圈卷产色链霉菌尼可霉素生物合成基因-sanK的克隆及功能研究

利用染色体步移策略,以尼可霉素生物合成相关的基因片段为探针,从圈卷产色链霉菌中克隆到了一个大约１０ｋｂ的ＤＮＡ片段。对其中１．８ｋｂ的ＰｖｕⅡ－ＳａｃⅡ片段进行了序列分析,结果表明：此片段中含有一个具有１１７０个核苷酸的完整开放阅读框,起始密码子为４４７位的ＡＴＧ,终止密码子为１６１４位的ＴＧＡ,推测其编码一个３８９个氨基酸的蛋白质产物。利用ＢＬＡＳＴＸ程序进行了分析揭示,此基因编码一个肌氨酸单体     

圈卷产色链霉菌尼可霉素生物合成基因sanK的克隆及功能研究

利用染色体步移策略,以尼可霉素生物合成相关的基因片段为探针,从圈卷产色链霉菌中克隆到了一个大约10kb的DNA片段。对其中1.8kb的PvuII-SacII片段进行了序列分析,结果表明：此片段中含有一个具有1170个核苷酸的完整开放阅读框,起始密码子为447位的ATG,终止密码子为1614位的TGA,推测其编码一个389个氨基酸的蛋白质产物。利用BLASTX程序进行的分析揭示,此基因编码一个肌氨酸单体氧化酶。基因功能研究结果表明,此基因与圈卷产色链霉菌尼可霉素生物合成直接相关,命名为sanK。     

圈卷产色链霉菌尼可霉素生物合成基因一sanL的结构与功能

利用染色体步移策略,以尼可霉素生物合成相关的基因片段为探针,从圈卷产色链霉菌中克隆到了一个大约10kb的DNA片段.序列分析表明此片段中除含有sanK外,在sanK的上游还有一个完整开放阅读框——sanL.sanL与sanK的转录方向相同,具有1281个核苷酸,起始密码子为345位的ATG,终止密码子为1623位的TGA.利用Blastx程序进行的分析揭示,此基因可能编码一个赖氨酸-2-氨基转移酶.基因功能研究表明,该基因是圈卷产色链霉菌尼可霉素生物合成所必需的.     

圈卷产色链霉菌尼可霉素生物合成基因—sanL的结构与功能

利用染色体步移策略,以尼可霉素生物合成相关的基因片段为探针,从圈卷产色链霉菌中克隆到了一个大约10kb的DNA片段。序列分析表明此片段中除含有sanK外,在sanK的上游还有一个完整开放阅读框——sanL。sanL与sanK的转录方向相同,具有1281个核苷酸,起始密码子为345位的ATG,终止密码子为1623位的TGA。利用Blastx程序进行的分析揭示,此基因可能编码一个赖氨酸2氨基转移酶。基因功能研究表明,该基因是圈卷产色链霉菌尼可霉素生物合成所必需的。     

圈卷产色链霉菌尼可霉素生物合成基因sanA的克隆、结构和功能

圈卷产色链霉菌是尼可霉素产生菌,经紫外线诱变后,以赤星灰霉为指示菌筛选到遗传稳定的尼可霉素生物合成阻断突变株,选择其中的NBB19为受体,以质粒pIJ702为克隆载体,从野生型圈卷产色链霉菌的DNA文库中克隆到了6kb的DNA片段,能互补NBB19使之恢复尼可霉素的产生能力.对6kbDNA片段中的部分片段进行了序列分析,结果表明2710bpDNA片段包含一个1365bp的完整开放阅读框架,编码一个由454个氨基酸残基组成的蛋白质,该基因命名为sanA.蛋白序列数据库比较结果表明,sanA编码的蛋白质氨基酸序列与Pyrococcus horikoshii的甲基转移酶有较高的同源性,353个氨基酸残基中有25%的一致性.用基因破坏策略研究了sanA的功能,野生型菌株sanA基因被破坏后导致失去合成尼可霉素的能力,表明sanA是尼可霉素生物合成中的一个新的重要基因.     

