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从腐殖土样中分离得到一株产水溶性紫色素真菌,编号为H-1。通过对该真菌β-微管蛋白基因序列分析,并构建系统进化树进行初步鉴定,对色素性质如色素特征性吸收峰、溶解性、稳定性、细胞增殖抑制活性、抗菌活性等进行研究。结果表明,H-1与萨氏曲霉(Aspergillus sydowii)的同源性达到了100%,属于萨氏曲霉。该色素在520 nm处有特征性吸收峰,极易溶于水,低浓度乙醇和甲醇溶液,不溶于其他非极性溶剂。该色素对光的稳定性表现为:紫外光>黑暗>-白光;100℃处理色素4 h,色素残存率为86.8%,热稳定性较好,在碱性条件下稳定,在Na+溶液残存率为99.9%,基本无损失。与正常人肝细胞HL-7702相比,该色素具有抑制人肝癌细胞HepG2增殖作用,其半数抑制浓度(IC50)为1.282 mg/mL;同时该色素具有清除羟自由基与超氧阴离子自由基的作用,也能明显抑制藤黄八叠球菌、金黄色葡萄球菌的生长,其最低抑菌浓度(minimal inhibitory concentration, MIC)均为195.312μg/mL,对大肠杆菌无明显抑菌活性。
Abstract:A fungus H-1 which produced the water-soluble purple pigment was isolated from humus soil. By analyzing the sequence of the fungal β-tubulin gene and constructing a phylogenetic tree for preliminary identification,the pigment properties such as characteristic absorption peak, solubility, stability, cell proliferation inhibitory activity and antibacterial activity of the pigment were determined. The results showed that H-1 shared 100% homology with Aspergillus sydowii. The pigment had a characteristic absorption peak at 520 nm, was highly soluble in water, in ethanol and methanol solution with low concentration, and insoluble in other non-polar solvents. The photochromic stability of the pigment was: Ultraviolet light >dark >white light; the pigment was treated at 100℃ for 4 h, the residual rate of pigment was 86.8%, and the residual rate was 99.9% in Na+solution,basically no loss. Compared with normal human liver cell line HL-7702, the pigment had the effect of inhibiting the proliferation of human liver cancer cell line HepG2 which half-inhibitory concentration(IC50) was 1.282 mg/mL.Meanwhile the pigment had the function of scavenging hydroxyl radicals and superoxide anion radicals, and can also significantly inhibit the growth of Sarcandra sphaeroides and Staphylococcus aureus which the minimum inhibitory concentration(MIC) were 195.312 μg/mL and had no significant antibacterial activity against Escherichia coli.
Aguilar D.,Morales-Oyervides L.,Contreras J.C.,Aguilar C.,Méndez-Zavala A.,Raso J.,and Montanez J.,2017,Effect of ozone processing conditions on stability of fungal pigments,Food Sci.Technol.Int.,23(4):338-348
Asai T.,Tsukada K.,Ise S.,Shirata N.,Hashimoto M.,Fujii I.,Gomi K.,Nakagawara K.,Kodama E.N.,and Oshima Y.,2015,Use of a biosynthetic intermediate to explore the chemical diversity of pseudo-natural fungal polyketides,Nat.Chem.,7(9):737-743
Balajee S.A.,Gribskov J.L.,Hanley E.,Nickle D.,and Marr K.A.,2005,Aspergillus lentulus sp.nov.a new sibling species of a fumigatus,Eukaryot.Cell,4(3):625-632
Chen G.,and Wu Z.,2016,Production and biological activities of yellow pigments from Monascus fungi,World J.Microbiol.Biotechnol.,32(8):136
Cong B.L.,Wang N.F.,Liu S.H.,Liu F.,Yin X.F.,and Shen J.H.,2017,Isolation,characterization and transcriptome analysis of a novel antarctic Aspergillus sydowii strain ms-19 as a potential lignocellulosic enzyme source,BMC Microbiol.,17(1):129
DufosséL.,Fouillaud M.,Caro Y.,Mapari S.A.,and Sutthiwong N.,2014,Filamentous fungi are large-scale producers of pigments and colorants for the food industry,Curr.Opin.Biotechnol.,26(26):56-61
Feng Y.,Shao Y.,and Chen F.,2012,Monascus pigments,Appl.Microbiol.Biotechnol.,96(6):1421-1440
Gmoser R.,Ferreira J.A.,Lennartsson P.R.,and Taherzadeh M.J.,2017,Filamentous ascomycetes fungi as a source of natural pigments,Fungal Biol.Biotechnol.,4:4
Hocking A.D.,and Blackburn C.D.W.,2009,Aspergillus and related teleomorphs,Fungi and Food Spoilage,Springer US,pp.327-328
