Enzymatic preparation of d-p -trimethylsilylphenylalanine

In this paper we report on the enzymatic preparation of d-p-trimethylsilylphenylalanine (d-TMS-Phe). First, dl-5-(p-trimethylsilylphenylmethyl)hydantoin␣(dl-TMS-Phe-Hyd) was synthesized chemically and subjected to bacterial hydrolysis to obtain N-carbamoyl-d-p-trimethylsilylphenylalanine (C-d-TMS-Phe), but no strains examined showed sufficient hydantoinase activity on this compound. However, Blastobacter sp. A17p-4, which is known to produce N-carbamoyl-d-amino acid amidohydrolase (DCase), was found to be able to hydrolyze C-dl-TMS-Phe prepared chemically from the hydantoin. When C-dl-TMS-Phe was hydrolyzed with cells of Blastobacter sp. A17p-4, its optical purity was low because N-carbamoyl-l-amino acid amidohydrolase (LCase) coexisted in the cells. DCase and LCase in the cell-free extract of Blastobacter sp. A17p-4 could be separated by DEAE-Sephacel column chromatography. The optimum pH for the hydrolysis of C-dl-TMS-Phe by the partially purified DCase was 8.0 and addition of 2.5 % N,N-dimethylformamide was effective in raising the substrate concentration without inactivation of DCase. Under the optimized conditions, highly optically pure (98 % enantiomeric excess) d-TMS-Phe could be obtained from C-dl-TMS-Phe with partially purified DCase. Received: 12 July 1996 / Received revision: 11 September 1996 / Accepted: 2 November 1996     

Production of d-hydantoinase by halophilic Pseudomonas sp. NCIM 5109

About 1000 bacterial colonies isolated from sea water were screened for their ability to convert dl-5-phenylhydantoin to d(−)N-carbamoylphenylglycine as a criterion for the determination of hydantoinase activity. The strain M-1, out of 11 hydantoinase-producing strains, exhibited the maximum ability to convert dl-5-phenylhydantoin to d(−)N-carbamoylphenylglycine. The strain M-1 appeared to be a halophilic Pseudomonas sp. according to morphological and physiological characteristics. Optimization of the growth parameters revealed that nutrient broth with 2% NaCl was the preferred medium for both biomass and enzyme production. d-Hydantoinase of strain M-1 was not found to be inducible by the addition of uracil, dihydrouracil, β-alanine etc. The optimum temperature for enzyme production was about 25 °C and the organism showed a broad pH optimum (pH 6.5–9.0) for both biomass and hydantoinase production. The organism seems to have a strict requirement of NaCl for both growth and enzyme production. The optimum pH and temperature of enzyme activity were 9–9.5 and 30 °C respectively. The biotransformation under the alkaline conditions allowed the conversion of 80 g l⁻¹ dl-5-phenylhydantoin to 82 g l⁻¹ d(−)N-carbamoylphenylglycine within 24 h with a molar yield of 93%. Received: 15 September 1997 / Received revision: 5 January 1998 / Accepted: 6 January 1998     

Purification and characterization of dihydroorotase fromPseudomonas putida

Dihydroorotase was purified to homogeneity fromPseudomonas putida. The relative molecular mass of the native enzyme was 82 kDa and the enzyme consisted of two identical subunits with a relative molecular mass of 41 kDa. The enzyme only hydrolyzed dihydro-l-orotate and its methyl ester, and the reactions were reversible. The apparentK _m andV _max values for dihydro-l-orotate hydrolysis (at pH 7.4) were 0.081 mM and 18 μmol min⁻¹ mg⁻¹, respectively; and those forN-carbamoyl-dl-aspartate (at pH 6.0) were 2.2 mM and 68 μmol min⁻¹ mg⁻¹, respectively. The enzyme was inhibited by metal ion chelators and activated by Zn²⁺. However, excessive Zn²⁺ was inhibitory. The enzyme was inhibited by sulfhydryl reagents, and competitively inhibited byN-carbamoylamino acids such asN-carbamoylglycine, with aK _i value of 2.7 mM. The enzyme was also inhibited noncompetitively by pyrimidine-metabolism intermediates such as dihydrouracil and orotate, with aK _i value of 3.4 and 0.75 mM, respectively, suggesting that the enzyme activity is regulated by pyrimidine-metabolism intermediates and that dihydroorotase plays a role in the control of pyrimidine biosynthesis.     

