LI Peng,XIANG Zhun,XIONG Xue,et al.Effects of Different Cultivated Substrates as Inducers on Laccase Activities of Auricularia cornea in Submerged Fermentation[J].Northern Horticulture,2021,(24):129-135.[doi:10.11937/bfyy.20211756]
不同栽培基质诱导对毛木耳产漆酶活性的影响
- Title:
- Effects of Different Cultivated Substrates as Inducers on Laccase Activities of Auricularia cornea in Submerged Fermentation
- 文献标志码:
- A
- 摘要:
- 以3个毛木耳菌株为试材,采用双因素方差分析,研究了木屑、玉米芯、棉籽壳和麦麸4种栽培基质诱导毛木耳菌株产漆酶活性的影响,以期为提高和改善毛木耳的产量和品质提供参考依据。结果表明:不同菌株产漆酶活性极显著不同(P<0.001),培养基质对漆酶活性也产生极显著的影响(P<0.001)。供试菌株分泌的漆酶活性依次为毛木耳781>玉木耳01>漳耳43-28,且毛木耳781和玉木耳01分泌的漆酶活性最大,分别为355.28、334.44 U·L-1,而漳耳43-28仅为92.11 U·L-1。此外,在含麦麸的基础培养基中3个毛木耳菌株漆酶活性普遍高于含棉籽壳、木屑或玉米芯的基础培养基,说明麦麸对不同毛木耳菌株产漆酶的诱导作用更强。该研究得到了毛木耳菌株高产漆酶的栽培基质。
- Abstract:
- Three kind of Auricularia cornea strains were used as test materials,and the two-factor analysis of variance was used to study the effects of wood chips,corn cobs,cotton seed husks and wheat bran on the laccase production of Auricularia cornea strains,in order to lay a theoretical foundation for increasing and improving the yield and quality of Auricularia cornea.The results showed that the laccase activity of different Auricularia cornea strains was extremely different (P<0.001),and the culture medium also had a significant impact on the laccase activity (P<0.001).The overall order of the laccase activity secreted by the tested strains was Auricularia cornea 781>new white Auricularia cornea 01>Zhang′er 43-28.The maximum activity of laccase secreted by Auricularia cornea 781 and new white Auricularia cornea 01 were 355.28 U·L-1,334.44 U·L-1,and the maximum activity of laccase secreted Zhang′er 43-28 was only 92.11 U·L-1.In addition,the laccase activity of the Auricularia corneastrains in the basic medium containing wheat bran was generally higher than that of the basic medium containing cotton seed hulls,wood chips or corn cobs,indicating that the wheat bran had a better induction on laccase production of different Auricularia corneastrains.
参考文献/References:
[1]图力古尔.蕈菌分类学[M].北京:科技出版社,2018.[2]戴玉成,杨祝良.中国五种重要食用菌学名新注[J].菌物学报,2018,37(12):1572-1577.[3]清源.毛木耳的价值及开发利用现状[J].西昌学院学报(自然科学版),2012,26(1):29-31.[4]张丹凤,陈国平,潘裕添,等.白背毛木耳胞内多糖抗肿瘤作用的研究[J].食用菌,2014,36(3):75-77.[5]姚清华,陈国平,颜孙安,等.两种木耳营养分析与评价[J].营养学报,2018,40(2):197-199.[6]张金霞.中国食用菌产业科学与发展[M].北京:中国农业出版社,2009.[7]谭伟,黄忠乾,苗人云,等.毛木耳栽培降本增效新技术[J].四川农业科技,2016(11):9-12.[8]王锦锦.白腐菌混合培养对玉米秸秆酶解糖及热重影响研究[D].武汉:华中科技大学,2009.[9]徐安民,李力,马森,等.毛木耳5.584产漆酶发酵条件优化及降解麦麸的研究[J].河南工业大学学报(自然科学版),2020,41(3):65-71.[10]田朝光,马延和.真菌降解木质纤维素的功能基因组学研究进展[J].生物工程学报,2010,26(10):1333-1339.[11]THURSTON C F.The structure and function of fungal laccases[J].Microbiology,1994,140(1):19-26.[12]司静,李伟,崔宝凯,等.真菌漆酶性质、分子生物学及其应用研究进展[J].生物技术通报,2011(2):48-55.[13]司静,崔宝凯,贺帅,等.微酸多年卧孔菌产漆酶条件优化及其在染料脱色中的应用[J].应用与环境生物学报,2011,17(5):736-741.[14]赵林果,陆叶,谢惠芳,等.碳源和氮源对彩绒革盖菌液体发酵合成漆酶的影响[J].微生物学杂志,2007(5):57-60.[15]尚洁,吴秋霞,练小龙,等.碳源和氮源对木蹄层孔菌产漆酶的影响及酶学性质研究[J].