Novel Single Nucleotide Polymorphisms (novel + single_nucleotide_polymorphism)

Distribution by Scientific Domains


Selected Abstracts


A Novel Single Nucleotide Polymorphism of the Neuropeptide Y (NPY) Gene Associated With Alcohol Dependence

ALCOHOLISM, Issue 5 2005
Salim Mottagui-Tabar
Background: Neuropeptide Y (NPY) is a major endogenous regulator of anxiety-related behaviors and emotionality. Transgenic work with NPY and null-mutant mice have implicated NPY in the control of alcohol consumption, suggesting that genetic variation of the prepro-NPY gene may also contribute to the heritability of alcoholism. The aim of this study was to examine whether polymorphic variants of the NPY gene are associated with the diagnosis of alcohol dependence. Methods: We compared allele frequencies of 5 NPY polymorphisms (,883-ins/del, ,602, ,399, ,84, and +1128) in a Nordic population of alcohol-dependent individuals (n= 428 males; n= 149 females) and ethnically matched controls (n= 84 males; n= 93 females) for whom alcohol dependence or any diagnosis of substance disorder was excluded. Patients were further subtyped into type I (late-onset) and type II (early-onset) alcoholics. Results: The ,602 marker showed a significant association with alcohol dependence (p= 0.0035; OR, 2.3; 95% CI, 1.3-4.0); a trend level association was further observed for the ,399 marker (p= 0.058; OR, 1.3; 95% CI, 0.99-1.7) and the +1128 marker (p= 0.053; OR, 1.8; 95% CI, 0.99-3.1). The association for the ,602 marker remained and was strengthened when analyzed in type I subjects only, although this association was not seen in type II patients, and there also was a significant association in the female subjects but not in males. The ,602 single nucleotide polymorphism was in strong linkage dysequilibrium (r2= 0.7; p < 0.0001) with the +1128 single nucleotide polymorphism, which has previously been reported to be associated with a diagnosis of alcoholism. Haplotype-based association confirmed these results. Conclusions: We report a novel polymorphism at position ,602 in the 5, region of the NPY gene that is significantly associated with alcohol dependence. We also describe the haplotype frequencies and linkage dysequilibrium pattern of four variations in that region. [source]


Human alcoholism studies of genes identified through mouse quantitative trait locus analysis

ADDICTION BIOLOGY, Issue 4 2002
Marissa A. Ehringer
Coding region DNA sequence variants have been recently identified in several QTL candidate genes in a mouse model of differential sensitivity to alcohol [inbred long-sleep (ILS) and inbred short-sleep (ISS)]. This work has been extended into a human population characterized for their initial level of response to alcohol (LR). The coding region of one of the most promising of these candidate genes, zinc finger 133 (Znf133), has been sequenced completely in 50 individuals who participated in alcohol challenges at approximately age 20 and have been followed subsequently for the last 15 years. PCR products were obtained for the protein coding region of ZNF133 using human genomic DNA and directly sequenced using automated sequencers. Novel single nucleotide polymorphisms (SNPs) were detected by analyzing the sequence data using a suite of bioinformatics programs including Consed, Phred, Phrap and Polyphred. Five human SNPs were detected, two that correspond to amino acid changes in the protein, two that are silent DNA changes and one located in an intron. In this small sample, no significant association between any of the SNPs and alcohol diagnosis was detected. A follow-up of these SNPs in a larger sample should allow a more definitive conclusion to be reached. Significantly, the data presented here demonstrate the feasibility of directly testing genes in human alcoholic populations that had been identified first by comparative DNA sequencing of candidate genes located within mouse alcohol-related QTLs, even without detailed knowledge of the gene's function. [source]


Relationships among calpastatin single nucleotide polymorphisms, calpastatin expression and tenderness in pork longissimus,

ANIMAL GENETICS, Issue 5 2009
A. K. Lindholm-Perry
Summary Genome scans in the pig have identified a region on chromosome 2 (SSC2) associated with tenderness. Calpastatin is a likely positional candidate gene in this region because of its inhibitory role in the calpain system that is involved in postmortem tenderization. Novel single nucleotide polymorphisms (SNP) in calpastatin were identified and used to genotype a population (n = 1042) of Duroc,Landrace,Yorkshire swine for association with longissimus lumborum slice shear force (SSF) measured at days 7 and 14 postmortem. Three genetic markers residing in the calpastatin gene were significantly associated with SSF (P < 0.0005). Haplotypes constructed from markers in the calpastatin gene were significantly associated with SSF (F -ratio = 3.93; P -value = 0.002). The levels of normalized mRNA expression of calpastatin in the longissimus lumborum of 162 animals also were evaluated by real-time RT-PCR and were associated with the genotype of the most significant marker for SSF (P < 0.02). This evidence suggests that the causative variation alters expression of calpastatin, thus affecting tenderness. In summary, these data provide evidence of several significant, publicly available SNP markers associated with SSF that may be useful to the swine industry for marker assisted selection of animals that have more tender meat. [source]


