ABC转运蛋白SgnA/B促进纳他霉素胞外转运与高产

纳他霉素是一种天然、广谱、高效的多烯大环内酯类还原性抗真菌剂,广泛应用于食品真菌污染的防治和临床真菌感染的治疗。纳他霉素胞外转运效率可能是限制褐黄孢链霉菌(Streptomyces gilvosporeus)发酵高产纳他霉素的重要因素。通过生物信息学及分子对接技术分析纳他霉素胞外转运蛋白SgnA/B,发现SgnA和SgnB两个异源二聚体组成的ABC转运蛋白是内向开口构象的转运蛋白,且2个结合位点与纳他霉素结合能力有强弱差异,更有利于纳他霉素的胞外转运。本研究以纳他霉素生产菌株——褐黄孢链霉菌F607为出发菌株,构建了sgnA/B基因超表达菌株F-EX,以分析sgn A/B基因超表达对纳他霉素合成及胞外转运的影响。研究发现,纳他霉素对数合成期的F-EX菌株不仅提高了纳他霉素胞外/胞内比,其120 h发酵总产量也提高了12.5%,达到7.38 g/L。最后,通过转录组测序发现,sgnA/B基因超表达除提高纳他霉素胞外转运效率外,还影响了与多种氨基酸、丙酸盐、糖、五碳化合物代谢和TCA循环相关基因的表达。研究表明,强化纳他霉素胞外转运有利于纳他霉素的合成,是提高褐黄孢链霉菌纳他霉素产量的有效...     

纳他霉素高产菌株Streptomyces gilvosporeus F607基因组及其生物合成基因簇分析

【背景】纳他霉素(Natamycin)是一种天然、广谱、高效的多烯大环内酯类抗真菌剂,褐黄孢链霉菌(Streptomyces gilvosporeus)是一种重要的纳他霉素产生菌。目前S. gilvosporeus基因组序列分析还未有报道,限制了该菌中纳他霉素及其他次级代谢产物合成及调控的研究。【目的】解析纳他霉素高产菌株S. gilvosporeus F607的基因组序列信息,挖掘其次级代谢产物基因资源,为深入研究该菌株的纳他霉素高产机理及生物合成调控机制奠定基础。【方法】利用相关软件对F607菌株的基因组序列进行基因预测、功能注释、进化分析和共线性分析,并预测次级代谢产物合成基因簇;对纳他霉素生物合成基因簇进行注释分析,比较分析不同菌种中纳他霉素生物合成基因簇的差异;分析预测S.gilvosporeusF607中纳他霉素生物合成途径。【结果】F607菌株基因组总长度为8482298bp,(G+C)mol%为70.95%,分别在COG、GO、KEGG数据库提取到5 062、4 428、5063个基因的注释信息。同时,antiSMASH软件预测得到29个次级代谢产物合成基因簇,其中纳他霉素基因簇与S.natalensis、S. chattanoogensis等菌株的纳他霉素基因簇相似性分别为81%和77%。除2个参与调控的sngT和sgnH基因和9个未知功能的orf基因有差异外,S. gilvosporeus F607基因簇中其他纳他霉素生物合成基因及其排列顺序与已知的纳他霉素基因簇高度一致。【结论】分析了S. gilvosporeus全基因组信息,预测了S. gilvosporeus F607中纳他霉素生物合成的途径,为从基因组层面上解析S. gilvosporeus F607菌株高产纳他霉素的内在原因提供了基础数据,为揭示纳他霉素高产的机理及工业化生产和未来新药的发现奠定了良好的基础。     

纳他霉素的生物合成基因研究

纳他霉素是一种多烯大环内酯类抗真菌抗生素,能专一地抑制酵母和霉菌,作为天然的防腐剂用于食品和饲料行业。概述了纳他霉素的化学结构,作用机理以及基因调控方面的研究,包括合成基因,修饰基因和调节基因。并展望了在纳他霉素基因工程研究方面的前景。     

