放线菌的研究现况与展望
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摘要
随着科学的快速发展以及人类对微生物研究的不断深入,微生物资源逐渐被人类发现并重视起来,而微生物中的放线菌因其独特的次生代谢产物而备受关注,作为一种丰富的微生物活性资源,其具有巨大的产生天然活性产物的潜力,是一类极具应用前景的微生物资源。本文从放线菌的定义及分类、资源研究概况等方面进行了总结并展望。
With rapid advances in science and further research on microorganism over the past few years,increasing attention has been paid to microbial resources.Actinomycetes are special microorganisms that have attracted considerable attention because of their unique secondary metabolites.Actinomycetes can serve as a source of abundant microbial activity,and they have huge potential to produce natural active products.Actinomycetes are a promising microbial resource.This paper summarizes aspects of actinomycetes,such as their definition and classification and the general state of research on their use as,as well as prospects for use of actinomycetes.
With rapid advances in science and further research on microorganism over the past few years,increasing attention has been paid to microbial resources.Actinomycetes are special microorganisms that have attracted considerable attention because of their unique secondary metabolites.Actinomycetes can serve as a source of abundant microbial activity,and they have huge potential to produce natural active products.Actinomycetes are a promising microbial resource.This paper summarizes aspects of actinomycetes,such as their definition and classification and the general state of research on their use as,as well as prospects for use of actinomycetes.
引文
[1] Niu G.Genomics-driven natural product discovery in actinomyce-tes[J].Trends Biotechnol,2018,36(3):238-41.
[2] Blyskal B,Lenart-Borod A,Borod P.Approaches to taxonomicstudies of actinomycetes isolated from historic and contemporarymaterials[J].J Pure Appl Microbiol,2017,11(2):637-48.
[3] Waksman SA.The Actinomycetes.Classification,identificationand descriptions of genera and species[M].1961.
[4] Gibbonst NE,Murray RGE.Proposals concerning the higher tax-a of bacteria[J].Int J Syst Bacteriol,1978,28(28):1-6.
[5] 阮继生.伯杰氏系统细菌学手册(第二版)第5卷与我国的放线菌系统学研究[J].微生物学报,2013,53(6):521-30.
[6] Valdes M,Perez NO,Estradade LSP,et al.Non-Frankia actino-mycetes isolated from surface-sterilized roots of Casuarina equise-tifoliafix nitrogen[J].J Appl Environ Microbiol,2005,71(1):460-6.
[7] Zakhia F,Jeder H,Willems A,et al.Diverse bacteria associatedwith root nodules of spontaneous legumes in tunisia and first re-port for nifh-like gene within the genera microbacterium and star-keya[J].Microb Ecol,2006,51(3):375-93.
[8] Gtari M,Ghodhbanegtari F,Nouioui I,et al.Phylogenetic per-spectives of nitrogen-fixing actinobacteria[J].Arch Microbiol,2012,194(1):3-11.
[9] 胡桂萍,郑雪芳,尤民生,等.植物内生菌的研究进展[J].福建农业学报,2010,25(2):226-34.
[10] 康丽华.木麻黄苗期接种弗兰克氏菌效应及其与营养元素的关系[J].林业科学研究,1994(2):129-32.
[11] 乔宏萍.重寄生放线菌F46和PR的生物学习性及对果、蔬采后病害的控制作用[D].西北农林科技大学,2003.
[12] Kortemaa H,Pennanen T,Smolander A,et al.Distribution ofantagonistic streptomyces griseoviridis in rhizosphere and nonrhiz-osphere sand[J].J Phytopathol,1997,145(4):137-43.
[13] 张鸿雁,薛泉宏,申光辉,等.放线菌制剂对人参生长及根域土壤微生物区系的影响[J].应用生态学报,2013,24(8):2287-93.
[14] 王立元.两株嗜热细菌的羽毛降解特性及机制的比较研究[D].武汉大学,2014.
[15] 林雁冰.金属矿区及污水灌溉区抗重金属放线菌的筛选及吸附机理研究[D].西北农林科技大学,2010.
[16] 邵昉,左明昊,任风芝.雄甾-4-烯-3,17-二酮(4-AD)转化菌种的筛选及鉴定[J].生物技术世界,2014(4):103.
[17] 郭良栋.内生真菌研究进展[J].菌物学报,2001,20(1):148-52.
[18] Berdy J.Thoughts and facts about antibiotics:Where we arenow and where we are heading[J].J Antibiot,2012,65(8):385.
[19] Jensen PR,Mincer TJ,Williams PG,et al.Marine actinomyce-te diversity and natural product discovery[J].Antonie Van Leeu-wenhoek,2005,87(1):43-8.
[20] Bérdy J.Bioactive microbial metabolites[J].J Antibiot,2005,58(1):1-26.
