大麦G－带变动性以及与染色粒的一致性分析

以大麦为材料,进行了Ｇ－带带纹变动性分析以及Ｇ－带与减数分裂粗线期染色粒的比较。有丝分裂早中期至中期两个不同时期Ｇ－带带纹总数减少３６％,染色体组的绝对长度缩短２５％,带数减少的幅度大于染色体长度缩短的幅度。染色体组中每条染色体之间带纹减少的比例不尽相同,变幅在０．２９－０．５０之间。不同染色体绝对长度减少的幅度在０．２７－３．７０μ之间。从早中期至中期,每单位染色体绝对长度带数具相对减少的趋势。选择第６染色体进行的比较显示,减数分裂的染色粒与有丝分裂的Ｇ－带带纹之间具有很好的对应关系,Ｇ－带带纹和染色粒间的数目、位置和着色程度上都具一致性。对Ｇ－带性质和植物中Ｇ－带的应用等问题进行了讨论。     

Contribution of the tyrosines to the structure and function of the human U1A N-terminal RNA binding domain.

RNA binding domains (RBDs) are members of a large family of proteins that share minimal sequence conservation but adopt an alpha beta sandwich global fold. Defining the contributions of specific amino acids to RBD structure and RNA binding is critical to understanding the functions of these proteins. In these experiments with the human U1A N-terminal RNA binding domain (RBD1), the contributions from each of its four tyrosines to protein structure, stability, and RNA binding were measured. Each tyrosine was substituted with phenylalanine and one other selected residue, and the resulting proteins were characterized by chemical denaturation to measure their unfolding free energy, by binding free energies to the wild-type RNA hairpin, and by 19F NMR to probe for structural changes. Features of the protein identified in these experiments include a possible tyrosine/lysine contact in an alpha-helix, which may be an example of an energetically favorable aromatic/amino side chain interaction. One long loop of the protein, which shows unusual 15N backbone and tyrosine side-chain dynamics, is implicated in protein:protein association. The diverse interactions of the four tyrosine residues in the organization of RBD1 illustrate how each member of this family of proteins will have unique molecular details that contribute to function.     

Characterization of a 46 kda insect chitinase from transgenic tobacco

A 46 kDa Manduca sexta (tobacco hornworm) chitinase was isolated from leaves of transgenic tobacco plants containing a recombinant insect chitinase cDNA, characterized, and tested for insecticidal activity. The enzyme was purified by ammonium sulfate fractionation, Q-Sepharose anion-exchange chromatography and mono-S cation-exchange chromatography. Although the gene for the chitinase encoded the 85 kDa full-length chitinase as previously reported by Kramer et al. [Insect Biochem. Molec. Biol. 23, 691–701 (1993)], the enzyme is produced in tobacco as a 46 kDa protein that is approximately four-fold less active than the 85 kDa chitinase. The N-terminal amino acid sequence of the 46 kDa chitinase is identical to that of the 85 kDa chitinase. The former enzyme is not glycosylated, whereas the latter contains approximately 25% carbohydrate. The pH and temperature optima of the 46 kDa chitinaseare similar to those of the 85 kDa chitinase. The former enzyme is more basic than the latter. The 46 kDa chitinase likely consists of the N-terminal catalytic domain of the 85 kDa chitinase and lacks the C-terminal domain that contains several potential sites for glycosylation. The 46 kDa chitinase is expressed in a number of plant organs, including leaves, flowers, stems and roots. Enzyme levels are higher in leaves and flowers than in stems and roots, and leaves from the middle portion of the plant have more chitinase than leaves from the top and bottom portions. Little or no enzyme is secreted outside of the plant cells because it remains in the intracellular space, even though its transit sequence is processed. When fed at a 2% dietary level, the 46 kDa chitinase caused 100% larval mortality of the merchant grain beetle, Oryzaephilis mercator. The results of this study support the hypothesis that insect chitinase is a biopesticidal protein for insect pests feeding on insect chitinase gene-containing transgenic plants.     

中药秦艽根内中柱裂分的发育解剖学研究

通过发育解剖学研究表明,秦艽根的初生结构正常,初生木质部四原型。次生生长早期阶段也是正常的,但天以后的次生生长过程中,由于木质部内部分薄壁细胞的分裂,且迅速 化成异常形成层细胞,并与原维管形成层相连,从而形成多个新的形成层环,将木质部柱分为几个子木质部。     

抗BmNPV即刻早期蛋白三联ribozyme在家蚕细胞中的表达

为了阻断家蚕核多角体病毒（BmNPV）的基因表达,以BmNPV的即刻早期蛋白基因(IE)为靶序列,设计了三联ribozyme．体外切割反应表明,该ribozyme能特异地切割靶序列的mRNA;细胞实验表明,细胞中表达的ribozyme也能够特异地切割靶序列,从而使受BmNPV感染的Bm-N细胞中的多角体减少约30％．     