Differential effects of amino acid analogs on growth and heterocyst differentiation in two nitrogen-fixing blue-green algae

Effects of a few amino acid analogs on growth and heterocyst differentiation have been studied in two nitrogen-fixing species ofAnabaena. All the analogs except α-methyl-dl-aspartic acid inhibited growth. Exposure ofAnabaena doliolum, todl-5-fluorotryptophan anddl-p-fluorophenylalanine caused pronounced fragmentation of filaments into single cells. At low concentrations (0.01 mM), α-methyl-dl-aspartic acid stimulated growth of the strain ofA. doliolum as well as the strain of the second (unidentified)Anabaena species. Ethionine,dl-p-fluorophenylalanine,dl-5-fluorotryptophan, and canavanine blocked heterocyst differentiation, whereas α-methyl-dl-aspartic acid, α-methyl-dl-methionine,N-o-nitrophenylsulfenyl-l-tryptophan, norleucine, andS-2-aminoethyl-l-cysteine did not show any significant effect. Treatment with 7-azatryptophan,dl-β-hydroxynorvaline,l-methionine-dl-sulfoximine,l-methionine sulfone, and β-2-thienyl-dl-alanine led to a twofold increase in heterocyst frequency. Possible modes of action of the analogs in growth inhibition and changes in heterocyst frequency are discussed.     

Enzymatic production of <Emphasis Type="SmallCaps">l</Emphasis>-amino acids from the corresponding <Emphasis Type="SmallCaps">dl</Emphasis>-5-substituted hydantoins by <Emphasis Type="Italic">Bacillus fordii</Emphasis> MH602

Bacillus fordii MH602 was newly screened from soil at 45 °C and exhibited high activities of hydantoinase and carbamoylase, efficiently yielding l-amino acids including phenylalanine, phenylglycine and tryptophan with the bioconversion yield of 60–100% from the corresponding dl-5-substituted hydantoins. Hydantoinase activity was found to be cell-associated and inducible. The optimal inducer was dl-5-methylhydantoin with concentration of 0.014 mol L⁻¹ and added to the fermentation medium in the exponential phase of growth. In the production of optically pure amino acids from dl-5-benylhydantoin, the optimal temperature and pH of this reaction were 45–50 °C and 7.5 respectively. The hydantoinase was non-stereoselective, while carmbamoylase was l-selective. The hydantoinase activity was not subject to substrate inhibition, or product inhibition by ammonia. In addition, The activities of both enzymes from crude extract of the strain were thermostable; the hydantoinase and carbamoylase retained about 90% and 60% activity after 6 h at 50 °C, respectively. Since reaction at higher temperature is advantageous for enhancement of solubility and for racemization of dl-5-substituted hydantoins, the relative paucity of l-selective hydantoinase systems, together with the high level of hydantoinase and carbamoylase activity and unusual substrate selectivity of the strain MH602, suggest that it has significant potential applications.     

The influence of some inhibitors on the formation of caffeic acid in cultures ofPerilla cell suspensions

A cell suspension culture, prepared fromPerilla frutescens var.crispa callus induced by Murashige and Skoog (1962) medium containing 2,4-dichlorophenoxyacetic acid (2,4-D, 1.0 ml/l) and kinetin (0.1 mg/l), contained caffeic acid derivatives as the phenolic components. Fresh and dry weights of the cells increased exponentially for about 11 days after transfer to a fresh medium. The contents of caffeic acid and protein also reached a maximum on the 11th day, but α-amino nitrogen phenylalanine and tyrosine continued to increase in amount until the 20th to 23rd day. Caffeic acid formation in the cells was increased by lowering the concentration of 2,4-D. The administration ofl-2-aminooxy-3-phenylpropionic acid (l-AOPP), 2-aminooxyacetic acid (AOA) andN-(phosphonomethyl)glycine (glyphosate) to the cells inhibited caffeic acid formation to a large extent. An 80% inhibition of caffeic acid formation was caused by 10⁻⁴Ml-AOPP whereas phenylalanine and tyrosine contents of the cells became 7.5 and 2.3 times higher at thisl-AOPP concentration than those in the control. An 85% inhibition of caffeic acid formation was achieved at 10⁻³M glyphosate concentration, while 10⁻³M AOA inhibited caffeic acid formation by 95% and also growth rate by 80%. The influence of inhibitors on caffeic acid formation is discussed in relation to the level of α-amino nitrogen, particularly aromatic amino acids, in the cell suspension cultures.     

