三种白腐真菌脱色噻嗪染料亚甲基蓝

本研究通过含亚甲基蓝染料的固体培养基,从19株白腐真菌菌株中分离获得3个脱色能力较强的菌株,其在平板上的脱色圈大小分别为7.5cm、6.8cm和5.5cm。鉴定其为：云芝栓孔菌Trametes versicolor（ZT-197）,绒毛栓孔菌Trametes pubescens（ZT-230）和亚黑管孔菌Bjerkandera fumosa（ZT-307）。其中,ZT-230对染料亚甲基蓝的脱色能力最强,可以将染料浓度为50mg/L的100mL液体培养基在6d之内100%脱色,而ZT-197和ZT-307在接种第10天时的脱色率为98%和80%。同时测定了3株白腐真菌在降解染料过程中的漆酶、锰过氧化物酶和木素过氧化物酶3种酶活力的规律：ZT-197和ZT-230均可分泌Lac和MnP两种酶,ZT-307只分泌LiP。本研究说明绒毛栓孔菌ZT-197在印染废水治理方面具有较好的应用前景。     

Protoplast Fusion in Streptomyces sp. for Increased Production of Laccase and Associated Ligninolytic Enzymes

Biodegradation of lignin by Streptomyces spp. results in the production of value-added chemicals such as Acid Precipitable Polymeric Lignins (APPLs), low molecular weight phenols, etc. To hasten the conversion metabolism through genetic manipulation, a preliminary attempt was made to standardize the methodology for isolation and regeneration of protoplasts. Protoplast fusion recombinants were developed and assayed for their ligninolytic activity, production of ligninolytic enzymes viz., peroxidase, laccase, polyphenol oxidase and crude protein. In comparison with the mutants and wild strain, fusion recombinant F₄ showed higher laccase activity and lower peroxidase activity. This attribute can be positively used for polymerization of free phenolics to polycondensates related to humic acids in soil or composting environments. This revised version was published online in July 2006 with corrections to the Cover Date.     

白腐菌木质素降解酶及其在木质素降解过程中的相互作用

木质素是一类不易降解的生物物质,在自然界中,白腐真菌对木质素的降解能力最强.白腐真菌降解木质素主要依靠分泌的三种酶:木质素过氧化物酶(Lip)、锰过氧化物酶(MnP)和漆酶(Lac).对白腐真菌分泌的三种木质素降解酶在性质、分布等方面进行了比较,系境地介绍三种木质素降解酶的催化作用,并阐述其在木质素降解过程中的相互作用.     

Use of cheese whey as a substrate to produce manganese peroxidase by Bjerkandera sp BOS55

Manganese peroxidase, MnP, is one of the major ligninolytic enzymes produced by a number of white-rot fungi. The ability of this enzyme to degrade lignin by the fungus Bjerkanderasp BOS55 has opened its application to related bioprocesses such as recalcitrant-compound degradation and effluent decolorization. The medium reported to induce MnP production is composed of chemical grade reagents, all with relatively high costs for application to detoxification purposes. The use of inexpensive sources for MnP production can bring its implementation closer. For this purpose, dairy residues from cheese processing were considered. MnP production obtained using crude whey as the sole substrate reached appreciable levels, around 190 U L⁻¹, values comparable to those found with synthetic media (between 175–250 U L⁻¹). Thus, this cheese-processing byproduct can be used as an inexpensive alternative for the large-scale production of MnP. Received 14 December 1998/ Accepted in revised form 29 April 1999     

木质素降解酶及相关基因研究进展

生物质的高效综合利用已成为全球关注的热点问题。生物质的主要成分是木质素、纤维素和半纤维素,其利用的关键是如何去除木质素,从而提高纤维素和半纤维素的得率。其中利用真菌的生物预处理方法因条件温和、无二次污染等优点符合全球经济可持续发展需要,受到研究者的普遍关注。综述了近年国内外真菌分泌的主要木质素降解酶,包括木质素过氧化物酶(Li P)、锰过氧化物酶(Mn P)、漆酶(laccase)和多功能过氧化物酶(VP)的主要特点,总结了木质素降解相关酶的基因工程、基因组学的研究成果,并对其发展前景进行了展望。     

毛木耳对孔雀石绿染料降解条件的优化

随着我国印染工业的发展,废水对生态环境的危害日趋严重,亟需开发一种脱色明显且成本低廉的降解方法。本研究发现毛木耳Auricularia cornea菌株AC5对不同结构的染料均具有一定的降解作用,尤其是三苯甲烷类染料。利用26℃、160r/min振荡培养7d的粗酶液对染料（75.0mg/L）进行12h降解,结果显示三苯甲烷染料孔雀石绿、结晶紫,蒽醌染料活性蓝19和偶氮染料活性蓝222的降解效率分别为83.27%、71.77%、67.81%和63.92%。染料降解实验和酶活力测定结果表明,毛木耳对孔雀石绿的降解率达到最高时漆酶活性最高,为321.0U/mL,木质素过氧化物酶和锰过氧化物酶活性较低。因此,推测在降解过程中漆酶起到主要作用。研究表明利用毛木耳菌丝发酵液降解染料废水成本低且操作方便,为染料废水的降解研究提供了前期基础。     

