Characterization of a single nucleotide polymorphism in the coding sequence of the bovine transferrin gene.

A single nucleotide polymorphism was identified in the coding sequence of the bovine transferrin gene. Two alleles (SSCP1 and SSCP2) were detected by SSCP analysis and the mutation point was identified and confirmed by direct sequencing of the PCR products. The relationship between protein and DNA polymorphism was established. Protein variants A, D1 and E correspond to SSCP allele 1 and variant D2 corresponds to SSCP allele 2. DNA sequences from genotypes AA, AE, AD2, D1E, D2E and D2D2 reveal an A/G substitution at position 1455 of the cDNA which causes a Gly/Glu substitution which could be responsible for the mobility difference between D1 and D2 variants. Because of the number of variants, this suggests that other SNPs exist in the bovine transferrin gene. A linkage analysis between the SSCPs and two microsatellites (UWCA46 and CSSM019) mapped the transferrin gene to BTA1. Two-point analysis revealed a tight linkage within the transferrin protein variants and the SSCPs.     

Genetic mapping of the human tryptophan hydroxylase gene on chromosome 11, using an intronic conformational polymorphism.

The identification of polymorphic alleles at loci coding for functional genes is crucial for genetic association and linkage studies. Since the tryptophan hydroxylase (TPH) gene codes for the rate-limiting enzyme in the biosynthesis of the neurotransmitter serotonin, it would be advantageous to identify a polymorphism in this gene. By examining introns of the human TPH gene by PCR amplification and analysis by the single-strand conformational polymorphism (SSCP) technique, an SSCP was revealed with two alleles that occur with frequencies of .40 and .60 in unrelated Caucasians. DNAs from 24 informative CEPH families were typed for the TPH intron polymorphism and analyzed with respect to 10 linked markers on chromosome 11, between p13 and p15, with the result that TPH was placed between D11S151 and D11S134. This region contains loci for several important genes, including those for Beckwith-Wiedemann syndrome and tyrosine hydroxylase.     

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.     

SNP frequency and allelic haplotype structure of Beta vulgaris expressed genes

Based on EST sequences, fragments of 37 genes have been amplified and sequenced in two inbred lines of sugar beet. The rate of single nucleotide polymorphisms (SNP) corresponded to 1 every 130 bp, with an average (nucleotide diversity) value of 7.6×10^–3. When extrapolated to the whole sugar beet genome, randomly compared lines differ at 5.4×10⁶ SNPs in the genetic pool considered. In a wider search for SNP-related polymorphisms, 96 fragments of expressed genes were scanned with SSCP (single-strand conformation polymorphism) and heteroduplex (HA) analyses in 8 inbred lines. One SSCP or HA polymorphism was found every 1,470 bp of amplified DNA, corresponding to 5×10⁵ SSCP or HA loci in the whole genome. This frequency, 11 times lower than the SNP rate, was attributed to the high frequency of base pair substitution along the amplified fragment analysed electrophoretically. Therefore nucleotide variability was further studied by sequencing fragments of 10 genes in the same 8 lines. The results indicate that sugar beet alleles of expressed genes are very frequently organized as robust intragene haplotypes. In the 8 lines analysed, two haplotypes were identified for each of three gene fragments, three haplotypes for six gene fragments and four haplotypes for one gene fragment which is in good correspondence with the number of alleles detected by SSCP and HA analysis. In a cross between two lines, SSCP or HA alleles of expressed genes have 54% probability to be different.     

Molecular analysis of esterase D polymorphism

We have analyzed the esterase D (EsD) polymorphism at the nucleic acid level. Two common alleles, EsD¹ and EsD², are characterized by the substitution of one amino acid (Gly-to-Glu), which is caused by the point mutation of one nucleotide (G-to-A). Individuals exhibiting the EsD1 and EsD 2 phenotypes are homozygotes for EsD 1 and EsD 2 cDNAs, respectively. Individuals showing the EsD 2-1 phenotype have two kinds of cDNAs, viz., EsD 1 and EsD 2. The point mutation difference between the cDNAs of the EsD¹ and EsD² alleles results in a different SspI digestion site. A restriction fragment length polymorphism caused by this difference with respect to the SspI digestion site makes it possible to determine the EsD phenotype using DNA samples extracted from forensic materials with no EsD enzymatic activity.     

