Dimerization of Bisphenol A by Hyper Lignin-Degrading Fungus Phanerochaete sordida YK-624 Under Ligninolytic Condition

Bisphenol A (BPA) was treated with hyper lignin-degrading fungus Phanerochaete sordida YK-624 under ligninolytic condition. After preculturing P. sordida YK-624 for 4 days, BPA (final concentration, 1 and 0.1 mM) was added to cultures. Both 1- and 0.1-mM BPA were effectively decreased within a 24-h treatment and two metabolites were detected. Two metabolites (5,5′-bis-[1-(4-hydroxy-phenyl)1-methyl-ethyl]-biphenyl-2,2′-diol and 4-(2-(4-hydroxy-phenyl) propan-2-yl)-2-(4-(2-(4-hydroxyphenyl) propan-2-yl) phenoxy)phenol) were identified by ESI–MS and NMR analysis. These results indicated that BPA was oxidized to BPA phenoxy radicals by ligninolytic enzymes and then dimerized at extracellular region.     

Improvement of Manganese Peroxidase Production by the Hyper Lignin-Degrading Fungus Phanerochaete sordida YK-624 by Recombinant Expression of the 5-Aminolevulinic Acid Synthase Gene

The manganese peroxidase (MnP) gene (mnp4) promoter of Phanerochaete sordida YK-624 was used to drive expression of 5-aminolevulinic acid synthase (als), which is a key heme biosynthesis enzyme. The expression plasmid pMnP4pro-als was transformed into P. sordida YK-624 uracil auxotrophic mutant UV-64, and 14 recombinant als expressing-transformants were generated. Average cumulative MnP activities in the transformants were 1.18-fold higher than that of control transformants. In particular, transformants A-14 and A-61 showed significantly higher MnP activity (approximately 2.8-fold) than wild type. RT-PCR analysis indicated that the increased MnP activity was caused by elevated recombinant als expression. These results suggest that the production of MnP is improved by high expression of als.     

Degradation of polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans by the white rot fungus Phanerochaete sordida YK-624.

A method for the degradation of dioxins by white rot fungi was developed. Degradation of a mixture of 10 kinds of tetra- to octachlorodibenzo-p-dioxins (polychlorinated dibenzo-p-dioxins [PCDDs]) and tetra- to octachlorodibenzofurans (polychlorinated dibenzofurans [PCDFs]), which were chlorinated at 2-, 3-, 7-, and 8-positions of the molecules, by the white rot fungus Phanerochaete sordida YK-624 was studied in a stationary low-nitrogen medium. The percent degradation values of PCDDs and PCDFs were approximately 40 (tetra-chloro-) to 76% (hexachloro-) and 45 (tetrachloro-) to 70% (hexachloro-), respectively. Metabolites of 2,3,7,8-tetra- and octaCDD formed by P. sordida YK-624 included 4,5-dichlorocatechol and tetrachlorocatechol, respectively. These results suggest that white rot fungus is able to substantially degrade both PCDDs and PCDFs. This is the first report of the degradation of highly chlorinated PCDDs and PCDFs by a microorganism.     

Purification and Characterization of a 1,4-Benzoquinone Reductase from the Basidiomycete Phanerochaete chrysosporium

An intracellular, soluble 1,4-benzoquinone reductase was purified from agitated cultures of Phanerochaete chrysosporium and characterized. The quinone reductase was expressed in cultures grown under both nitrogen-sufficient and nitrogen-limiting (12 and 1.2 mM ammonium tartrate) conditions. The protein was purified to homogeneity by using ammonium sulfate fractionation, hydrophobic interaction, and ion-exchange and blue-agarose affinity chromatographies. The native flavin mononucleotide-containing protein, pI 4.3, has a molecular mass of 44 kDa as determined by gel filtration. The protein has a subunit molecular mass of ^sim22 kDa as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The quinone reductase exhibits a broad pH optimum between 5.0 and 6.5 and a temperature optimum of 30(deg)C. The enzyme catalyzes the two-electron reduction of several quinones and other electron acceptors utilizing either NADH or NADPH as an electron donor. The apparent K(infm) for 2-methoxy-1,4-benzoquinone is 2.4 (mu)M, and the apparent k(infcat) is 4.4 x 10(sup5) s(sup-1). Enzyme activity is strongly inhibited by Cibacron blue 3GA and by dicumarol.     

Improvement of ligninolytic properties by recombinant expression of glyoxal oxidase gene in hyper lignin-degrading fungus Phanerochaete sordida YK-624

Glyoxal oxidase (GLOX) is a source of the extracellular H₂O₂ required for the oxidation reactions catalyzed by the ligninolytic peroxidases. In the present study, the GLOX-encoding gene (glx) of Phanerochaete chrysosporium was cloned, and bee2 promoter of P. sordida YK-624 was used to drive the expression of glx. The expression plasmid was transformed into a P. sordida YK-624 uracil auxotrophic mutant (strain UV-64), and 16 clones were obtained as GLOX-introducing transformants. These transformants showed higher GLOX activities than wild-type P. sordida YK-624 and control transformants harboring marker plasmid. RT-PCR analysis indicated that the increased GLOX activity was associated with elevated recombinant glx expression. Moreover, these transformants showed higher ligninolytic activity than control transformants. These results suggest that the ligninolytic properties of white-rot fungi can be improved by recombinant expression of glx.     

