林可链霉菌黑色素生物合成基因的克隆与表达

以pIJ702的melCl－C2基因为探针杂交林可链霉菌（Streptomyceslincolnensis）78－11染色体DNA,呈现出3．2kb的BamHI片段和2．6kb的SphI片段等一系列阳性条带。构建了含3．0～3．5kbBamHI片段的林可链霉菌78-11基因文库,从中分离克隆了黑色素生物合成基因melCl和melC2,并测定了含有mel基因的重组子pRSB336插入片段的全部DNA顺序。3152bpBamHI片段含有5个开放阅读框架,其中melCl和melC2与链霉菌属三个种的相应基因具有较高的同源性。此外,林可链霉菌78－11的melC2基因产物与人和鼠的酪氨酸酶轻微同源,分别为17．3％和24．5％。种种迹象表明,melCl、melC2和orf3组成黑色素生物合成操纵子结构。为了进一步鉴定上述克隆的林可链霉菌78-11黑色素生物合成基因,构建了分别含有新霉素抗性基因启动子和正反方向mel基因的重组质粒pPZ518和pPZ519,并转化变铅青链霉菌TK23。随机挑选的12个pPZ518转化子在R2YE培养基上均能分泌淡褐色色素,而所有的pPZ519和pES1转化子则都呈白色。     

一株罗布泊盐湖链霉菌的鉴定及其代谢产物对酪氨酸酶活性、黑色素生成的抑制效应CSCD

本研究采用多相分类法对一株分离自新疆罗布泊盐湖链霉菌89-2-2进行鉴定,通过CCK-8法、L-多巴氧化法和NaOH溶解法检测该菌株乙酸乙酯提取物对小鼠黑色素瘤B16细胞增殖、细胞内酪氨酸酶活性及黑色素含量的影响。以抑制酪氨酸酶活性为指标,应用LC-MS代谢组学方法检测链霉菌89-2-2发酵条件优化前后所产生的差异代谢物,分析可能具有抑制活性的代谢产物类型。结果初步鉴定该菌株为西唐氏链霉菌(Streptomyces setonii)89-2-2。S.setonii 89-2-2乙酸乙酯提取物在100~1000μg/mL浓度范围内几乎无细胞毒性,但能有效抑制B16细胞内酪氨酸酶活性和黑色素生成,与空白组相比均具有显著性差异(P<0.05)。代谢组学实验的结果显示S.setonii 89-2-2产生的差异代谢物主要为维生素类化合物、芳香类化合物和羧酸类化合物。本研究为从新疆罗布泊链霉菌中开发酪氨酸酶抑制剂和黑色素合成抑制剂提供重要的科学依据。     

苏云金芽孢杆菌酪氨酸酶基因的克隆表达及应用初探

酪氨酸酶基因编码的酪氨酸酶是生物体合成黑色素的关键酶。采用比较酪氨酸酶的同源保守结构域氨基酸序列的方法设计引物 ,从苏云金芽胞杆菌 (Bacillusthuringiensis) 4D11中通过PCR扩增得到了包含酪氨酸酶基因的DNA片段。将该片段亚克隆到载体pGEM_7zf上并转入大肠杆菌DH5α ,所得到的转化子在添加了L_酪氨酸的LB培养基中能合成可溶性的黑色素。测定该菌株黑色素的产量和在紫外光照射后的菌体活力 ,结果表明该基因产生的黑色素能在一定程度上保护菌体免受紫外辐射     

双孢蘑菇酪氨酸酶基因在酿酒酵母中的异源表达及其酶学特性

【目的】在酿酒酵母中异源表达双孢蘑菇来源的酪氨酸酶基因PPO2,并研究酪氨酸酶在酿酒酵母胞内及胞外的酶学特性。【方法】提取双孢蘑菇总RNA,通过RT-PCR克隆酪氨酸酶基因PPO2,构建表达载体pSP-G1-PPO2,并转化至酿酒酵母进行表达,采用镍亲和层析纯化蛋白并研究其酶学性质。【结果】在酿酒酵母中正确表达了大小为65 kDa的酪氨酸酶蛋白。重组酶能催化底物酪氨酸产生黑色素。体外活性测定表明,酪氨酸酶催化最适温度为45°C,以酪氨酸和多巴为底物时最适pH分别为7.0和8.0。在酿酒酵母中测得底物酪氨酸浓度低于2.5 mg/mL时,黑色素的产量与底物浓度呈现正相关性。【结论】来源于双孢蘑菇的酪氨酸酶基因PPO2在酿酒酵母中成功表达,重组酶具有良好的酶学特性。利用酪氨酸酶产物黑色素的产量与底物浓度呈现正相关性这一特性,可将其作为细胞酪氨酸产量的传感器,为高通量筛选酪氨酸高产菌株提供了思路。     