Galactosemia: a strategy to identify new biochemical phenotypes and molecular genotypes.

We describe a stratagem for identifying new mutations in the galactose-1-phosphate uridyl transferase (GALT) gene. GALT enzyme activity and isoforms were defined in erythrocytes from probands and their first-degree relatives. If the biochemical phenotypes segregated in an autosomal recessive pattern, we screened for common mutations by using multiplex PCR and restriction endonuclease digestions. If common mutant alleles were not present, the 11 exons of the GALT gene were amplified by PCR, and variations from the normal nucleotide sequences were identified by SSCP. The suspected region(s) was then analyzed by direct DNA sequencing. We identified 86 mutant GALT alleles that reduced erythrocyte GALT activity. Seventy-five of these GALT genomes had abnormal SSCP patterns, of which 41 were sequenced, yielding 12 new and 21 previously reported, rare mutations. Among the novel group of 12 new mutations, an unusual biochemical phenotype was found in a family whose newborn proband has classical galactosemia. He had inherited two mutations in cis (N314D-E203K) from his father, whose GALT activity was near normal, and an additional GALT mutation in the splice-acceptor site of intron C (IVSC) from his mother. The substitution of a positively charged E203K mutation created a unique isoform-banding pattern. An asymptomatic sister''s GALT genes carries three mutations (E203K-N314D/N314D) with eight distinct isoform bands. Surprisingly, her erythrocytes have normal GALT activity. We conclude that the synergism of pedigree, biochemical, SSCP, and direct GALT gene analyses is an efficient protocol for identifying new mutations and speculate that E203K and N314D codon changes produce intraallelic complementation when in cis.     

奶牛TLR4基因的多态性与乳房炎的相关性研究

TLR4通过识别病原体而激活免疫细胞,在先天免疫和适应性免疫防御中起着重要作用。以中国荷斯坦奶牛、三河牛和中国西门塔尔牛为研究对象,以TLR4为乳房炎抗性的候选基因,分别扩增316bp和382bp2个片段,分别采用SSCP和RFLP-AluⅠ方法来检测TLR4基因的多态性。结合测序发现:在intron1的第4,525bp处的A→G的突变,和exon3的第1,397bp处的T→C突变,使得产生多态。2个位点的A、B等位基因在3个群体中都有分布,且处于中度多态。χ2适合性检验表明,3个群体在这2个位点的突变达到Hardy-Weinberg平衡状态(P>0.05)。运用SAS8.0软件采用最小二乘法拟合线性模型,将基因座不同基因型与奶牛乳房炎进行了关联分析,结果表明:T4CRBR1的AA基因型为乳房炎抗性基因型(P<0.05),A等位基因为乳房炎抗性的有利基因,T4CRBR2的各基因型个体间的体细胞评分差异不显著(P>0.05)。     

A simple method for non-radioactive PCR-SSCP using MDE gel solution and a midi gel format: application for the detection of variants in the GLUT1 and CTLA-4 genes

The need to identify disease-causing mutations and DNA polymorphisms has increased with the continuing identification of new candidate genes. PCR single-strand conformation polymorphism (PCR-SSCP) is one of the techniques most widely used to identify a mutant sequence or a polymorphism in a known gene. However, the original SSCP protocols using the incorporation of radioactive label and polyacrylamide gel electrophoresis on sequencing gels for detection were labour intensive and time-consuming. Here we describe a simple SSCP protocol using MDE gel solution and a midi gel format to detect SSCP variations in the glucose transporter gene GLUT1, that we have previously analysed with the standard radioactive SSCP protocol, and we have also tested this method on the previously described point mutation (A/G transition in exon 1) of the CTLA-4 (cytotoxic T lymphocyte associated-4) gene. All known variants were detected. Based on the results, this technique appears to be simple, with no use of radioactive labels and with easy handling of the gel. Furthermore, it needs little optimisation, is relatively rapid and highly sensitive. We propose this method for the first screening for candidate gene variants.     

