Fungal laccases are industrially important inducible enzymes extensively used in the delignification of lignocellulosics,detoxification of environmental wastes and decolorization of textile dyes.The discovery of new inducers is crucial for laccase productivity by filamentous fungi.In this study,a novel laccase-producing strain S8 from a bambusicolous fungus Shiraia barnbusicola was identified by using 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonate) as laccase secretion indicator and native polyacrylamide gel electrophoresis.The corresponding full-length cDNA of laccase was cloned and characterized.The effect of lanthanum (LaCl3) on extracellular laccase activity was tested at the concentration from 0.2 to 2.0 g/L and at different addition time (day 1-4) in the mycelium culture.In the presence of 1.0 g/L La3+ at the beginning of the mycelium cultures,the highest laccase activity (2.7 × 104 U/L) is reached after 10 days of cultivation,about tenfold higher compared with non-induced cultures.La3+ is shown to be a very strong inducer for fungal laccase activity with no inhibitory effect on fungal growth at the optimized concentration.In vivo,La3+ added to the mycelium culture not only promotes a continuous and high expression of laccase gene (lcc1),but also induces a rapid generation of signaling molecules including reactive oxygen species (ROS) and nitric oxygen (NO).Both the NO donor sodium nitroprusside (SNP) and exogenous hydrogen peroxide (H2O2) potentiate La3+-induced laccase activity and increase membrane permeability of hyphal cells.Moreover,the scavengers such as 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO) for NO and vitamin C for ROS suppress the induction.These results suggest that these signals can mediate La3+-induced laccase biosynthesis and its secretion.Our study provides a basis for understanding the induction mechanism of La3+ on laccase and a practical strategy for enhanced fungal laccase production.

Yue Wang;Xiang Zhang;Cansong Lu;Xinping Li;Jianqin Zhou;Jianwen Wang

College of Pharmaceutical Sciences,Soochow University,Suzhou 215123,China

稀土学报（英文版）

[1]Yue Wang;Xiang Zhang;Cansong Lu;Xinping Li;Jianqin Zhou;Jianwen Wang-.Lanthanum:A novel inducer for enhancement of fungal laccase production by Shiraia bambusicola)[J].稀土学报（英文版）,2022(03):508-516

Shiraia,laccases,delignification,lignocellulosics,bambusicolous,barnbusicola,lcc1,tetramethylimidazoline

Lanthanum,novel,enhancement,fungal,production,by,bambusicola,Fungal,industrially,important,inducible,enzymes,extensively,used,detoxification,environmental,wastes,decolorization,textile,dyes,discovery,new,inducers,crucial,productivity,filamentous,fungi,In,this,study,producing,strain,S8,from,fungus,identified,using,azino,bis,ethylbenzothiazoline,sulfonate,secretion,indicator,native,polyacrylamide,gel,electrophoresis,corresponding,full,length,cDNA,cloned,characterized,effect,lanthanum,LaCl3,extracellular,activity,tested,concentration,different,addition,mycelium,presence,La3+,beginning,cultures,highest,reached,after,days,cultivation,about,tenfold,higher,compared,induced,shown,strong,inhibitory,growth,optimized,vivo,added,not,only,promotes,continuous,expression,but,also,induces,rapid,generation,signaling,molecules,including,reactive,oxygen,species,ROS,nitric,Both,donor,sodium,nitroprusside,SNP,exogenous,hydrogen,peroxide,H2O2,potentiate,increase,membrane,permeability,hyphal,cells,Moreover,scavengers,such,carboxyphenyl,oxyl,cPTIO,vitamin,suppress,induction,These,results,suggest,that,these,signals,can,mediate,biosynthesis,its,Our,provides,basis,understanding,mechanism,practical,strategy,enhanced

0.563159