Jones R.N.,1986,NCCLS standards:Approved methods for dilution antimicrobial susceptibility tests,Antimicrobic Newsletter,3(1):1-8
Juuti J.T.,Jokela S.,Tarkka M.T.,Paulin L.,and Lahdensalo J.,2005,Two phylogenetically highly distinct beta-tubulin genes of the basidiomycete suillus bovinus,Curr.Genet.,47(4):253-263
Kiss L.,2012,Limits of nuclear ribosomal DNA internal transcribed spacer(ITS)sequences as species barcodes for Fungi,Proc.Natl.Acad.Sci.USA,109(27):E1811
Kojima R.,Arai T.,Matsufuji H.,Kasumi T.,Watanabe T.,and Ogihara J.,2016,The relationship between the violet pigment pp-v production and intracellular ammonium level in penicillium purpurogenum,AMB Express,6(1):43
Li W.T.,Luo D.,Huang J.N.,Wang L.L.,Zhang F.G.,Xi T.,Liao J.M.,and Lu Y.Y.,2017,Antibacterial constituents from antarctic fungus,aspergillus sydowii sp-1,Nat.Prod.Res.,32(6):662-667
Mapari S.A.,Thrane U.,and Meyer A.S.,2010,Fungal polyketide azaphilone pigments as future natural food colorants?Trends Biotechnol.,28(6):300-307
Martins N.,Roriz C.L.,Morales P.,Barros L.,and Ferreira I.C.F.R.,2016,Food colorants:Challenges,opportunities and current desires of agro-industries to ensure consumer expectations and regulatory practices,Trends Food Sci.Technol.,52:1-15
Neri-Numa I.A.,Pessoa M.G.,Paulino B.N.,and Pastore G.M.,2017,Genipin:A natural blue pigment for food and health purposes,Trends Food Sci.Technol.,67:271-279
Rodriguez-Amaya D.B.,2016,Natural food pigments and col orants,Curr.Opin.Food Sci.,7:20-26
Srianta I.,Zubaidah E.,Estiasi T.,Iuchi Y.,Harijono H.,and Yamada M.,2017,Antioxidant activity of pigments derived from monascus purpureus fermented rice,corn,and sorghum,Int.Food Res.J.,24(3):1186-1191
Su J.W.,Gan C.J.,and Lv R.X.,2002,Preparetion of water soluble monascus yellow pigments,Zhongguo Shipin Xuebao(Journal of Chinese Institute of Food Science and Technology),2(1):8-11(苏金为,甘纯玑,吕日新,2002,水溶性红曲黄色素的制备,中国食品学报,2(1):8-11)
Tang A.M.C.,Jeewon R.,and Hyde K.D.,2007,Phylogenetic utility of protein(RPB2,β-tubulin)and ribosomal(LSU,SSU)gene sequences in the systematics of sordariomycetes(Ascomycota,Fungi),Antonie Van Leeuwenhoek,91(4):327-349
Torres F.A.,Zaccarim B.R.,Lc D.L.N.,Jozala A.F.,Santos C.A.,and Teixeira M.F.,2016,Natural colorants from filamentous fungi,Appl.Microbiol.Biotechnol.,100(6):2511-2521
Wang L.J.,Zhang F.,and He P.X.,2014,Isolation,identification and red pigment properties of fungi in rhizosphere soil,Shipin Keji(Food Science and Technology),39(4):15-19(王丽娟,张飞,何培新,2014,产红色素真菌的分离鉴定及其色素性质的研究,食品科技,39(4):15-19)
Wei J.C.,ed.,1979,Fungi identification manual,Shanghai Sci ence&Technology Press,Shanghai,China,pp.134-135(魏景超,编著,1979,真菌鉴定手册,上海科学技术出版社,中国,上海,pp.134-135)
Xu C.M.,Wang X.D.,and Jiao Z.L.,2015,Research progress of edible pigments by microorganisms,Zhongguo Shipin Tianjiaji(China Food Additives),2:162-167(徐春明,王晓丹,焦志亮,2015,食用微生物色素的研究进展,中国食品添加剂,2:162-168)
Xu Y.M.,Ma Y.,Zhao X.Y.,Wei L.,and Meng X.,2007,The comparison of antioxidant activity of four natural pigments from folium perilliae,Huabei Nongye Xuebao(Acta Agriculturae Boreali-Sinica),22(2):187-190(徐亚民,马越,赵晓燕,魏蕾,孟宪,2007,紫苏等4种天然色素抗氧化能力的比较,华北农学报,22(2):187-190)
Zhu Y.,Qiao G.,and Wang Z.,2016,Research advances on metabolism regulation of plant carotenoids,Fenzi Zhiwu Yuzhong(Molecular Plant Breeding),14(2):471-474(朱运钦,乔改梅,王志强,2016,植物类胡萝卜素代谢调控的研究进展,分子植物育种,14(2):471-474)
基本信息:
DOI:10.13417/j.gab.039.001156
中图分类号:TS264.4
引用信息:
[1]赵宁,乔晋楠,张倩,等.产紫色素真菌H-1的鉴定及其色素的理化性质和生物活性[J].基因组学与应用生物学,2020,39(03):1156-1162.DOI:10.13417/j.gab.039.001156.
基金信息:
四川省科技厅项目(2018GZ0375;2018TJPT0004);; 国家微生物资源平台(NIMR-2018-8-1)共同资助
2020-03-25
2020-03-25