Elizabeth J. Golightly scite author profile

Bacillus subtilis is the best-characterized member of the Gram-positive bacteria. Its genome of 4,214,810 base pairs comprises 4,100 protein-coding genes. Of these protein-coding genes, 53% are represented once, while a quarter of the genome corresponds to several gene families that have been greatly expanded by gene duplication, the largest family containing 77 putative ATP-binding transport proteins. In addition, a large proportion of the genetic capacity is devoted to the utilization of a variety of carbon sources, including many plant-derived molecules. The identification of five signal peptidase genes, as well as several genes for components of the secretion apparatus, is important given the capacity of Bacillus strains to secrete large amounts of industrially important enzymes. Many of the genes are involved in the synthesis of secondary metabolites, including antibiotics, that are more typically associated with Streptomyces species. The genome contains at least ten prophages or remnants of prophages, indicating that bacteriophage infection has played an important evolutionary role in horizontal gene transfer, in particular in the propagation of bacterial pathogenesis.

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Purification, characterization, molecular cloning, and expression of two laccase genes from the white rot basidiomycete Trametes villosa

Yaver

Golightly

et al. 1996

Appl Environ Microbiol

308

107

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Two laccases have been purified to apparent electrophoretic homogeneity from the extracellular medium of a 2,5-xylidine-induced culture of the white rot basidiomycete Trametes villosa (Polyporus pinsitus or Coriolus pinsitus). These proteins are dimeric, consisting of two subunits of 63 kDa as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and have typical blue laccase spectral properties. Under nondenaturing conditions, the two purified laccases have different pIs; purified laccase forms 1 and 3 have pIs of 3.5 and 6 to 6.5, respectively. A third purified laccase form 2 has the same N terminus as that of laccase form 3, but its pI is in the range of 5 to 6. The laccases have optimal activity at pH 5 to 5.5 and pH <2.7 with syringaldazine and ABTS [2,2-azinobis-(3-ethylbenzthiazoline-6-sulfonic acid)] as substrates, respectively. The genes lcc1 and lcc2 coding for the two purified laccases (forms 1 and 3) have been cloned, and their nucleotide sequences have been determined. The genes for lcc1 and lcc2 have 8 and 10 introns, respectively. The predicted proteins are 79% identical at the amino acid level. From Northern (RNA) blots containing total RNA from both induced and uninduced cultures, expression of lcc1 is highly induced, while the expression of lcc2 appears to be constitutive. Lcc1 has been expressed in Aspergillus oryzae, and the purified recombinant protein has the same pI, spectral properties, stability, and pH profiles as the purified native protein.

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Characterization of the gene encoding an extracellular laccase of Myceliophthora thermophila and analysis of the recombinant enzyme expressed in Aspergillus oryzae

Berka

Schneider

Golightly

et al. 1997

Appl Environ Microbiol

230

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A genomic DNA segment encoding an extracellular laccase was isolated from the thermophilic fungus Myceliophthora thermophila, and the nucleotide sequence of this gene was determined. The deduced amino acid sequence of M. thermophila laccase (MtL) shows homology to laccases from diverse fungal genera. A vector containing the M. thermophila laccase coding region, under transcriptional control of an Aspergillus oryzae ␣-amylase gene promoter and terminator, was constructed for heterologous expression in A. oryzae. The recombinant laccase expressed in A. oryzae was purified to electrophoretic homogeneity by anion-exchange chromatography. Amino-terminal sequence data suggests that MtL is synthesized as a preproenzyme. The molecular mass was estimated to be approximately 100 to 140 kDa by gel filtration on Sephacryl S-300 and to be 85 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Carbohydrate analysis revealed that MtL contains 40 to 60% glycosylation. The laccase shows an absorbance spectrum that is typical of blue copper oxidases, with maxima at 276 and 589 nm, and contains 3.9 copper atoms per subunit. With syringaldazine as a substrate, MtL has optimal activity at pH 6.5 and retains nearly 100% of its activity when incubated at 60°C for 20 min. This is the first report of the cloning and heterologous expression of a thermostable laccase.

