thus, we aimed to investigate whether other DIO2 polymorphisms, individually or in combination with the Thr92Ala, may contribute to IR. The entire coding-region of DIO2 gene was sequenced in 12 patients with type 2 diabetes mellitus (T2DM). Potentially informative variants were evaluated in 1077 T2DM patients and 516 nondiabetic subjects. IR was evaluated using the homeostasis model assessment (HOMA-IR) index. DIO2 gene sequencing revealed no new mutation but 5 previously described single nucleotide polymorphisms (SNPs). We observed that all T2DM patients displaying high HOMA-IR index (n = 6) were homozygous for the rs225017 (T/A) polymorphism. Further analysis showed that the median fasting plasma insulin and HOMA-IR of T2DM patients carrying the T/T genotype were higher than in patients carrying the A allele (P = 0.013 and P = 0.002, respectively). These associations were magnified in the presence of the Ala92Ala genotype of the Thr92Ala polymorphism. Moreover, the rs225017 and the Thr92Ala polymorphisms were in partial linkage disequilibrium (|D′| = 0.811; r ² = 0.365). In conclusion, the rs225017 polymorphism is associated with greater IR in T2DM and it seems to interact with the Thr92Ala polymorphism in the modulation of IR.     

浙江地区青霉素耐药肺炎链球菌PBPs基因及氨基酸序列研究

为阐明温州地区青霉素耐药肺炎链球菌（PRSP）的青霉素结合蛋白（PBPs）的基因和氨基酸序列的变异特点,对温州医学院自2000年11月～2004年1月收集的26份肺炎链球菌进行分离、鉴定及青霉素药敏实验,并对每株链球菌的PBP1A、PBP2B、PBP2X基因进行PCR扩增和直接测序,通过序列比对与生物信息学分析。结果表明,研究中的PBP1A的主要突变位点是保守基序KTG之后的4个连续氨基酸替换Thr574Ala、Ser575Thr、Gln576Gly、Phe577Tyr和保守序列STMK内的氨基酸替换Thr371Ser;PBP2B的主要突变位点是保守序列SSN之后的氨基酸替换Thr451Ala;PBP2X的主要突变位点是保守基序STMK 内的氨基酸替换Thr338Ala。以上突变类型以及菌株的青霉素耐药水平与文献报道相符。研究检测的PRSP的PBPs基因中暂未发现本地区特有的（新的）基因突变,也未检测出文献报道的某些与青霉素抗性相关的氨基酸替换。     

A polymorphism in the growth hormone (GH)-releasing hormone (GHRH) receptor gene is associated with elevated response to GHRH by human pituitary somatotrophinomas in vitro

A previous study has suggested that a G to A base change at position 169 of the GHRH-receptor gene in human somatotrophinomas is a mutation and confers hypersensitivity to GHRH. The alternative base converts codon 57 from GCG to AGC, resulting in replacement of alanine (Ala) with threonine (Thr). In the present study, two of five human GH-secreting somatotrophinomas were found to possess the codon 57 AGC sequence. The GCG allele was also detected, indicating heterozygosity. However, the patients' normal blood-derived DNA also yielded the same sequence pattern, indicating that the Ala --> Thr amino acid change is a normal polymorphism, and not a somatic mutation. Nevertheless, in vitro, the tumors possessing the Ala --> Thr amino acid change responded very strongly to GHRH in terms of cAMP formation, being increased 40- and 200-fold, in comparison to the 2-fold increases by tumors without the alternative GHRH-receptor sequence. Likewise, the in vitro response of GH secretion to GHRH was elevated. One of the two tumors with the alternative Thr residue, and the highest responder to GHRH, possessed a gsp mutation, despite the fact that these defects are thought to reduce responsiveness to GHRH. These results fail to confirm that the GCG --> AGC at codon 57 of the GHRH-receptor gene is a mutation, but do support the concept that the alternative form with Thr confers increased sensitivity to GHRH.     

A third mutation at the CpG dinucleotide of codon 504 and a silent mutation at codon 506 of the HEX A gene.

Two CpG mutations at codon 504 of the gene encoding the alpha-subunit of beta-hexosaminidase (the HEX A gene) have been identified previously: (1) a C deletion resulting in premature termination of the alpha-subunit and (2) a G----A transition resulting in 504Arg----His substitution, in patients with infantile Tay-Sachs disease and juvenile GM2 gangliosidosis, respectively. This prompted a search for a C----T transition in the same dinucleotide, as would be expected from the mechanism of CpG mutagenesis. Such a mutation, which results in a substitution of cysteine for arginine, was found in a patient with chronic GM2 gangliosidosis, in compound heterozygosity with the known 269Gly----Ser allele. The biochemical phenotype of the 504Arg----Cys mutation was examined by site-directed mutagenesis of the alpha-subunit cDNA and transfection of Cos-1 cells. The expression of the mutagenized cDNA with the cysteine substitution gave rise to an alpha-subunit with the same defects as those resulting from expression of mutagenized cDNA with the histidine substitution--i.e., secretion primarily as the alpha-monomer rather than as the alpha alpha dimer, along with absence of enzymatic activity. The 504Arg----Cys/269Gly----Ser genotype of the chronic GM2 gangliosidosis patient is shared by her sibling, who has mild adult-onset GM2 gangliosidosis, implying that the clinical differences between them must be attributed to other factors. The family is unique in yet another respect--namely, that the normal allele of the mother and of a 504Arg----Cys heterozygous sibling has a silent mutation, a G----A transition in the wobble position of the glutamic acid codon at position 506.(ABSTRACT TRUNCATED AT 250 WORDS)