箭叶淫羊藿居群形态及遗传多样性比较研究

箭叶淫羊藿（Epimedium sagittatum）是淫羊藿属中分布最广、形态变异最大、分类学最难处理的一个物种,不同箭叶淫羊藿居群其形态、活性成分等差异较大,质量极其不稳定。本实验选择湖北罗田等12个不同的箭叶淫羊藿地理居群,在武汉植物园进行同园栽培,分析其主要形态数量性状及遗传多样性。结果发现箭叶淫羊藿不同居群在形态上表现出各自明显的差异。基于AFLP数据进行的遗传多样性分析显示,各居群聚类关系与地理分布密切相关,柳州居群（LZ）、西南居群（CL、HH、ZY）、华东华中居群（YT、WN、NF、HS、QZ、SG、LY、LT）依次分出。而形态分层聚类分析显示各居群形态变异复杂,只有部分与遗传多样性有一定的相关性。本研究结果对箭叶淫羊藿分类研究及资源筛选具有重要指导作用。     

1991-2010年宁夏水稻病虫害发生特征与经济损失分析

水稻病虫害发生种类繁多、暴发频繁,是威胁宁夏水稻稳产、高产的重要因素,但对其变化趋势与实际危害损失不清楚.基于宁夏水稻统计数据、稻田覆盖类型遥感数据和水稻产量数据,分析1991年至2010年宁夏水稻病虫害发生特征与经济损失情况.结果表明:1991年到2010年期间,宁夏水稻病害、虫害年均发生面积分别为5.3万hm2和2.0万hm2,其年均防治面积分别为8.4万hm2和1.6万hm2;水稻病害的发生程度下降了23.10％,防治程度上升了77.30％.20年间宁夏水稻虫害的发生面积、发生程度、防治面积和防治程度均显著增加.防治水稻病害、虫害后,分别挽回稻谷为2.67万吨、0.28万吨,其挽回损失量在20年期间分别增加了55.15％、2775.0％,表明水稻病虫害防治意义重大.由于气候变化等诸多因子,导致1991年到2010年宁夏水稻病害、虫害年均造成的实际稻谷损失量分别为0.71万吨与0.13万吨,水稻病害实际损失量在0值附件波动、虫害呈现波动增加趋势,说明水稻病害防控效果好、虫害的防控还有提升的空间.从全区各市县分布来看,水稻病虫害主要分布在宁夏的银北地区.为有效地防止或减少病虫害对水稻产量的损失,应加强农田景观变化和气候变化等对水稻病虫害发生与灾变的风险评估和监测预警,开展区域性水稻病虫害综合治理研究,并建立相应的防控新对策与技术体系.     

Current limitations of SNP data from the public domain for studies of complex disorders: a test for ten candidate genes for obesity and osteoporosis

Background

Public SNP databases are frequently used to choose SNPs for candidate genes in the association and linkage studies of complex disorders. However, their utility for such studies of diseases with ethnic-dependent background has never been evaluated.

Results

To estimate the accuracy and completeness of SNP public databases, we analyzed the allele frequencies of 41 SNPs in 10 candidate genes for obesity and/or osteoporosis in a large American-Caucasian sample (1,873 individuals from 405 nuclear families) by PCR-invader assay. We compared our results with those from the databases and other published studies. Of the 41 SNPs, 8 were monomorphic in our sample. Twelve were reported for the first time for Caucasians and the other 29 SNPs in our sample essentially confirmed the respective allele frequencies for Caucasians in the databases and previous studies. The comparison of our data with other ethnic groups showed significant differentiation between the three major world ethnic groups at some SNPs (Caucasians and Africans differed at 3 of the 18 shared SNPs, and Caucasians and Asians differed at 13 of the 22 shared SNPs). This genetic differentiation may have an important implication for studying the well-known ethnic differences in the prevalence of obesity and osteoporosis, and complex disorders in general.

Conclusion

A comparative analysis of the SNP data of the candidate genes obtained in the present study, as well as those retrieved from the public domain, suggests that the databases may currently have serious limitations for studying complex disorders with an ethnic-dependent background due to the incomplete and uneven representation of the candidate SNPs in the databases for the major ethnic groups. This conclusion attests to the imperative necessity of large-scale and accurate characterization of these SNPs in different ethnic groups.     

