A new facultatively anaerobic, Gram‐negative bacterium, Cytophaga sp. LX‐7, degrading crystalline cellulose completely, was isolated from soil by dilution plating on cellodextrin agarose plates. This strain could excrete extracellularly all three types of cellulase and cellulosic substrates were the strongest inducer of endocellulase with CMC‐liquefying activity production. No reducing sugar was found in cultures of cellulose during incubation. An enzyme which degrades crystalline cellulose was detected in cultures of cellulose by measuring the formation of soluble carbohydrate but was not detected by determining the reducing sugar released. This strain also synthesized cell‐bound cellobiose oxidizing enzyme which was previously noted only in fungi. Both cellulose and soluble sugars could promote the production of cellobiose oxidizing enzyme.
A previous report dealt with the cloning in Escherichia coli and sequencing of both the cDNA and genomic DNA encoding a highly active xylanase (XynA) of Aureobasidium pullulans (X.-L. Li and L. G. Ljungdahl, Appl. Environ. Microbiol. 60:3160-3166, 1994). Now we show that the gene was expressed in Saccharomyces cerevisiae under the GAL1 promoter in pYES2 and that its product was secreted into the culture medium. S. cerevisiae clone pCE4 with the whole open reading frame of xynA, including the part coding for the signal peptide, had xylanase activity levels of 6.7 U ml-1 in the cell-associated fraction and 26.2 U ml-1 in the culture medium 4 h after galactose induction. Two protein bands with sizes of 25 and 27 kDa and N-terminal amino acid sequences identical to that of APX-II accounted for 82% of the total proteins in the culture medium of pCE4. These proteins were recognized by anti-APX-II antibody. The results suggest that the XynA signal peptide supported the posttranslational processing of xynA product and the efficient secretion of the active xylanase from S. cerevisiae. Clones pCE3 and pGE3 with inserts of cDNA and genomic DNA, respectively, containing only the mature enzyme region attached by a Met codon had low levels of xylanase activity in the cell-associated fractions (1.6 U ml-1) but no activity in the culture media. No xylanase activity was detected in clone pGE4, which was the same as pCE4, except that pGE4 had a 59-bp intron in the signal peptide region. A comparison of the A. pullulans and S. cerevisiae signal peptides demonstrated that the XynA signal peptide was at least three times more efficient than those of S. cerevisiae invertase or mating alpha-factor pheromone in secreting the heterologous xylanase from S. cerevisiae cells.
Streptomyces sp. LX, newly isolated from soil, was shown to secrete a carboxylmethylcellulose (CMC)‐liquefying enzyme that cleaves the CMC chains, releasing negligible reducing terminals. The new enzyme, named component C2, was purified to homogeneity by dialysation. It has a molecular mass of 9·8 kDa. The pH optimum of the enzyme activity is 6·4 and its temperature optimum is 50°C. It retains full activity at pH 4–6·4 upon incubation at 50°C for 30 min. The enzyme has significant fragmentation activity on filter paper despite the absence of weight loss, release of reducing sugars and depolymerization during incubation with filter paper. The one‐electron oxidative reaction is shown not to participate in the fragmentation of filter paper by enzyme C2.
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