A cellulolytic enzyme was isolated from a commercial cellulase preparation form Aspergillus niger. A yield of about 50mg of enzyme was obtained per 100g of commerial cellulase. The isolated enzyme was homogeneous in the ultracentrifuge at pH 4.0 and 8.0, and in sodium dodecyl sulphate/polyacrylamide-gel electrophoresis but showed one major and two minor bands in disc gel electrophoresis. No carbohydrate was associated with the protein. Amino acid analysis revealed that the enzyme was rich in acidic and aromatic amino acids. Data from the amino acid composition and dodecyl sulphate/polyacrylamide-gel electrophoresis indicated a molecular weight of 26000. The purified enzyme was active towards CM-cellulose, but no activity towards either cellobiose or p-nitrophenyl beta-D-glucoside was detected under the assay conditions used. The pH optimum for the enzyme was pH 3.8-4.0, and it was stable at 25 degrees C over the range pH 1-9; maximum activity (at pH 4.0) was obtained at 45 degrees C. The cellulase was more stable to heat treatment at pH 8.0 than at 4.0. Kinetic studies gave pK values between 4.2 and 5.3 for groups involved in the enzyme-substrate complex.
The signals controlling the abundance of transcripts up-regulated (pTIP27, pTIP31, and pTIP32) or down-regulated (pTIP20 and pTIP21) after harvest in asparagus (Asparagus officinalis L.) spears were examined. pTIP27 and pTIP31 are known to encode asparagine synthetase (AS) and a β-galactosidase (β-gal) homolog, respectively. The nucleotide sequences of pTIP20, pTIP21, and pTIP32 were determined, and they encode histone 3, histone 2B, and an unknown product, respectively. Changes in respiration, soluble sugars, and abundance of the five mRNAs were similar in the tips stored as 30-mm lengths or as part of 180-mm spears. We previously hypothesized that sugars may regulate the level of AS transcripts in asparagus tissue. Asparagus cell cultures were used to test the role of sugar status in regulating gene expression. Transcript abundance for AS, β-gal, and pTIP32 was low in cells in sugar-containing medium but increased within 12 h after transferring cells to a sugar-free medium. Histone 3 and histone 2B transcripts were, in general, abundant in cells on sugar-containing medium but declined in abundance when transferred to sugar-free medium. When cells were returned to sugar-containing medium the abundance of transcripts for histone 3 and histone 2B increased, whereas that for AS, β-gal, and pTIP32 decreased. Soluble sugar levels are known to decline rapidly in the tips of harvested spears. Metabolic regulation by sugar status may have a major influence on gene expression in asparagus spears and other tissues after harvest.
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