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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2024年8

Page:

114-118

Research Field:

Publishing date:

Info

Title:

Screening of High-yield Laccase Strains in Mixed Culture of LYL263 From Ganoderma lucidum

Author(s):

CHEN Bin1; 2; YI Xiaochang1; 2

(1.Key Laboratory of Ecology of Rare and Endangered Species and Environmental Protection,Ministry of Education,Guilin，Guangxi 541004;2.College of Environment and Resources,Guangxi Normal University,Guilin，Guangxi 541004)

Keywords:

Ganoderma lucidum LYL263; laccase; mixed culture; high-yield strain screening

PACS:

S 567.31

DOI:

10.11937/bfyy.20233512

Abstract:

Taking laccase-producing LYL263 from Ganoderma lucidum as test material,the enzyme production effect and conditions of LYL263 with Flammulina velutipes,Pleutotus ostreatus and Pleurotus pulmonarius were studied by the mixed culture method of different microorganisms,in order to screen out compatible strains and adaptive conditions that could improve the laccase-producing capacity of LYL263.The results showed that laccase activity reached 1 346.4 U·mL-1 after mixed culture of LYL263 and its compatible strain,Pleutotus ostreatus,which was 35.7% higher than that of LYL263 cultured alone.When the inoculation ratio of LYL263 and Pleutotus ostreatus was 4∶2,the enzyme production was the highest.The optimal inoculation time was to add LYL263 and Pleutotus ostreatus at the same time.

References:

［1］谌斌,赵亮亮,聂小琦,等.组成型漆酶高产菌株的筛选及其产酶条件研究［J］.广西师范大学学报(自然科学版),2009,27(2):76-79.［2］赵亮亮,谌斌,李燕荣,等.红芝组成型漆酶酶学性质的研究［J］.北方园艺,2010(5):138-140.［3］易小畅,蒋智,李娜,等.红芝漆酶高产菌株的诱变选育［J］.食品研究与开发,2014,35(24):139-142.［4］胡周月,钱磊,张志军,等.漆酶在食品工业及其他领域上的应用进展［J］.天津农学院学报,2019,26(3):83-86.［5］陈明雨,倪烜,司友斌,等.固定化真菌漆酶在环境有机污染修复中的应用研究进展［J］.生物技术通报,2021,37(6):244-258.［6］唐禄鑫,王雅娴,彭明意,等.真菌漆酶及其生产、固定化与应用［J］.菌物学报,2023,42(9):1821-1837.［7］周陈力,郭婷,纪光燕,等.基于基因组和转录组挖掘暗褐网柄牛肝菌转录因子以及漆酶表达调控因子［J］.北方园艺,2023（16）:108-116.［8］彭鹏,刘园园,刘爱民,等.两株红酵母混合发酵产β-胡萝卜素及其影响因素［J］.食品工业科技,2013,34(21):157-161.［9］刘茜,吴祖芳,翁佩芳,等.酵母菌混合培养氨基酸代谢差异性及对菌株生长的影响［J］.中国食品学报,2018,18(6):76-82.［10］刘海超,张健,刘芳,等.混合菌株降解褐藻胶的筛选、鉴定及产酶条件优化［J］.微生物学杂志,2022,42(2):32-42.［11］孙睿,宋萍,刘洁,等.雷公藤内生细菌两两混合培养对促生物质生产的影响［J］.广西师范大学学报(自然科学版),2023,41(4):220-230.［12］曾光明,陈耀宁.白腐菌相容菌株的筛选及其混合培养产酶［J］.长沙理工大学学报(自然科学版),2006,3(3):107-112.［13］方浩,宋向阳,赵晨,等.里氏木霉与黑曲霉混合发酵产纤维素酶的研究［J］.林产化学与工业,2009,29(6):15-19.［14］蒋瑾,刘驰,高玉千,等.4种白腐真菌单独及混合培养时漆酶活性比较［J］.河南农业科学,2011,40(9):115-118.［15］陆兵.红芝漆酶高产菌株的诱变选育及其酶的化学修饰、固定化和应用研究［D］.桂林:广西师范大学,2012.［16］黄慧艳,张晓昱.白腐菌混合培养在胞外漆酶分泌上的种属互惠性［J］.中国食用菌,2004,23(4):31-33.［17］柯丽霞,方晶.白腐菌混菌发酵玉米芯木质素酶系分泌的种属互惠性研究［J］.食品与发酵工业,2011,37(8):42-46.

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Last Update: 2024-05-11