Selectivity Studies of the Benzene cis -Dihydrodiol Dehydrogenase Enzyme from Pseudomonas putida ML2 with Vicinal Diol Substrates

The enantiopure (1 S, 2 S )- cis -dihydrodiol metabolites 2B - 5B have been obtained in low yield from the corresponding monosubstituted halobenzene substrates 2A - 5A, using a wild-type strain of Pseudomonas putida (ML2) containing benzene dioxygenase (BDO). Benzene cis -dihydrodiol dehydrogenase (BCD) from P. putida ML2 and naphthalene cis -dihydrodiol dehydrogenase (NCD) from P. putida 8859 were purified and used in a comparative study of the stereoselective biotransformation of cis -dihydrodiol enantiomers 2B - 5B. The BCD and NCD enzymes were found to accept cis -dihydrodiol enantiomers of monosubstituted benzene cis -dihydrodiol substrates 2B - 5B of opposite absolute configuration. The acyclic alkene 1,2-diols 10 - 17 were also found to be acceptable substrates for BCD.     

Screening and catalytic activity in organic synthesis of novel fungal and yeast lipases

A total of 969 microbial strains were isolated from soil samples and tested to determine their lipolytic activity by employing screening techniques on solid and in liquid media. Ten lipase-producing microorganisms were selected and their taxonomic identification was carried out. From these strains Achremonium murorum, Monascus mucoroides, Arthroderma ciferri, Fusarium poae, Ovadendron sulphureo-ochraceum and Rhodotorula araucariae are described as lipase-producers for the first time. Hydrolysis activity of the crude lipases against both tributyrin and olive oil was measured. Heptyl oleate synthesis was carried out to test the activity of the selected lipases as biocatalysts in organic medium. All the selected lipases were tested as biocatalysts in several organic reactions using unnatural substrates. Lipases from the fungi Fusarium. oxysporum and O. sulphureo-ochraceum gave the best yields and enantioselectivities in the esterification of carboxylic acids. F. oxysporum and Penicillium chrysogenum lipases were the most active ones for the acylation of alcohols without steric hindrance. A. murorum lipase is very useful for the esterification of menthol. F. oxysporum and Fusarium. solani lipases were very stereoselective in the synthesis of carbamates.     

Peroxidase-Catalyzed Oxidative Phenolic Coupling of Some Tripeptides Containing Tyrosine and Hydroxyphenylglycine Residues

Several tripeptides containing tyrosine or its mono or dichloro derivative; glycine; and 4-hydroxyphenylglycine or its monochloro derivative were prepared. They were subjected to horseradish peroxidase (HRP)-catalyzed oxidative phenolic coupling. Only the products of intermolecular reaction, primarily C-O and C-C coupled dimers, were obtained.     

Microbial Synthesis of Antiviral Nucleosides Using Escherichia coli BL21 as Biocatalyst

Experimental conditions such as shaking (aeration) rate, concentration of reagents and extent of culture growth for the optimal synthesis of adenosine using Escherichia coli BL21 as biocatalyst were assessed, achieving 95% yield in 30 min of reaction using microorganisms harvested from late exponential phase. The ability of E. coli BL21 to synthesise purine nucleosides containing sugar residues such as 2'-deoxyribose, 2',3'-dideoxyribose and arabinose was also verified. 2'-Deoxyribo- and arabinonucleosides could be prepared in high yield, while the results obtained with 2',3'-dideoxyribonucleosides were not satisfactory. In the case of 2'-deoxyadenosine, using thymidine as a starting material, a yield of 94% was achieved at 45°C.     

Whole cell yeast biotransformations in two-phase systems: Effect of solvent on product formation and cell structure

Summary Biotransformation of benzaldehyde and pyruvate to (R)-phenylacetyl carbinol bySaccharomyces cerevisiae was investigated in two-phase aqueous-organic reaction media. With hexane as organic solvent, maximum biotransformation activity was observed with a moisture content of 10%. Of the organic solvents tested, highest biotransformation activities were observed with hexane and hexadecane, and lowest activities occurred with chloroform and toluene. Biocatalyst samples from biphasic media containing hexane, decane and toluene manifested no apparent cell structural damage when examined using scanning electron microscopy. In contrast, cellular biocatalyst recovered from two-phase systems containing chloroform, butylacetate and ethylacetate exhibited damage in the form of cell puncturing after different incubation periods. Phospholipids were detected in reaction media from biocatalytic systems which exhibited cell damage in electron micrographs. Phospholipid release was much lower in the two-phase systems containing toluene or hexane or in 100% aqueous biocatalytic system.     

