Association Between rs1344706 of ZNF804A and Schizophrenia:A Meta-analysis

Schizophrenia is one of the most serious mental diseases found in humans. Previous studies indicated that the single nucleotide polymorphism（SNP） rs1344706 in the gene ZNF804 A encoding zinc finger protein 804 A was associated with schizophrenia in Caucasian population but not in Chinese Han population. However, current results are conflicting in Asian population. In the present study, a meta-analysis was performed to revisit the association between rs1344706 and the risk of schizophrenia in Asian, Caucasian and other populations. Electronic search of Pub Med database identified 25 case–control studies with available genotype frequencies of rs1344706 for the meta-analysis,involving a total of 15,788 cases and 22,654 controls. A pooled odds ratio（OR） with 95% confidence interval（CI） was used to assess the association. The current meta-analysis showed an association between rs1344706 and schizophrenia in Caucasian populations（P = 0.028, OR = 1.138, 95% CI：1.014–1.278; P = 0.004 for heterogeneity） and Asian populations（P = 0.008, OR = 1.092, 95%CI： 1.023–1.165; P = 0.001 for heterogeneity）, but not in other populations（P = 0.286,OR = 1.209, 95% CI： 0.853–1.714, P = 0.120 for heterogeneity）. Egger’s test（P 〉 0.05） and Begg’s test（P 〉 0.05） are both suggestive of the lack of publication bias for the included studies. Thus, the absence of association in other populations suggests a genetic heterogeneity in the susceptibility of schizophrenia and demonstrates the difficulties in replicating genome-wide association study findings regarding schizophrenia across different ethnic populations. To validate the association between rs1344706 and schizophrenia, further studies with larger participant populations worldwide are needed.     

SHEsis, a powerful software platform for analyses of linkage disequilibrium, haplotype construction, and genetic association at polymorphism loci

In multiloci-based genetic association studies of complex diseases, a powerful and high efficient tool for analyses of linkage disequilibrium (LD) between markers, haplotype distributions and many chi-square/p values with a large number of samples has been sought for long. In order to achieve the goal of obtaining meaningful results directly from raw data,we developed a robust and user-friendly software platform with a series of tools for analysis in association study with high efficiency. The platform has been well evaluated by several sets of real data.     

冠心病全基因组关联研究进展

近年来全基因组关联研究在世界范围内发展迅猛,研究者应用全基因组关联研究策略发现了一系列疾病的相关基因或变异,将疾病的基因组研究推向一个新的阶段。冠心病是一种由环境因素和遗传因素共同作用导致的复杂疾病,且是世界范围内死亡和致残的首要原因之一,世界各地的研究者应用此策略发现了候选基因关联研究未曾发现的多个冠心病相关易感区域。文章对近年来世界范围内针对冠心病的全基因组关联研究取得的重要进展进行简要总结,然后就现阶段全基因组关联研究所面临的挑战以及对未来研究的发展趋势进行分析阐述,为进一步探究冠心病的遗传机制提供指导。     

复杂疾病的遗传易感基因区域的精细定位

以单核苷酸多态性(Single-nucleotide polymorphism, SNP)为遗传标记, 采用全基因组关联研究(Genome-wide association studies, GWAS)的策略, 已经在660多种疾病(或性状)中发现了3800多个遗传易感基因区域。但是, 其中最显著关联的遗传变异或致病性的遗传变异位点及其生物学功能并不完全清楚。这些位点的鉴定有助于阐明复杂疾病的生物学机制, 以及发现新的疾病标记物。后GWAS时代的主要任务之一就是通过精细定位研究找到复杂疾病易感基因区域内最显著关联的易感位点或致病性的易感位点并阐明其生物学功能。针对常见变异, 可通过推断或重测序增加SNP密度, 寻找最显著关联的SNP位点, 并通过功能元件分析、表达数量性状位点(Expression quantitative trait locus, eQTL)分析和单体型分析等方法寻找功能性的SNP位点和易感基因。针对罕见变异, 则可采用重测序、罕见单体型分析、家系分析和负荷检验等方法进行精细定位。文章对这些策略和所面临的问题进行了综述。     

The polymorphism of CLOCK gene rs4864548 A>G is associated with susceptibility of Alzheimer’s disease in Chinese population