Short-term ammonium inhibition of nitrate uptake by Azotobacter chroococcum

Addition of NH₄Cl at low concentrations to Azotobacter chroococcum cells caused an immediate cessation of nitrate uptake activity, which was restored when the added NH ₄ ⁺ was exhausted from the medium or by adding an NH ₄ ⁺ assimilation inhibitor, l-methionine-dl-sulfoximine (MSX) or l-methionine sulfone (MSF). In the presence of such inhibitors the newly-reduced nitrate was released into the medium as NH ₄ ⁺ . When the artificial electron donor system ascorbate/N-methylphenazinium methylsulfate (PMS), which is a respiratory substrate that was known to support nitrate uptake by A. chroococcum while inhibiting glutamine synthetase activity, was the energy source, externally added NH ₄ ⁺ had no effect on nitrate uptake. It is concluded that, in A. chroococcum cells, NH ₄ ⁺ must be assimilated to exert its short-term inhibitory effect on nitrate uptake. A similar proposal was previously made to explain the short-term ammonium inhibition of N₂ fixation in this bacterium.Abbreviations MOPS morpholinopropanesulfonic acid - MSX l-methionine-dl-sulfoximine - PMS N-methylphenazinium methylsulfate - MSF l-methionine sulfone     

Cloning, expression, characterization and application of atcA, atcB and atcC from Pseudomonas sp. for the production of L-cysteine

An isolate of a Pseudomonas sp. uses the l-NCC (N-carbamoyl-l-cysteine) pathway to convert dl-2-amino-Δ²-thiazoline-4-carboxylic acid (dl-ATC) to l-cysteine. Genes encoding ATC racemase (AtcA), l-ATC hydrolase (AtcB) and l-NCC amidohydrolase (AtcC), involved in this pathway, were cloned from the Pseudomonas sp. and expressed in Escherichia coli BL21 via pET-28a(+). The resulting enzymes were purified, their functions identified, and their biochemical properties are described. In vitro catalysis experiments, using these enzymes, revealed that the bioconversion rate of l-cysteine from dl-ATC in the presence of AtcA was more efficient than in the absence of AtcA. This is the first report describing simultaneous cloning and expression of atcA, atcB and atcC and characterization of their enzymes for l-cysteine production from dl-ATC via the l-NCC pathway, enabling the complete l-NCC pathway to be elucidated.     

Enantioselective synthesis ofN-acetyl-l-methionine with aminoacylase in organic solvent

We have developed an enzymatic procedure for the enantiospecific synthesis ofN-acetyl-l-methionine with aminoacylase in an organic solvent.N-Acetyl-l-methionine was most effectively synthesized with a yield of about 90% (on the basis of thel-methionine used) when the reaction mixture, composed of 100 mm sodium acetate, 20 MMdl-methionine and aminoacylase (1000 units) immobilized on celite in 1 ml ethyl acetate saturated with 32 l 140mm sodium phosphate buffer (pH 7.0) containing 0.1 mm CoCl₂, was incubated at 30°C for 24 h.N-Acetyl-l-methionine was isolated from the reaction mixture and the enantiomeric excess was 100%.d-Methionine was also isolated from the mixture with a yield of about 95% and 90% enantiomeric excess. The method is applicable to the synthesis of otherN-acetyl-l-amino acids.     

A new route to l-threo-3-[4-(methylthio)phenylserine], a key intermediate for the synthesis of antibiotics: recombinant low-specificity d-threonine aldolase-catalyzed stereospecific resolution

A new enzymatic resolution process was established for the production of l-threo-3-[4-(methylthio)phenylserine] (MTPS), an intermediate for synthesis of antibiotics, florfenicol and thiamphenicol, using the recombinant low-specificity d-threonine aldolase from Arthrobacter sp. DK-38. Chemically synthesized dl-threo-MTPS was efficiently resolved with either the purified enzyme or the intact recombinant Escherichiacoli cells overproducing the enzyme. Under the optimized experimental conditions, 100 mM (22.8 g l⁻¹) l-threo-MTPS was obtained from 200 mM (45.5 g l⁻¹) dl-threo-MTPS, with a molar yield of 50% and a 99.6% enantiomeric excess. Received: 2 September 1998 / Received revision: 27 October 1998 / Accepted: 29 November 1998     