Genetic screening of the lipoprotein lipase gene for mutations associated with high triglyceride/low HDL-cholesterol levels

The lipoprotein lipase (LPL) enzyme plays a major role in lipid metabolism, primarily by regulating the catabolism of triglyceride (TG)-rich lipoprotein particles. The gene for LPL is an important candidate for affecting the risk of atherlosclerosis in the general population. Previously, we have shown that the HindIII polymorphism in intron 8 of the LPL gene is associated with plasma TG and HDL-cholesterol variation in Hispanics and non-Hispanic whites (NHWs). However, this polymorphism is located in an intron and hence may be in linkage disequilibrium with a functional mutation in the coding region or intron-exon junctions of the LPL gene. The aim of this study was to initially screen the LPL coding region and the intron-exon junctions by single-strand conformation polymorphism (SSCP) analysis for mutation detection in a group of 86 individuals expressing the phenotype of high TG/low HDL, followed by association studies in a population-based sample of 1,014 Hispanics and NHWs. Four sequence variations were identified by SSCP and DNA sequencing in the coding region of the gene, including two missense mutations (D9N in exon 2 and N291S in exon 6), one samesense mutation (V108V in exon 3), and one nonsense mutation (S447X in exon 9). Multiple regression analyses, including these four mutations and the HindIII polymorphic site, indicate that the association of the HindIII site with plasma TG (P=0.001 in NHWs and P=0.002 in Hispanics) and HDL-cholesterol (P=0.007 in NHWs and P=0.127 in Hispanics) is independent of all other LPL variable sites examined. These observations reinforce the concept that the intronic 8 HindIII site is functional by itself and provide a strong rationale for future comprehensive functional studies to delineate its biological significance.     

Benzimidazole resistance allele haplotype diversity in United Kingdom isolates of Teladorsagia circumcincta supports a hypothesis of multiple origins of resistance by recurrent mutation

Polymorphisms in the isotype I β-tubulin gene are important genetic determinants of benzimidazole (BZ) resistance in a number of parasitic nematode species including Teladorsagia circumcincta, a major gastrointestinal nematode of sheep. This study investigates the genetic diversity at this locus in a BZ-resistant isolate of T. circumcincta (MTci5) derived from a sheep farm in the United Kingdom (UK) that was open to animal, and therefore parasite, migration. Pyrosequencing was used to determine the frequency of single nucleotide polymorphisms (SNPs) known to be associated with BZ resistance. This was followed by a combination of single strand conformation polymorphism (SSCP) analysis and nucleotide sequencing to sample allelic diversity in a 276 bp fragment immediately surrounding the isotype I β-tubulin F200Y mutation. The genetic diversity at this locus was extremely high, with seven different haplotypes found to contain the resistant F200Y polymorphism in this single resistant isolate. Genotyping by SSCP interfaced with pyrosequencing demonstrated that the P200^Y mutation is also present on multiple haplotypes in two other BZ-resistant T. circumcincta isolates from the UK. This contrasts with much lower levels of haplotype diversity in BZ-resistant alleles present in T. circumcincta isolates from French goat farms that are closed to parasite migration. Taken together with our knowledge of T. circumcincta population genetic structure, these results are most consistent with multiple independent origins of resistance and mixing of alleles due to the large amount of livestock movement in the UK.     

Restriction fragment length polymorphisms in the D7S1 region of human chromosome 7

Summary A restriction fragment length polymorphism in the D7S1 region of chromosome 7 is detected by hybridizing the recombinant plasmid pA2H3 to HindIII- or HinfI-digested human DNA. Three HindIII and two HinfI alleles were detected, and it was found that all individuals carrying the variant HinfI allele also had the commoner of the two variant HindIII alleles. All variants seem to result from point mutation in restriction enzyme recognition sites. Restriction mapping of the D7S1 region revealed that the associated HindIII and HinfI alleles are defined by sites 300 base-pairs (bp) apart, and it is suggested that the close proximity of these sites is sufficient to account for the strong phenotype association observed.     

