Fungi production

Hatakka A (1994) Lignin-modifying enzymes from selected white-rot fungi production and role in lignin degradation. FEMS Microbiol Rev 13 125-135... 

Gloer, j. B. and S. M. Truckenbrod, Interference competition among coprophilous fungi Production of (-t-)-isoepoxydon by Poronia punctata, Appl. Environ. Microbiol., 54, 861-864... 

Typical industrial applications that conform to the homogeneous regime are (Shaikh and Al-Dahhan 2007) cultivation of bacteria and molds/fungi, production of single-cell protein, sewage treatment, and some specific cases of animal cell culture. Hydrotreatment of heavy fractions and coal to hydrocarbon conversion are some application relevant to the chemical industry. 

Packter, N.M. Studies on the Biosynthesis of Phenols in Fungi. Production of 4-Methoxytoluquinol, Epoxysuccinic Acid and a Diacetylenic Alcohol by Surface Cultures of Lentinus degener I.M.I. 110525. Biochem. J. 114, 369 (1969). 

The product quaUty considerations for nonphotosynthetic microorganisms are similar to those for algae. Tables 6 and 7 present composition and amino acid analyses, respectively, for selected bacteria, yeasts, molds, and higher fungi produced on a large pilot-plant or commercial scale. Table 8 summarizes results of proteia quaUty and digestibiUty studies. 

Most of the bacteria, yeasts, molds, and higher fungi of interest for SCP production are deficient in methionine and must be supplemented with this amino acid to be suitable for animal feeding or human food appHcations. Also, lysine—arginine ratios should be adjusted in poultry rations in which yeast SCP is used (62). Human feeding studies have shown that only limited quantities of yeast such as Candida utilis can be added to food products without adverse effects on flavor (63). 

Mycotoxins. The condition produced by the consumption of moldy foods containing toxic material is referred to as mycotoxicosis. Molds and fungi fall iato this category and several derive thek toxicity from the production of oxaflc acid, although the majority of mycotoxias are much more complex. 

The potassium or calcium salt form of oxaUc acid is distributed widely ia the plant kingdom. Its name is derived from the Greek o>ys, meaning sharp or acidic, referring to the acidity common ia the foflage of certain plants (notably Oxalis and Mmex) from which it was first isolated. Other plants ia which oxahc acid is found are spinach, rhubarb, etc. Oxahc acid is a product of metabohsm of fungi or bacteria and also occurs ia human and animal urine the calcium salt is a principal constituent of kidney stones. 

Other bacterial strains identified as biodegrading poly(vinyl alcohol) iaclude Flavobacterium (95) 2in.dFicinetobacter (96) and many others, as well as fungi, molds, and yeasts (97). Industrial evaluations at Du Pont (98) and Air Products (99) iadicate that over 90% of poly(vinyl alcohol) entering wastewater treatment plants is removed, and hence no environmental pollution is likely. 

Sorbate combined with mild heat has a synergistic effect with regard to microbial destmction thus, in the presence of 0.025—0.06 wt % sorbate, products such as apple juice, peach and banana sHces, fmit salads, and strawberries can be treated with less severe heat treatments to extend shelf life (119,120). Sorbates increase the heat sensitivity of various spoilage fungi under varying conditions of pH and water activity (121—124). A similar synergistic effect has been reported for the combination of sorbate with irradiation (125). 

Fermentation. The commercial P-lactam antibiotics which act as starting material for all of the cephalosporins ate produced by submerged fermentation. The organisms used for the commercial production of the penicillins and cephalosporins ate mutants of PenicU/in chTysogenum and Cephalosporium acremonium respectively (3,153,154). Both ate tme fungi (eucaryotes). In contrast, the cephamycins ate produced by certain species of procaryotic Streptomyces including Streptomyces clavuligerus and Streptomyces lipmanii (21,103). 

---