Increased production of bacterial cellulose as starting point for scaled-up applications

Bacterial cellulose is composed of an ultrafine nanofiber network and well-ordered structure; therefore, it offers several advantages when used as native polymer or in composite systems.

In this study, a pool of 34 acetic acid bacteria strains belonging to Komagataeibacter xylinus were screened for their ability to produce bacterial cellulose. Bacterial cellulose layers of different thickness were observed for all the culture strains. A high-producing strain, which secreted more than 23 g/L of bacterial cellulose on the isolation broth during 10 days of static cultivation, was selected and tested in optimized culture conditions. In static conditions, the increase of cellulose yield and the reduction of by-products such as gluconic acid were observed. Dried bacterial cellulose obtained in the optimized broth was characterized to determine its microstructural, thermal, and mechanical properties. All the findings of this study support the use of bacterial cellulose produced by the selected strain for biomedical and food applications.

     

Hydration of Oleic Acid by Enterococcus gallinarum, Pediococcus acidilactici andLactobacillus sp. Isolated from the Rumen

Three ruminal bacteria found to convert oleic acid to 10-hydroxystearic acid were identified asEnterococcus gallinarum , Pediococcus acidilactici and a lactobacillus physiologically similar toLactobacillus reuteri and L. fermentum. The oleic acid-hydrating properties of the three bacteria were determined and hydration was shown to be predominantly a feature of anaerobic culture with relatively little hydration occurring in aerobic culture. Hydration was highly pH dependent and not related to cell growth. At the optimal hydration pH for each bacterium, hydration yields were 97%, 93% and 76% for the E. gallinarum, P. acidilactici andLactobacillus strains, respectively. The enterococcus and the lactobacillus hydrated oleic acid only after growth ceased whereas the pediococcus hydrated oleic acid during the late logarithmic growth. Hydration was not specific for oleic acid with all three bacteria hydrating the oleic acid homologue palmitoleic acid. None of the bacteria hydrogenated oleic acid to stearic acid. Our results suggest that a capacity to hydrate oleic acid may be a property of many lactic acid bacteria.     

A strategy for screening microbial strains with lipolytic specificity toward monoacylglycerols

For easy obtaining the microorganisms with lipolytic specificity toward monoacylglycerols, we developed a simple and effective method to isolate the objective strains. This method employed a nile-blue agar-plate culture containing mono- and tri- acylglycerols for microorganism screening and selected the desired microorganisms by analysis of free fatty acid contents in lipid extracts obtained from culture broth. Using this strategy, we successfully isolated one mold strain with superior lipolytic ability for the hydrolysis of monoacylglycerols. The mold was identified and designated as Paecilomyces nostocoides NTU-FC-LP01. The lyophilized mycelia of the isolated mold used as a biocatalyst showed high specificity toward monoacylglycerols rather than di- and tri- acylglycerols. Furthermore, the lyophilized mycelia catalyzed the monoolein synthesis through the direct esterification of oleic acid and glycerol. It indicated that the lyophilized mycelia of the present P. nostocoides NTU-FC-LP01 could be used as a natural immobilized biocatalyst for the glycerol/oleic acid esterification to produce monoolein.     

Studies on the Utilization of Hydrocarbons by Microorganisms

In the course of investigation of alicyclic hydrocarbon-utilizing microorganisms, five strains of ethylcyclohexane-utilizing bacteria were isolated from soil samples.

Among those bacteria, the strain S6B1 that was identified as Alcaligenes faecalis, showed the best growth in shaking culture.

The strain S6B1 was found to produce 4-ethylcyclohexanol from ethylcyclohexane.

This substance separated from culture broth was purified and identified to be trans-4-ethylcyclohexanol by the use of NMR.     

d-Ribose Formation by Pseudomonas reptilivora

During the course of some works on sugar metabolism in bacteria, we could find out bacteria having producibility of free d-ribose. Among 1395 strains isolated from soil, only nine strains were found to be able to produce aldopentose which was identified chromato-graphically as ribose. From cultured broth of Pseudomonas reptilivora S-1104, a representative strain among these nine strains, d-ribose was isolated in crystalline form as aldopentose. It was also found that ribose was formed not only from glucose but also from d-fructose, d-arabitol, gluconic acid, etc., and that d-fructose and a glucoside (remained unknown) were also accumulated at the same time in the culture broth of Pseudomonas reptilivora S-1104.     

