Characterization of OCA2 cDNA in different porcine breeds and analysis of its potential effect on skin pigmentation in a red Iberian strain

Although the function of the OCA2 gene product has not been totally clarified, variation in OCA2 has been associated with skin and hair pigmentation in human and mouse. However, its contribution to skin colour in domestic species has not been reported. In this study, cDNA and intron 9 sequences of the porcine OCA2 gene have been characterized in several pig populations. The cDNA sequence alignment of 20 animals from eight porcine populations allowed the identification of 10 single nucleotide polymorphisms (SNPs); five of the 10 SNPs were non-synonymous. The intron 9 sequence alignment of 12 animals belonging to four pig populations revealed four additional SNPs. Skin colour variation was analysed in a red strain of Iberian pigs with segregation of three SNPs forming two OCA2 intragenic haplotypes. Results from this study provide evidence of a suggestive dominant effect of haplotypes on colour intensity and indicate an important contribution of additive polygenic effects (h2 = 0.56 +/- 0.21) to the variance of this trait.     

Genetics of serum and muscle lipids in pigs

Pork meat is one of the most important sources of animal protein in the human diet. Its nutritional properties are partly determined by intramuscular fat content and composition, with existing general consensus about the detrimental effects of cholesterol and saturated fat on cardiovascular health in humans. Because of their physiological resemblance, pigs can be also used as a valuable animal model to study the genetics of human diseases such as atherosclerosis, obesity and dyslipidaemias. Heritability estimates and QTL maps of porcine muscle and serum lipid traits evidence that a considerable amount of genetic variance determining these phenotypes exists, but its molecular basis remains mostly unknown. The recent advent of high‐throughput genotyping and sequencing technologies has revolutionised the field of animal genomics. With these powerful tools, finding needles in the genomic haystack has become increasingly feasible. However, these methodological advances should not be deemed as magic bullets. The goal of identifying the many polymorphisms that shape the variability of lipid phenotypes is so challenging that success can be achieved only under the scope of large international consortia.     

Hepatic SREBP-2 and cholesterol biosynthesis are regulated by FoxO3 and Sirt6

Cholesterol homeostasis is crucial for cellular function and organismal health. The key regulator for the cholesterol biosynthesis is sterol-regulatory element binding protein (SREBP)-2. The biochemical process and physiological function of SREBP-2 have been well characterized; however, it is not clear how this gene is epigenetically regulated. Here we have identified sirtuin (Sirt)6 as a critical factor for Srebp2 gene regulation. Hepatic deficiency of Sirt6 in mice leads to elevated cholesterol levels. On the mechanistic level, Sirt6 is recruited by forkhead box O (FoxO)3 to the Srebp2 gene promoter where Sirt6 deacetylates histone H3 at lysines 9 and 56, thereby promoting a repressive chromatin state. Remarkably, Sirt6 or FoxO3 overexpression improves hypercholesterolemia in diet-induced or genetically obese mice. In summary, our data suggest an important role of hepatic Sirt6 and FoxO3 in the regulation of cholesterol homeostasis.     

人NPCEDRG基因启动子的克隆及CCAAT/NFY结合位点初步分析

NPCEDRG基因是采用基因定位候选克隆策略获得的一个鼻咽癌候选抑瘤基因.NPCEDRG在鼻咽癌细胞和组织中表达下调,重新恢复NPCEDRG基因在CNE2细胞系的表达,可部分逆转CNE2的恶性表型.为揭示NPCEDRG基因在鼻咽癌细胞和组织中表达下调的分子机制,联合应用生物信息学和报告基因载体系统分析方法对NPCEDRG基因启动子区进行克隆及功能分析,系统发育进化足迹分析结果表明,NPCEDRG基因5′端调控区-180～+235 bp区间在脊椎动物中高度保守,该保守区域中存在包括CCAAT/NFY、STAT1和SP1等转录因子结合位点.构建Luc和/或EGFP报告基因表达载体并检测其启动子活性,-146～-8 bp区域有较强的启动子活性,电泳迁移阻滞分析实验(EMSA)提示,CCAAT/NFY转录因子结合位点是NPCEDRG基因的转录调控元件.因此,研究确定-146～-8 bp区域是NPCEDRG基因核心启动子区域且启动子核心元件CCAAT/NFY可能参与NPCEDRG基因的转录调控.     