中国生物工程杂志,2013,33(11):32-37.[16]ISIKHUEMHEN O S,MIKIASHVILLI N A.Lignocellulolytic enzyme activity,substrate utilization,and mushroom yield by Pleurotus ostreatus cultivated on substrate containing anaerobic digester solids[J].Journal of Industrial Microbiology,2009,36(11):1353-1362.[17]张国良,白羽嘉,张乐,等.低温处理对阿魏侧耳漆酶、酪氨酸酶及同工酶的影响[J].食品科技,2013,38(7):15-19.[18]张维瑞,刘盛荣,周修赵,等.不同状态培养基下pH对香菇、滑菇及金针菇漆酶活性的影响[J].热带作物学报,2020,41(11):2232-2236.[19]沈柯宇,张西蓓,秦澎,等.4种重金属对灵芝漆酶活性及转录表达的影响[J].应用与环境生物学报,2017,23(3):448-453.[20]刘芹,崔筱,孔维威,等.白灵侧耳菌渣中漆酶的分离纯化与酶学性质[J].食用菌学报,2019,26(4):90-99.[21]张永,田乔鹏,任海燕,等.杏鲍菇菌渣产漆酶及其在染料脱色中的应用[J].食品与生物技术学报,2019,38(7):116-121.[22]UPENDRA N D,PRIYANKA S,VEDA P P.Structure-function relationship among bacterial,fungal and plant laccases[J].Journal of Molecular Catalysis B Enzymatic,2011,68(2):117-128.[23]JANUSZ G,CZURYO A,FRAC M,et al.Laccase production and metabolic diversity among Flammulina velutipes strains[J].World Journal of Microbiology and Biotechnology,2015,31(1):121-133.[24]WANG P,HU X,COOK S,et al.Effect of culture conditions on the production of ligninolytic enzymes by white rot fungi Phanerochaete chrysosporium (ATCC 20696) and separation of its lignin peroxidase[J].World Journal of Microbiology & Biotechnology,2008,24(10):2205-2212.[25]吴柯军,闫绍鹏,卢宏,等.不同木质底物诱导下白囊耙齿菌胞外木质纤维素酶活性和胞内蛋白质组的差异[J].林业科学,2016,52(8):157-166.[26]安琪,司静,戴玉成.不同诱导培养基对糙皮侧耳液体发酵产漆酶活性的影响[J].菌物学报,2018,37(3):361-370.[27]韩美玲,边禄森,姜宏浩,等.不同碳氮源对糙皮侧耳木质纤维素酶活性的影响[J].菌物学报,2020,39(8):1538-1550.[28]MATA G,SAVOIE J M.Extracellular enzyme activities in six Lentinula edodes strains during cultivation in wheat straw[J].World Journal of Microbiology & Biotechnology,1998,14(4):513-519.[29]韩美玲,安琪,吴雪君,等.不同木质纤维素诱导对糙皮侧耳液体发酵产漆酶活性的影响[J].菌物学报,2017,36(3):349-357.[30]安琪,吴雪君,吴冰,等.不同碳源和氮源对金针菇降解木质纤维素酶活性的影响[J].菌物学报,2015,34(4):761-771.[31]李良敏.基于漆酶活性测量的香菇育种早期筛选技术研究[D].上海:上海海洋大学,2020.[32]MARTINEZ D,CHALLACOMBE J,MORGENSTERN I,et al.Genome,transcriptome,and secretome analysis of wood decay fungus Postia placenta supports unique mechanisms of lignocellulose conversion[J].Proceedings of the National Academy of Sciences of the United States of America,2009,106:1954-1959.[33]易守连,潘丽军,杨培周,等.玉米芯纤维素、半纤维素分离及水解成可发酵性糖初步研究[J].包装与食品机械,2009,27(6):35-40.[34]田维亮,葛振红,李继兴.棉子壳中半纤维素、纤维素和木质素含量的测定[J].中国棉花,2013,40(7):24-25,27.[35]王宜磊.碳源和氮源对彩绒革盖菌Coriolus versicolor木质纤维素酶和木质素酶分泌的影响[J].微生物学杂志,2000(1):29-31.[36]冯立国,徐宁,熊晓斌,等.作物秸秆栽培毛木耳配方研究[J].湖南农业科学,2018(5):5-7.[37]张波,苗人云,周洁,等.不同氮源配方栽培基质对毛木耳农艺性状、品质及生产效益的影响[J].南方农业学报,2017,48(12):2210-2217.[38]罗信昌,陈士瑜.中国菇业大典[M].2版.北京:清华大学出版社,2016.
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备注/Memo
第一作者简介:李鹏(1987-),男,硕士,助理研究员,现主要从事食用菌资源应用与开发等研究工作。E-mail:761410952@qq.com.责任作者:向准(1976-),男,苗族,硕士,副研究员,现主要从事食用菌品种选育与栽培等研究工作。E-mail:564375391@qq.com.基金项目:贵州省科技计划资助项目(黔科合支撑[2017]2516号,黔科合支撑[2019]2332号);黔科合重大专项资助项目([2019]3007号,[2019]3004-4号,ZWCQ[2019]3013-5号);贵州省科技平台及人才团队计划资助项目(黔科合平台人才[2017]5720号)。收稿日期:2021-04-22