Ferraz A, Guerra A, Mendonça R, Massarin F, Vicentin MP, Aguiar A, Pavan PC (2008)
Technological advances and mechanistic basis for fungal biopulping. Enzyme Microb Technol
43:178– 185
Fillat U, Roncero MB (2009a) Biobleaching of high quality pulps with laccase mediator system:
influence of treatment time and oxygen supply. Biochem Eng J 44:193– 198
Fillat U, Roncero MB (2009b) Effect of process parameters in laccase-mediator system
delignification offlax pulp Part I Pulp properties. Chem Eng J 152:322– 329
Fillat U, Roncero MB (2010) Optimization of laccase-mediator system in producing biobleached
flax pulp. Biores Technol 101:181– 187
Fillat U, Martín-Sampedro R, Macaya-Sanz D, Martín JA, Ibarra D, Martínez MJ, Eugenio ME
(2016) Screening of eucalyptus wood endophytes for laccase activity. Process Biochem
51:589– 598
Fonseca MI, Fariña JI, Castrillo ML, Rodríguez MD, Nuñez CE, Villalba LL, Zapata PD (2014)
Biopulping of wood chips withPhlebia brevisporaBAFC 633 reduces lignin content and
improves pulp quality. Int Biodeterior Biodegradation 90:29– 35
Forootanfar H, Faramarzi MA, Shahverdi AR, Yazdi MT (2011) Purification and biochemical
characterization of extracellular laccase from the ascomyceteParaconiothyrium variabile.
Bioresour Technol 102:1808– 1814
Fu K, Fu S, Zhan H, Zhou P, Liu M, Liu H (2013) A newly isolated wood-rot fungus for laccase
production in submerged cultures. BioResources 8:1385– 1397
Fukusawa Y, Osono T, Takeda H (2009) Effects of attack of saprobic fungi on twig litter
decomposition by endophytic fungi. Ecol Res 24:1067– 1073
Gao H, Chu X, Zhou F, Zhao K, Mu Z, Liu Q (2013) Media optimization for laccase production
byTrichoderma harzianumZF-2 using response surface methodology. J Microbiol Biotechnol
23:1757– 1764
Ghorbani F, Karimi M, Biri D, Kariminia HR, Jeihanipour A (2015) Enhancement of fungal
delignification of rice straw byTrichoderma viridesp. to improve its saccharification. Biochem
Eng J 101:77– 84
Gui X, Wang G, Hu M, Yan Y (2013) Combined fungal and mild acid pretreatment ofGlycyrrhiza
uralensisresidue for enhancing enzymatic hydrolysis and oil production. BioResources
8:5485– 5499
Guillén F, Martínez AT, Martínez MJ (1992) Substrate specificity and properties of the
aryl-alcohol oxidase from the ligninolytic fungusPleurotus eryngii. Eur J Biochem 209:603–
611
Guillén F, Martínez MJ, Muñoz C, MartínezÁT (1997) Quinone redox cycling in the ligninolytic
fungusPleurotus eryngiileading to extracellular production of superoxide anion radical. Arch
Biochem Biophys 339:190– 199
Gulsoy H, Eroglu H (2011) Biokraft pulping of European black pine withCeriporiopsis
subvermispora. Int Biodet Biodeg 65:644– 648
Halaburgi VM, Sharma S, Sinha M, Singh TP, Karegoudar TB (2011) Purification and
characterization of a thermostable laccase from the ascomycetesCladosporium cladospori-
oidesand its applications. Process Biochem 46:1146– 1152
Higuchi T (1997) Biochemistry and molecular biology of wood. Springer Verlag, London
Ibarra D, Romero J, Martínez MJ, Martínez AT, Camarero S (2006) Exploring the enzymatic
parameters for optimal delignification of eucalypt pulp by laccase-mediator. Enzyme Microb
Technol 39:1319– 1327
Ismail F, Mulholland DA, Marsh JJ (2005) An analysis of the water soluble components of Sappi
Saiccor’seffluent streams. Water Sa 31:569– 574
Järvinen J, Taskila S, Isomäki R, Järvinen O (2012) Screening of white-rot fungi manganese
peroxidases: a comparison between the specific activities of the enzyme from different native
producers. AMB Express 2:1– 9
Kasmani JE, Talaeipour M, Hemmasi AH, Mahdavi S, Samariha A (2012) Biochemimechanical
pulping of hornbeam chips withPhanerochaete chrysosporium. BioResources 7:1016– 1028
278 Ú. Fillat et al.