凝血酶激活的单链尿激酶型纤溶酶原激活剂的构建、表达、纯化和性质研究

用Ｋｕｎｋｅｌ突变法,将单链尿激酶型纤溶酶原激活剂（ｓｃｕ－ＰＡ）ｃＤＮＡ基因中编码Ｐｒｏ１５５—Ｌｙｓ１５８的片段定点突变,并将此突变的ｓｃｕ－ＰＡ（ｔｓｃｕ－ＰＡ）的ｃＤＮＡ克隆到表达载体ｐＣＭ－β－ｎｅｏ中,与ｐＣＭ－ｄｈｆｒ共转染ＣＨＯ／ＤＨＦＲ－细胞．获得的稳定表达株在无血清培养基中２４ｈ的表达量为６２０ＩＵ／１０６细胞．经锌离子螯合Ｓｅｐｈａｒｏｓｅ亲和层析得到ｔｓｃｕ－ＰＡ纯品．ＳＤＳ－ＰＡＧＥ显示ｔｓｃｕ－ＰＡ分子量为５３ｋＤ左右,与预期的结果相符．ｔｓｃｕ－ＰＡ是由凝血酶激活而不是由纤溶酶激活,但激活后也能转变为双链分子（ｔｃｕ－ＰＡ）．ｔｓｃｕ－ＰＡ仍保持了ｓｃｕ－ＰＡ的血纤维蛋白亲和性．酶动力学研究表明,激活后的ｔｓｃｕ－ＰＡ水解Ｓ２４４４的Ｋｍ和Ｋｃａｔ值与高分子量尿激酶（ＨＵＫ）相似．体外溶栓实验结果表明,ｔｓｃｕ－ＰＡ可以选择性地溶解富含凝血酶的血凝块,对贫凝血酶的血凝块作用不大     

双拷贝固氮结瘤基因的大豆根瘤菌R.fredii基因工程菌的耐…

用热处理消除了快生型大豆根瘤菌Ｒ．ｆｒｅｄｉｉＵＳＤＡ１９４的非共生质粒,获得了突变株Ｈｏ４,以Ｈｃ４为受体菌,以Ｅ．ｃｏｌｉＨＢ１０１Ｅｃ８３（ＰＬＡＦＲＩ．ｎｏｄｎｉｆ）为供体菌,Ｅ．ＣｏｌｉＰＲＫ２０１３为助体,进行三亲本杂交,得到双重ｎｏｄｎｉｆ基因拷贝的杂合子Ｈｃ４－８。用它们完成共生固氮结瘤试验,结果表明,在初花期Ｈｃ４的固氮酶活性比出发株ＵＳＤＡ１９搞７５．７％Ｈｃ４－８比ＵＳＤＡ１     

u-PA/t-PA嵌合型纤溶酶原激活剂(ut-PA)的构建、表达、纯化和性质研究

将尿激酶原（ｐｒｏ－ＵＫ）ｃＤＮＡ和组织型纤溶酶原激活剂（ｔ－ＰＡ）Ａ链ｃＤＮＡ克隆到Ｍ１３ｍｐ１８中,经过二次寡核甘酸诱导的大片段定点删除和一次寡核苷酸诱导的多位点突变,得到ｕ－ＰＡ（Ｌｅｕ１４４－Ｇｌｙ４０８）／ｔ－ＰＡ（Ｓｅｒ１－Ｔｈｒ２６３）（ｕｔ－ＰＡ）融合基因．将ｕｔ－ＰＡ融合基因克隆到表达载体ｐＣＭ－βｎｅｏ中,与ｐＣＭ－ｄｈｆｒ共转染ＣＨＯ／ＤＨＦＲ－细胞,筛选稳定表达株．收集无血清表达上清,经苯甲脒柱纯化得到ｕｔ－ＰＡ纯品,ＳＤＳ－ＰＡＧＥ和纤维蛋白自显影显示ｕｔ－ＰＡ有两种分子量形式,分子量分别为６８ｋＤ和６１ｋＤ．纤维蛋白亲和性试验表明,ＬＵＫ（低分子量尿激酶）对纤维蛋白没有亲和性,而含有ＬＵＫ的ｕｔ－ＰＡ则对纤维蛋白表现出很强的亲和性,但ｕｔ－ＰＡ的亲和性略低于亲本ｔ－ＰＡ．     