Novel l-specific cleavage of the urethane bond of t -butoxycarbonylamino acids by whole cells of Corynebacterium aquaticum

Microorganisms capable of cleaving the urethane bond of t-butoxycarbonyl (Boc) amino acids in a whole-cell reaction were screened among stock cultures, and Corynebacterium aquaticum IFO12154 was the most promising. The conversion of Boc-Ala to Ala was stimulated by CoSO₄ in the medium and reaction mixture. The optimum whole-cell concentration was 25 mg lyophilized cells/ml. Boc-l-Met was the best substrate for this reaction, and other Boc-L-amino acids, as well as benzyloxycarbonyl-l-amino acids with hydrophobic residues, were also good substrates. Boc-d- and Z-d-amino acids were inert. When the reactions had proceeded for 24 h with each substrate at 10 mM, the molar conversion rates from Boc-l-, dl- and d-Met were 100%, 50%, and 0% respectively. From 150 mM Boc-l-Met, 143 mM l-Met was formed at a molar yield of 95.3%. Received: 3 September 1996 / Received last revision: 7 April 1997 / Accepted: 19 April 1997     

<Emphasis Type="SmallCaps">l</Emphasis>-Proline nutrition and catabolism in <Emphasis Type="Italic">Staphylococcus saprophyticus</Emphasis>

Staphylococcus saprophyticus strains ATCC 15305, ATCC 35552, and ATCC 49907 were found to require l-proline but not l-arginine for growth in a defined culture medium. All three strains could utilize l-ornithine as a proline source and contained l-ornithine aminotransferase and Δ¹-pyrroline-5-carboxylate reductase activities; strains ATCC 35552 and ATCC 49907 could use l-arginine as a proline source and had l-arginase activity. The proline requirement also could be met by l-prolinamide, l-proline methyl ester, and the dipeptides l-alanyl-l-proline and l-leucyl-l-proline. The bacteria exhibited l-proline degradative activity as measured by the formation of Δ¹-pyrroline-5-carboxylate. The specific activity of proline degradation was not affected by addition of l-proline or NaCl but was highest in strain ATCC 49907 after growth in Mueller–Hinton broth. A membrane fraction from this strain had l-proline dehydrogenase activity as detected both by reaction of Δ¹-pyrroline-5-carboxylate with 2-aminobenzaldehyde (0.79 nmol min⁻¹ mg⁻¹) and by the proline-dependent reduction of p-iodonitrotetrazolium (20.1 nmol min⁻¹ mg⁻¹). A soluble fraction from this strain had Δ¹-pyrroline-5-carboxylate dehydrogenase activity (88.8 nmol min⁻¹ mg⁻¹) as determined by the NAD⁺-dependent oxidation of dl-Δ¹-pyrroline-5-carboxylate. Addition of l-proline to several culture media did not increase the growth rate or final yield of bacteria but did stimulate growth during osmotic stress. When grown with l-ornithine as the proline source, S. saprophyticus was most susceptible to the proline analogues L-azetidine-2-carboylate, 3,4-dehydro-dl-proline, dl-thiazolidine-2-carboxylate, and l-thiazolidine-4-carboxylate. These results indicate that proline uptake and metabolism may be a potential target of antimicrobial therapy for this organism.     

Enhancement of growth and polysaccharide production in suspension cultures of protocorm-like bodies from Dendrobium huoshanense by the addition of putrescine

Putrescine at 0.6 mM stimulated protocorm-like body growth and polysaccharide synthesis in suspension cultures of Dendrobium huoshanense. The specific growth rate of protocorm-like body increased from 0.047 to 0.056 day⁻¹, and the maximum dry weight and polysaccharide production reached 33.2 and 2.94 g l⁻¹, respectively, while they were 24.6 and 2.12 g l⁻¹, respectively, in the control. The administration of polyamine inhibitor, α-dl-difluoromethylarginine, at 1 mM, decreased protocorm-like body growth and polysaccharide production to 21.4 and 1.76 g l⁻¹, respectively.     