委内瑞拉链霉菌秦岭变种属间接合转移系统的构建及透明颤菌血红蛋白的表达

【目的】构建委内瑞拉链霉菌秦岭变种属间接合转移系统及透明颤菌血红蛋白的表达。【方法】以链霉菌广泛使用的整合型质粒pSET152和复制型pHZ1358为出发质粒,通过供体大肠杆菌(Escherichia coli)ET12567(pUZ8002)进行属间接合转移委内瑞拉链霉菌秦岭变种。【结果】确定了该变种的最佳接合转移条件;通过SOE-PCR(Splicing by overlap extension PCR)技术构建含PermE和vhb结构基因融合片段的整合型表达载体pJD100,转化ET12567(pUZ8002)后属间接合转移委内瑞拉链霉菌秦岭变种。通过PCR和CO结合差光谱验证了vhb基因在委内瑞拉链霉菌秦岭变种中的整合表达。【结论】本文首次探索了委内瑞拉链霉菌秦岭变种接合转移系统,确定了委内瑞拉链霉菌秦岭变种的最佳接合转移条件,并采用基因工程手段使vhb基因在委内瑞拉链霉菌秦岭变种中获得表达。     

基于全基因组数据分析香菇黑色素合成途径及相关基因

香菇菌丝转色是决定栽培香菇产量和品质的关键因素之一。弄清菌丝转色过程中黑色素合成途径和关键基因对于解析香菇菌丝转色机理具有重要意义。本研究利用一组可亲和配对的香菇原生质体单核菌株SP3、SP30全基因组数据进行同源比对,对香菇黑色素合成途径进行注释并对黑色素合成关键基因进行挖掘。结果显示,香菇基因组中缺少庚烯酮水解酶基因、小柱孢酮脱水酶基因和对羟苯丙酮酸双加氧酶基因,推测香菇菌株不存在典型的DHN-黑色素和脓黑色素合成途径,但可以合成DOPA黑色素、GHB黑色素、PAP黑色素和儿茶酚黑色素。同时进一步对香菇黑色素合成中限速酶——酪氨酸酶进行生物信息学分析,研究表明香菇菌株SP3、SP30中酪氨酸酶基因编码蛋白为稳定的亲水蛋白,含有2个与酪氨酸酶催化活性相关的铜离子结构域,不含有分泌型信号肽,不含跨膜结构域且定位在细胞质。该研究结果为香菇黑色素合成遗传基础、菌丝转色机理及影响因素研究提供了重要参考。     

天蓝色链霉菌Streptomyces coelicolor中几丁质酶C(Chi C)的生物信息学分析

利用生物信息学的方法,分析天蓝色链霉菌Streptomyces coelicolor中几丁质酶C（Chi C）的一些基本性质,并针对链霉菌属菌种的几个几丁质酶基因做了进化树,进而验证了天蓝色链霉菌中至少8种几丁质酶的分类;同时对天蓝色链霉菌Streptomyces coelicolor中几丁质酶C（Chi C）蛋白的高级结构作出了预测,得到其编码的属于18家族的蛋白质高级结构图谱。     

产黑色素海洋放线菌的分离、鉴定和产色素条件优化

【目的】从连云港高公岛沿岸海底泥样中分离筛选到一株产黑色素的海洋放线菌。【方法】对筛选得到的菌株HT-18所产的色素进行紫外-可见吸收光谱、红外光谱分析。通过形态特征、培养特征、生理生化测定以及16S rRNA序列的系统发育学分析确定菌株HT-18的分类学地位。采用单因素对产色素发酵条件进行优化。【结果】菌株HT-18所产色素为黑色素。鉴定该菌株属链霉菌属(Streptomyces)。最佳产色素条件为:初始pH7.0,装液量为70/250 mL,温度31°C,发酵时间为3 d。【结论】海洋链霉菌HT-18是一株具有研究和应用潜力的产黑色素菌株。     