Stability studies and effect of the initial oleic acid concentration on lipase production by Candida rugosa

The production of lipase by Candida rugosa in batch cultures was studied. The initial concentration of the carbon source employed, oleic acid, had an important effect on the final lipolytic activity levels. The maximum lipase/substrate yield and specific productivity obtained correspond to an initial oleic acid concentration of 2 g/l. At higher concentrations, up to 8 g/l oleic acid, specific productivity decreased. Lipase production was not observed below 1 g/l oleic acid. Lipase inactivation in culture broth due to surface forces and shear stress at the gas/liquid interface was not observed. There was no shear stress denaturation at stirring rates of 250, 500 and 750 rpm. No temperature inactivation was detected up to 50° C. Two different lipases with a similar molecular weight of 60kDa were purified from culture broth.     

Production of 10-Ketostearic Acid and 10-Hydroxystearic Acid by Strains of Sphingobacterium thalpophilum Isolated from Composted Manure

Six strains of Sphingobacterium thalpophilum were isolated from a compost mixture enriched with oleic acid. These strains converted oleic acid to 10-ketostearic acid (10-KSA; 87–94% of the total conversion product) and to 10-hydroxystearic acid (10-HSA; 6–13%) exhibiting three levels of total product yields. The predominant production of 10-KSA by these new S. thalpophilum isolates is in contrast to strain 142b (NRRL B-14797) previously isolated from a commercial compost, which produces exclusively 10-HSA. The production yield of greater than 75% 10-KSA was achieved in 36 h, acting on 0.26 g of oleic acid in 30-ml fermentation broth incubated with agitation at 28°C. For easy maintenance, fast-growth, and high bioreactivity, these S. thalpophilum strains are suited for developing a large-scale production of 10-KSA and 10-HSA. Received: 20 July 1999 / Accepted: 20 August 1999     

l-Glutamic Acid Fermentation

It is well known that biotin has a marked effect on l-glutamic acid fermentation.

The authors have intended to find strains which are independent of the amounts of biotin in the culture medium. As a result, oleic acid-requiring mutants were obtained from a strain of Brevibacterium thiogenitalis which is an auxotroph for biotin. The growth of the mutant was remarkably stimulated by Tween 20, 40, 60, Ca ions and a small amount of corn steep liquor. And also, the mutant was found to have lost its requirement for biotin and showed growth response only to oleic acid or unsaturated fatty acids.

The effect of biotin, oleic acid and other unsaturated fatty acids on the production of l-glutamic acid was investigated by using an oleic acid-requiring mutant of Brevibacterium thiogenitalis No. 653. The results described in the present paper showed that the oleic acid-requiring mutant D-248 produced a large amount of l-glutamic acid in the excess biotin-contaming media, and that oleic acid seemed to be completely replaced by other unsaturated fatty acids such as palmitoleic acid and linoleic acid.     

Production of Nucleic Acid-Related Substances by Fermentative Processes

1. Suitable agar plate media were selected for isolation of nucleotide producing strains, by salvage synthesis, from natural sources. Since this agar medium contains a high concentration of phosphates, manganese and glucose, it is specific for these bacteria.

2. With this plate medium, 113 bacterial strains accumulating 5′inosinic acid (IMP) or IMP-like substances were isolated effectively from feces of a variety of birds and mammals and from soils.

Some of the strains isolated were recognized to accumulate other nucleotides, purine bases and sugars, such as guanine nucleotides, XMP, xanthine, ribulose or xylnlose, with or without hypoxanthine in the media.

3. Five strains of IMP accumulating bacteria were identified; two were classified as Brevibacteriurm, two as Corynebacterium and one as Arthrobacterium species by taxonomical studies. But their characteristics did not completely coincide with those of bacteria described in Bergey’s manual.

4. One of the IMP producing bacteria isolated, culture No. 21–26, actually consisted of two separate strains, namely No. 21–26–101 and No. 21–26–102. The highest production of IMP or guanine nucleotides was obtained, when each strain was inoculated together to the fermentation medium from each seed culture in the same inoculum size.

5. The nucleotide productions by No. 21–26–101 or No. 21–26–102 with authentic strains were examined by the mixed culture technique. It was found that production of IMP or guanine nucleotides by Brevibacterium ammoniagenes ATCC 6871 was stimulated remarkably in the presence of No. 21–26–102.     

Fatty Acid Metabolism in Microorganisms

The production of pimelic acid from azelaic acid by microorganisms was studied. About 100 strains of bacteria which were able to utilize azelaic acid as a sole carbon source were isolated from soil and other natural materials. Among these bacteria, several strains produced a large quantity of an organic acid (pimelic acid) from azelaic acid in their culture fluids during the cultivation. The acid was isolated from the culture fluid of strain A133 in crystalline form. The crystal was identified as pimelic acid by physicochemical and biological methods.

