生物法降解秸秆木质素研究进展(4)

　　[22] FERRAZ A,GUERRA A,MENDONA R,et al.Technological advances and mechanistic basis for fungal biopulping[J].Enzyme Microb Technol,2007,43(2):178-185.
　　[23] HIROMICHI I,MASANORI W,YOICHI H,et al.Bioorganosolve pretr-eatments for simultaneous saccharification and fermentation of beech wood by ethanolysis and white rot fungi[J].Journal of Biotechnology,2003,103(3):273-280.
　　[24] 张建军,罗勤慧.木质素酶及其化学模拟的研究进展[J].化学通报,2001,64(8):470-477.
　　[25] LEATHAM G F.Ligninolytic activities of Lentinula edodes and Phaner-ochaete chrysoporium[J].Applied Environment Microbiology,1986,24(1):51-58.
　　[26] 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,2000,20(1):29-31.
　　[27] 毕鑫,路福平,杜连祥.白腐菌产木素过氧化物酶发酵条件的优化[J].天津轻工业学院学报,2003,18(1):12-16.
　　[28] KEREM Z,HADAR Y. Effect of manganese on lignin degradation by Pleurotus ostreatus during soligstate fermentation[J]. Applied and Envi-ronmental Microbiology,1993,59(12):4115-4120.
　　[29] 余惠生,付时雨,王佳玲,等.铜Ⅱ离子对白腐菌Panus conchatu产木素降解酶的调控[J].纤维素科学与技术,1999,7(1):41-46.
　　[30] TONON F,ODIER E.Influence of veratryl alcohol and by drogen pero-xide in ligninase activity and ligninase production by Phanerochaete chrysosporium[J].Applied and Environmental Microboilogy,1988,54(2):466-472.
　　[31] 罗宇煊,张甲耀,管筱武,等.嗜碱细菌降解木素的复合碳源共代谢研究I——复合碳源组合方式及氮源的选择[J].城市环境与城市生态,2000,13(2):246-250.
　　[32] 罗宇煊,张甲耀,龚利萍,等.嗜碱细菌降解木素的复合碳源共代谢研究II——营养条件调控机制的研究[J].城市环境与城市生态,2000,13(6):57-59.
　　[33] 罗宇煊,张甲耀,许威亚,等.正交试验选择嗜碱细菌降解木质素金属离子最优综合培养条件[J].环境科学与技术,2001(4):5-7.