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The identification and characterization of four laccases from the plant pathogenic fungus Rhizoctonia solani

et al. 1996

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Four distinct laccase genes, lcc1, lcc2, lcc3 and lcc4, have been identified in the fungus Rhizoctonia solani. Both cDNA and genomic copies of these genes were isolated and characterized. Hybridization analyses indicate that each of the four laccase genes is present in a single copy in the genome. The R. solani laccases can be divided into two groups based on their protein size, intron/exon organization, and transcriptional regulation. Three of these enzymes have been expressed in the fungus Aspergillus oryzae. Two of the recombinant laccases, r-lcc1 and r-lcc4, as well as the native lcc4 enzyme were purified and characterized. The purified proteins are homodimeric, comprised of two subunits of approximately 66kDa for lcc4 and 50-100kDa for the recombinant lcc1 protein. These laccases have spectral properties that are consistent with other blue copper proteins. With syringaldazine as a substrate, lcc4 has optimal activity at pH7, whereas lcc1 has optimal activity at pH6.

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A novel carbohydrate:acceptor oxidoreductase from Microdochium nivale

Golightly

Fuglsang

et al. 2001

European Journal of Biochemistry

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A Microdochium nivale carbohydrate:acceptor oxidoreductase was purified, cloned, heterologously expressed, and characterized. The gene encoding the protein showed one intron, and the ORF showed a sequence with low homology (# 25% identity or 65% similarity) to other known flavin-containing carbohydrate oxidases. The maturation of the protein required the cleavage of a tetrameric propeptide in addition to an 18 amino-acid signal peptide. The enzyme was found to have a relative molecular mass of 55 000 Da, an isoelectric point of 9, and one FAD per protein. It could oxidize mono-, oligo-, or polymeric saccharides, and transfer their electrons to O 2 or other acceptors. When d-glucose served as electrondonating substrate, an activity of 2 s 21 was observed at pH 5.5 and 23 8C. Among various oligosaccharides, the enzyme preferred tetrameric dextrins, indicating a favorable interaction of four linked glucose units with the substrate pocket. The unique structure and ability of oxidizing oligo/ polymeric saccharides suggest a promising prospect of this enzyme for various industrial/medicinal applications. Keywords:oxidoreductase; flavin; carbohydrate; Microdochium.Carbohydrate oxidases are a family of flavin-or Cu-containing enzymes that catalyze the oxidation of the primary or secondary alcohol in various saccharides with the concomitant reduction of O 2 to H 2 O 2 . These enzymes are widely distributed and play important roles in various metabolism steps. Extensive physical and chemical characterizations, including X-ray crystallography and sitedirected mutagenesis, have been carried out to elucidate the fundamental aspects of the structure-function relationship of these enzymes [1±3].Recently, carbohydrate oxidases are receiving increased attention as potential diagnostic reagents or industrial biocatalysts [3±8]. Attractive applications include (a) biotransformation of glycopolymers (glycolipids, glycoproteins, polysaccharides) into desirable materials such as sweeteners, flavourants, or paper strength additives; (b) in situ generation of oxidant H 2 O 2 for uses in food manufacturing, dyeing or bleaching of lignocellulolytic/ keratin materials, detergent, or waste-water treatment; (c) utilization of economic and stable carbohydrates, rather than expensive and unstable NAD(P)H, as electron-donor for various biocatalyses; (d) construction of biosensors for blood sugar, O 2 , or other substances; and (e) biosynthesis of functional/chiral pharmaceutical molecules. The high substrate specificity, mild operation conditions, and environmental-friendliness of bio-oxidative systems hold advantages over conventional chemical systems that are often hard to control, nonspecific, costly, or hazardous.We report here the identification, cloning, expression, and characterization of a novel carbohydrate:acceptor oxidoreductase from Microdochium nivale (MnCO). We found that this flavin-containing enzyme differs significantly from other functional analogs [such as glucose oxidase (GO; EC 1.1.3.4)] as demonstrated by its low sequence...

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