恒河猴大脑前额叶cDNA 文库的构建

为筛选出与认知、记忆相关的脑部表达基因及基因家族,利用TRIzol试剂从恒河猴大脑前额叶组织抽提总RNA,再用纯化试剂盒从总RNA中成功纯化出mRNA。按照Stratagene公司的cDNASynthesisKit(200401)、ZAP-cDNASynthesisKit(200400)和ZAP-cDNAGigapackⅢGoldCloningKit(200450)三个试剂盒的操作说明,构建了恒河猴大脑前额叶组织的cDNA文库。文库总库容为2·0×106克隆;绝大多数的cDNA插入片段≥0·5kb,平均长度≈1·0kb;cDNA片段与噬菌体载体重组率为97·3%。文库各项指标均达要求,为克隆大脑PFC区表达基因、测定基因编码区序列、揭示具有多种剪切组合模式等提供了可靠资源,也为相关基因表达调控的研究提供了方便。

Pontibacter akesuensis sp nov., isolated from a desert soil in China

A Gram-negative, non-motile, rod-shaped bacterium, designated strain AKS 1 T, was isolated from a desert soil sample collected from Alkesu, Xin.lang Province, China. A taxonomic study, including phylogenetic analysis based on 16S rRNA gene sequences and p

鹿线粒体DNA的种属特异性片段研究

根据对不同产地梅花鹿、马鹿、水鹿、白唇鹿线粒体DNA进行PCR扩增和序列测定,并与亲缘关系较近的伪充药材来源动物线粒体DNA同位置序列比较,找到鹿的特征片段,经过实际检测,筛选出鹿的种属特异性片段。

徐闻黄牛和海南黄牛血液蛋白的遗传多样性

在分析的36种血液蛋白(酶)共计40个遗传座位中, 徐闻黄牛和海南黄牛有相同的13个多态座位, 荷斯坦牛有11个多态座位。徐闻黄牛和海南黄牛的多态座位百分比均为P=0.325, 徐闻黄牛的平均杂合度H=0.141, 海南黄牛的平均杂合度H=0.132; 荷斯坦牛的多态座位百分比P=0.275, 平均杂合度H=0.0099, 研究结果表明这3个品种的遗传多样性相当丰富, 多态座位百分比和平均杂合度随着品种选育程度的提高而降低。研究结果为把徐闻黄牛和海南黄牛合称为雷琼黄牛的观点提供了佐证。

入侵生物金苹果螺在滇池流域的首次记录

2004年10月,中国科学院昆明动物研究所首次发现金苹果螺(Pomacea canaliculata)入侵重要的水源保护区嵩明白邑黑龙潭.金苹果螺起源于中南美洲,在亚洲,它通过有意或无意的传播而逐渐扩散到菲律宾、越南、泰国、老挝、柬埔寨、马来西亚、印尼、巴布几内亚、韩国、日本和中国的南部.金苹果螺已成为水稻产区的最大害虫,给农业生产带来巨大的损失.为防止金苹果螺在云南扩散,目前已经实施了严格的预防、控制措施,同时开展了公众保护教育宣传活动.

p53蛋白质C端的三维结构及生物功能区

利用p53 C端118个氨基酸的mRNA二级结构和Chou-Fasman蛋白质二级结构预测原则,预测p53蛋白质C端289-325为卷曲肽段,368-393段包括两段螺旋结构:#alpha#_(1)368-373、#alpha#_(2)381-388。其中三段已知的蛋白质二级结构与此mRNA二级结构单元间有准确的对应关系。与四种以多重序列联配为基础的蛋白质二级结构预测方法(准确率均为73.20%左右)相对照,预测结果基本一致。结合单体聚合区31个氨基酸晶体结构,在SGI INDIGO~(2)工作站上构建了p53 C端108个残基的三维结构。进一步揭示了p53 C端诸多生物功能区之间的空间构象关系。

菊小长管蚜的化学防治研究

菊小长管蚜Macrosiphorniella sanborni是昆明地区花卉主要害虫之一，该虫对菊花嫩叶，嫩梢，花柄及花勒为害率达65.0%，个别大棚高达100，损失产量25.0%。室内外用1.8爱福丁3000，2500，2000倍液敌敌畏1500，1000，800倍液进行毒杀试验，爱福丁室内的毒杀率达96.6%，敌敌畏达96.3%；田间爱福丁害83.39%，敌敌畏达80.20%。

Comparative studies on parallel and antiparallel duplex and triplex DNA

Parallel strand models for base sequences d(A)(10). d(T)(10), d(AT)(5) . d(TA)(5), d(G(5)C(5)). d(C(5)G(5)), d(GC)(5) . d(CG)(5) and d(CTATAGGGAT). d(GATATCCCTA), where reverse Watson-Crick A-T pairing with two H-bonds and reverse Watson-Crick G-C pairing with one H-bond or with two H-bonds were adopted, and three models of d(T)(14). d(A)(14). d(T)(14) triple helix with different strand orientations were built up by molecular architecture and energy minimization. Comparisons of parallel duplex models with their corresponding B-DNA models and comparisons among the three triple helices showed: (i) conformational energies of parallel AT duplex models were a little lower, while for GC duplex models they were about 8% higher than that of their corresponding B-DNA models; (ii) the energy differences between parallel and B-type duplex models and among the three triple helices arose mainly from base stacking energies, especially for GC base pairing; (iii) the parallel duplexes with one H-bond G-C pairs were less stable than those with two H-bonds G-C pairs. The present paper includes a brief discussion about the effect of base stacking and base sequences on DNA conformations. (C) 1997 Academic Press Limited.

The three dimensional structure and biological domains of the p53 C-terminus.

It was expected that there are a coil (289 similar to 325) and two a helix (alpha(1)368 similar to 373, alpha(2)381 similar to 388) structures in p53 protein C-terminal region based on its mRNA secondary structure template and Chou-Fasman's protein secondary structure principle of prediction. The result was conformed by the other four methods of protein secondary structure prediction that are based on the multiple sequence alignment (accuracy = 73.20%). Combine with the 31 amino acids crystal structure of the oligomerization, the three dimensional conformation of p53 C-terminal 108 residues was built using the SGI INDIGO(2) computer. This structure further expounds the relationship among those biological function domains of p53 C- terminus at three-dimensional level.