[21] 李文均,职晓阳,唐蜀昆.我国放线菌系统学研究历史、现状及未来发展趋势[J].微生物学通报,2013,40(10):1860-73.
[22] 赵珂.攀西地区药用植物内生及根际放线菌的多样性与抗菌活性研究[D].四川农业大学,2010.
[23] Strobel G A,Stierle A,Hess W M.Taxol formation in yew-Taxus[J].Plant Science,1993,92(1):1-12.
[24] 车敏娜,吴恒,热孜万古力·赛买提,等.8株草本科植物根际土放线菌代谢产物活性初步研究[J].天然产物研究与开发,2017(11):1920-7.
[25] 林诚.红树植物内表生放线菌的分离、活性筛选和次级代谢产物研究[D].厦门大学,2009.
[26] Castillo U,Harper JK,Strobel GA,et al.Kakadumycins,no-vel antibiotics fromStreptomyces sp.NRRL 30566,an endophyteof Grevillea pteridifolia[J].FEMS Microbiol Lett,2003,224(2):183-90.
[27] Schulz B,Boyle C,Draeger S,et al.Endophytic fungi:a sourceof novel biologically active secondary metabolites[J].Mycol Res,2002,106(9):996-1004.
[28] 郑有坤,刘凯,熊子君,等.药用植物内生放线菌多样性及天然活性物质研究进展[J].中草药,2014,45(14):2089-99.
[29] 李芳芳,陆盛胜,吉腾飞,等.动物来源放线菌的次级代谢产物及其生物活性研究进展[J].药学学报,2017(7):1091-101.
[30] Matsui T,Tanaka J,Namihira T,et al.Antibiotics productionby an actinomycete isolated from the termite gut[J].J Basic Mi-crobiol,2012,52(6):731-5.
[31] 姜怡,曹艳茹,韩力,等.五种动物粪便纯培养放线菌的多样性及生物活性[J].微生物学报,2012,52(10):1282-9.
[32] Nan D,Yi J,Li H,et al.Bafilomycins and odoriferous sesquit-erpenoids from Streptomyces albolongus isolated from elephasmaximus feces[J].J Nat Prod,2016,79(4):799.
[33] Rea MC,Klaenhammer TR.Thuricin CD,aposttranslationallymodified bacteriocin with a narrow spectrum of activity againstClostridium difficile[J].Proc Natl Acad Sci USA,2010,107(20):9352-7.
[34] 王雪啸.土壤放线菌SPRIC-1次级代谢产物农用活性化合物的分离提取和结构鉴定[D].华东理工大学,2016.
[35] 朱宏建.土壤放线菌次生代谢产物生防活性的初步研究[D].湖南农业大学,2005.
[36] Ryan AD,Kinkel LL,Schottel JL.Effect of pathogen isolate,potato cultivar,and antagonist strain on potato scab severity andbiological control[J].Biocontrol Sci Techn,2004,14(3):301-11.
[37] 赵子翰,李俊英,杨晓雁,等.SIIA-C2191-A和B,黄灰链霉菌产生的多环(口山)酮类新抗生素Ⅰ.菌种分类,发酵,分离纯化和生物学活性[J].中国抗生素杂志,2003,28(10):627-32.
[38] Agbessi S,Beauséjour J,Dery C,et al.Antagonistic propertiesof two recombinant strains of Streptomyces melanosporofaciensobtained by intraspecific protoplast fusion[J].Appl MicrobiolBiotechnol,2003,62(2-3):233-8.
[39] 沈寅初.农用抗生素研究开发新进展[J].中国植保导刊,1997(6):35-7.
[40] Lam K S.Discovery of novel metabolites from marine actinomy-cetes[J].Curr Opin Microbiol,2006,9(3):245-51.
[41] 刘妍,李志勇.海洋放线菌研究的新进展[J].生物技术通报,2005,(6):34-9.
[42] 李巧连,李可,谢明杰,等.海洋放线菌次级代谢产物及其活性研究进展[J].中国海洋药物,2010(5):57-65.
[43] Feling RH,Buchanan GO,Mincer TJ,et al.SalinosporamideA:A Highly cytotoxic proteasome inhibitor from a novel microbi-al source,a marine bacterium of the new genus salinospora[J].Angew Chem Int Ed Engl,2003,34(3):355-7.
[44] Magarvey NA,Keller JM,Bernan V,et al.Isolation and char-acterization of novel marine-derived actinomycete taxa rich in bio-active metabolites[J].Appl Environ Microbiol,2004,70(12):7520-9.
[45] Sujatha P,Bapi Raju KV,Ramana T.Studies on a new marinestreptomycete BT-408producing polyketide antibiotic SBR-22ef-fective against methicillin resistant Staphylococcus aureus[J].Microbiol Res,2005,160(2):119-26.
[46] 涂永江.微生物制药及微生物药物研究[J].科技风,2017(12):270.