Identification of a novel single nucleotide polymorphism in the first tandem repeat sequence of the thymidylate synthase 2R allele

INTERNATIONAL JOURNAL OF CANCER, Issue 9 2007
Lisa F. Lincz
Abstract Thymidylate synthase (TS) activity is an important determinant of response to chemotherapy with fluoropyrimidine prodrugs and its expression is largely determined by the number of functional upstream stimulatory factor (USF) E-box consensus elements present in the 5,regulatory region of the TYMS gene. Two known polymorphisms in this area, a variable number of tandem repeat (VNTR) consisting of 2 or 3 repeats (2R/3R) of a 28-bp sequence and a further G > C single nucleotide substitution within the second repeat of the 3R, result in genotypes with between 2 and 4 functional repeats in most humans. Here, we identify a further G > C SNP in the first repeat of the TYMS 2R allele, which effectively abolishes the only functional USF protein binding site in this promoter. The frequency of the new allele was found to be 4.2% (95% CI = 1.4,9.6%), accounting for 8.8% (95% CI = 2.9,19.3%) of all 2R alleles in our patient cohort. Thus, we observed that the lowest number of inherited functional binding sites is 1 instead of 2 as previously thought, and could potentially be 0 in a homozygous individual. This would severely decrease TS expression and may have implications for predicting efficacy and toxicity of therapy with commonly used fluorouracil-based therapy regimes. © 2007 Wiley-Liss, Inc. [source]


Identification of novel single nucleotide polymorphisms within the NOTCH4 gene and determination of association with MHC alleles

INTERNATIONAL JOURNAL OF IMMUNOGENETICS, Issue 2 2003
R. Tazi-Ahnini
Summary Mapping of disease susceptibility loci within the MHC has been partly hampered by the high degree of polymorphism of the HLA genes and the high level of linkage disequilibrium (LD) between markers within the MHC region. It is therefore important to identify new markers and determine the level of LD between HLA alleles and non-HLA genes. The NOTCH4 gene lies at the centromeric end of the MHC class III region, approximately 335 kb telomeric of the DRB1 locus. The encoded protein is an oncogene that is important in regulating vascular development and remodelling. A recent report has linked polymorphisms within NOTCH4 with risk of developing schizophrenia. We have investigated if coding polymorphisms exist within this gene and have identified three single nucleotide polymorphisms; a synonomous T to C transition at +1297 (HGBASE accession number SNP000064386), a synonomous A to G transition at +3061 (SNP000064387) and an A to G transition at +3063 which results in a replacement of glycine with aspartic acid at amino acid 279 (SNP000064388). The allele frequencies of +1297T, +3061A and +3063G were 0.65, 0.66 and 0.66, respectively. Linkage disequilibrium was detected both between these markers and with MHC alleles. These findings can be used in the fine mapping of disease susceptibility alleles within the MHC. [source]


Comparison of genetic polymorphisms of the NAT2 gene between Korean and four other ethnic groups

JOURNAL OF CLINICAL PHARMACY & THERAPEUTICS, Issue 6 2009
T. S. Kang MS
Summary Background and objective:,N -acetyltransferase 2 (NAT2) is responsible for the acetylation of numerous drugs and in the transformation of aromatic and heterocyclinc amines into carcinogenic intermediates. Polymorphism of NAT2 may contribute to interindividual variability in such acetylation. The aim of this study was to determine the allele frequencies of polymorphisms of the NAT2 gene, analyse linkage disequilibrium (LD) block and haplotypes in Koreans and compare them with those of other ethnic groups. Methods:, We analysed genetic polymorphisms in all functional promoter and exons of the NAT2 gene by direct sequencing of genomic DNA from 192 healthy Korean subjects. The LD and haplotype blocks of these subjects were constructed from genotype data using an expectation,maximization algorithm. We compared these allele frequencies, LD block and haplotype structure with those of other ethnic groups registered on the International HapMap database. Results and discussion:, We identified 33 polymorphisms including six novel single nucleotide polymorphisms, ,10778T>C, ,10777A>G, ,10351A>G, ,10199C>T and ,10104G>T in promoter and 578C>T in exon2 (T193M) in the Korean subjects tested. All allele frequencies reported in the Koreans were similar to those of Asians except for one allele (rs4345600, ,9306A>G), whereas African and European groups had different frequencies in exon2. The haplotype structure and LD block among the five groups also revealed significant differences. Conclusion:, Ethnic differences in the NAT2 genotype frequencies may be one of the important factors explaining variability in cancer incidence and drug toxicity. Our observations could be useful in assessing the susceptibility of different populations to cancer and contribute to better predictions of the pharmacokinetics and pharmacodynamics of drugs that are metabolized by NAT2, in different populations. [source]