异源表达afsRScla全局性调控基因提高工业菌株纳他霉素产量

前期研究表明棒状链霉菌的全局性调控基因afsRScla异源表达可以激活变铅青链霉菌中两种抗生素的合成。本研究将包含afsRScla基因的质粒pHL851整合到纳他霉素工业生产菌株褐黄孢链霉菌TZ1401的基因组中,使纳他霉素产量提高38%,达到3.56g/L。qRT-PCR检测6个纳他霉素生物合成基因的转录情况,发现其转录水平提高1.9-2.7倍,表明afsRScla通过正调控纳他霉素生物合成基因的转录,从而提高纳他霉素的产量。本研究结果对afsRScla在抗生素工业生产菌株的高产育种应用具有借鉴意义。     

纳他霉素对芒果采后胶孢炭疽菌的抑菌效果及机理

以纳他霉素为抑菌剂, 实验测定了离体条件下不同浓度纳他霉素对胶孢炭疽菌(Colletotrichum gloeosporioides)的孢子萌发及菌丝生长的抑制效果, 以及活体损伤接种炭疽病菌后, 纳他霉素对芒果(Mangifera indica)果实炭疽病的防治效果。通过测定纳他霉素处理后胶孢炭疽菌的细胞膜相对渗透率、可溶性蛋白含量、细胞膜完整性、孢子内活性氧水平和线粒体分布情况, 初步探明其抑菌机理。结果表明, 3 mg?L ^-1纳他霉素可显著抑制胶孢炭疽菌孢子萌发、芽管伸长和菌落生长, 80 mg?L ^-1纳他霉素可有效抑制芒果贮存过程中果实炭疽病斑的扩展。纳他霉素处理后胶孢炭疽菌细胞膜相对渗透率和可溶性蛋白含量增加; 2 mg?L ^-1纳他霉素处理8小时, 处理组胶孢炭疽菌孢子细胞膜损伤染色率为33.6%, 对照组染色率为13.9%; 处理组胞内活性氧产生染色率达46.9%, 比对照组高39.7%; 同时观察到纳他霉素使胞内线粒体分布不均且荧光信号微弱。以上结果表明, 纳他霉素可以破坏胶孢炭疽病菌细胞膜, 诱导活性氧大量积累, 并降低线粒体活性, 从而干扰菌体正常生理活性, 使其代谢活动受影响, 从而达到抑菌目的。     

纳他霉素对芒果采后胶孢炭疽菌的抑菌效果及机理

以纳他霉素为抑菌剂, 实验测定了离体条件下不同浓度纳他霉素对胶孢炭疽菌(Colletotrichum gloeosporioides)的孢子萌发及菌丝生长的抑制效果, 以及活体损伤接种炭疽病菌后, 纳他霉素对芒果(Mangifera indica)果实炭疽病的防治效果。通过测定纳他霉素处理后胶孢炭疽菌的细胞膜相对渗透率、可溶性蛋白含量、细胞膜完整性、孢子内活性氧水平和线粒体分布情况, 初步探明其抑菌机理。结果表明, 3 mg∙L ^-1纳他霉素可显著抑制胶孢炭疽菌孢子萌发、芽管伸长和菌落生长, 80 mg∙L ^-1纳他霉素可有效抑制芒果贮存过程中果实炭疽病斑的扩展。纳他霉素处理后胶孢炭疽菌细胞膜相对渗透率和可溶性蛋白含量增加; 2 mg∙L ^-1纳他霉素处理8小时, 处理组胶孢炭疽菌孢子细胞膜损伤染色率为33.6%, 对照组染色率为13.9%; 处理组胞内活性氧产生染色率达46.9%, 比对照组高39.7%; 同时观察到纳他霉素使胞内线粒体分布不均且荧光信号微弱。以上结果表明, 纳他霉素可以破坏胶孢炭疽病菌细胞膜, 诱导活性氧大量积累, 并降低线粒体活性, 从而干扰菌体正常生理活性, 使其代谢活动受影响, 从而达到抑菌目的。     