Cloning and transcriptional analysis of the gene encoding 5-aminolevulinic acid synthase of the white-rot fungus Phanerochaete sordida YK-624

In this study, we cloned the gene encoding 5-aminolevulinic acid synthase (ALAS) from the hyper-lignin-degrading fungus Phanerochaete sordida YK-624. The deduced amino acid sequence showed highest identity (93.0%) to ALAS of P. chrysosporium. Expression of the gene encoding ALAS, which we named aas, corresponded temporally with the expression and activity of manganese peroxidase.     

草莓APETALA2同源基因的克隆及表达分析

利用同源克隆方法首次从草莓花芽cDNA中分离出APETALA2同源基因SAP2。SAP2全长182bp,编码435个氨基酸。序列分析表明,SAP2具有AP2家族典型的结构域。采用RT-PCR方法分析SAP2在不同组织中的表达情况,结果显示SAP2在草莓营养组织、花芽以及不同花器官中均有表达,与拟南芥AP2、矮牵牛PhAP2A的表达模式一致。以上结果说明SAP2是草莓的AP2同源基因。     

Effects of Nitrogen Supplements on Degradation of Aspen Wood Lignin and Carbohydrate Components by Phanerochaete chrysosporium

A supplement of KH₂PO₄, MgSO₄, CaCl₂, trace elements, and thiamine accelerated the initial rate of aspen wood decay by Phanerochaete chrysosporium but did not increase the extent of lignin degradation. Asparagine, casein hydrolysate, and urea supplements (1% added N) strongly inhibited lignin degradation and weight loss. The complex nitrogen sources peptone and yeast extract stimulated lignin degradation and weight loss. Albumen and NH₄Cl had intermediate effects. Conversion of [¹⁴C]lignin to ¹⁴CO₂ and water-soluble materials underestimated lignin degradation in the presence of the complex N sources. The highest ratio of lignin degradation to total weight loss and the largest increase in cellulase digestibility occurred during the decay of unsupplemented wood. Rotting of aspen wood by P. chrysosporium gives smaller digestibility increases than have been found with some other white-rot fungi.     

西红花FT同源基因的表达及功能分析

FT（FLOWERING LOCUS T）及其同源基因作为三大开花途径整合子之一,被认为是调控植物开花的重要基因。为了深入研究FT同源基因的功能以及西红花（Crocus sativus L.）开花的分子机理,对已报道的3个西红花FT同源基因（CsatFT1、CsatFT2和CsatFT3）进行分离及分析。gDNA包含长度分别为835、1 642和1 132 bp的完整开放阅读框（ORF）,均具有4个外显子和3个内含子;cDNA包含长度分别为528、525和540 bp的ORF,分别编码175、174和179个氨基酸;系统进化分析表明,CsatFT1、CsatFT2、CsatFT3分别和同为单子叶植物的水仙（Narcissus chinensis）NtFT、麝香百合（Lilium longiflorum）LlFT和洋葱（Allium cepa）AcFT1表现出较近的遗传距离。qRT-PCR分析结果显示,小球茎膨大阶段前期,CsatFT1、CsatFT2、CsatFT3在叶片中表达水平最高,侧根中次之,子球茎、主根中极低几乎检测不到;小球茎膨大阶段后期,CsatFT1、CsatFT2、CsatFT3都在子球茎中表达水平较高,在顶芽中几乎检测不到;室内储藏开花阶段,CsatFT1、CsatFT2、CsatFT3在柱头中表达水平最高,叶中次之,花瓣和花药中较低几乎检测不到。通过观测转基因烟草（Nicotiana tabacum）和转基因拟南芥（Arabidopsis thaliana）植株表型发现,CsatFT1,CsatFT2和CsatFT3均具有促进植物提早开花的功能。     

Genetic Organization of Genes Encoding Phenol Hydroxylase, Benzoate 1,2-Dioxygenase Alpha Subunit and Its Regulatory Proteins in Acinetobacter calcoaceticus PHEA-2

Acinetobacter calcoaceticus PHEA-2 is a phenol-degrading bacterium isolated from the wastewater from an oil refinery. A 10-kb XhoI fragment consisting of nine complete Open Reading Frames (ORFs) and one partial ORF was screened from a lambda library of PHEA-2 by Southern hybridization. The sequence analyses revealed that ORF2–ORF7, designated mphKLMNOP, are homologous to dmpKLMNOP of Pseudomonas sp. CF600 and mopKLMNOP of Acinetobacter calcoaceticus NCIB8250, sharing 38%–72% and 58.5%–93.5% respectively. The products encoded by dmp and mop genes convert phenol to catechol. The mph-operon and downstream ORFs, ORF9 and ORF10, sharing high identities to benM and benA, which encode ben-operon regulatory protein and benzoate 1,2-dioxygenase alpha subunit respectively, are separated by ORF8, whose function is unknown. The organization of the mph and ben operons is different from that described previously. Received: 8 April 2002 / Accepted: 8 May 2002     

