基于SNP分子标记的泰山/泰科麦系列小麦遗传解析

对不同年份育成的21个小麦品种（系）进行全基因组扫描,通过分析遗传距离和染色体区段/位点,明确其亲缘关系远近和遗传差异。分析可知,获得的2029个SNP基因位点在B基因组拥有较高的遗传多样性,其次是A和D基因组;在7个同源群中,第3和第6同源群呈现出较高的遗传多样性,而第1和第4同源群的遗传多样性较低;21条染色体中,3A、1B、6B染色体的遗传多样性较高,而1A、6A的遗传多样性偏低。对21份供试材料依据审定（育成）年份分析其群体的平均遗传距离,不同年份品种间的平均遗传距离先增大后减小,遗传多样性逐渐降低;21份供试材料间的遗传相似系数在0.69~0.99之间,大致可聚为4个类群,同一年份的品种一般聚在一起,与其系谱关系吻合。构建并分析供试材料的基因型图谱发现,00s、10s和现在育成的小麦品种（系）共有SNP和共有染色体区段分别主要在A、D和B基因组,对应已发表性状同不同年份育种目标吻合。同时发现21份供试材料均含有25个共同SNP位点,分布在1A、5A、6A、7A、2B、3B、6B、1D、2D、3D和7D染色体上,且每条染色体上分布的SNP位点数目均不相同,通过对应已发表性状进一步证实在品种（系）组配与选育过程中注重产量、株高、分蘖数、抽穗期、灌浆速率和抗病等性状的选择。以上研究结果可为今后小麦新品种组配和选育提供参考依据。     

与亚洲棉光籽突变体DPL972中光籽基因紧密连锁的SSR分子标记的开发与应用

对棉纤维相关性状基因的克隆及遗传分析可为阐明纤维形成机制奠定良好基础.以野生型材料DPL971及其光籽突变体DPL972为亲本构建F2群体,其中光籽与毛籽性状分离比符合3∶1,表明突变体DPL972中的光籽基因为显性单基因(将其命名为GaFzl).结合棉花基因组数据,合成1567对SSR(Simple sequence repeat)引物,覆盖了A组13条染色体,标记多态性分析和群体连锁分析发现在染色体A08上存在15对与光籽基因GaFzl连锁的标记,其中最近的标记为SSR82,遗传距离为6.6 cM.本实验完成了GaFzl基因的染色体初步定位,开发了15个与其连锁的SSR标记,为下一步图位克隆奠定了基础.     

低压电力系统配电母线N级联锁的算法

在电力系统中，由于开关容量及运行方式限制，通常在低压系统中多采用1段母线、1台变压器运行方式。为了避免这种运行方式在母线检修、故障时可能造成停电的缺点，因此可用断路器将单母线分段。母线经断路器分段后。对重要用户可以从不同段引出两个回路，有两个电源供电。母线分段的数目。可以根据电源数目和容量来分．段数越多，停电的范围越小，所需电气设备越多．一般以4～6段为宜。本文对此配电母线进行N级联锁推导其算法．有利于今后解决多级联锁的问题。     

Fusarium wilt of chickpea: physiological specialization, genetics of resistance and resistance gene tagging

Chickpea wilt caused by Fusarium oxysporum f. sp. ciceris is one of the major yield limiting factors in chickpea. The disease causes 10–90% yield losses annually in chickpea. Eight physiological races of the pathogen (0, 1A, 1B/C, 2, 3, 4, 5 and 6) are reported so far whereas additional races are suspected from India. The distribution pattern of these races in different parts of the world indicates regional specificity for their occurrence leading to the perception that F. oxysporum f. sp. ciceris evolved independently in different regions. Pathogen isolates also exhibit differences in disease symptoms. Races 0 and 1B/C cause yellowing syndrome whereas 1A, 2, 3, 4, 5 and 6 lead to wilting syndrome. Genetics of resistance to two races (1B/C and 6) is yet to be determined, however, for other races resistance is governed either by monogenes or oligogenes. The individual genes of oligogenic resistance mechanism delay onset of disease symptoms, a phenomenon called as late wilting. Slow wilting, i.e., slow development of disease after onset of disease symptoms also occurs in reaction to pathogen; however, its genetics are not known. Mapping of wilt resistance genes in chickpea is difficult because of minimal polymorphism; however, it has been facilitated to great extent by the development of sequence tagged microsatellite site (STMS) markers that have revealed significant interspecific and intraspecific polymorphism. Markers linked to six genes governing resistance to six races (0, 1A, 2, 3, 4 and 5) of the pathogen have been identified and their position on chickpea linkage maps elucidated. These genes lie in two separate clusters on two different chickpea linkage groups. While the gene for resistance to race 0 is situated on LG 5 of Winter et al. (Theoretical and Applied Genetics 101:1155–1163, 2000) those governing resistance to races 1A, 2, 3, 4 and 5 spanned a region of 8.2 cM on LG 2. The cluster of five resistance genes was further subdivided into two sub clusters of 2.8 cM and 2.0 cM, respectively. Map-based cloning can be used to isolate the six genes mapped so far; however, the region containing these genes needs additional markers to facilitate their isolation. Cloning of wilt resistance genes is desirable to study their evolution, mechanisms of resistance and their exploitation in wilt resistance breeding and wilt management.     

