中国毛霉的三个新记录种

报道了中国毛霉属的三个新记录并对它们进行了描述和简短的讨论。它们是：Mucor hiemalis f.luteus, Mucor racemosus f. chibinensis.和Mucor racemosus f. sphaerosporus.     

Fed-batch Cultivation of Mucor indicus in Dilute-acid Lignocellulosic Hydrolyzate for Ethanol Production

Mucor indicus fermented dilute-acid lignocellulosic hydrolyzates to ethanol in fed-batch cultivation with complete hexose utilization and partial uptake of xylose. The fungus was tolerant to the inhibitors present in the hydrolyzates. It grew in media containing furfural (1 g/l), hydroxymethylfurfural (1 g/l), vanillin (1 g/l), or acetic acid (7 g/l), but did not germinate directly in the hydrolyzate. However, with fed-batch methodology, after initial growth of M. indicus in 500 ml enzymatic wheat hydrolyzate, lignocellulosic hydrolyzate was fermented with feeding rates 55 and 100 ml/h. The fungus consumed more than 46% of the initial xylose, while less than half of this xylose was excreted in the form of xylitol. The ethanol yield was 0.43 g/g total consumed sugar, and reached the maximum concentration of 19.6 g ethanol/l at the end of feeding phase. Filamentous growth, which is regarded as the main obstacle to large-scale cultivation of M. indicus, was avoided in the fed-batch experiments.     

Ethanol production from hexoses, pentoses, and dilute-acid hydrolyzate by Mucor indicus

Consumption of hexoses and pentoses and production of ethanol by Mucor indicus were investigated in both synthetic media and dilute-acid hydrolyzates. The fungus was able to grow in a poor medium containing only carbon, nitrogen, phosphate, potassium, and magnesium sources. However, the cultivation took more than a week and the ethanol yield was only 0.2 gg(-1). Enrichment of the medium by addition of trace metals, particularly zinc and yeast extract, improved the growth rate and yield, such that the cultivation was completed in less than 24 h and the ethanol and biomass yields were increased to 0.40 and 0.20 gg(-1), respectively. The fungus was able to assimilate glucose, galactose, mannose, and xylose, and produced ethanol with yields of 0.40, 0.34, 0.39, and 0.18 gg(-1), respectively. However, arabinose was poorly consumed and no formation of ethanol was detected. Glycerol was the major by-product in the cultivation on the hexoses, while formation of glycerol and xylitol were detected in the cultivation of the fungus on xylose. The fungus was able to take up the sugars present in dilute-acid hydrolyzate as well as the inhibitors, acetic acid, furfural, and hydroxymethyl furfural. M. indicus was able to grow under anaerobic conditions when glucose was the sole carbon source, but not on xylose or the hydrolyzate. The yield of ethanol in anaerobic cultivation on glucose was 0.46 g g(-1).     

Microbial transformation of the sesquiterpenoid (-)-maalioxide by Mucor plumbeus

Microbial transformation of the sesquiterpenoid (-)-maalioxide by the fungus Mucor plumbeus gave three metabolites, 9beta-hydroxymaalioxide, 1beta-hydroxymaalioxide and 7beta-hydroxymaalioxide. 9beta-hydroxymaalioxide and its structure was established on the basis of its spectroscopic properties and chemical reactions.     

Evaluation of inoculum performance for enhancing gamma-linolenic acid production from Mucor rouxii

Aims: To facilitate a cost‐effective preparation of spore inoculum with good capacity for gamma‐linolenic acid (GLA) production from Mucor rouxii. Methods and Results: Sporangiospore production, mycelial growth ability and fatty acid composition of M. rouxii were determined. Compared with fungal cultivation on solid semi‐synthetic media, high spore production was achieved from M. rouxii grown on rice grains, particularly polished rice (30·7 g kg^?1 initial substrate). Variations in the fatty acid profiles were found in the spores grown on different types of solid media, whereas the spores obtained at different ages from cultivated polished rice showed a similar fatty acid profile. Using the inocula from different spore‐forming media and culture ages, and low temperature storage, not much change in the vegetative growth of submerged cultures or fatty acid composition of mycelia was observed. Conclusion: The spores generated on polished rice exhibited a high performance for GLA production. Age of spore and timing of spore storage at low temperature did not affect on fatty acid profile of the mycelial cultures. Significance and Impact of the Study: The simple, low cost method of inoculum preparation can be applied for large‐scale production of GLA‐rich oils, which reduce a time constraint and variation in fatty acid composition.     

Isolation and characterization of an extracellular lipase from Mucor sp strain isolated from palm fruit

During our screening of lipolytic fungus which may play a role in the acidification of palm oil, we have recently isolated a Mucor sp strain. Culture conditions were optimized and the highest lipase production amounting to 57 U/ml was achieved after 6 days of cultivation. The extracellular lipase was purified 1050-fold by ammonium sulfate precipitation, carboxymethyl–sephadex chromatography and Sephadex G75 gel filtration to a final specific activity of 6600 IU/mg. The molecular weight of the homogenous lipase was determined about 42 kDa by gel filtration and SDS–polyacrylamide gel electrophoresis. The purified lipase was determined as a glycoprotein with a pI of 6.2. The Nt sequence was determined as AspGluIleGluThrValGlyXPheThrMetAspLeuProProAsnProPro and showed no homology with the sequences of the known lipases suggesting that the enzyme may be a new lipase. The purified lipase hydrolyzed both synthetic and natural triglycerides with the optimal activity recorded on trioctanoin and sunflower oil, respectively. Its activity was strongly inhibited by Triton X-100 and SDS. Metal ions such as Fe³⁺, Fe²⁺ and Hg²⁺ also decreased the lipase activity.     

Ethanol production from pentoses and sugar-cane bagasse hemicellulose hydrolysate by Mucor and Fusarium species

The fermentation of carbohydrates and hemicellulose hydrolysate by Mucor and Fusarium species has been investigated, with the following results. Both Mucor and Fusarium species are able to ferment various sugars and alditols, including d-glucose, pentoses and xylitol, to ethanol. Mucor is able to ferment sugar-cane bagasse hemicellulose hydrolysate to ethanol. Fusarium F5 is not able to ferment sugar-cane bagasse hemicellulose hydrolysate to ethanol. During fermentation of hemicellulose hydrolysates, d-glucose was utilized first, followed by d-xylose and l-arabinose. Small amounts of xylitol were produced by Mucor from d-xylose through oxidoreduction reactions, presumably mediated by the enzyme aldose reductase¹ (alditol: NADP⁺ 1-oxidoreductase, EC 1.1.1.21). For pentose fermentation, d-xylose was the preferred substrate. Only small amounts of ethanol were produced from l-arabinose and d-arabitol. No ethanol was produced from l-xylose, d-arabinose or l-arabitol.     

A note onStreptomyces No. 6, a chitosanase-producing actinomycete

This communication reports the deposit ofStreptomyces No. 6 in the National Collection of Industrial Bacteria, Aberdeen, AB2 1RY, Scotland, UK (Accession number 13037) and gives some references on its use in lysing cell walls of fungi in the Mucorales leading to protoplast formation. Its use in biotechnological fields is also referred to.