1株土壤放线菌的分类鉴定及其抗菌活性的研究

对从土壤微生物中筛选到的放线菌菌株1356进行分类学和抗菌活性的研究。采用多相分类法,对菌株的形态特征、培养特征、生理生化特性及16 SrRNA基因序列进行了研究。结果表明:该菌株的形态特征、培养特征、生理生化特性为链霉菌属的特征;16S rDNA序列分析及系统进化树分析表明其序列与灰色产色链霉菌的同源性最高;该菌株的发酵产物对番茄叶霉、白色念珠菌、小麦根腐菌等17种真菌均有不同程度的抑制作用。放线菌1356菌株具有广谱抗真菌活性而对细菌无作用;初步确定其为链霉菌属灰色产色链霉菌的一个亚种。     

一株产蓝色素菌株生物学特性及色素基本性质的研究

对一株从土壤中筛选的产蓝色素链霉菌-ZLT菌株进行了生物学特性和色素基本特性的研究。根据其形态、培养特征和生理生化特性分析,该产蓝色素菌株为链霉菌属,命名为链霉菌-ZLT。与现有报道的放线菌蓝色素相比,该色素纯度较高,无毒副作用,初步认为该色素为一种新的天然蓝色素。     

Cloning and expression of the tyrosinase gene from Streptomyces antibioticus in Streptomyces lividans

In two separate studies a BclI-generated DNA fragment coding for the enzyme tyrosinase, responsible for melanin synthesis, was cloned from Streptomyces antibioticus DNA into two SLP1.2-based plasmid vectors (pIJ37 and pIJ41) to generate the hybrid plasmids, designated pIJ700 and pIJ701, using S. lividans 66 as the host. The fragment (1.55 kb) was subcloned into the multicopy plasmid pIJ350 (which carries thiostrepton resistance and has two non-essential BclI sites) to generate four new plasmids (pIJ702-pIJ705) with the tyrosinase insert located in either orientation at each site. All six plasmids conferred melanin production (the Mel+ phenotype) on their host. As in the S. antibioticus parent, strains of S. lividans carrying the gene specifying tyrosinase synthesis possessed an enzyme activity which was inducible. Most of the tyrosinase activity was secreted during growth of S. antibioticus; in contrast, the majority remained intracellular in the S. lividans clones. The specific activity of the induced tyrosinase activity (intracellular) was higher (up to 36-fold) when the gene was present on the multicopy vector in comparison with its location on the low copy plasmids, pIJ700 or pIJ701, or in S. antibioticus. Restriction mapping of the tyrosinase fragment in pIJ702 revealed endonuclease cleavage sites for several enzymes, including single sites for BglII, SphI and SstI that are absent from the parent vector (pIJ350). Insertion of DNA fragments at any one of these sites abolished the Mel+ phenotype. The results indicate that pIJ702 is a useful cloning vector with insertional inactivation of the Mel+ character as the basis of clone recognition.     

Efficient transformation of Amycolatopsis orientalis (Nocardia orientalis) protoplasts by Streptomyces plasmids.

Conditions for efficient transformation of Amycolatopsis orientalis (Nocardia orientalis) protoplasts by Streptomyces plasmid cloning vectors were identified. Three streptomycete plasmid origins of replication function in A. orientalis, as do the apramycin resistance gene from Escherichia coli, the thiostrepton resistance gene from Streptomyces azureus, and the tyrosinase gene from Streptomyces antibioticus. A. orientalis appears to express some restriction and modification, because highest transformation frequencies (10(6)/micrograms of DNA) were obtained when plasmid pIJ702 was modified by passage in A. orientalis.     

Copper transfer and activation of the Streptomyces apotyrosinase are mediated through a complex formation between apotyrosinase and its trans-activator MelC1.