圈卷产色链霉菌尼可霉素生物合成基因——sanH和sanI的研究

通过反向遗传学方法克隆到圈卷产色链霉菌尼可霉素生物合成基因簇中约7.0kb的DNA片段。该片段除含有尼可霉素生物合成基因sanF外,对sanF上游约22kb的BglⅡDNA片段进行序列测定及分析表明,还含有两个完整的开放阅读框(ORF)。ORF1由1233个核苷酸组成,ORF2由195个核苷酸组成,它们分别编码由410个氨基酸残基和64个氨基酸残基组成的蛋白质,依次命名为sanH和sanI。蛋白序列数据库比较结果表明,SanH和SanI与浅灰链霉菌(\%Streptomyces griseolus)\%中共转录的细胞色素P450(cytochrome P450)和铁氧还蛋白(ferredoxin)有较高的同源性,一致性分别为46%和56%,相似性分别为62%和70%。基因功能研究表明,sanH基因的破坏虽不影响圈卷产色链霉菌产生的尼可霉素的生物活性,但该基因可能参与了尼可霉素羟基化反应的生物合成。     

圈卷产色链霉菌7100分化相关基因——sawE的结构与功能

以天蓝色链霉菌的whiB基因为探针,从圈卷产色链霉菌7100的总DNA部分文库中克隆了含有whiB同源序列的28kb DNA片段,并对其中的14kb片段进行了序列测定。序列分析表明,该片段含有一个完整的开放阅读框—sawE。预测的蛋白质结构及同源性分析显示,sawE与天蓝色链霉菌孢子形成早期的关键基因whiB高度同源,编码产物为一个调控蛋白。sawE的破坏使圈卷产色链霉菌7100的分化终止在气生菌丝阶段,在延长培养时间的情况下仍保持白色的表型,菌丝不能分隔,不能形成成熟的灰色孢子,结果表明sawE基因是一个与圈卷产色链霉菌分化有关的重要基因。     

圈卷产色链霉菌分化早期基因——samfR的研究

以链霉菌发育调控启动子PTH4 直接控制的下游部分基因片段为探针 ,在圈卷产色链霉菌中克隆到 1个 4.6kb的DNA片段 ,该片段除含有sawD基因外 ,其中1 .4kb的PvuⅡDNA片段对圈卷产色链霉菌的分化有促进作用 .序列分析及同源性比较表明 ,开放阅读框架 (ORF)由 6 39个核苷酸组成 ,编码 2 1 3个氨基酸的蛋白 ,该蛋白与红球菌 (Rhodococcusgloberulus) 3-羟苯丙基丙酸 ( 3HPP)代谢合成的调控基因hppR所编码的蛋白有 36 %的氨基酸完全相同和 5 2 %的氨基酸类似 ,该基因称之为samfR基因 .基因功能研究表明 ,samfR基因的破坏使圈卷产色链霉菌不能形成气生菌丝和孢子 ,而发育分化停止在基质菌丝阶段 ,出现光秃型的表型 .     

圈卷产色链霉菌分化基因sawB的结构与功能

以Sau3AI部分酶切野生型圈卷产色链霉菌7100(Streptomyces ansochromogenes 7100)染色体DNA,回收3～6 kb的DNA片段,插入到链霉菌表达载体pIJ702的BglⅡ位点,转化圈卷产色链霉菌白色突变株W19,得到了近3 000个转化子,从中筛选到了两个具有硫链丝菌素抗性和野生型灰色表型的转化子.进行了质粒提取和酶切分析,两个重组质粒分别命名为pNL-1和pNL-2(分别含有约5.2和5.8 kb的外源片段).通过亚克隆及突变株互补实验,将互补W19的基因定位在了1.25 kb的Pst Ⅰ-Apa Ⅰ片段上.DNA序列分析结果表明,该DNA片段中含有一个完整的可读框(ORF1),编码一个由295个氨基酸组成的蛋白质,该基因命名为sawB.利用Blast程序在蛋白数据库中比较发现,SawB与天蓝色链霉菌的一个转录调控蛋白WhiH具有81%的一致性.利用基因破坏策略研究了sawB的功能,结果发现,野生型菌株的sawB基因破坏后,丧失了孢子形成能力,由灰色表型转变为白色表型.显微镜下观察sawB突变株的气生菌丝长而直,顶部略有波浪形卷曲,螺旋程度有所下降.由此可知,sawB是与圈卷产色链霉菌形态分化有关的一个重要基因,它与菌丝螺旋及孢子形成直接相关.sawB的异源表达分析表明,sawB可互补天蓝色链霉菌whiH突变株C119,使之恢复到野生型表型,产生紧密螺旋及丰富的灰色孢子.     