毛萼田菁茎瘤菌（Azorhizobium caulinodans）吸氢活性缺陷株的筛…

利用转座子Ｔｎ５随机插入突变法,从毛萼田菁茎瘤菌中筛选得到两株吸氢活性缺陷突变株Ｒ－４９和Ｒ－３０９,其固氮酶活性也大大降低,约为野生型固氮酶活性的６－８％。以带有Ｂｒａｄｙｒｈｉｚｏｂｉｕｍ ｊａｐｏｎｉｃｕｍ的５．９ｋｂ的ｈｕｐ基因的质粒ＰＨＲ１１为探针与Ａ．ｃｏｕｌｉｎｏｄａｍｓＯＲＳ５７１和Ｂ．ｊａｐｏｎｉｃｕｍ１２２ＤＥＳ（Ｈｕｐ）的总ＤＮＡ进行分子杂交,放射自显影表明,Ａ．ｃｏｕｌｉｎ     

变铅青链霉菌与放线菌噬菌体φHAU3相互关系的研究

变铅青链霉菌ＺＸ１,是由变铅青链霉菌ＪＴ４６经ＮＴＧ诱变后产生的一株修饰基因突变株,与其亲本ＪＴ４６相比,ＺＸ１除了与ＤＮＡ降解有关的基因发生了突变（Ｄｎｄ－,即该突变株的ＤＮＡ在含有Ｆｅ２＋的缓冲液中电泳不受到降解,而野生型变铅青链霉菌在同样条件下则遭到降解）以外,对噬菌体　ＨＡＵ３的抗性也随之消失,这项特征主要表现在噬菌斑大小和成斑单位（效价）上的显著变化。研究结果表明,噬菌体　ＨＡＵ３以同等的频率吸附野生型变铅青链霉菌及其突变菌株ＺＸ１,从　ＨＡＵ３基因组中没有克隆到被变铅青链霉菌识别的特异性靶位点;噬菌体ＨＡＵ３的ＤＮＡ也可以转染野生型变铅青链霉菌原生质,但其释放的噬菌体粒子只能感染突变菌株ＺＸ１,而不能感染野生型变铅青链霉菌。噬菌体ＨＡＵ３在突变株ＺＸ１中的繁殖遵循一步生长曲线,单菌释放量大约为１００,而　ＨＡＵ３感染野生型变铅青链霉菌后,则检测不到噬菌体的释放。     

木糖代谢基因表达水平对酿酒酵母重组菌株产物形成的影响

以Ｅ．ｃｏｌｉ－Ｓ．ｃｅｒｅｖｉｓｉａｅ穿梭质粒ＹＥｐ２４为骨架,将树干毕赤酵母（Ｐｉｃｈｉａ ｓｔｉｐｉｔｉｓ ＣＢＳ６０５４）的木糖还原酶（ＸＲ）基因ＸＹＬ１及木糖醇脱氢酶（ＸＤＨ）基因ＸＹＬ１分别以不同的相对表达方向置于酿酒酵母的乙醇脱氢酶Ｉ（ＡＤＨ１）启动子和磷酸甘油激酶（ＰＧＫ）启动子下,构建不同ＸＹＬ１及ＸＹＬ２的重组质粒。这些重组质粒分别转化酿酒酵母（Ｈ１５８）受体菌。得到的重组菌株     

解偶联蛋白基因-3826多态性与其mRNA表达相关性的研究

为了探讨解偶联蛋白（ＵＣＰ）基因－３８２６多态性与ＵＣＰｍＲＮＡ表达水平之间可能存在的联系,应用ＲＴ－ＰＣＲ方法测定了ＵＣＰ基因－３８２６多态性野生型（ＡＡ）,杂合子（ＡＧ）和突变纯合子（ＧＧ）３组人群脂肪组织中ＵＣＰｍＲＮＡ的表达水平．定量结果指出：３种基因型（ＡＡ、ＡＧ和ＧＧ）携带者腹膜内脂肪的ＵＣＰｍＲＮＡ表达水平存在极显著差异（Ｐ＜０．０１）,并显示突变等位基因（Ｇ）的数量与ＵＣＰｍＲＮＡ表达水平呈负相关．此结果表明ＵＣＰ基因Ａ→Ｇ（－３８２６）变异与ＵＣＰｍＲＮＡ表达水平降低密切相关．但该变异导致ＵＣＰｍＲＮＡ表达水平降低的机制还有待进一步研究     

光合细菌Rhodobacter sphaeroides glnB—lacZ融合子的构建

亚克隆了Ｒｈｏｄｏｂａｃｔｅｒ ｓｐｈａｅｒｏｉｄｅｓｇｌｎＢ启动子,以ｐＭＰ２２０为载体构建成ｂｌｎＢ－ｌａｃＺ融合子。将ｇｌｎＢ－ｌａｃＺ、ｎｉｆＨ－ｌａｃＺ、ｎｉｆＡ＝ｌａｃＺ分别导入Ｒ．ｓｐｈａｅｒｏｉｄｅｓ谷氨酸合酶突变株ｇｌｔＢ、ｇｌｔＤ和野生型菌株中,分析了突变对固氮基因转录表达的影响,试验证明,在ｇｌｔＢＤ突变株中ｎｉｆＨ的表达受阻遏,ｎｉｆＡ表达水平很低。这证明ｇｌｔ基因的突变引     