From the results of investigations on the morphological and physiological characters, the bacterial strain A133 was assumed to be Micrococcus sp.     

Vitamin B12 production by isopropanol-assimilating microorganisms

We isolated about 500 isopropanol(IPA)-assimilating bacteria from many soil samples, among which 23 strains produced vitamin B₁₂. Taxonomical studies of the best producer, designated strain Hi16.3, showed that it belonged to the genus Arthrobacter. Vitamin B₁₂ production by the strain was higher than that by 12 other authentic Arthrobacter spp. using glucose as a sole carbon source. In fed-batch culture, the maximum production yield with strain Hi16.3 (named A. hyalinus) was 2 mg/l in the culture broth, when 80 ml of IPA/l broth was consumed.     

The Production of α-Ketoglutaric Acid from Salicylic Acid by Pseudomonas sp.†

Metabolites from salicylic acid by microorganisms were investigated. About eighty strains of bacteria which were able to utilize salicylic acid as a sole source of carbon were isolated from soil and other natural sources.

Among these bacteria, several strains produced a large amount of keto acids in the culture fluid during the cultivation. The acid was isolated from the culture fluid of strain K 102 in crystalline form. The crystal was identified as α-ketoglutaric acid by physicochemical methods. From the taxonomical studies, the isolated bacterial strains K 102 and K 362 were assumed to be Pseudomonas sp.     

Induction of Mutants from the Tartrate Producing Bacterium,Gluconobacter suboxydans and their Properties

The purpose of the present investigation is to obtain the superior mutants from the tartrate producing strain, Gluconobacter suboxydans 2026Y2 previously isolated from nature. Some mutant strains obtained by treatment with N-methyl-N′-nitro-N-nitrosoguanidine were found to accumulate L(+) tartaric acid in culture broth with much higher yield than in the case of the wild strain.

The high tartrate productivity of the mutants was followed by the low accumulation of 2-ketogluconic acid. The mutants having high assimilability of 5-ketogluconate showed high tartrate productivity.

The culture conditions for tartaric acid production by a mutant, Gl. suboxydans N-3874, were investigated. As a result, the amount of tartaric acid accumulated in culture broth reached to a level of 14.6g/liter in the medium containing 5% glucose and 0.3% corn steep liquor.     

Studies on Streptomycetes

Investigation was made on the mycological properties of a strain No. 45449 isolated from a sample of soil collected in Fukuchiyama. Since the antibiotics produced by the strain resembled hydroxymycin and paromomycin, the strain was compared with the hydroxymycin and paromomycin-producing strains, S. paucisporogenes and S. rimosus forma paromomycinus, and as a result the strain No. 45449 was found to be different from the latter two strains. Among known strains, S. flavogriseus resembles the present strain, but they are different morphologically and in the kind of the antibiotics they produce. Thus, as the strain No. 45449 was found to be a new strain, it was named S. pulveraceus nov. sp. The antibiotics produced by the present strain are physiologically basic substances active against Gram-positive and negative bacteria and acid fast bacteria, and they are considered to belong to the neomycin-kanamycin group.     

Isolation and Identification of Acetic Acid Bacteria for Submerged Acetic Acid Fermentation at High Temperature

Industrial vinegar production by submerged acetic acid fermentation has been carried out using Acetobacter strains at about 30°C. To obtain strains suitable for acetic acid fermentation at higher temperature, about 1,100 strains of acetic acid bacteria were isolated from vinegar mash, soils in vinegar factories and fruits, and their activities to oxidize ethanol at high temperature were examined. One of these strains, No. 1023, identified as Acetobacter aceti, retained full activity to produce acetic acid in continuous submerged culture at 35°C and produced 45% of activity at 38°C, while the usual strain of A. aceti completely lost its activity at 35°C. Thus the use of this strain may reduce the cooling costs of industrial vinegar production.     

The antimicrobial activity of Aspergillus fumigatus is enhanced by a pool of bacteria

In a screening program for new antibiotic producers, a strain of Aspergillus fumigatus was isolated from Brazilian soil samples. A pool of autoclaved bacteria was added to part of the fungus culture on the second day of fermentation to increase antibiotic production. The chloroform extract from the culture broth to which the pool of autoclaved bacteria was added showed an increase of 55%, 63% and more than 100% in activity against Staphylococcus aureus, Candida albicans and Micrococcus luteus, respectively. Also, the HPLC chromatographic profiles of the chloroform extracts from both culture conditions were different. Two active compounds were isolated from the broth of the culture grown in the presence of pooled bacteria and were identified as 3,4-dimethoxyphenol and 1,3,5-trimethoxybenzene.     