纳他霉素及其生产菌育种研究进展

纳他霉素是一种高效、广谱、安全的抗真菌天然产物,广泛用做食品防腐添加剂和医用抗菌剂,对植物病原真菌也有强烈抑制作用。由于其主要通过褐黄孢链霉菌等发酵生产,因此高产菌种的选育是纳他霉素研究的热点之一。介绍了纳他霉素的主要理化性质、抑菌特性及其在不同领域的应用,综述了其生产菌育种研究进展,并对不同的育种方法进行了简要的比较分析,探讨了纳他霉素高产菌种选育的发展前景。     

纳他霉素在纳塔尔链霉菌中的合成及其调控机制的研究进展

纳他霉素作为一种多烯大环内酯类抗生素,是纳塔尔链霉菌的次级代谢产物。它不仅能够有效地抑制真菌的生长,还能够抑制黄曲霉毒素的形成,因而广泛应用于食品防腐剂和真菌角膜炎的治疗等领域。纳他霉素首先由乙酸激活聚酮合酶(PKS)催化合成纳他霉素的骨架环,再由系列相关合成酶对其进行加工修饰,此过程涉及系列基因簇的表达调控机制,如转录调节子的调节、途径特异性调节、总体调控、交叉调节及胞内ROS调节等。完整的纳他霉素分子形成后由胞内转运子运出胞外。结合纳他霉素的研究进展,对其未来的研究方向进行了展望。     

纳他霉素毒性及生产研究进展

纳他霉素（Natamycin）是一种广谱的多烯大环内酯类抗真菌抗生素。由于它高效的抑茵效果而被广泛应用于食品防腐和真菌引起的疾病的治疗。对纳他霉素抗菌活性、作用机制、毒性、特别是当前纳他霉素的生产研究状况进行综述。     

基于前体供给途径遗传改造提高褐黄孢链霉菌纳他霉素的产量

纳他霉素(natamycin)是一种高效、广谱、安全的抗真菌剂,广泛应用于食品防腐与医药领域。纳他霉素可由多种链霉菌发酵产生。它是以乙酰辅酶A、丙二酰辅酶A及甲基丙二酰辅酶A为前体经Ⅰ型聚酮合酶(polyketide synthase,PKS)催化合成的多烯大环内酯类化合物。本研究以纳他霉素产生菌——褐黄孢链霉菌为研究材料,分别对不同前体分子供给途径中的关键酶进行过表达,并确定影响纳他霉素产量的关键前体供给途径。研究结果发现：通过过表达乙酰辅酶A合成酶(acetyl-CoA synthase,ACS)加强乙酰辅酶A合成途径,以及通过过表达甲基丙二酰辅酶A变位酶(methylmalonyl-CoA mutase,MCM)加强甲基丙二酰辅酶A合成途径,重组菌株纳他霉素产量分别比野生型菌株提高了44.19%和20.51%。共过表达ACS和MCM,重组菌株纳他霉素产量获得进一步提升(达1123.34mg/L),比野生型菌株提高了66.29%。上述发现为通过前体代谢工程的策略构建纳他霉素工业高产菌株提供了参考,也为其他聚酮类天然产物高产工程菌株的构建提供了借鉴。     

Recent advances in the study of Kaposi's sarcoma-associated herpesvirus replication and pathogenesis

It has now been over twenty years since a novel herpesviral genome was identified in Kaposi's sarcoma biopsies. Since then, the cumulative research effort by molecular biologists, virologists, clinicians, and epidemiologists alike has led to the extensive characterization of this tumor virus, Kaposi's sarcoma-associated herpesvirus(KSHV; also known as human herpesvirus 8(HHV-8)), and its associated diseases. Here we review the current knowledge of KSHV biology and pathogenesis, with a particular emphasis on new and exciting advances in the field of epigenetics. We also discuss the development and practicality of various cell culture and animal model systems to study KSHV replication and pathogenesis.     