The melanin operon (melC) of Streptomyces antibioticus is composed of two genes that encode MelC1 and MelC2 proteins. MelC1 has been suggested as a trans-activator which can facilitate the incorporation of copper into the apotyrosinase (MelC2) (Lee, Y.-H. W., Chen, B.-F., Wu, S.-Y., Leu, W.-M., Lin, J.-J., Chen, C. W., and Lo, S. J. (1988) Gene (Amst.) 65, 71-81). However, the molecular mechanism of the trans-activation or copper-transfer process mediated through MelC1 to MelC2 is not clear yet. In this study, we found apotyrosinase in both the extracellular fraction and cell extract from cells grown in copper-deficient medium. Using gel-filtration and immunoaffinity chromatographies, we demonstrated that apotyrosinase (MelC2) formed a stable complex with MelC1 in the intra- and extracellular fractions. Furthermore, addition of copper ion to the complex generated tyrosinase activity. The MelC1-MelC2 complex was purified to near homogeneity by DE52 and phenyl-agarose chromatographies. In conjunction with fast protein liquid gel filtration chromatography and NH2-terminal sequencing analysis, the results indicated that the stoichiometric ratio of MelC1 and MelC2 in the purified complex was 1:1. Essentially no copper was found in the complex. Addition of copper ion to the purified complex resulted in incorporation of approximately 2 molecules of copper ion and the mature active tyrosinase was gradually released from the complex. Taken together, these results demonstrate that the molecular mechanism of activation of Streptomyces apotyrosinase by its trans-activator MelC1 is initially mediated via a binary complex formation between these two proteins, followed by incorporation of copper ion. This activation mechanism accounts for the essential role of MelC1 in the expression of melanin operon.     

Temperature-sensitive mutants of the Streptomyces plasmid pIJ702

DNA from the Streptomyces plasmid pIJ702 was mutagenized in vitro using hydroxylamine and transformed into Streptomyces lividans. One plasmid with temperature-sensitive replication (pMT660) and one plasmid with a temperature-sensitive tyrosinase (pMT661) were isolated. The plasmid pMT661 contains a novel PstI restriction endonuclease site within the tyrosinase gene.     

A cloned ompR-like gene of Streptomyces lividans 66 suppresses defective melC1, a putative copper-transfer gene

Expression of tyrosinase in Streptomyces requires functional MelC1 protein, which is postulated to transfer copper to apotyrosinase. We have previously isolated a mutant of Streptomyces lividans, HT32, that phenotypically suppressed mutations in cloned melC1 (H.-C. Tseng and C. W. Chen, in preparation). Plasmid pLUS132, containing an ATG to ATA transition at the initiation codon of melC1, was used for cloning the suppressor gene from HT32. A 1687 bp suppressor DNA was isolated that contained two characteristic Streptomyces coding sequences: a 217-amino-acid open reading frame (cutR) and a truncated open reading frame (cutS) downstream. Subcloning analysis attributed the phenotypic suppression activity to the putative cutR gene from HT32. The putative CutR exhibited similarity to the response regulator OmpR of the osmoregulatory signal-transduction system in Escherichia coli. The truncated CutS resembled, to a lesser degree, the N-terminus of EnvZ, the histidine protein kinase counterpart of OmpR. DNA hybridizing to the cloned cutR-cutS sequence was detected in 16 other Streptomyces species. We postulate that the putative cutR-cutS operon regulates copper metabolism in Streptomyces.     

Construction of a shuttle lacmZα-based Escherichia coli-actinomycetes vector containing the phage JHJ-3 replicon

Using the broad replicating range JHJ-3 phage replicon, a shuttle vector for Escherichia coli and actinomycetes has been constructed. The vector, pOJ31, bears the lacZ alpha fragment allowing a blue/white gene cloning system. pOJ31 also contains a polylinker of 15 unique cloning sites and the phage T7 promoter. The vector has been used to stably express the mel gene from plasmid pIJ702 in Streptomyces lividans.     

