Preparation of mutants of Trichoderma reesei with enhanced cellulase production

Single-cell protein: current status and future prospects

The consumption of microorganisms by man and animals is not a revolutionary new idea. For thousands of years man has consumed, either intentionally or unintentionally, such products as alcoholic beverages, cheeses, yogurt, and soya sauce and, along with these products, the microbial biomass responsible for their production. The rapid growth rate and high protein content of microbes and their ability to utilize inexpensive feedstocks as sources of carbon and energy for growth have made microorganisms prime candidates for use as human food and animal feed protein supplements. Yet, in spite of their promise, only a limited number of commercial-scale, single-cell protein (SCP) processes have been seen. Recently, with the advent of recombinant DNA technology a rebirth of interest in SCP has resulted. This review analyzes the answers to two questions: (1) how far have we come?; and (2) what impact, if any, will the new biotechnologies have in this field?

The enzymatic hydrolysis and fermentation of pretreated wood substrates

Aspenwood chips were pretreated by steam explosion. The various wood fractions obtained were assayed for their ability to act as substrates for growth and cellulase production of different Trichoderma and Clostridium thermocellum species. Steam exploded aspenwood was as efficiently utilized as solka floc and correspondingly high cellulase activities were detected in the various culture filtrates. When T. harzianum E58 was grown on increasing concentrations of solka floc, highest cellulase and xylanase activities were detected at 1% substrate concentrations while high substrate concentrations (10-20%) inhibited growth and enzyme production. When the cellulosic substrates were supplemented with increasing amounts of glucose, cellulase and xylanase production were inhibited when the glucose concentration exceeded 0.1%. Highest xylanase activities were detected after growth of T. reesei C30 and T. harianum E58 on xylan and solka floc respectively. All of the steam exploded fractions were at least partially hydrolyzed by the T. harzianum E58 cellulase system. The extent of the pretreatment also influenced the ability of Zymomonas mobilis and Saccharomyces cerevisiae to ferment the liberated sugars to ethanol. About 85% of the theoretical yield of ethanol from cellulose could be obtained from the combined hydrolysis and fermentation of pretreated aspenwood.

Paracelsin, a peptide antibiotic containing alpha-aminoisobutyric acid, isolated from Trichoderma reesei Simmons. Part A

A peptide antibiotic has been isolated from Trichoderma reesei QM 9414. Although crystalline and uniform in TLC, this antibiotic could be resolved by HPLC into 3 sequence analogues. The close relationship to alamethicin was proved by chemical and spectroscopic methods, and the formation of ion-conducting pores in lipid bilayers.

Cell growth and cellulase production in Trichoderma viride on microcrystalline cellulose

The production of CM and FP cellulases was studied during the growth of a wild strain of Trichoderma viride on microcrystalline cellulose. Part of the enzymes was found to be released into the medium while another part remained bound to the cell. Bound cellulases are released into the medium at the stage of cell lysis which takes place in the post-stationary phase. In this period extracellular CM and FP cellulases attain maximum activities. When the hyphae are subjected to a cold shock, maximum cellulase activity is detected already at the beginning of the stationary phase. an indirect method of dry cell mass determination showed that during exponential growth of cells on microcrystalline cellulose the mumax was 0.23 and the yield coefficient was 41%.

Preparation of mutants of Trichoderma viride with increased production of cellulase

Four mutant strains exhibiting increased production of cullulases were prepared by UV irradiation of conidia of Trichoderma viride QM 9414. Selected mutants were tested for production of cellulases in submerged cultivations in shake flasks and in a 30-L fermentor in a synthetic medium containing 1 % microcrystaline cellulose as the carbon source. Some mutants showed considerable morphological differences when compared to the parent strain, the most noticeable being a higher degree of branching of the mutant hyphae. The branched mutants produced 2 to 3 times higher levels of beta-glucosidase than the parent strain QM 9414.

High Cellobiase and Xylanase Production by Sclerotium rolfsii UV-8 Mutant in Submerged Culture

Sclerotium rolfsii UV-8 mutant secretes high levels of cellobiase and xylanase in addition to having high cellulase production. The apparent K m and V max of cellobiase (grown in NM-2 + 2% corn steep liquor medium) with cellobiose as a substrate were 5.6 mM and 22.2 μmol of glucose liberated per min per ml of culture filtrate, respectively. The addition of 2% corn steep liquor to NM-2 medium increased endo-β-glucanase, cellobiase, and xylanase yields by approximately 1.5-fold.

Stability of the cellulase of Trichoderma reesei under use conditions

Enzyme stability studies have been reinvestigated under the conditions used for cellulose hydrolysis (pH 4.8, 50 degrees C, 24 hr). The cellobiohydrolase (CBH) component as measured on Avicel is less stable than other enzymes of the cellulase complex, and is 60% inactivated by merthiolate (and other Hg compounds) under the above conditions. Endo-beta-1,4-glucanase is much more stable, and more resistant to merthiolate and other compounds. Under unshaken conditions the Avicelase of the Rutgers strain C 30 shows greater stability to heat than that of other available strains. Biocides must be selected not only for their ability to prevent contamination, but also for their compatibility with cellulases. Tetracycline and chlortetracycline are inexpensive, effective in very low concentrations, have no harmful effect on the enzymes, and are compatible with the yeasts that subsequently grow on the sugar solutions to produce alcohol. Attempts have been made to stabilize the enzymes by chemical modification in such a way as to maintain their solubility. Glutaraldehyde treatment greatly increased the enzyme size, lowered the pI values, and gave a slight shift in the pH activity curve. There was, unfortunately, no increase in enzyme stability, and the activity of enzymes on solid celluloses was adversely affected. Shaking greatly reduced the hydrolysis of Avicel by Trichoderma reesei C 30 enzyme. The adverse effect was accompanied by a decrease in recoverable enzyme and protein.

Analysis of cellulase proteins by high-performance liquid chromatography

A new procedure using high-performance liquid chromatography for the rapid separation of cellulase proteins is described. The cellulase components of Trichoderma reesei are fractionated on a DEAE anion-exchange column using a phosphate buffer at pH 6.2. Activities of the individual components obtained from T. reesei QM6a, a wild strain, and several mutant strains have been determined. Each system examined contained beta-glucosidase, at least two exo-beta-1,4 glucanases and five endo-beta-1,4 glucanases with the endo-beta-1,4 glucanases accounting for 20--36% and the exo-beta-1,4 glucanases for 64--80% of the soluble protein.

Enhanced Cellulase Production by a Mutant of Sclerotium rolfsii

A mutant of Sclerotium rolfsii CPC 142 that secretes about two times more filter paper-degrading activity in NM-2 growth medium in submerged cultures than the parent strain was obtained by ultraviolet mutagenesis of crushed sclerotia. The production of endo-β-glucanase in the mutant was affected to a lesser extent. With the parent strain, the addition of 3% rice bran to NM-2 medium was essential for optimal formation of cellulase, including filter paper-degrading activity. However, with the mutant the addition of rice bran to NM-2 medium increased the formation of endo-β-glucanase but not filter paper-degrading or cellobiase activity. An altered control mechanism for the production of filter paper-degrading enzymes is suggested. The genome(s) controlling the cellulase complex of enzymes in the UV-8 mutant is not under coordinate control.

Cellulose to Sugars: New Path Gives Quantitative Yield

Cellulosic residues that had been treated with a small amount of chemical solvent under room conditions were quantitatively saccharified on enzyme hydrolysis. This treatment can be used to obtain simple sugars for the production of alcohol and other chemicals.