嗜热蓝藻层理鞭枝藻（Mastigocladus laminosus）藻胆体在解离过程中荧光发射光谱和光能传递的研究

研究了层理鞭枝藻藻胆体在不同浓度磷酸缓冲溶液中解离过程中荧光发射光谱的变化和光能传递。完整藻胆体的７７Ｋ荧光光谱中只有一个峰,位于６８５ｎｍ它是末端发射体（核心－膜连接多肽和别藻蓝蛋白－Ｂ）的荧光峰。部分解离藻胆体的荧光光谱的主峰位移至６５２ｎｍ：次峰位于６８５ｎｍ;６６０ｎｍ为一弱荧光发射肩。它们依次为Ｃ－藻蓝蛋白,末端发射体和别藻蓝蛋白的荧光。严重解离藻胆体的荧光主峰移６４４ｎｍ;次峰由６８５ｎｍ移至６８２ｎｍ;６６０ｎｍ荧光发射肩消失。这表明Ｃ－藻蓝蛋白所捕获的光能已不能传递给别藻蓝蛋白,但可传递给末端发射体洞时又表明Ｃ－藻蓝蛋白不仅与别藻蓝蛋白相连接而且还与末端发射体相连接。提出该藻胆体光能传递链如下：核心－膜连接多肽藻红蓝蛋白→Ｃ－藻蓝蛋白→别藻蓝蛋白别藻蓝蛋白－Ｂ     

N-(2-吡啶基)-N'-苯基脲对几种作物种子根、芽生长影响的回归分析

N-（2-吡啶基）-N'-苯基脲（2PU）,属苯基脲衍生物,具有细胞分裂素活性,有关其合成和应用的研究未见报道。作者合成了2PU并进行了生物效应试验研究。结果表明,2PU对作物种子萌发时胚根、胚芽的生长具有明显的促进作用,其根、芽生长与2PU浓度之间的关系符合Y=a＋bX＋eX2＋的数学模型。2PU对小麦根芽和赤豆根芽生长最佳浓度分别是0.001～0.0lppm、0.005～0.05ppm,对黄豆根生长以0.001～0.06ppm最佳。     

原位缺口平移标记断裂DNA技术及其在检测流行性出血热尸检和实验动物组织中细胞凋亡和早期死亡的应用

原位缺口平移技术（ＩＳＮＴ）已被用于检测细胞核中ＤＮＡ断裂鉴别尸检组织中细胞的凋亡和坏死断裂、流行性出血热（ＥＨＦ）组织中存在散在单个细胞变性死亡和灶性梗死样坏死,前者带有细胞凋亡的特征。本文以ＥＨＦ肝脏和实验性病毒感染鼠脑组织为例,应用缺口平移法,在ＤＮＡ聚合酶或Ｋｌｅｎｏｗ酶的作用下,将地高辛标记的ｄＵＴＰ掺入合成到ＤＮＡ的断裂部位,通过碱性磷酸酶标抗地高辛抗体免疫组化法显示细胞ＤＮＡ的断裂,检测和鉴别细胞的凋亡和坏死。为分析死后解剖时间间隔及组织固定时间对该方法的影响,本文选用死后２～１４０ｈ尸检、经常规固定石蜡包埋后存放１０～３５年的标本和在１０％福尔马林固定了１０～３５年之后再进行常规处理的标本。实验时用蛋白酶Ｋ（ＰＫ）消化前后对比并分别在标记反应液中略去ＤＮＡ聚合酶作为阴性对照,用ＤＮＡ酶消化组织人为制造ＤＮＡ缺日作为阳性对照。结果发现,未经ＰＫ消化的组织,仅灶性肝细胞核ＩＳＮＴ标记阳性,经ＰＫ消化后,散在的带有凋亡特征的肝细胞胞核也出现阳性,灶性肝细胞胞核标记染色增强,但无论是蛋白酶消化与否,明确梗死样坏死的肝细胞均不被标记。结果还发现,死后２～２４ｈ内尸检组织和长时间（１０～３４年）存放的石     

RT－cDNA克隆－PCR法获取犬瘟热病毒融合蛋白基因（F）

纯化鸡胚成纤维细胞培养的犬瘟热病毒（ＣａｎｉｎｅＤｉｓｔｅｍｐｅｒＶｉｒｕｓ,ＣＤＶ）,获得病毒基因组ＲＮＡ后,反转录合成双链病毒Ｆ基因ｃＤＮＡ。将此双链ｃＤＮＡ平端插入ＰＵＣ１９质粒ＳａｍⅠ位点构建重组质粒,进行ｃＤＮＡ克隆。以重组克隆质粒为模板ＰＣＲ扩增,获得ＣＤＶ全长Ｆ基因。将此Ｆ基因插入表达载体ＰＢＶ２２０,在大肠杆菌中表达,通过对表达产物的最终鉴定,可确认所获片段为ＣＤＶ全长Ｆ基因．