Construction of Genetic Linkage Map of Bread Wheat （Triticum aestivum L.） Using an Intervarietal Cross and QTL Map for Spike Related Traits

Most often a genetic linkage map is prepared using populations obtained from two highly diverse genotypes. However, the markers from such a map may not be useful in a breeding program as these markers may not be polymorphic among the varieties used in breeding. For the past nine years, intraspecific maps have been gaining importance and such maps based on Swiss （PaiUard et al., 2003）, Japanese （Suenaga et al., 2005）, Australian （Chaimcrs et al., 2001） wheat varieties arc available. A map based on Indian wheat varieties however has not been reported. We constructed a genetic linkage map based on a cross between two Indian bread wheat （Triticum aestivum L.） varieties, Sonalika and Kalyansona. One hundred and fifty F2 individuals were analyzed for arbitrarilyprimed polymerase Chain reaction （AP-PCR）, random amplified polymorphic DNA （RAPD）, inter simple sequence repeats （ISSR）, Sequence Tagged Microsatelhte Sites （STMS）, Amplified Fragment Length Polymorphism （AFLP） markers, seed storage proteins and known genes. A linkage map was constructed consisting of 236 markers and spanning a distance of 3 639 cM with 1 211.2 cM for A genome, 1 669.2 cM for B genome, 192.4 cM for D genome and 566.2 cM for unassigned groups,     

甘蓝型油菜SRAP、SSR、AFLP和TRAP标记遗传图谱构建

以黄籽GH06为母本、黑籽P174为父本杂交得到的第6代重组自交系188个株系为作图群体,通过SRAP、SSR、AFLP和TRAP四种分子标记对该群体进行遗传连锁分析,构建了一张包含20个连锁群、300个标记位点的甘蓝型油菜分子遗传图谱(LOD≥3.0),包括202个SRAP标记、65个SSR标记、23个AFLP标记和10个TRAP标记。图谱总长度1273.7cM,标记间平均距离为4.25cM。连锁群上的标记数在4～56个之间,连锁群长度变动在37.1～109.2cM之间,群内平均图距在1.80～14.20cM之间。LG1包含的标记最多,有56个;标记最少的连锁群(LG9、LG18、LG20)只有4个。LG13的平均图距最大,为14.20cM;LG6的平均图距最小,仅为1.80cM。在整个图谱上,存在图距大于20cM的空隙6个。本研究首次将SRAP及TRAP标记用于甘蓝型油菜遗传图谱的构建,结果表明,SRAP及TRAP标记在甘蓝型油菜遗传图谱的构建上是一种良好的标记系统。     

2000—2015年西南区县域土地利用变化特征及驱动力分析——以重庆市奉节县为例

综合分析重庆市奉节县土地利用格局时空演变及其驱动力,为优化西南区县域尺度的土地利用规划、生态大保护和区域可持续发展提供理论参考和数据支持。基于RS和GIS技术,利用四期（2000、2005、2010和2015年）土地利用基础数据,从土地利用动态模型和地学信息图谱等方面出发,揭示区域2000—2015年的土地利用动态变化特征及时空演变规律。依据主成分分析模型和线性回归分析模型,并基于奉节县社会经济统计数据,探究研究区土地利用驱动机制。研究期内,研究区土地空间格局呈现以林地和耕地为主体,同时交错分布其它土地类型的特点。耕地、草地和未利用地土地面积分别减少 78.84 km²、3.73 km²、2.54 km²,而林地、水域和居民工矿用地面积分别增加23.36 km²、46.67 km²、9.03 km²。受三峡移民影响,区域土地利用分布格局由整体无序向局部有序的方向发展。研究期的前10年间,土地利用类型转移主要发生在林地、草地和耕地之间,林地→耕地和草地的面积总和分别为849.38 km²和425.17 km²;2010—2015年间林地和居民工矿用地新增面积分别为9.93 km²和7.09 km²。从产业结构调整、政策影响和社会发展等方面探究区域城镇化的驱动机制,城镇化因素、政策因素、经济因素、社会发展因素和农业因素是影响奉节县土地利用类型变化的主要驱动力。     

ICAI Realizaltion for the K-map Simplification of Logical Function

Based on the theory of the K map simplification of logical function(KSLF),this article releases a ICAI Realization for KSLF.Providing three kinds of teaching style:commonness, teaching, practice.This product,wich supports for the K map simplification with random item,is not only helpful to the construction of the curriculum of digital circuit ,but also to the design for digital application system.Under the practice method, This product's guides,checks,and corrects the student's whole process forthe proceeding of KSLF automaticly under the teaching method.     

圆盘分割法在转基因大豆抗虫鉴定上的应用

大豆食心虫是大豆的主要害虫之一,随着大豆种植面积的扩大,其为害逐年加重。应用转基因抗虫品种防治大豆食心虫是现阶段应用研究热点,但其抗虫性一直存在着不易检测的困难。针对这一问题,本实验室设计、提出一种新型室内抗虫生测方法———圆盘分割法。该方法是根据大豆食心虫发生规律和取食习性来进行转基因大豆抗虫鉴定。试验证明了圆盘分割法的可行性;同时,该方法结合网室接虫鉴定法可以使转基因大豆抗虫鉴定更为高效和准确。     

棉花单核苷酸多态性标记研究进展

单核苷酸多态性标记已在农作物研究中得到广泛应用并取得重大进展。为了便利棉花SNP(Single nucleotide polymorphism)标记的研究和应用,介绍了利用基因芯片、简化基因组测序、重测序等在棉花中开发SNP标记的方法 ,综述了SNP标记在棉花遗传图谱构建、数量位点的定位和分子标记辅助育种、基因组测序以及系统进化等研究中的应用。并对异源四倍体棉花中SNP标记开发时,同源序列位点和部分同源序列位点上的SNP标记辨别问题进行了系统探讨,对其快捷的开发、检测方式和在数量基因定位中的应用前景进行了展望。