Enzyme catalyzed biotransformations in aqueous two-phase systems with precipitated substrate and/or product

Biotransformations catalyzed by free and immobilized enzymes have been carried out in aqueous suspensions with up to 25% (w/w) precipitated substrate or product. For the kinetically controlled synthesis of N-Acetyl-Tyr-Arg-NH(2) with up to 0.8 M insoluble activated substrate N-Acetyl-TyrOEt catalyzed by alpha-chymotrypsin (EC3.4.21.1) the dipeptide yield was found to be >90%. This and the space-time yields were higher than those observed for one-phase aqueous systems and much higher than in systems where the insoluble substrate had been solubilized by addition of organic solvents. In the equilibrium controlled hydrolysis of 0.4 M D-phenylglycine-amide catalyzed by immobilized penicillin amidase (EC 3.5.1.11) the product precipitates. The enzyme immobilized in the support with the smallest pores could be reused without reduction in the rate due to precipitation in the pores. This decreases the number of immobilized enzyme molecules that can be used as biocatalysts. The latter was observed for supports with larger pores as the solubility decreases with increasing particle size. These results demonstrate that biotransformations with insoluble substrates or products using free or immobilized enzymes can be easily carried out in aqueous two-phase systems, without organic solvents, provided that the pore sizes of the supports are sufficiently small and that the rate of mass transfer from the precipitated substrate is large. The latter increases with decreasing particle size. (c) 1995 John Wiley & Sons, Inc.     

Microbial transformation of baicalin and baicalein

As a result of microbial transformation of baicalin and baicalein the products of 4′-hydroxylation of the B ring, O-methylation at C-6, and both O-methylation at C-6 and hydroxylation at C-4′ were obtained. Transformations of baicalin were accompanied by the reaction of hydrolysis.     

Biotransformation of Saponins by Endophytes Isolated from Panax notoginseng

The biotransformation of the major saponins in Panax notoginseng, including the ginsenosides Rg1, Rh1, Rb1, and Re, by endophytes isolated from P. notoginseng was studied. One hundred and thirty‐six endophytes were isolated and screened for their biotransformational abilities. The results showed that five of the tested endophytes were able to transform these saponins. These five strains were identified based on their ITS or 16S rDNA sequences, which revealed that they belonged to the genera Fusarium, Nodulisporium, Brevundimonas, and Bacillus genera. Ten transformed products were isolated and identified, including a new compound 6‐O‐[α‐L ‐rhamnopyranosyl‐(1→2)‐β‐D ‐glucopyranosyl]‐20‐O‐β‐D ‐glucopyranosyldammarane‐3,6,12,20,24,25‐hexaol ( 3 ), and nine known compounds, compound K ( 1 ), ginsenoside F2 ( 2 ), vinaginsenoside R13 ( 4 ), vinaginsenoside R22 ( 5 ), pseudo‐ginsenoside RT4 ( 6 ), (20S)‐protopanaxatriol ( 7 ), ginsenoside Rg1 ( 8 ), vinaginsenoside R15 ( 9 ), and (20S)‐3‐O‐β‐D ‐glucopyranosyl‐6‐O‐β‐D ‐glucopyranosylprotopanaxatriol ( 10 ). This is the first study on the biotransformation of chemical components in P. notoginseng by endophytes isolated from the same plant.     

Three New Lipases from Actinomycetes and Their Use in Organic Reactions

Three novel lipase-producing microorganisms have been isolated from 526 actinomycete strains by employing screening techniques on solid media. Time-course and scale-up of enzyme production were analyzed. The lipases, produced by microorganisms belonging to the Streptomyces genus, were tested in several reactions in organic medium using unnatural substrates. The lyophilized crude lipases are stable at least for 1 month at 4°C (100% recovered activity). The lipase activity per milliliter of cell culture broth was higher than described in the literature for other lipases from actinomycetes. The three selected lipases displayed better activity than commercial lipase from Candida rugosa in the resolution of chiral secondary alcohols. The lipase from S. halstedii also displayed very good activity in the synthesis of carbamates.     

Application of bacteria and fungi as biocatalysts for the preparation of optically active hydroxyphosphonates

Review on the use of whole-cell biocatalysts for the preparation of optically active hydroxyalkanephosphonates is presented. There are three general processes applied so far, namely the use of lipolytic organisms either for enantioselective hydrolysis of acyloxyalkanephosphonates or enantioselective acylation of hydroxyalkanephosphonates, the use of baker’s yeast and other fungi for bioreduction of ketophosphonates and the use of bacteria and fungi for hydrolytic oxirane ring opening in substituted 1,2-epoxyethanephosphonates.