与圈卷产色链霉菌分化有关的一个新基因—sawD的研究

距链霉菌发育分化控制启动子 Ｐ Ｔ Ｈ４ 直接控制的下游基因 ｐｒｏ Ｘ 间隔２４ 个碱基处存在一个部分开放阅读框 （ Ｏ Ｒ Ｆ） , 根据序列分析推测为丝氨酸蛋白酶的一部分。以此部分 Ｄ Ｎ Ａ 序列为探针, 在构建的圈卷产色链霉菌７１００ 的 Ｄ Ｎ Ａ 文库中克隆到一个与链霉菌发育和分化有关的新基因, 称之为ｓａ ｗ Ｄ。序列测定及分析结果表明, 在１３２０ｂｐ 的 Ｄ Ｎ Ａ 序列中有一个完整的开放阅读框 （ Ｏ Ｒ Ｆ） , 翻译起始位点为２１０ 位碱基处的 Ｇ Ｔ Ｇ, 终止密码子 Ｔ Ｇ Ａ 位于序列的９９９ 位碱基处。在距翻译起始位点 Ｇ Ｔ Ｇ 上游４ 个碱基间隔处有典型的核糖体结合位点区域 Ｇ Ａ Ｇ Ｇ Ｇ Ａ。在计算机蛋白文库中进行了同源性比较研究, 结果表明２６３个氨基酸的蛋白产物与 Ｃａｕｌｏｂａｃｔｅｒ ｃｒｅｓｃｅｎｔｕｓ 的依赖于 Ａ Ｔ Ｐ 的丝氨酸蛋白酶有４４７ ％ 的同源性, 其中存在功能活性区的丝氨酸保守位点 （ Ｇ Ｐ Ｓ Ａ Ｇ） 。基因功能研究表明, ｓａｗ Ｄ 在圈卷产色链霉菌发育分化中与气生菌丝分隔和色素的合成有关。该基因被阻断或破坏后, 使野生型圈卷产色链霉菌的分化停止在气生菌丝阶段, 不能形成具有灰色色素的孢子, 而出现白色     

Cloning, sequencing and function ofsanA, a gene involved in nikkomycin biosynthesis ofStreptomyces ansochromogenes

Several genetically stable mutants blocked in nikkomycin biosynthesis were obtained after the slightly germinated spores of Streptomyces ansochromogenes, a nikkomycin producer, were treated with ultra violet radiation. One of the mutants is the same in morpholotical differentiation as the wild type strain and is designated as NBB19. A DMA library was constructed using plasmid plJ702 as cloning vector, NBB19 as cloning recipient. A 6 kb DNA fragment which can genetically complement NBB19 was cloned when screening the library for antifungal activity. Sequence analysis showed that the 3 kb Bgl II-Sal I fragment contains one complete ORF (ORF1) and one partial ORF (ORF2). ORF1 is designated as sanA. sanA is 1 365 bp, encoding a protein consisting of 454 amino acid residues. Database searching indicated that sanA is homologous to the hypothetical methyltransferase in Pyrococcus horikoshli with 25% identities and 41% positives. Disruptant of sanA lost the ability to synthesize nikkomycin. It indicated that sa     

Structure and function ofsawB, a gene involved in differentiation ofStreptomyces ansochromogenes