The selective visualization of lignin peroxidase,manganese peroxidase and laccase,produced by white rot fungi on solid media

A visual method for the selective screening of lignin degrading enzymes, produced by white rot fungi (WRF), was investigated by the addition of coloring additives to solid media. Of the additives used in the enzyme production media, guaiacol and RBBR could be used for the detection of lignin peroxidase (LiP), manganese peroxidase (MnP) and laccase. Syringaldazine and Acid Red 264 were able for the detection of both the MnP and laccase, and the LiP and laccase, respectively, and a combination of these two additives was able to detect each of the ligninases produced by the WRF on solid media.     

The Effect of Fungal Morphology on Ligninolytic Enzyme Production by a Recently Isolated Wood-Degrading Fungus Trichophyton Rubrum LSK-27

The morphology and ligninolytic enzyme production of a recently isolated wood-degrading fungus Trichophyton rubrum LSK-27 was investigated. In submerged cultures, the organism appeared to be an efficient manganese peroxidase (MnP) producer. When grown in baffled and unbaffled shake flasks with three different working volume/total volume ratios (WV/TV 10, 25 and 50%), the organism displayed notable morphological differences, with variations in pellet shape and size. Cultivation in baffled flasks with 25% WV/TV resulted in higher MnP and also laccase production as well as an earlier appearance of these enzymes in culture broth. However, oxygen limitation conditions inhibited MnP and laccase production and resulted in considerable changes in the morphology of this fungus.     

Secretion of Ligninolytic Enzymes and Mineralization of 14C-Ring-Labelled Synthetic Lignin by Three Phlebia tremellosa Strains

Production of ligninolytic enzymes by three strains of the white rot fungus Phlebia tremellosa (syn. Merulius tremellosus) was studied in bioreactor cultivation under nitrogen-limiting conditions. The Mn(II) concentration of the growth medium strongly affected the secretion patterns of lignin peroxidase and laccase. Two major lignin peroxidase isoenzymes were expressed in all strains. In addition, laccase and glyoxal oxidase were purified and characterized in one strain of P. tremellosa. In contrast, manganese peroxidase was not found in fast protein liquid chromatography profiles of extracellular proteins under either low (2.4 μM) or elevated (24 and 120 μM) Mn(II) concentrations. However, H₂O₂- and Mn-dependent phenol red-oxidizing activity was detected in cultures supplemented with higher Mn(II) levels. Mineralization rates of ¹⁴C-ring-labelled synthetic lignin (i.e., dehydrogenation polymerizate) by all strains under a low basal Mn(II) level were similar to those obtained for Phanerochaete chrysosporium and Phlebia radiata. A high manganese concentration repressed the evolution of ¹⁴CO₂ even when a chelating agent, sodium malonate, was included in the medium.     

Secretion of Ligninolytic Enzymes and Mineralization of C-Ring-Labelled Synthetic Lignin by Three Phlebia tremellosa Strains

Production of ligninolytic enzymes by three strains of the white rot fungus Phlebia tremellosa (syn. Merulius tremellosus) was studied in bioreactor cultivation under nitrogen-limiting conditions. The Mn(II) concentration of the growth medium strongly affected the secretion patterns of lignin peroxidase and laccase. Two major lignin peroxidase isoenzymes were expressed in all strains. In addition, laccase and glyoxal oxidase were purified and characterized in one strain of P. tremellosa. In contrast, manganese peroxidase was not found in fast protein liquid chromatography profiles of extracellular proteins under either low (2.4 muM) or elevated (24 and 120 muM) Mn(II) concentrations. However, H(2)O(2)- and Mn-dependent phenol red-oxidizing activity was detected in cultures supplemented with higher Mn(II) levels. Mineralization rates of C-ring-labelled synthetic lignin (i.e., dehydrogenation polymerizate) by all strains under a low basal Mn(II) level were similar to those obtained for Phanerochaete chrysosporium and Phlebia radiata. A high manganese concentration repressed the evolution of CO(2) even when a chelating agent, sodium malonate, was included in the medium.     

Lignin degradation by microorganisms: A review

Lignin is an abundant plant-based biopolymer that has found applications in a variety of industries from construction to bioethanol production. This recalcitrant branched polymer is naturally degraded by many different species of microorganisms, including fungi and bacteria. These microbial lignin degradation mechanisms provide a host of possibilities to overcome the challenges of using harmful chemicals to degrade lignin biowaste in many industries. The classes and mechanisms of different microbial lignin degradation options available in nature form the primary focus of the present review. This review first discusses the chemical building blocks of lignin and the industrial sources and applications of this multifaceted polymer. The review further places emphasis on the degradation of lignin by natural means, discussing in detail the lignin degradation activities of various fungal and bacterial species. The lignin-degrading enzymes produced by various microbial species, specifically white-rot fungi, brown-rot fungi, and bacteria, are described. In the end, possible directions for future lignin biodegradation applications and research investigations have been provided.     