[47] Hatsu M,Sasaki T,Miyadoh S,et al.SF2487anew polyetherantibiotic produced by Actinomadura[J].J Antibio,1990,43(3):259.
[48] Iwami M,Kiyoto S,Nishikawa M,et al.New antitumor antibi-otics,FR-900405and FR-900406.I.Taxonomy of the producingstrain[J].J Antibiot,1985,38(7):835-9.
[49] 李增波,薛泉宏,梁军锋.利用放线菌固态发酵生产农用抗生素的初步研究[J].西北农林科技大学学报:自然科学版,2005,33(8):117-21.
[50] 苏文金,黄益丽.产免疫调节活性多糖海洋放线菌的筛选[J].海洋学报:中文版,2001,23(6):114-9.
[2] Blyskal B,Lenart-Borod A,Borod P.Approaches to taxonomicstudies of actinomycetes isolated from historic and contemporarymaterials[J].J Pure Appl Microbiol,2017,11(2):637-48.
[3] Waksman SA.The Actinomycetes.Classification,identificationand descriptions of genera and species[M].1961.
[4] Gibbonst NE,Murray RGE.Proposals concerning the higher tax-a of bacteria[J].Int J Syst Bacteriol,1978,28(28):1-6.
[5] 阮继生.伯杰氏系统细菌学手册(第二版)第5卷与我国的放线菌系统学研究[J].微生物学报,2013,53(6):521-30.
[6] Valdes M,Perez NO,Estradade LSP,et al.Non-Frankia actino-mycetes isolated from surface-sterilized roots of Casuarina equise-tifoliafix nitrogen[J].J Appl Environ Microbiol,2005,71(1):460-6.
[7] Zakhia F,Jeder H,Willems A,et al.Diverse bacteria associatedwith root nodules of spontaneous legumes in tunisia and first re-port for nifh-like gene within the genera microbacterium and star-keya[J].Microb Ecol,2006,51(3):375-93.
[8] Gtari M,Ghodhbanegtari F,Nouioui I,et al.Phylogenetic per-spectives of nitrogen-fixing actinobacteria[J].Arch Microbiol,2012,194(1):3-11.
[9] 胡桂萍,郑雪芳,尤民生,等.植物内生菌的研究进展[J].福建农业学报,2010,25(2):226-34.
[10] 康丽华.木麻黄苗期接种弗兰克氏菌效应及其与营养元素的关系[J].林业科学研究,1994(2):129-32.
[11] 乔宏萍.重寄生放线菌F46和PR的生物学习性及对果、蔬采后病害的控制作用[D].西北农林科技大学,2003.
[12] Kortemaa H,Pennanen T,Smolander A,et al.Distribution ofantagonistic streptomyces griseoviridis in rhizosphere and nonrhiz-osphere sand[J].J Phytopathol,1997,145(4):137-43.
[13] 张鸿雁,薛泉宏,申光辉,等.放线菌制剂对人参生长及根域土壤微生物区系的影响[J].应用生态学报,2013,24(8):2287-93.
[14] 王立元.两株嗜热细菌的羽毛降解特性及机制的比较研究[D].武汉大学,2014.
[15] 林雁冰.金属矿区及污水灌溉区抗重金属放线菌的筛选及吸附机理研究[D].西北农林科技大学,2010.
[16] 邵昉,左明昊,任风芝.雄甾-4-烯-3,17-二酮(4-AD)转化菌种的筛选及鉴定[J].生物技术世界,2014(4):103.
[17] 郭良栋.内生真菌研究进展[J].菌物学报,2001,20(1):148-52.
[18] Berdy J.Thoughts and facts about antibiotics:Where we arenow and where we are heading[J].J Antibiot,2012,65(8):385.
[19] Jensen PR,Mincer TJ,Williams PG,et al.Marine actinomyce-te diversity and natural product discovery[J].Antonie Van Leeu-wenhoek,2005,87(1):43-8.
[20] Bérdy J.Bioactive microbial metabolites[J].J Antibiot,2005,58(1):1-26.
[21] 李文均,职晓阳,唐蜀昆.我国放线菌系统学研究历史、现状及未来发展趋势[J].微生物学通报,2013,40(10):1860-73.
[22] 赵珂.攀西地区药用植物内生及根际放线菌的多样性与抗菌活性研究[D].四川农业大学,2010.
[23] Strobel G A,Stierle A,Hess W M.Taxol formation in yew-Taxus[J].Plant Science,1993,92(1):1-12.
[24] 车敏娜,吴恒,热孜万古力·赛买提,等.8株草本科植物根际土放线菌代谢产物活性初步研究[J].天然产物研究与开发,2017(11):1920-7.
[25] 林诚.红树植物内表生放线菌的分离、活性筛选和次级代谢产物研究[D].厦门大学,2009.