Prolificacy genotypes at BMPR 1B,BMP15 and GDF9 genes in North African sheep breeds

The aim of this research was to investigate the genetic structure at BMPR 1B, BMP15 and GDF9 prolificacy genes in five sheep breeds reared in Tunisia: Barbarine, Queue Fine de L’Ouest, Noire de Thibar, Sicilo-Sarde and D’man. Genomic DNA of 204 sheep was investigated for the FecB^B (BMPR 1B), FecX^R, FecX^H, FecX^I, FecX^L, FecX^G, FecX^B (BMP15) and FecG^H (GDF9) mutations. The sequence variability of the different DNA fragments utilised for genotyping was further investigated by Single Stranded Conformation Polymorphism (SSCP) and sequencing. All the above-mentioned mutations were absent in the five sheep breeds examined. SSCP analysis and sequencing allowed the detection of two nucleotide variations. A non-functional mutation (T/C transition at nt 747 of BMP15 cDNA known as B3) was found at the BMP15 gene, in the Noire de Thibar breed; this mutation was first detected in the Belclare sheep. A new nucleotide change G/A at nt 1159 of BMP15 cDNA, causing the amino acid change A119T in the mature peptide, was detected in the Barbarine breed for the first time. The highly prolific D’man ewes were monomorphic for the absence of all the known prolificacy alleles.     

Identification of a novel inactivating R465Q mutation of the calcium-sensing receptor

In this study, we describe a 52-year-old woman, who was diagnosed with familial benign hypocalciuric hypercalcemia (FBHH), a condition characterized by hypercalcemia, low urinary calcium excretion, and normal parathyroid hormone PTH levels, resulting from inactivating mutations of the calcium-sensing receptor (CaSR). In order to identify and characterize the underlying mutation in the CASR gene, direct sequence analysis of CASR exons 2-7 was performed, and functional activity was examined by transient transfection of human embryonic kidney (HEK-293) cells with wild-type and mutant CaSRs, followed by intracellular calcium measurement using fluorometry, and Western blot analysis. Sequence analysis demonstrated, in addition to the already described A986S polymorphism, a novel heterozygous G--> A substitution in CASR exon 5 that causes an arginine to glutamine substitution at codon 465 (R465Q). Functional analysis showed a rightward shift of the dose-response curve with a significant increase of the EC50 from 5.4 mM of the CaSR carrying the A986S polymorphism alone to 11.3 mM of the CaSR carrying the R465Q mutation in the presence of the A986S polymorphism. Western blot analysis of membrane protein revealed an even higher expression level of the R465Q mutant protein compared to wild-type CaSR. In conclusion, we identified a novel heterozygous loss-of-function R465Q mutation of the CASR gene, which is characterized by a blunted response to calcium stimulation, thereby causing FBHH.     

KIF21A基因的p.Arg954Trp突变引起中国人先天性眼外肌纤维化

一型先天性眼外肌纤维化（Congenital fibrosis of the extraocular muscles, CFEOM）是一种罕见的常染色体显性遗传的眼肌疾病,临床上主要表现为动眼神经缺陷而引起的斜视。本研究鉴定了具有四代病人的一个呈常染色体显性遗传的CFEOM1家系,连锁分析表明致病基因与染色体12q处的微卫星标记D12S85紧密连锁,最大LOD值为2．1。对D12S85附近的CFEOM1基因K1F21A进行突变检测,在K1F21A基因第21个外显子发现有一C→T的碱基替换,该变化引起K1F21A基因的第954位密码子由精氨酸突变为色氨酸,SSCP结果表明该家系中的所有患者都具有这一突变,而在家系中的所有正常人以及150个正常汉人对照中则不能检测到这一改变。我们的研究表明,K1F21A的p．Arg954Trp突变是引起这一先天性眼外肌纤维化家系病人患病的致病原因。     

Genetic polymorphism of human plasma apolipoprotein A-IV is due to nucleotide substitutions in the apolipoprotein A-IV gene

Genetic polymorphism of human plasma apolipoprotein A-IV has been detected by isoelectric focusing techniques followed by immunoblotting. The molecular basis for this apoA-IV polymorphism has been elucidated. Analysis of the protein coding sequences of the apoA-IV alleles 1 and 2 revealed a single G to T substitution in the apoA-IV-2 allele. The point mutation, occurring in a region highly conserved among the mouse, rat, and human A-IV apolipoproteins, converts the glutamine at position 360 of the mature protein to a histidine. This amino acid substitution adds one positive charge unit to the apoA-IV-1 isoprotein (pI 4.97) thus creating the more basic apoA-IV-2 isoprotein (pI 5.02). Computer analysis of the apoA-IV-2 allele revealed that the single G to T substitution results in the loss of a BbvI and a Fnu4HI restriction enzyme site and in the formation of a new restriction site for the enzyme SfaNI. Protein primary and secondary structure predictions were largely unaffected by this amino acid exchange. These results on the structure of the apoA-IV-1 and apoA-IV-2 alleles suggest that the three other rare isoproteins (apoA-IV-0, apoA-IV-3, and apoA-IV-4) are also due to nucleotide and subsequent amino acid substitutions in the apoA-IV sequence.     