Lead,cadmium and nickel removal efficiency of white-rot fungus Phlebia brevispora

Widespread of heavy metals contamination has led to several environmental problems. Some biological methods to remove heavy metals from contaminated wastewater are being widely explored. In the present study, the efficiency of a white-rot fungus, Phlebia brevispora to remove different metals (Pb, Cd and Ni) has been evaluated. Atomic absorption spectroscopy of treated and untreated metal containing water revealed that all the metals were efficiently removed by the fungus. Among all the used metals, cadmium was the most toxic metal for fungal growth. Phlebia brevispora removed maximum Pb (97·5%) from 100 mmol l⁻¹ Pb solution, which was closely followed by Cd (91·6%) and Ni (72·7%). Scanning electron microscopic images revealed that the presence of metal altered the morphology and fine texture of fungal hyphae. However, the attachment of metal on mycelia surface was not observed during energy-dispersive X-ray analysis, which points towards the intracellular compartmentation of metals in vacuoles. Thus, the study demonstrated an application of P. brevispora for efficient removal of Pb, Cd and Ni from the metal contaminated water, which can further be applied for bioremediation of heavy metals present in the industrial effluent.     

Screening for Ligninolytic Enzyme Production by Diverse Fungi from Tunisia

Summary This work represents the first report on the ability of autochthonous fungi from Tunisia to produce ligninolytic enzymes. Three hundred and fifteen fungal strains were isolated from different Tunisian biotopes. These fungal strains were firstly screened on solid media containing Poly R-478 or ABTS as indicator compounds that enabled the detection of lignin-modifying enzymes as specific color reactions. Of the 315 tested strains, 49 exhibited significant ABTS-oxidation activity expressed within the first week of incubation and only 18 strains decolorized the Poly R-478. Liquid cultivations and laccase, manganese peroxidase and lignin peroxidase activity assays of positive strains confirmed that eight efficient enzyme producers were found in the screening. These strains were attributed to the most closely related species using PCR amplification and sequencing of the internal transcribed spacer ‘ITS’ regions of the ribosomal DNA. The identification results showed fungal genera such as Oxyporus, Stereum and Trichoderma which have been only rarely reported as ligninolytic enzyme producers in the literature. Culture conditions and medium composition were optimized for the laccase producer Trametes trogii CTM 10156. This optimization resulted in high laccase production, 367 times more than in non-optimized conditions and which reached 110 U ml^-1 within 15 days of incubation.     

Degradation of endocrine disrupting chemicals by genetic transformants in Irpex lacteus with an inducible laccase gene of Phlebia tremellosa

Irpex lacteus was genetically transformed using an laccase expression vector to get increased laccase producing strains. Stable integration of the vector was confirmed by PCR using the vector-specific primers, and the transformants showed increased laccase activities. When the transformants were grown with several endocrine disrupting chemicals, laccase activity of each transformant was induced up to six times higher than that of the wild type. They showed increased degrading activities against EDCs as well as increased removal rates of estrogenic activities generated by the EDCs than the wild type, and the laccase expression was increased during the degradations of the EDCs.     

木质纤维素的定量测定及降解规律的初步研究

为了准确地测定稻草及其发酵物中纤维素、半纤维素、木质素的含量,通过差重法进行定量测定,并以此评价白腐菌株Pleurotus sapidus对稻草秸秆的降解状况,结果表明：利用差重法测定稻草发酵物中纤维素、半纤维索、木质素的百分含量是可行的,并能很好地评价白腐菌对稻草的降解规律,即降解过程中纤维素、半纤维素、本质素在前20d降解的很快,之后降解减缓,在50d内,纤维素被降解34．02％,半纤维素被降解56．29％,木质素被降解61．65％。     

Extracellular Ligninolytic Enzymes in Bjerkandera adusta and Lentinus squarrosulus

Extracellular ligninolytic enzyme activities were determined in two white-rot fungi, Bjerkandera adusta and Lentinus squarrosulus. To investigate the activity of extracellular enzymes, cultures were incubated over a period of 20 days in nutrient rich medium (NRM) and nutrient poor medium under static and shaking conditions. Enzymatic activity was varied with media and their incubation conditions. The highest level of Aryl alcohol oxidase (AAO) was detected under shaking condition of both medium while Manganese peroxidase (MnP) activity was best in NRM under both conditions. AAO is the main oxidases enzyme in B. adusta while laccase plays important role in L. squarrosulus. MnP is the main peroxidase enzyme in both varieties.