熊猫等动物犬瘟热病毒附着蛋白基因的遗传多样性

为了研究犬瘟热病毒（ｃａｎｉｎｅ ｄｉｓｔｅｍｐｅｒ ｖｉｒｕｓ,ＣＤＶ）大熊猫株、小熊猫株和长春犬株附着蛋白（Ｈ）基因的遗传这异,对Ｈ基因进行了序列测定。上述３个ＣＤＶ毒株的Ｈ基因全长均为１９４６ｂｐ,开放阅读框架（ＯＲＦ）始于２１－２３位的ＡＴＧ,终止于１８４２－１８４４位的ＴＧＡ,编码６０７个氨基酸。与ＧｅｎＢａｎｋ中１５个ＣＤＶ株推导的Ｈ蛋白氨基酸序列比较发现,１６个野毒株潜在的Ｈ－联糖基     

乙型肝炎病毒表面抗原aa126 Ile→Ser变异株HBsAg的暂时表达和抗原性鉴定

曾在一个儿童患者体内,发现一个新的乙型肝炎病毒（ＨＢＶ）变异株,其ＨＢｓＡｇ主蛋白ａａ１２６发生Ｉｌｅ（ＡＴＴ）到Ｓｅｒ（ＡＧＴ）的取代。已知ａｄｒ／ａｙｒ亚型ＨＢｓＡｇ１２６位为Ｉｌｅ,而ａｄｗ／ａｙｗ亚型ＨＢｓＡｇ１２６位为Ｔｈｒ,表明ＨＢｓＡｇ１２６Ｓｅｒ是一个新的变异株。用计算机做结构分析的结果表明,突变体ＨＢｓＡｇ１２６Ｓｅｒ主蛋白ａａ１２０－ａａ１３０区段的二级结构与野生型ａｄｒＨＢＶＨＢｓＡｇ１２６Ｉｌｅ相比发生明显的改变。这种构象的变化可能会影响ａ抗原决定簇（ａ１２４－ａａ１４７）的抗原性。为了证实这一点,构建了突变Ｓ基因表达质粒,在ＳＶ４０早期启动子的控制下进行抗原表达。利用ＨＢｓＡｇ９肽（Ｔｈｒ－Ｉｌｅ１２６－Ｐｒｏ－Ａｌａ－Ｇｌｎ－Ｇｌｙ－Ｔｈｒ－Ｓｅｒ－Ｍｅｔ）抗ｉ单克隆抗体和９肽（Ｔｈｒ－Ｔｈｒ１２６－Ｐｒｏ－Ａｌａ－Ｇｌｎ－Ｇｌｙ－Ｔｈｒ－Ｓｅｒ－Ｍｅｔ）抗ｔ单克隆抗体进行放射免疫测定,结果表明,这种Ｓｅｒ１２６突变蛋白对抗ｉ单克隆抗体的反应性比野生蛋白减弱,对抗ｔ单克隆抗体的反应性则与ＨＢｓＡｇ１２６Ｔｈｒ接近。但用三种抗－ａ单克隆抗体的检测结果揭示,突变蛋白ＨＢｓＡｇ１２６     

Interaction between Ustilago Maydis Rec2 and Rad51 Genes in DNA Repair and Mitotic Recombination

A gene encoding a Ustilago maydis Rad51 orthologue has been isolated. rad51-1, a mutant constructed by disrupting the gene, was as sensitive to killing by ultraviolet light and γ radiation as the rec2-1 mutant and slightly more sensitive to killing by methyl methanesulfonate. There was no suppression of killing by ultraviolet light when a rec2-1 strain was transformed with a multicopy plasmid containing RAD51, nor was there suppression when rad51-1 was transformed with a multicopy plasmid containing REC2. Recombination proficiency as measured by a gap repair assay was diminished in both rec2-1 and rad51-1 strains. In rec2-1 the frequency of recombination was decreased, but the spectrum of events was similar to that observed in wild type, while in rad51-1 the frequency as well as the spectrum of recombination events were different. Studies with the rec2-1 rad51-1 double mutant indicated that there was epistasis in the action of REC2 and RAD51 in certain repair and recombination functions, but some measure of independent action in other functions.     

Mutational identification of an essential tryptophan in tryptophanyl-tRNA synthetase of Bacillus subtilis.