三个拟南芥NAC同源基因突变体的ABA响应及下游基因表达分析

在获得拟南芥NAC同源基因(NAC019、NAC055和NAC072)双突变体和三突变体纯系的基础上,进一步分析它们对ABA响应的生理差异及其ABA诱导相关下游基因的表达变化,深入探讨它们与ABA响应的关系。结果表明,在种子绿胚建成的过程中,NAC055和NAC072基因与ABA响应相关;在根生长方面,三者在ABA响应中作用不明显。经ABA处理后,突变体nac072和nac055nac072与野生型比较,RAB18、RD29A和RD29B基因表达上调显著,推测在ABA响应的基因表达调控过程中,NAC072和NAC055起负调控协同作用,而NAC019则发挥拮抗作用。     

Inhibition and Stimulation Effects in Communities of Wood Decay Fungi: Exudates from Colonized Wood Influence Growth by Other Species

The effects of exudates from uncolonized and from partly decayed beech wood on the extension rates of 16 later stage decay fungi were investigated. The partly decayed wood had been colonized by the pyrenomycete Eutypa spinosa, or the basidiomycetes Fomes fomentarius, Stereum hirsutum, and Trametes versicolor, all known as common early decay agents in European beech forests. Sterilized wood pieces were placed onto 0.5% malt agar, opposite to small agar plugs containing the test fungi. The latter showed very variable and species-specific growth responses to the various wood types. The presence of uncolonized wood stimulated extension rates in many species, whereas the four previously decayed wood types had variable stimulatory or inhibitory effects. Wood decayed by S. hirsutum resulted in reduced extension rate, delayed growth, or total inhibition in the majority of species, thus it is suggested that this species uses secondary metabolites in a defensive strategy. A single species was, however, stimulated in the presence of S. hirsutum-decayed wood. In contrast, the presence of wood decayed by F. fomentarius was stimulatory to 45% of the species. The other previously decayed wood types generally resulted in more variable responses, depending upon species. The results are discussed in an ecological context and it is suggested that the exudates from the partly decayed wood that are responsible for the reported effects may function as infochemicals, structuring microbial communities in wood.     

Detection and Identification of Decay Fungi in Spruce Wood by Restriction Fragment Length Polymorphism Analysis of Amplified Genes Encoding rRNA

We have developed a DNA-based assay to reliably detect brown rot and white rot fungi in wood at different stages of decay. DNA, isolated by a series of CTAB (cetyltrimethylammonium bromide) and organic extractions, was amplified by the PCR using published universal primers and basidiomycete-specific primers derived from ribosomal DNA sequences. We surveyed 14 species of wood-decaying basidiomycetes (brown-rot and white-rot fungi), as well as 25 species of wood-inhabiting ascomycetes (pathogens, endophytes, and saprophytes). DNA was isolated from pure cultures of these fungi and also from spruce wood blocks colonized by individual isolates of wood decay basidiomycetes or wood-inhabiting ascomycetes. The primer pair ITS1-F (specific for higher fungi) and ITS4 (universal primer) amplified the internal transcribed spacer region from both ascomycetes and basidiomycetes from both pure culture and wood, as expected. The primer pair ITS1-F (specific for higher fungi) and ITS4-B (specific for basidiomycetes) was shown to reliably detect the presence of wood decay basidiomycetes in both pure culture and wood; ascomycetes were not detected by this primer pair. We detected the presence of decay fungi in wood by PCR before measurable weight loss had occurred to the wood. Basidiomycetes were identified to the species level by restriction fragment length polymorphisms of the internal transcribed spacer region.     

Expression of NADH-Specific and NAD(P)H-Bispecific Nitrate Reductase Genes in Response to Nitrate in Barley

Barley (Hordeum vulgare L.) has two, differentially regulated, nitrate reductase (NR) genes, one encoding the NADH-specific NR (Nar1) and the other encoding the NAD(P)H-bispecific NR (Nar7). Regulation of the two NR genes by nitrate was investigated in wild-type Steptoe and in an NADH-specific NR structural gene mutant (Az12). Gene-specific probes were used to estimate NADH and NAD(P)H NR mRNAs. The kinetics of induction by nitrate were similar for the two NR genes; expression was generally below the limits of detection prior to induction, reached maximum levels after 1 to 2 h of induction in roots and 4 to 8 h of induction in leaves, and then declined to steady-state levels. Derepression of the NAD(P)H NR gene in leaves of the NADH-specific NR gene mutant Az12 did not appear to be associated with changes in nitrate assimilation products or nitrate flux. Nitrate deprivation resulted in rapid decreases in NADH and NAD(P)H NR mRNAs in seedling roots and leaves and equally rapid decreases in the concentration of nitrate in the xylem sap. These results indicate that factors affecting nitrate uptake and transport could have a direct influence on NR expression in barley leaves.