Cloning and expression of an alpha-amylase gene from Streptomyces thermoviolaceus CUB74 in Escherichia coli JM107 and S. lividans TK24

A gene coding for a thermostable extracellular alpha-amylase, carried by a 5.7 kb BamHI chromosomal DNA fragment isolated from Streptomyces thermoviolaceus strain CUB74, was cloned into Escherichia coli JM107 using, as a cloning vector, the high-copy-number plasmid pUC8. E. coli containing a recombinant plasmid pQR300 expressed the amylase gene and exported the enzyme into the periplasmic space and the culture medium. The amylase protein expressed by E. coli had the same molecular mass (50 kDa) as that expressed by the Streptomyces parent strain, which suggests that the enzyme is processed similarly by both strains. The amylase gene was also cloned into Streptomyces lividans TK24 using pIJ702 as vector. The enzyme was stable at 70 degrees C when CaCl2 was present.     

Secretion of the Streptomyces tyrosinase is mediated through its trans-activator protein, MelC1.

The tyrosinase of Streptomyces antibioticus is encoded by the second open reading frame, melC2 of the melanin operon (melC). The upstream open reading frame melC1 specifies a 146-amino acid protein with a typical NH2-terminal signal-peptide characteristic of a secretory protein. The MelC1 protein is involved in the transfer of copper ion to apotyrosinase MelC2 via binary complex formation (Lee, Y.-H. W., Chen, B.-F., Wu, S.-Y., Leu, W.-M., Lin, J.-J., Chen, C. W., and Lo, S. J. (1988) Gene (Amst.) 65, 71-81; Chen, L.-Y., Leu, W.-M., Wang, K.-T., and Lee, Y.-H.W. (1992) J. Biol. Chem. 267, 20100-20107). To investigate whether the export of tyrosinase is also dependent on MelC1, a mutational study of its signal-peptide sequence was performed. Four different mutants were obtained. Mutation at the positively charged region (mutant M-6LE, Arg6-Arg7----Leu6-Glu7) or the hydrophobic region (mutant M-16D, Val16----Asp16) led to Mel- phenotypes. These lesions caused a severe 7-10-fold reduction of the export of both the MelC1 and MelC2 proteins and a concomitant accumulation of the two proteins in the cytosolic fraction. The cell-associated tyrosinase activity in M-6LE but not in the M-16D mutant was dramatically reduced to 4% of the activity found in the wild type strain, suggesting that the basic NH2 terminus of MelC1 is also important for the trans-activation function of this protein. Nevertheless, the defects on the trans-activation and/or secretory functions of MelC1 in mutants M-6LE and M-16D are not due to the impairment of the formation of the MelC1.MelC2 complex. The translation of melanin operon genes in these two mutants also decreased. In contrast, the tyrosinase activity and the secretion of MelC2 were not affected if the mutations occurred at the putative cleavage site of the signal peptidase (e.g. mutant M-29SM, Arg29-Ala30----Ser29-Met30 or mutant 29-SMG, Arg29-Ala30-Asp31----Ser29-Med30-Gly31+ ++). Additionally, tyrosinase activity and its export were abolished in a MelC1-negative mutant, M-950. Taken together, these results demonstrate that a functional MelC1 is essential for tyrosinase secretion and activity. Furthermore, the results suggest that like other secretory proteins, basic and hydrophobic residues in the MelC1 signal sequence are an important feature of the signal-peptide and play a pivotal role in the secretion of both the MelC1 and MelC2 proteins.(ABSTRACT TRUNCATED AT 400 WORDS)     

嗜麦芽假单胞菌酪氨酸酶基因在大肠杆菌中的克隆与表达

酪氨酸酶基因（ｍｅｌ）编码的酪氨酸酶是合成黑色素的关键酶。用鸟枪法分离嗜麦芽假单胞菌的ｍｅｌ基因：以ｐＵＣ１８为载体,Ｅ．ｃｏｌｉ ＨＢ１０１为受体菌,在加有一定量的Ａｍｐ和Ｌ－ｔｙｒ的酪素平板上筛选到分泌可溶性黑色素的转化子,所含重组质粒ｐＷＳＹ约７００ｂｐ的外源ＤＮＡ片段上携有ｍｅｌ基因,该片段无ＢａｍＨＩ、ＨｉｎｄＩＩＩ、ＥｃｏＲＩ、ＢｃｌＩ等酶的识别位点。Ｓｏｕｔｈｅｒｎ杂交证实此片段确实