Plant regeneration via somatic embryogenesis from in vitro tissue culture in two Tunisian Cucumis melo cultivars Maazoun and Beji

Hypocotyl, cotyledon and zygotic embryo explants from two Tunisian Cucumis melo L. cultivars Beji and Maazoun, cultured on the MS medium added with 2,4-D (0.25–1 mg l⁻¹) and BA (0.10–0.50 mg l⁻¹), produce calluses with somatic embryos after 3 weeks of culture. For Beji c.v. the highest percentage (62.50%) of embryogenesis was observed for cotyledons. The average embryo number per callus was 10.40. Embryogenesis induction for zygotic embryos reached 33.50% with 29 embryos per callus. The embryogenesis ability of hypocotyls did not exceed 12.50% (2.50 embryos per callus). Somatic embryogenesis for Maazoun c.v. explants was less efficient. Embryos formation was observed only for cotyledons (29%) and zygotic embryos (25%). Cotyledonary staged embryos, when transferred to hormone free MS medium, germinated. The maximum germination rates were 51.50 and 44.50%, respectively for Maazoun and Beji c.v. The highest percentage (36.50%) of survival plants was noted for Beji c.v. Regenerants were diploids (2n = 2x = 24) and morphologically similar to their parents issued from seeds.     

Regeneration of Syngonium podophyllum ‘Variegatum’ through direct somatic embryogenesis

A simple and effective method of regenerating Syngonium podophyllum ‘Variegatum’ via direct somatic embryogenesis has been established. Leaf and petiole explants were cultured on Murashige and Skoog (MS) medium supplemented with N-(2-chloro-4-pyridyl)-N′-phenylurea (CPPU) or N-phenyl-N′-1,2,3-thiadiazol-5-ylurea (TDZ) with either α-naphthalene acetic acid (NAA) or 2,4-dichlorophenoxyacetic acid (2,4-D). Somatic embryos directly formed at one or two sides of petiole explants on MS medium supplemented 2.5 mg l⁻¹ TDZ with 0.5 mg l⁻¹ NAA or 2.0 mg l⁻¹ TDZ with 0.2 mg l⁻¹ NAA or with 0.2 and 0.5 mg l⁻¹ 2,4-D, respectively. The frequency of petiole explants with somatic embryos produced was as high as 86% when cultured on medium containing 2.5 mg l⁻¹ TDZ with 0.5 mg l⁻¹ NAA. Up to 85% of somatic embryos were able to germinate after transferring onto medium containing 2.0 mg l⁻¹ 6-benzylaminopurine (BA) and 0.2 mg l⁻¹ NAA. Approximately 50–150 plantlets were regenerated from a single petiole explant. However, there was no somatic embryo formation from leaf explants regardless of growth regulator combinations used. Regenerated plantlets from petiole explants were stable and grew vigorously after transplanting to a soilless container substrate in a shaded greenhouse.     

Ionic liquid catalyzed synthesis and characterization of heterocyclic and optically active poly (amide-imide)s incorporating <Emphasis Type="SmallCaps">l</Emphasis>-amino acids

N,N′-Pyromelliticdiimido-di-l-alanine (1), N,N′-Pyromelliticdiimido-di-l-phenylalanine (2), and N,N′-Pyromelliticdiimido-di-l-leucine (3) were prepared from the reaction of Pyromellitic dianhydride with corresponding l-amino acids in a mixture of glacial acetic acid and pyridine solution (3/2 ratio) under refluxing conditions. A series of poly (amide-imide)s containing l-amino acids were prepared from the synthesized dicarboxylic acids with two synthetic aromatic diamines in an ionic liquid (IL) as a green, safe and eco-friendly medium and also reactions catalysis agent. Evaluation of data shows that IL is the better polyamidation medium than the reported method and the catalysis stand on the higher inherent viscosities of the obtained PAIs and the rate of polymerizations beyond the greener reaction conditions and deletion of some essential reagents in conventional manners. Characterization were performs by means of IR, MS and ¹H NMR spectroscopy, elemental analysis, specific rotation, thermogravimetric analysis and differential scanning calorimetric techniques. Molecular weights of the obtained polymers were evaluated viscometrically, and the measured inherent viscosities were in the range 0.43–0.85 dL/g. These polymers were readily soluble in many organic solvents. These polymers still kept good thermal stability with glass transition temperatures in the range of 94–154°C, and the decomposition temperature under the nitrogen atmosphere for 10% weight-loss temperatures in excess of 308°C.     

