复合诱变黑曲霉选育β-葡萄糖苷酶高产菌株

对黑曲霉原生质体进行紫外、ＬｉＣｌ复合诱变,观察诱变后原生质体再生菌落,发现了抱子颜色变异较大的菌株,且其变化与酶产量相关。经发酵筛选,获得卜葡萄糖昔酶活较高菌株,其酶活由出发菌株的１０ｕ／ｍｌ提高到１４．７ｕ／ｍｌ。再对高产突变株进行氮离子注入,酶活又提高２０％（达１７ｕ／ｍｌ）。     

维甲酸核受体RARα真核表达载体的构建、突变纠正及表达

目的构建维甲酸核受体RARα真核表达载体,并检测其在人肺腺癌细胞A549中表达。方法从小鼠巨噬细胞RAW264.7中提取总RNA,以RT-PCR法扩增RARαcDNA,克隆至真核表达载体pDsRed1-C1中,测序结果显示RARα第1040位A→G,导致其编码蛋白的氨基酸发生改变。通过二次PCR将其纠正,重组载体RedC1-RARα转化大肠埃希菌Top10,筛选阳性克隆做酶切及测序鉴定。脂质体瞬时转染A549细胞,在荧光显微镜下观察RARα的表达。RT-PCR法检测RARα的mRNA水平表达。结果通过RT-PCR及二次PCR得到RARαcDNA,构建其真核表达载体,脂质体瞬时转染A549细胞得到了成功表达,RARα基因产物定位于细胞核内。结论成功构建维甲酸核受体RARα真核表达载体,且证实RARα编码蛋白定位于细胞核内,本研究结果为进一步探讨结核分枝杆菌固有免疫机制奠定了基础。     

特种稻不育系巨胚813A的选育与研究

用350Gy剂量的Co^60-γ射线照射水稻三系保持系813B种子,获得巨胚突变体,命名为巨胚813B（简称813geB）。用巨胚813B回交813A育成特种稻不育系——巨胚813A（简称813geA）。对巨胚813B及巨胚813A的生物学特性进行研究,结果表明：巨胚813A与813A的主要农艺性状、雄性不育性及产量构成因素均无明显差异。巨胚813B与813B具有相似的农艺性状,但绝对胚重由0．61mg提高到1．36mg,相对胚重由2．70％提高到6．96％。巨胚813B糙米的蛋白质、粗脂肪、粗纤维及必需氨基酸含量均比813B高。其中蛋白质含量9．77％,比813B提高了8．80％;粗脂肪含量5．28％,比813B提高了87．23％;8种必需氨基酸含量均有提高。利用巨胚恢复系与巨胚813A可纽配成巨胚杂交稻。     

制霉菌素抗性筛选高活性苎麻脱胶菌诱变菌株

利用制霉菌素抗性筛选高渗透性突变株,提高黑曲霉菌对苎麻纤维的脱胶能力,使微生物脱胶能用于工业生产实践之中.分别用紫外线、硫酸二乙酯、亚硝酸作为诱变剂对黑曲霉3.0.2菌株进行诱变处理.以制霉菌素抗性为遗传标记,从突变菌株中定向筛选得到一株高活性苎麻脱胶菌黑曲霉3.0.2-26.在以未经刮制的苎麻韧皮为主要碳源,0.7%(NH_4)_2SO_4为氮源,添加00.5%KCl;00.5%MgSO_4;0.1%K_2HPO_4; 0.1%酵母膏;Tween80 0.1%的培养液中,接入黑曲霉3.0.2-26,置30℃下,150 r/min处理30 h左右,脱胶苎麻纤维的残胶率平均为14.43%.     

质体在非均衡分裂下传递分配的概率

质体非均衡分裂时,其传递和分配情况复杂,重组状态多。本文分析了突变质体在各种分配情况下得到的概率,条件概率、联合概率和一细胞至少含m_0个突变质体的概率公式及计算示例。讨论了它们在生物学中的重要意义。     

Why are translationally sub-optimal synonymous codons used in Escherichia coli?

Natural selection favors certain synonymous codons which aid translation in Escherichia coli, yet codons not favored by translational selection persist. We use the frequency distributions of synonymous polymorphisms to test three hypotheses for the existence of translationally sub-optimal codons: (1) selection is a relatively weak force, so there is a balance between mutation, selection, and drift; (2) at some sites there is no selection on codon usage, so some synonymous sites are unaffected by translational selection; and (3) translationally sub-optimal codons are favored by alternative selection pressures at certain synonymous sites. We find that when all the data is considered, model 1 is supported and both models 2 and 3 are rejected as sole explanations for the existence of translationally sub-optimal codons. However, we find evidence in favor of both models 2 and 3 when the data is partitioned between groups of amino acids and between regions of the genes. Thus, all three mechanisms appear to contribute to the existence of translationally sub-optimal codons in E. coli. Received: 18 July 2000 / Accepted: 17 April 2001     

Synonymous Nucleotide Divergence and Saturation: Effects of Site-Specific Variations in Codon Bias and Mutation Rates

The synonymous divergence between Escherichia coli and Salmonella typhimurium is explained in a model where there is a large variation between mutation rates at different nucleotide sites in the genome. The model is based on the experimental observation that spontaneous mutation rates can vary over several orders of magnitude at different sites in a gene. Such site-specific variation must be taken into account when studying synonymous divergence and will result in an apparent saturation below the level expected from an assumption of uniform rates. Recently, it has been suggested that codon preference in enterobacteria has a very large site-specific variation and that the synonymous divergence between different species, e.g., E. coli and Salmonella, is saturated. In the present communication it is shown that when site-specific variation in mutation rates is introduced, there is no need to invoke assumptions of saturation and a large variability in codon preference. The same rate variation will also bring average mutation rates as estimated from synonymous sequence divergence into numerical agreement with experimental values. Received: 10 July 1998 / Accepted: 20 August 1998     

The cellular parameters of leaf development in tobacco: a clonal analysis

The cellular parameters of leaf development in tobacco (Nicotiana tabacum L.) have been characterized using clonal analysis, an approach that provides unequivocal evidence of cell lineage. Our results indicate that the tobacco leaf arises from a group of around 100 cells in the shoot apical meristem. Each of these cells contributes to a unique longitudinal section of the axis and transverse section of the lamina. This pattern of cell lincage indicates that primordial cells contribute more or less equally to the growth of the axis, in contrast to the more traditional view of leaf development in which the leaf is pictured as arising from a group of apical initials. Clones induced prior to the initiation of the lamina demonstrate that the subepidermal layer of the lamina arises from at least six files of cells. Submarginal cells usually divide with their spindles parallel to the margin, and therefore contribute relatively little to the transverse expansion of the lamina. During the expansion of the lamina the orientation and frequency of cell division are highly regulated, as is the duration of meristematic growth. Initially, cell division is polarized so as to produce lineages that are at an oblique angle to the midrib; later cell division is in alternating perpendicular planes. The distribution of clones generated by irradiation at various stages of development indicates that cell division ceases at the tip of the leaf when the leaf is about one tenth its final size, and then ceases in progressively more basal regions of the lamina. Variation in the mutation frequency within the lamina reflects variation in the frequency of mitosis. Prior to the mergence of the leaf the frequency of mutation is maximal near the tip of the leaf and extremely low at its base; after emergence, the frequency of mutation increases at the base of the leaf. In any given region of the lamina the frequency of mutation is highest in interveinal regions, and is relatively low near the margin. Thus, both the orientation and frequency of cell division at the leaf margin indicate that this region plays a minor role in the growth of the lamina.Abbreviation MF mutation frequency