A partial DNA library of Streptomyces ansochromogenes 7100 was constructed by using plasmid plJ702 as vector and white mutant W19 as recipient. About 3 000 clones were obtained, two of which gave rise to the grey phenotype as wild type 7100. The plasmids were isolated from two transformants. The result indicated that the 5.2 kb and 5.8 kb DNA fragments were inserted into plJ702. The resulting recombinant plasmids were designated as pNL-1 and pNL-2 respectively. The 1.25 kb Pstl l-Apa l DNA fragment from pNL-1 was recognized as its complementarity to W19 strain. The nucleotide sequence of the 3.0 kb Pst I DNA fragment including 1.25 kb was determined and analyzed. The result indicated that this DNA fragment contains one complete open reading frame (ORF1) which encodes a protein with 295 amino acid residues, and this gene was designated as sawB. The deduced protein has 81% amino acid identities in comparison with that encoded by whiH in Streptomyces coelicolor. The function of sawB gene was studied by usi     

麦迪霉素4"-O-丙酰基转移酶(mpt)基因结构的研究

对含有麦迪霉素4"-O-丙酰基转移酶(mpt)基因的BamHI-BamHI 8.0kb的DNA片段进行限制性酶切分析,绘制出了含有21个酶切位点的限制性酶切图谱。以含有碳霉素异戊酰基转移酶基因(CarE)的2.4kb DNA片段为探针,经Southern blot分子杂交,将mpt定位于一个EcoRI-EcoRI-Pstl 3.0kb的DNA片段上,将该片段克隆至大肠杆菌/链霉菌穿梭质粒载体pWHM3上,获得重组质粒pWFPE。含有pWFPE的螺旋霉素产生菌产二素链霉菌(S.ambofaciens)及变铅青链霉菌(J.lividans)TK24均可将内源产生的或外源加入的螺旋霉素酰化为4"-O-丙酰螺旋霉素。对EcoRI-EcoRI-PstI 3.0kbDNA片段上mpt基因进行序列分析,在该片段上有一个开放阅读框架,它以ATG为起始密码子,以TGA为终止密码子,与其序列对应的编码产物含有388个氨基酸。Mpt基因的G+C mol％为68.0,密码子第三位上G+C mol％为91.5。Mpt基因编码的氨基酸序列与CarE基因编码的氨基酸序列的相同性为67.6％,相似性为86.4％。在起始密码子上游6bp处存在…     

A novel gene——samfR involved in early stage of Streptomyces ansochromogenes differentiation

A 4.6 kb DNA fragment was cloned from the DNA library of Streptomyces ansochromogenes using a partial DNA fragment located in the downstream of promoter-P_(TH4) as probe. The experiments revealed that this DNA fragment consists of saw D gene and a 1.4 kb Pvu Ⅱ fragment which can accelerate mycelium formation of S. ansochromogerms. The nucleofide sequence of 1.4 kb DNA fragment was determined and analysed; the result indicated that the fragment contains one complete open reading frame (ORF) which encodes a protein with 213 amino acids, and this gene was desiguated as samfR. The deduced protein has 36% amino acid identities and 52% amino acid similarities in comparison with that encoded by hppR gene, which is involved in the regulation of catabolism for 3-(3-hydroxyphenyl) propionate (3HPP) in Rhodococcus globerulus. The function of samfR gene was studied using strategy of gene disruption, and the resulting samfR mutant failed to form aerial hyphae and spores, its development and differentiation stopped     

Cloning, sequencing and function ofsanA, a gene involved in nikkomycin biosynthesis ofStreptomyces ansochromogenes

Several genetically stable mutants blocked in nikkomycin biosynthesis were obtained after the slightly germinated spores ofStreptomyces ansochromogenes, a nikkomycin producer, were treated with ultra violet radiation. One of the mutants is the same in morpholotical differentiation as the wild type strain and is designated as NBB19. A DNA library was constructed using plasmid pIJ702 as cloning vector, NBB19 as cloning recipient. A 6 kb DNA fragment which can genetically complement NBB19 was cloned when screening the library for antifungal activity. Sequence analysis showed that the 3 kbBgl II -Sal I fragment contains one complete ORF (ORF1) and one partial ORF (ORF2). ORF1 is designated assanA. sanA is 1 365 bp, encoding a protein consisting of 454 amino acid residues. Database searching indicated thatsanA is homologous to the hypothetical methyltransferase inPyrococcus horikoshii with 25% identities and 41% positives. Disruptant ofsanA lost the ability to synthesize nikkomycin. It indicated thatsanA is a novel gene which is essential for nikkomycin biosynthesis.