The structure, reproduction and taxonomy of Vidalia and Osmundaria (Rhodophyta, Rhodomelaceae)

Comprises species occurring mostly in subtidal habitats in tropical, subtropical and warm-temperate areas of the world. An analysis of the type species, V. spiralis (Sonder) Lamouroux ex J. Agardh, a species from Australia, establishes basic characters for distinguishing species in the genus. These characters are (1) branching patterns of thalli, (2) flat blades that may be spiralled on their axis, (3) width of the blade, (4) primary or secondary derivation of sterile and fertile branchlets and (5) position of sterile and fertile branchlets on the thalli. Application of the latter two characters provides an important basic method for separation of species into three major groups. Osmundaria , a genus known only in southern Australia, was studied in relation to Vidalia , and its separation from the Vidalia assemblage is not accepted. Species of Vidalia therefore are transferred to the older genus name, Osmundaria. Two new species, Osmundaria papenfussii and Osmundaria oliveae are described from Natal. Confusion in the usage of the epithet, Vidalia fimbriala Brown ex Turner has been clarified, and Vidalia gregaria Falkenberg, described as an epiphyte on Osmundaria pro/ifera Lamouroux, is revealed to be young branches of the host, Osmundaria prolifera.     

New or rare chromosome counts in Artemisia L. (Asteraceae, Anthemideae) and related genera from Kazakhstan

Fifteen chromosome counts of six Artemisia taxa and one species of each of the genera Brachanthemum, Hippolytia, Kaschgaria, Lepidolopsis and Turaniphytum are reported from Kazakhstan. Three of them are new reports, two are not consistent with previous counts and the remainder are confirmations of very scarce (one to four) earlier records. All the populations studied have the same basic chromosome number, x = 9, with ploidy levels ranging from 2x to 6x. Some correlations between ploidy level, morphological characters and distribution are noted.     

肝癌中HBV和HCV基因和抗原的分布及意义

采用原位分子杂交方法检测HCV RNA及HBV X基因;采用免疫组织化学方法研究HCV核心抗原,非结构区C33c抗原及HBxAg在肝细胞肝癌中的定位及分布.结果表明(1)HCV RNA、HBV X基因在肝细胞肝癌组织检出率分别为40%(55/136)和82%(112/136).HCV RNA定位于癌细胞的胞浆内,阳性细胞呈散在、灶状及弥漫分布三种形式;HBV X基因在肝癌细胞中的分布呈胞浆型、核型及核浆型,阳性细胞也呈上述三种分布形式;(2)HCV C33c抗原、核心抗原在肝细胞肝癌中的阳性率为81%(133/164)及86%(141/164).C33c抗原定位于癌细胞及肝细胞的胞浆内;核心抗原既定位于癌细胞核中,又可定位于胞浆中.C33c抗原阳性细胞以灶状分布为主;而核心抗原阳性细     

Selection with two alleles and complete dominance

For a plant selection model with frequency-independent viabilities, fertilities and selfing rates, it is shown that apart from global fixation, for certain parameter combinations a protected polymorphism and facultative fixation (either allele may become fixed according to initial frequencies) may both occur. Facultative fixation requires different selling rates for the dominant and recessive type. Protection of the polymorphism requires resource allocation for male and female function. In this connection the problem of purely genetically caused population extinction is discussed.
For general frequency dependence and regular segregation, the chances for establishment of a completely recessive gene are compared to those of a completely dominant gene. It is proven that the process of establishment of the recessive gene, despite a fitness advantage, may be considerably endangered by drift effects if random mating prevails. The recessive gene may reach the same effectivity in establishment as a dominant gene, only if the recessive homozygote mates exclusively with its own type during the period of establishment.