Genome-wide SNP detection in the great tit Parus major using high throughput sequencing

MOLECULAR ECOLOGY, Issue 2010
NIKKIE E. M. VAN BERS
Abstract Identifying genes that underlie ecological traits will open exiting possibilities to study gene,environment interactions in shaping phenotypes and in measuring natural selection on genes. Evolutionary ecology has been pursuing these objectives for decades, but they come into reach now that next generation sequencing technologies have dramatically lowered the costs to obtain the genomic sequence information that is currently lacking for most ecologically important species. Here we describe how we generated over 2 billion basepairs of novel sequence information for an ecological model species, the great tit Parus major. We used over 16 million short sequence reads for the de novo assembly of a reference sequence consisting of 550 000 contigs, covering 2.5% of the genome of the great tit. This reference sequence was used as the scaffold for mapping of the sequence reads, which allowed for the detection of over 20 000 novel single nucleotide polymorphisms. Contigs harbouring 4272 of the single nucleotide polymorphisms could be mapped to a unique location on the recently sequenced zebra finch genome. Of all the great tit contigs, significantly more were mapped to the microchromosomes than to the intermediate and the macrochromosomes of the zebra finch, indicating a higher overall level of sequence conservation on the microchromosomes than on the other types of chromosomes. The large number of great tit contigs that can be aligned to the zebra finch genome shows that this genome provides a valuable framework for large scale genetics, e.g. QTL mapping or whole genome association studies, in passerines. [source]


Genetic variation of the human glycine receptor subunit genes GLRA3 and GLRB and susceptibility to idiopathic generalized epilepsies

AMERICAN JOURNAL OF MEDICAL GENETICS, Issue 6 2001
Diana Sobetzko
Abstract Alterations of glycine receptor ,1 and , subunit genes have been associated with hypertonic motor disorders in both mice and humans. Mutations in genes encoding other ligand- and voltage-gated ion channels have been identified in rare monogenic forms of idiopathic generalized epilepsies (IGE). We tested the hypothesis that allelic variants of the glycine receptor subunit genes, GLRA3 and GLRB, both localized on chromosome 4q, confer susceptibility to common subtypes of IGE. Mutation screening was carried out in index patients of 14 IGE families. No pathogenic mutation was found, but two intronic polymorphisms were detected in the GLRB gene, and four intronic, three exonic, and one 3,-UTR polymorphisms were identified for the GLRA3 gene. Subsequent screening for exonic and 3,-UTR polymorphisms in GLRA3 showed no statistical difference between a group of sporadic IGE patients (n,=,104) and a control group (n,=,141). The genotype frequencies for exonic and 3,-UTR polymorphisms in GLRA3 showed no statistically significant difference between IGE patients (n,=,104) and an ethnically matched control group (n,=,141). Thus, no association between IGE and alterations in GLRA3 or GLRB genes could be detected, indicating that both genes do not play a major causative role in the epileptogenesis of common IGE subtypes. Still, these novel single nucleotide polymorphisms may be useful markers for candidate gene analyses of other disorders. © 2001 Wiley-Liss, Inc. [source]


Novel polymorphisms and lack of mutations in the ACD gene in patients with ACTH resistance syndromes

CLINICAL ENDOCRINOLOGY, Issue 2 2007
Catherine E. Keegan
Summary Objective ACTH resistance is a feature of several human syndromes with known genetic causes, including familial glucocorticoid deficiency (types 1 and 2) and triple A syndrome. However, many patients with ACTH resistance lack an identifiable genetic aetiology. The human homolog of the Acd gene, mutated in a mouse model of adrenal insufficiency, was sequenced in 25 patients with a clinical diagnosis of familial glucocorticoid deficiency or triple A syndrome. Design A 3·4 kilobase genomic fragment containing the entire ACD gene was analysed for mutations in all 25 patients. Setting Samples were obtained by three investigators from different institutions. Patients The primary cohort consisted of 25 unrelated patients, primarily of European or Middle Eastern descent, with a clinical diagnosis of either familial glucocorticoid deficiency (FGD) or triple A syndrome. Patients lacked mutations in other genes known to cause ACTH resistance, including AAAS for patients diagnosed with triple A syndrome and MC2R and MRAP for patients diagnosed with familial glucocorticoid deficiency. Thirty-five additional patients with adrenal disease phenotypes were added to form an expanded cohort of 60 patients. Measurements Identification of DNA sequence changes in the ACD gene in the primary cohort and analysis of putative ACD haplotypes in the expanded cohort. Results No disease-causing mutations were found, but several novel single nucleotide polymorphisms (SNPs) and two putative haplotypes were identified. The overall frequency of SNPs in ACD is low compared to other gene families. Conclusions No mutations were identified in ACD in this collection of patients with ACTH resistance phenotypes. However, the newly identified SNPs in ACD should be more closely examined for possible links to disease. [source]