Novel ABCA1 compound variant associated with HDL cholesterol deficiency

The recent discovery of an ATP-binding cassette transporter, ABCA1, as an important regulator of high density lipoprotein (HDL) metabolism and reverse cholesterol transport has facilitated the identification of novel variants associated with HDL cholesterol deficiency states. We identified a subject with HDL cholesterol deficiency (4 mg/dl) who developed and died of complications related to cerebral amyloid angiopathy (CAA). The proband had a compound heterozygous mutation. One mutation was a G3295T substitution with conversion of asparagine to tyrosine (D1099Y) in ABCA1. The single-base substitution at codon 1099 resulted in the abolition of an RsaI cleavage site. The proband and affected individuals having another mutation were heterozygotes for T5966C with phenylalanine converted to serine (F2009S). The presence of the T5966C mutation was detected by restriction digestion with HinfI. These variants were not identified in over 400 chromosomes of healthy subjects. In the kindred, family members heterozygous for the ABCA1 variant exhibited low levels of HDL cholesterol. Direct sequencing of all coding regions and splice site junctions of other HDL candidate genes revealed no additional mutations, indicating that combined defective ABCA1 alleles may result in familial HDL deficiency.     

藏獒MC1R基因多态性与毛色表型的关联研究

目的:通过检测藏獒黑素皮质激素受体1(MC1R)基因的单链构象多态性(SSCP)在不同毛色群体中的分布,探讨MC1R基因多态性与毛色表型的相关性。方法:采用DNA测序技术,选择不同毛色藏獒的DNA为样本,根据GenBank发布的荷斯坦牛MC1R基因序列设计一对引物,采用PCR-SSCP技术分析MC1R基因在藏獒中的SSCP。结果:MC1R基因在藏獒中具有PCR-SSCP多态性,分别检测到3种基因型(AA、AB和BB);对MC1R基因多态性片段DNA克隆测序后发现,MC1R基因在编码区第313位存在单碱基突变(G→A),该突变导致第105位氨基酸发生由丙氨酸向苏氨酸的改变(T105A)。结论:MC1R基因的多态性与毛色性状不存在显著的相关性。     

A Missense Mutation in CRYBB2 Leads to Progressive Congenital Membranous Cataract by Impacting the Solubility and Function of βB2-Crystallin

Congenital cataract is a major cause of visual impairment and childhood blindness. The solubility and stability of crystallin proteins play critical roles in maintaining the optical transparency of the lens during the life span. Previous studies have shown that approximately 8.3%∼25% of congenital cataracts are inherited, and mutations in crystallins are the most common. In this study, we attempted to identify the genetic defect in a four-generation family affected with congenital cataracts. The congenital cataract phenotype of this four-generation family was identified as membranous cataract by slit-lamp photography. Mutation screening of the candidate genes detected a heterozygous c.465G→C change in the exon6 of the βB2-crystallin gene (CRYBB2) in all family members affected with cataracts, resulting in the substitution of a highly conserved Tryptophan to Cystine (p.W151C). The mutation was confirmed by restriction fragment length polymorphism (RFLP) analysis and found that the transition resulted in the absence of a BslI restriction site in the affected members of the pedigree. The outcome of PolyPhen-2 and SIFT analysis predicted that this W151C mutation would probably damage to the structure and function of βB2-crystallin. Wild type (wt) and W151C mutant βB2-crystallin were expressed in human lens epithelial cells (HLECs), and the fluorescence results showed that Wt-βB2-crystallin was evenly distributed throughout the cells, whereas approximately 34.7% of cells transfected with the W151C mutant βB2-crystallin formed intracellular aggregates. Taken together, these data suggest that the missense mutation in CRYBB2 gene leads to progressive congenital membranous cataract by impacting the solubility and function of βB2-crystallin.