Estrogen receptor alpha and vitamin D receptor gene polymorphisms and bone mineral density: association study of healthy pre- and postmenopausal Chinese women

In the present study, we tested the association between the estrogen receptor alpha (ER-alpha) and vitamin D receptor (VDR) genes with bone mineral density (BMD). A total of 649 healthy Chinese women, classified as pre-menopausal (N=388) and post-menopausal (N=261) groups, were genotyped at the ER-alpha PvuII, XbaI, and VDR ApaI sites. BMDs at the lumbar spine (L(1)-L(4)) and total hip were measured by dual-energy X-ray absorptiometry. For the VDR ApaI locus, AA carriers had lower spine BMD than Aa (p=0.02) and aa carriers (p<0.01) in the pre-menopausal group. For the ER-alpha gene, carriers of haplotype px had lower spine BMD than the non-carriers (p=0.03) in the pre-menopausal group. Furthermore, we observed significant interaction between the ER-alpha and VDR genes in the post-menopausal group: with AA genotype (or A allele) at the VDR ApaI locus, pX carriers had higher spine BMD than the non-carriers (p=0.02), and PX carriers had lower hip BMD than the non-carriers (p=0.04). Our data suggest that the ER-alpha and VDR genes may be associated with the BMD variation in Chinese women.     

A genomewide linkage scan for quantitative-trait loci for obesity phenotypes

Obesity is an increasingly serious health problem in the world. Body mass index (BMI), percentage fat mass, and body fat mass are important indices of obesity. For a sample of pedigrees that contains >10,000 relative pairs (including 1,249 sib pairs) that are useful for linkage analyses, we performed a whole-genome linkage scan, using 380 microsatellite markers to identify genomic regions that may contain quantitative-trait loci (QTLs) for obesity. Each pedigree was ascertained through a proband who has extremely low bone mass, which translates into a low BMI. A major QTL for BMI was identified on 2q14 near the marker D2S347 with a LOD score of 4.04 in two-point analysis and a maximum LOD score (MLS) of 4.44 in multipoint analysis. The genomic region near 2q14 also achieved an MLS >2.0 for percentage of fat mass and body fat mass. For the putative QTL on 2q14, as much as 28.2% of BMI variation (after adjustment for age and sex) may be attributable to this locus. In addition, several other genomic regions that may contain obesity-related QTLs are suggested. For example, 1p36 near the marker D1S468 may contain a QTL for BMI variation, with a LOD score of 2.75 in two-point analysis and an MLS of 2.09 in multipoint analysis. The genomic regions identified in this and earlier reports are compared for further exploration in extension studies that use larger samples and/or denser markers for confirmation and fine-mapping studies, to eventually identify major functional genes involved in obesity.     

Genetic Analysis Identifies DDR2 as a Novel Gene Affecting Bone Mineral Density and Osteoporotic Fractures in Chinese Population

DDR2 gene, playing an essential role in regulating osteoblast differentiation and chondrocyte maturation, may influence bone mineral density (BMD) and osteoporosis, but the genetic variations actually leading to the association remain to be elucidated. Therefore, the aim of this study was to investigate whether the genetic variants in DDR2 are associated with BMD and fracture risk. This study was performed in three samples from two ethnicities, including 1,300 Chinese Han subjects, 700 Chinese Han subjects (350 with osteoporotic hip fractures and 350 healthy controls) and 2,286 US white subjects. Twenty-eight SNPs in DDR2 were genotyped and tested for associations with hip BMD and fractures. We identified 3 SNPs in DDR2 significantly associated with hip BMD in the Chinese population after multiple testing adjustments, which were rs7521233 (P = 1.06×10⁻⁴, β: −0.018 for allele C), rs7553831 (P = 1.30×10⁻⁴, β: −0.018 for allele T), and rs6697469 (P = 1.59×10⁻³, β: −0.015 for allele C), separately. These three SNPs were in high linkage disequilibrium. Haplotype analyses detected two significantly associated haplotypes, including one haplotype in block 2 (P = 9.54×10⁻⁴, β: −0.016) where these three SNPs located. SNP rs6697469 was also associated with hip fractures (P = 0.043, OR: 1.42) in the Chinese population. The effect on fracture risk was consistent with its association with lower BMD. However, in the white population, we didn’t observe significant associations with hip BMD. eQTL analyses revealed that SNPs associated with BMD also affected DDR2 mRNA expression levels in Chinese. Our findings, together with the prior biological evidence, suggest that DDR2 could be a new candidate for osteoporosis in Chinese population. Our results also reveal an ethnic difference, which highlights the need for further genetic studies in each ethnic group.     

