青壳蛋遗传规律初探

为了研究青壳蛋遗传规律,我们对青壳蛋鸡进行了四个世代的选育。二、三、四世代产青壳蛋及非青壳蛋母鸡个数分别为205,22;258,17;635,15;与计算出的理论数据206.21;260,15;636,14经卡方检验差异不显著。对一世代、三世代进行测交,其后代产青壳蛋与非青壳蛋母鸡个数分剐为613,463;706,236;与通过一世代、三世代的显性基因频率与隐性基因频率计算出的理论数据600,467;707,235经卡方检验差异不显著。选择加快了群体基因频率的改变,青壳蛋性状确为由一对主效基因控制的完全显性遗传性状。     

Application of Incremental Genetic RBF NN in Converter Vanadium Recover

Converter vanadium recover is a very sophisticate reaction which is diverse and non- line. From the point of view of statistics and reaction mechanism, it is difficult to build up end- point control static model. Aim at this problem, the paper puts forward a model identify method based on incremental genetic RBF neural network to build up such a model, which can perfectly resolve the problem of random selection of RBF cluster center number and sample data clustering. Furthermore, in order to ensure structure of neural network to fit with continuous incremental data set, the paper presents a method of incremental data dealing, which is applied to amend the parameters of neural network. Then the request of continuous production is satisfied. Finally the result of test shows that after adopting the algorithm, the error of result is less than before and end- point hitting ratio satisfies to ninety percent. These indicate the algorithm has the engineering practicability.     

鹅肥肝形成的分子机理研究进展

鹅肥肝同鲟鱼翅酱、黑菌(块菰)被西方人誉为世界三大美食珍品。本文综述了近来年鹅肥肝形成的生化机理。不同鹅种产肝性能差异的原因，可能在生化及分子标记方面的研究进展。     

湖南马尾松遗传改良现状与策略

在叙述湖南马尾松20多年来于马尾松群体遗传改良、马尾松优良家系定向选择、马尾松基因资源收集与种子园营建等方面所取得成绩的基础上，探讨了目前马尾松遗传改良所存在的问题，提出了今后一段时期湖南马尾松遗传改良策略。     

四种叶形吸虫的染色体组型分析

应用一种自创小型复殖吸虫染色体制备法，对四种常见寄生鱼类的叶形吸虫（中华叶形吸虫、鳗鲡叶形吸虫、鲶叶形吸虫和巴氏叶形吸虫）的染色体组型分析表明，它们的有丝分裂中期染色体二倍体数目均为２ｎ＝１８，且核型十分接近，即由四对较长的具近端着丝点染色体，四对较短的具近中部着丝点染色体及一对具中部着丝点的短染色体组成。但是，它们在染色体相对长度方面存在一定的差异。聚类分析显示，中华叶形吸虫和鳗鲡叶形吸虫，鲶叶形吸虫和巴氏叶形吸虫分别组成一近缘类群。根据发状科各属虫种的染色体组型资料，探讨了该科吸虫的核型进化问题。     

光敏核不育水稻选育与利用的几个问题讨论

对现有光敏核不育材料进行了分类,分为４种遗传类型;其中,温光弱感到光敏核不育系是最为理 想的遗传工具,并就其选育途径和选择“粳不籼恢”繁殖制种技术体系进行了论证．     

Genetic mapping and utilization of quantitative trichome-mediated insect resistance in potato

Introgression of trichome-mediated insect resistance from the wild speciesSolanum berthaultii has become a major focus of the potato improvement program at Cornell University during the past twelve years. Several quantitative characters are involved in this resistance which is effective against a wide range of pest types. Correlative biochemical assays have been developed to assay specific components of the resistance, and the effects of the resistance on the target pests have been studied. Quantitative laboratory assays and specific measurements of insect behavior and biology have increased the precision of selection and enable the investigation of the genetic control of the resistance.We are currently using restriction fragment length polymorphisms (RFLPs) for genetic mapping of factors controlling the trichome traits fromS. berthaultii. Backcrosses to both the wild and the cultivated species parents have been evaluated for phenotypes contributing to the resistance mechanism, including trichome density, sucrose ester and polyphenol oxidase production by the trichomes, and the enzymatic browning reaction responsible for insect entrapment. Genetic maps are being developed for these progenies, using RFLP markers previously mapped in potato. Field and greenhouse trials under insect infestations are also being conducted with the mapping progeny. Our goal is to locate genes responsible for quantitative insect resistance by correlating RFLP variation at mapped loci with the trichome phenotypes and insect resistance. Genetic markers for these traits will be useful in transfer of the effective wild chromosomal segments into and among tetraploid potatoes, and for a better understanding of the resistance mechanism.     

中国山羊品种资源及其遗传多样性研究

本文论述了中国山羊的起源、品种遗传资源及其遗传多样性的研究进展。最新调查 显示中国的山羊品种达50个,其中43个为地方品种,4个培育品种,3个引入品种,许多品种 具有独特的生产性能或适应能力。大量研究表明,我国山羊遗传多样性较为丰富。     

Genetic variability within Phaeoisariopsis griseola from Central America and its implications for resistance breeding of common bean

The genetic and virulence variability of 112 isolates of Phaeoisariopsis griseola , collected from various locations in Central America, were studied using seven random amplified polymorphic DNA (RAPD) primers and 12 common-bean differential genotypes. Broad molecular diversity ( H  = 0·92) among isolates was found using RAPD markers. Fifty pathotypes were identified on 12 differential bean genotypes, 29 of which were represented by only one isolate. Only 18 pathotypes were found in two or more countries. Pathotype 63-63 was the most virulent and caused leaf spots on all 12 common-bean differential genotypes. Comparison of virulence phenotypes and RAPD profiles to known Andean P. griseola isolates confirmed that all isolates belonged to the Mesoamerican group. Pairwise comparison between individual RAPD loci showed that the majority were in gametic phase linkage disequilibrium, revealing that P. griseola maintains a genetic structure that is consistent with asexual reproduction. The molecular and virulence diversities of P. griseola isolates from Central America imply that using single resistance genes to manage angular leaf spot is inadequate and stacking resistance genes may be necessary to manage the disease effectively.