The aim of this study was to investigate the correlation between polymorphism of circadian locomotor output cycle kaput (CLOCK) gene rs4864548 A/G and susceptibility of Alzheimer’s disease (AD). A total of 296 unrelated AD patients and 423 control subjects were enrolled in the case-control study. Genotypes of apolipoprotein E (APOE) and CLOCK gene rs4864548 A/G were determined by a Polymerase Chain Reaction (PCR) restriction fragment length polymorphism detection method. Our results showed that in the whole sample or APOE ε 4 non-carriers, prevalence of A carriers in CLOCK gene rs4864548 A/G in AD patients was remarkably higher than that in control subjects (in the whole sample: χ² = 47.614, p < 0.0001; in APOE ε 4 non-carriers: χ² = 22.493, p < 0.0001). However, among APOE ε 4 carriers, the difference in the prevalence of A carriers in CLOCK gene rs4864548 A/G between AD patients and controls was no statistically significant (χ² = 0.669, p = 0.379). These findings demonstrate that A carriers in CLOCK gene rs 4864548 A/G were closely related to a high susceptibility of AD among APOE ε 4 non-carriers while the functional polymorphism of CLOCK gene rs4864548 A/G was not associated with the susceptibility of AD among APOE ε 4 carriers.     

Porcine NAMPT gene: search for polymorphism,mapping and association studies

NAMPT encodes an enzyme catalysing the rate‐limiting step in NAD biosynthesis. The extracellular form of the enzyme is known as adipokine visfatin. We detected SNP AM999341:g.669T>C (referred to as 669T>C) in intron 9 and SNP FN392209:g.358A>G (referred to as 358A>G) in the promoter of the gene. RH mapping linked the gene to microsatellite SW944. Linkage analysis placed the gene on the current USDA – USMARC linkage map at position 92 cM on SSC9. Association analyses were performed in a wild boar × Meishan F₂ family (W × M), with 45 traits recorded (growth and fattening, fat deposition, muscling, meat quality, stress resistance and other traits), and in a commercial Landrace × Chinese‐European (LCE) synthetic population with records for 15 traits (growth, fat deposition, muscling, intramuscular fat, meat colour and backfat fatty acid content). In the W × M, SNP 669T>C was associated with muscling, fat deposition, growth and fattening, meat quality and other traits and in the LCE with muscling, meat quality and backfat fatty acid composition. In the W × M, SNP 358A>G was associated with muscling, fat deposition, growth and other traits. After correction for multiple testing, the NAMPT haplotypes were associated in the W × M with, in descending order, muscling (q = 0.0056), growth (q = 0.0056), fat deposition (q = 0.0109), fat‐to‐meat ratio (q = 0.0135), cooling losses (q = 0.0568) and longissimus pH_U (q = 0.0695). The SNPs are hypothesized to be in linkage disequilibrium with a causative mutation affecting energy metabolism as a whole rather than fat metabolism alone.     

Association between DRD4 gene polymorphism and personality variation in great tits: a test across four wild populations

Polymorphisms in the dopamine receptor D4 gene (DRD4) have been related to individual variation in novelty‐seeking or exploratory behaviour in a variety of animals, including humans. Recently, the human DRD4 orthologue was sequenced in a wild bird, the great tit (Parus major) and a single nucleotide polymorphism in exon 3 of this gene (SNP830) was shown to be associated with variation in exploratory behaviour of lab‐raised individuals originating from a single wild population. Here we test the generality of this finding in a large sample of free‐living individuals from four European great tit populations, including the originally sampled population. We demonstrate that the association between SNP830 genotype and exploratory behaviour also exists in free‐living birds from the original population. However, in the other three populations we found only limited evidence for an association: in two populations the association appeared absent; while in one there was a nonsignificant tendency. We could not confirm a previously demonstrated interaction with another DRD4 polymorphism, a 15 bp indel in the promoter region (ID15). As yet unknown differences in genetic or environmental background could explain why the same genetic polymorphism (SNP830) has a substantial effect on exploratory behaviour in one population, explaining 4.5–5.8% of the total variance—a large effect for a single gene influencing a complex behavioural trait—but not in three others. The confirmation of an association between SNP830 genotype and personality‐related behaviour in a wild bird population warrants further research into potential fitness effects of the polymorphism, while also the population differences in the strength of the association deserve further investigation. Another important future challenge is the identification of additional loci influencing avian personality traits in the wild.