Mapping a locus for alcohol physical dependence and associated withdrawal to a 1.1 Mb interval of mouse chromosome 1 syntenic with human chromosome 1q23.2-23.3

Physiological dependence and associated withdrawal episodes are thought to constitute a motivational force perpetuating continued alcohol use/abuse. Although no animal model duplicates alcoholism, models for specific factors, like the withdrawal syndrome, are useful to identify potential determinants of liability in humans. We previously detected quantitative trait loci (QTLs) with large effects on predisposition to physical dependence and associated withdrawal following chronic or acute alcohol exposure to a large region of chromosome 1 in mice ( Alcdp1 and Alcw1 , respectively). Here, we provide the first confirmation of Alcw1 in a congenic strain, and, using interval-specific congenic strains, narrow its position to a minimal 1.1   Mb (maximal 1.7   Mb) interval syntenic with human chromosome 1q23.2-23.3. We also report the development of a small donor segment congenic that confirms capture of a gene(s) affecting physical dependence after chronic alcohol exposure within this small interval. This congenic will be invaluable for determining whether this interval harbors a gene(s) involved in additional alcohol responses for which QTLs have been detected on distal chromosome 1, including alcohol consumption, alcohol-conditioned aversion and -induced ataxia. The possibility that this QTL plays an important role in such diverse responses to alcohol makes it an important target. Moreover, human studies have identified markers on chromosome 1q associated with alcoholism, although this association is still suggestive and mapped to a large region. Thus, the fine mapping of this QTL and analyses of the genes within the QTL interval can inform developing models for genetic determinants of alcohol dependence in humans.     

胡萝卜中DcDofD1转录因子基因的克隆及其对非生物逆境胁迫的响应分析

Dof (DNA-binding with one finger)转录因子是植物特有的一类转录因子,该类转录因子在植物生长发育过程中起重要作用。本实验以胡萝卜‘黑田五寸’和‘君川红’为实验材料,分别从中克隆得到DcDofD1转录因子基因。采用生物信息学方法对DcDofD1转录因子氨基酸组成、理化性质、进化关系进行了分析。并利用实时定量PCR方法对DcDofD1基因在非生物胁迫下的表达量进行了分析。结果表明‘黑田五寸’和‘君川红’中的DcDofD1转录因子具有明显的单锌指结构,保守域的氨基酸序列比较保守,进化分析显示,DcDofD1属于Dof家族的D1亚族。在胡萝卜‘黑田五寸’和‘君川红’中,DcDofD1基因对高温、低温、干旱、盐等非生物胁迫响应。而不同胡萝卜材料中,DcDofD1基因对非生物逆境响应的强度和速度不同。     

丝状真菌纤维素酶合成诱导及转录调控

利用廉价可再生木质纤维素资源水解产生的可发酵糖生产生物能源和生物基化学品是近年来国内外研究的热点。纤维素酶酶解是木质纤维素原料生物降解的重要手段,但目前纤维素酶生产成本过高,限制了纤维素生物转化和生物炼制的工业化应用。对丝状真菌纤维素酶基因表达和调控进行研究,有利于进一步选育纤维素酶高产菌株,降低纤维素酶生产成本。随着高通量测序及丝状真菌遗传操作等技术的进步,对丝状真菌纤维素酶诱导和基因表达调控机理有了更深入的认识。本文综述了近年来丝状真菌纤维素酶诱导和纤维素酶基因表达调控的最新进展,重点论述糖转运蛋白、转录因子和染色质重塑对纤维素酶表达调控的影响,并对利用人工锌指蛋白进行丝状真菌纤维素酶诱导调控研究进行了展望。