[26] Castillo U,Harper JK,Strobel GA,et al.Kakadumycins,no-vel antibiotics fromStreptomyces sp.NRRL 30566,an endophyteof Grevillea pteridifolia[J].FEMS Microbiol Lett,2003,224(2):183-90.
[27] Schulz B,Boyle C,Draeger S,et al.Endophytic fungi:a sourceof novel biologically active secondary metabolites[J].Mycol Res,2002,106(9):996-1004.
[28] 郑有坤,刘凯,熊子君,等.药用植物内生放线菌多样性及天然活性物质研究进展[J].中草药,2014,45(14):2089-99.
[29] 李芳芳,陆盛胜,吉腾飞,等.动物来源放线菌的次级代谢产物及其生物活性研究进展[J].药学学报,2017(7):1091-101.
[30] Matsui T,Tanaka J,Namihira T,et al.Antibiotics productionby an actinomycete isolated from the termite gut[J].J Basic Mi-crobiol,2012,52(6):731-5.
[31] 姜怡,曹艳茹,韩力,等.五种动物粪便纯培养放线菌的多样性及生物活性[J].微生物学报,2012,52(10):1282-9.
[32] Nan D,Yi J,Li H,et al.Bafilomycins and odoriferous sesquit-erpenoids from Streptomyces albolongus isolated from elephasmaximus feces[J].J Nat Prod,2016,79(4):799.
[33] Rea MC,Klaenhammer TR.Thuricin CD,aposttranslationallymodified bacteriocin with a narrow spectrum of activity againstClostridium difficile[J].Proc Natl Acad Sci USA,2010,107(20):9352-7.
[34] 王雪啸.土壤放线菌SPRIC-1次级代谢产物农用活性化合物的分离提取和结构鉴定[D].华东理工大学,2016.
[35] 朱宏建.土壤放线菌次生代谢产物生防活性的初步研究[D].湖南农业大学,2005.
[36] Ryan AD,Kinkel LL,Schottel JL.Effect of pathogen isolate,potato cultivar,and antagonist strain on potato scab severity andbiological control[J].Biocontrol Sci Techn,2004,14(3):301-11.
[37] 赵子翰,李俊英,杨晓雁,等.SIIA-C2191-A和B,黄灰链霉菌产生的多环(口山)酮类新抗生素Ⅰ.菌种分类,发酵,分离纯化和生物学活性[J].中国抗生素杂志,2003,28(10):627-32.
[38] Agbessi S,Beauséjour J,Dery C,et al.Antagonistic propertiesof two recombinant strains of Streptomyces melanosporofaciensobtained by intraspecific protoplast fusion[J].Appl MicrobiolBiotechnol,2003,62(2-3):233-8.
[39] 沈寅初.农用抗生素研究开发新进展[J].中国植保导刊,1997(6):35-7.
[40] Lam K S.Discovery of novel metabolites from marine actinomy-cetes[J].Curr Opin Microbiol,2006,9(3):245-51.
[41] 刘妍,李志勇.海洋放线菌研究的新进展[J].生物技术通报,2005,(6):34-9.
[42] 李巧连,李可,谢明杰,等.海洋放线菌次级代谢产物及其活性研究进展[J].中国海洋药物,2010(5):57-65.
[43] Feling RH,Buchanan GO,Mincer TJ,et al.SalinosporamideA:A Highly cytotoxic proteasome inhibitor from a novel microbi-al source,a marine bacterium of the new genus salinospora[J].Angew Chem Int Ed Engl,2003,34(3):355-7.
[44] Magarvey NA,Keller JM,Bernan V,et al.Isolation and char-acterization of novel marine-derived actinomycete taxa rich in bio-active metabolites[J].Appl Environ Microbiol,2004,70(12):7520-9.
[45] Sujatha P,Bapi Raju KV,Ramana T.Studies on a new marinestreptomycete BT-408producing polyketide antibiotic SBR-22ef-fective against methicillin resistant Staphylococcus aureus[J].Microbiol Res,2005,160(2):119-26.
[46] 涂永江.微生物制药及微生物药物研究[J].科技风,2017(12):270.
[47] Hatsu M,Sasaki T,Miyadoh S,et al.SF2487anew polyetherantibiotic produced by Actinomadura[J].J Antibio,1990,43(3):259.
[48] Iwami M,Kiyoto S,Nishikawa M,et al.New antitumor antibi-otics,FR-900405and FR-900406.I.Taxonomy of the producingstrain[J].J Antibiot,1985,38(7):835-9.
[49] 李增波,薛泉宏,梁军锋.利用放线菌固态发酵生产农用抗生素的初步研究[J].西北农林科技大学学报:自然科学版,2005,33(8):117-21.
[50] 苏文金,黄益丽.产免疫调节活性多糖海洋放线菌的筛选[J].海洋学报:中文版,2001,23(6):114-9.