Characterization of an alpha-L-rhamnosidase from Aspergillus kawachii and its gene

An α-l-rhamnosidase was purified by fractionating a culture filtrate of Aspergillus kawachii grown on l-rhamnose as the sole carbon source. The α-l-rhamnosidase had a molecular mass of 90 kDa and a high degree of N-glycosylation of approximately 22%. The enzyme exhibited optimal activity at pH 4.0 and temperature of 50 °C. Further, it was observed to be thermostable, and it retained more than 80% of its original activity following incubation at 60 °C for 1 h. Its T ₅₀ value was determined to be 72 °C. The enzyme was able to hydrolyze α-1,2- and α-1,6-glycosidic bonds. The specific activity of the enzyme was higher toward naringin than toward hesperidin. The A. kawachii α-l-rhamnosidase-encoding gene (Ak-rhaA) codes for a 655-amino-acid protein. Based on the amino acid sequence deduced from the cDNA, the protein possessed 13 potential N-glycosylation recognition sites and exhibited a high degree of sequence identity (up to 75%) with the α-l-rhamnosidases belonging to the glycoside hydrolase family 78 from Aspergillus aculeatus and with hypothetical Aspergillus oryzae and Aspergillus fumigatus proteins. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Efficient biocatalytic production of <Emphasis Type="SmallCaps">d</Emphasis>-4-hydroxyphenylglycine by whole cells of recombinant <Emphasis Type="Italic">Ralstonia pickettii</Emphasis>

The first establishment of a homologous expression system in the host Ralstonia pickettii CGMCC1596 using the compatible broad-host-range plasmid pWB5 is described. When whole cells of the recombinant strain R. pickettii MMYY01 (CGMCC1596/pYY05) were used as the biocatalyst to transform dl-4-hydroxyphenylhydantoin (dl-HPH) to d-4-hydroxyphenylglycine (d-HPG), the conversion rate reached 94 % in first 9 h, at a production rate of 2.8 g L⁻¹ h⁻¹, with the rapid reduction of the intermediate [N-carbamoyl-2-(4-hydroxyphenyl)glycine], compared with 80 % in >50 h at a rate of 0.5 g L⁻¹ h⁻¹ for the CGMCC1596. The stability of the recombinant plasmid pYY05 is sufficient for its application in industrial batch fermentation. An alternative strategy for the conversion of dl-HPH to d-HPG by resting CGMCC1596 cells and heterologous DCase expressed by E. coli is discussed.     

Betaine Tripled the Volumetric Productivity of d(-)-lactate by Escherichia coli Strain SZ132 in Mineral Salts Medium

Osmotic stress restricts glycolytic flux, growth (rate and yield), d-lactate productivity, and d-lactate tolerance in Escherichia coli B strain SZ132 during batch fermentation in mineral salts medium with 10% (w/v) sugar. Addition of 1 mm betaine, a non-metabolized protective osmolyte, doubled cell yield, increased specific productivity of d-lactate and glycolytic flux by 50%, and tripled volumetric productivity (from 8.6 to 25.7 mmol l⁻¹ h⁻¹; 0.8 to 2.3 g l⁻¹ h⁻¹). Glycolytic flux and specific productivity in mineral salts medium with betaine exceeded that in Luria broth, substantially eliminating the need for complex nutrients during d-lactate production. In mineral salts medium supplemented with betaine, SZ132 produced approximately 1 mol d-lactate (90 g) per 100 g sugar (glucose or sucrose). Revisions requested 17 January 2006; Revisions received 7 February 2006     

Chum salmon trypsin-catalyzed preferential formation of peptides containing D-amino acid

Summary. Chum salmon trypsin-catalyzed peptide synthesis has been studied by using nine series of "inverse substrates," i.e., p-amidinophenyl, p- and m-guanidinophenyl, p- and m-(guanidinomethyl)phenyl, and four position isomers of guanidinonaphthyl esters derived from N ^α -(tert-butyloxycarbonyl)amino acid as acyl donor components. They were found to couple with an acyl acceptor such as l-alanine p-nitroanilide to produce dipeptide in the presence of trypsin. All substrates tested in this study undergo less enantioselective coupling reaction, and the coupling product was the favorably obtained d-series rather than l-series (in the present case; N ^α -Boc-d-Ala and N ^α -Boc-l-Ala). The optimum condition for the coupling reaction was studied by changing the organic solvent, buffer solution, pH, and acyl acceptor concentration. It was found that the enzymatic hydrolysis of the resulting product was negligible. Received August 10, 2000 Accepted December 2, 2000