Genome partitioning of genetic variation for height from 11,214 sibling pairs

Height has been used for more than a century as a model by which to understand quantitative genetic variation in humans. We report that the entire genome appears to contribute to its additive genetic variance. We used genotypes and phenotypes of 11,214 sibling pairs from three countries to partition additive genetic variance across the genome. Using genome scans to estimate the proportion of the genomes of each chromosome from siblings that were identical by descent, we estimated the heritability of height contributed by each of the 22 autosomes and the X chromosome. We show that additive genetic variance is spread across multiple chromosomes and that at least six chromosomes (i.e., 3, 4, 8, 15, 17, and 18) are responsible for the observed variation. Indeed, the data are not inconsistent with a uniform spread of trait loci throughout the genome. Our estimate of the variance explained by a chromosome is correlated with the number of times suggestive or significant linkage with height has been reported for that chromosome. Variance due to dominance was not significant but was difficult to assess because of the high sampling correlation between additive and dominance components. Results were consistent with the absence of any large between-chromosome epistatic effects. Notwithstanding the proposed architecture of complex traits that involves widespread gene-gene and gene-environment interactions, our results suggest that variation in height in humans can be explained by many loci distributed over all autosomes, with an additive mode of gene action.     

中间偃麦草Na+/H+逆向转运蛋白的分子克隆及生物信息学分析

根据小麦液泡膜Na /H 逆转运蛋白基因TaNHX1的全长序列设计引物,通过RT-PCR直接扩增的方法从中间偃麦草(Elytrigia intermedia)中克隆到了TaNHX1的同源基因,命名为TiNHX1(Acession Numeber:EF409418).TiNHX1最大开放阅读框为1 641 bp,编码含有546个氨基酸残基、分子量为59.8 kDa的蛋白,预测等电点8.0.TiNHX1含有38个碱性氨基酸,36个酸性氨基酸,256个疏水氨基酸及129个极性氨基酸.二级结构预测表明该蛋白含约44%的a-螺旋、21%的p-折叠、4%的p-转角和29%的不规则卷曲.亲疏水性分析显示,TiNHX1含有12个连续的疏水片断,其中10个可能构成穿膜螺旋.序列分析显示,TiNHX1与小麦(Triticum aestivum)、长穗偃麦草(Elytrigia elongate)、水稻(Oryza sativa)、小盐芥(Thellungiella halophila)、拟南芥(Arabidopsis thaliana)等植物的液泡膜Na /H 逆向转运蛋白高度同源,序列相似性分别为97%、96%、85%、68%、67%.序列比对结果以及进化树分析均表明TiNHX1应为定位于中间偃麦草液胞膜上的Na /H 逆向转运蛋白.     

Genetic determination of osteoporosis: lessons learned from a large genome-wide linkage study

Osteoporosis is a common disease with strong genetic control. We performed an autosomal linkage scan in a large pedigree-based sample of 4,498 subjects for a composite osteoporosis phenotype that combines osteoporotic fracture (OF) and low bone mineral density (BMD). All of the subjects were U.S. Caucasians recruited in the Omaha area of Nebraska. Sex-specific linkage analyses and autosomal imprinting analyses were also conducted. For conventional linkage analyses in the total sample, we identified suggestive linkage on chromosomes 14q32 (LOD = 2.61), 7p14 (LOD = 2.42), and 11q25 (LOD = 2.09). In female subjects a significant linkage signal was detected on chromosome 14q22 (LOD = 3.53) and another two peaks were detected on chromosomes 7p14 (LOD = 3.07) and 9p21 (LOD = 2.29). Suggestive evidence of imprinted loci was found with paternally derived alleles on chromosomes 1q42 (LOD = 2.12) and 9q34 (LOD = 1.88). Some evidence of linkage to maternally derived alleles was found on chromosome 7q22 (LOD = 1.67). Our study provides new clues to osteoporosis genetic research and for the first time suggests that genomic imprinting effects may play a role in the etiology of osteoporosis.