Antimicrobial activity of fatty acids from fruits of Peucedanum cervaria and P. alsaticum

Plants of the genus Peucedanum have been used in traditional medicine for a long time to treat different diseases including infectious diseases. The hexane fruits extracts of Peucedanum cervaria and P. alsaticum were examined for antimicrobial activity and analyzed for their fatty acid content. Fatty acid composition of oils were analyzed by GC/FID in methyl ester form. Minimal inhibitory concentrations (MICs) of fatty acid fractions against twelve reference bacterial and yeast strains were performed by the twofold serial microdilution broth method. Fourteen fatty acids were identified. Oleic and linoleic acids were found to be dominant. The extracts from both plants examined exhibited inhibitory effects against Gram‐positive strains tested with different MIC values (0.25–2 mg/ml); however, extract from P. alsaticum possessed stronger antibacterial properties and a broader spectrum. The growth of Gram‐negative bacteria and Candida spp. strains was not inhibited even at the highest extract concentration used (MIC>4 mg/ml). Standard fatty acids exhibited inhibitory effects towards all bacterial and yeast strains used in this study; however, the majority of bacteria were more sensitive to linoleic than to oleic acid. These results revealed, for the first time, that hexane extracts obtained from fruits of P. alsaticum and P. cervaria possess moderate in vitro antibacterial activity against Gram‐positive bacteria including staphylococci. Linoleic and oleic acids appear to be the compounds responsible for this effect, and a synergistic antimicrobial effect between these two fatty acids was indicated.     

Hydration of linoleic acid by bacteria isolated from ruminants

Two strains of Enterococcus faecalis isolated from the ovine rumen and known to hydrate oleic acid were shown to transform linoleic acid by hydration into two products. The products, identified as 10-hydroxy-12-octadecenoic acid and 13-hydroxy-9-octadecenoic acid, were formed during stationary phase in yields of 13% and 6% respectively. Yields increased to 22% and 14% when culture conditions were optimised. To our knowledge, this is the first report of 13-hydroxy-9-octadecenoic acid production by bacteria. During a search for further linoleic-acid-hydrating bacteria, a strain of Streptococcus bovis isolated from bovine faeces and the ruminal strain S. bovis JB1 were found to hydrate linoleic acid. Both strains formed only one product and the most rapid appearance occurred during exponential growth. The S. bovis product, identified as 13-hydroxy-9-octadecenoic acid, formed in a yield of 28%. This study provides the first information on linoleic acid hydration by ruminal bacteria.     

Extracellular Accumulation of Organic Acids by Isopropanol-utilizing Microorganisms

Isopropanol-utilizing microorganisms were newly isolated from soils and several of them accumulated two acids in the culture broth, α-ketoglutaric acid being a major one and succinic acid a minor one. Two strains (N–79 and S–1), classified as the genus Mycobacterium, were examined for the cultural conditions with respect to the accumulation of the acids. The accumulation of α-ketoglutaric acid depended greatly on the pH value in the broth, which is required to be kept at around 4 for the maximum accumulation. By means of the pH-controlled culture (at 3.5) with a jar fermentor, strain N–79 accumulated α-ketoglutaric acid at a rate of 0.015 g/liter/hr. The data obtained in this work indicate that the metabolism of isopropanol by strain N–79 probably proceeds via the acetone pathway without the inter-conversion between isopropanol and n-propanol.     

内蒙古呼伦贝尔地区传统发酵乳中乳酸菌的多样性分析

【目的】对内蒙古呼伦贝尔地区传统发酵乳制品中乳酸菌资源的生物多样性进行研究。【方法】采用纯培养和16S rRNA基因序列分析法对内蒙古呼伦贝尔地区传统发酵乳中的乳酸菌进行多样性分析。【结果】从8份传统发酵乳制品(6份酸牛奶和2份酸马奶)样品中分离到24株乳酸菌,通过16S rRNA基因序列分析和系统进化关系分析将24株乳酸菌鉴定为2株Lactobacillus kefiranofaciens、2株Lactobacillus kefiri、5株Lactobacillus paracasei、3株Lactobacillus plantarum、1株Lactobacillus rhamnosus、6株Lactococcus lactis subsp.lactis、2株Leuconostoc mesenteroides subsp.dextranicum、2株Streptococcus thermophilus和1株Enterococcus faecium。【结论】Lactococcus lactis subsp.lactis为内蒙古呼伦贝尔地区传统发酵乳制品的优势菌种,占总分离株的25%,其次为Lactobacillus paracasei,占总分离株的20.83%。