The strongly conserved single tryptophan residue, Trp92, in Bacillus subtilis tryptophanyl-tRNA synthetase has been mutagenized via site direction singly into Gln, Ala, and Phe. All three mutant enzymes were inactive toward the catalysis of tRNA tryptophanylation. The Trp92----Phe mutant has been subcloned into the high expression plasmid pKK223-3 to yield the recombinant plasmid pKSW-F92. Growth of bacteria carrying the latter plasmid made possible the purification of the mutant TrpRS-F92 enzyme to homogeneity. This mutant enzyme was deficient in ultraviolet absorbance and fluorescence relative to the wild type enzyme and inactive in the partial reaction of Trp-activation as well as the overall reaction of tRNA tryptophanylation. Furthermore, unlike the wild type B. subtilis trpS gene, the mutant trpS-F92 gene upon transformation into Escherichia coli trpS 10343 failed to complement the temperature sensitive trpS mutation of the host cells. Trp92 therefore represents an essential residue both in vitro and in vivo for the function of the tryptophanyl-tRNA synthetase.     

Molecular cloning of eucaryotic genes required for excision repair of UV-irradiated DNA: isolation and partial characterization of the RAD3 gene of Saccharomyces cerevisiae.

We describe the molecular cloning of a 6-kilobase (kb) fragment of yeast chromosomal DNA containing the RAD3 gene of Saccharomyces cerevisiae. When present in the autonomously replicating yeast cloning vector YEp24, this fragment transformed two different UV-sensitive, excision repair-defective rad3 mutants of S. cerevisiae to UV resistance. The same result was obtained with a variety of other plasmids containing a 4.5-kb subclone of the 6-kb fragment. The UV sensitivity of mutants defective in the RAD1, RAD2, RAD4, and RAD14 loci was not affected by transformation with these plasmids. The 4.5-kb fragment was subcloned into the integrating yeast vector YIp5, and the resultant plasmid was used to transform the rad3-1 mutant to UV resistance. Both genetic and physical studies showed that this plasmid integrated by homologous recombination into the rad3 site uniquely. We conclude from these studies that the cloned DNA that transforms the rad3-1 mutant to UV resistance contains the yeast chromosomal RAD3 gene. The 4.5-kb fragment was mapped by restriction analysis, and studies on some of the subclones generated from this fragment indicate that the RAD3 gene is at least 1.5 kb in size.     

紫外照射对DNA修复基因RAD24转录的影响

以酿酒酵母HY684为实验对象,用波长254nm紫外线分别在0,37,50和70J/m~2等强度下照射不同时间,提取总RNA,应用North-ern杂交方法检测RAD24基因转录水平的变化。结果显示37J/m~2、50J/m~2照射20分钟到120分钟明显提高RAD24基因转录水平,70J/m~2照射时,则恢复至正常水平,这说明低剂量紫外线照射可提高RAD24基因转录水平,该基因的表达具有损伤诱导性。     

Molecular cloning of the RAD10 gene of Saccharomyces cerevisiae

We have cloned the RAD10 gene of Saccharomyces cerevisiae and physically mapped it to a 1.0-kb DNA fragment. Strains containing disruptions of the RAD10 gene were found to show enhanced UV sensitivity compared with the previously characterized rad10-1 or rad10-2 mutants. The UV sensitivity of the disruption mutant is comparable to the highly UV sensitive rad1-19, rad2-delta, and rad3-2 mutants.     

Characterization of the Roles of the Saccharomyces Cerevisiae Rad54 Gene and a Homologue of Rad54, Rdh54/Tid1, in Mitosis and Meiosis

The RAD54 gene, which encodes a protein in the SWI2/SNF2 family, plays an important role in recombination and DNA repair in Saccharomyces cerevisiae. The yeast genome project revealed a homologue of RAD54, RDH54/TID1. Properties of the rdh54/tid1 mutant and the rad54 rdh54/tid1 double mutant are shown for mitosis and meiosis. The rad54 mutant is sensitive to the alkylating agent, methyl methanesulfonate (MMS), and is defective in interchromosomal and intrachromosomal gene conversion. The rdh54/tid1 single mutant, on the other hand, does not show any significant deficiency in mitosis. However, the rad54 rdh54/tid1 mutant is more sensitive to MMS and more defective in interchromosomal gene conversion than is the rad54 mutant, but shows the same frequency of intrachromosomal gene conversion as the rad54 mutant. These results suggest that RDH54/TID1 is involved in a minor pathway of mitotic recombination in the absence of RAD54. In meiosis, both single mutants produce viable spores at slightly reduced frequency. However, only the rdh54/tid1 mutant, but not the rad54 mutant, shows significant defects in recombination: retardation of the repair of meiosis-specific double-strand breaks (DSBs) and delayed formation of physical recombinants. Furthermore, the rad54 rdh54/tid1 double mutant is completely defective in meiosis, accumulating DSBs with more recessed ends than the wild type and producing fewer physical recombinants than the wild type. These results suggest that one of the differences between the late stages of mitotic recombination and meiotic recombination might be specified by differential dependency on the Rad54 and Rdh54/Tid1 proteins.