Chemistry: molecular biology and microbiology – Process of utilizing an enzyme or micro-organism to destroy... – Resolution of optical isomers or purification of organic...
Reexamination Certificate
2000-04-03
2002-05-28
Saucier, Sandra E. (Department: 1651)
Chemistry: molecular biology and microbiology
Process of utilizing an enzyme or micro-organism to destroy...
Resolution of optical isomers or purification of organic...
Reexamination Certificate
active
06395535
ABSTRACT:
TECHNICAL FIELD
4-Halogeno-3-hydroxybutyronitrile and its ester are very important as intermediates in making pharmaceuticals, agrochemicals, ferro electric liquid crystals and optically active polymers.
PRIOR ART
As to processes for preparation of 4-halogeno-3-hydoxybutyronitrile, there are known following processes: A method for preparing it by adding cyano group to epichlorohydrin chemically or enzymatically (Japanese Patent Publication A 5-219965; T. Nakamura et al. Biochem. Biophysic. Res. Commun., Vol. 180, No.1, 124-130 (1991)). A method for preparing it by reacting 4-chloro-3-hydoxybutyronitrile in racemate with a microorganism possessing stereoselectively dehalogenating activity to obtain optically active 4-chloro-3-hydroxybutyronitrile in residue (T. Suzuki et al.; Bioorg. & Med. Chem. Lett., Vol. 6, 2581-2584 (1996); European Patent Publication A 0745681 (1996)).
However, these known methods are not suitable for mass production and therefore, more simple and economical methods have been desired.
BRIEF DESCRIPTION OF THE INVENTION
As a result of extensive investigation, the present inventors have found that optically active compounds [2] and [3] mentioned below are simply and economically prepared by reacting a racemic compound [1] mentioned below with a microorganism which has the activity stereoselectively hydrolyzing the ester portion, its culture broth or an enzyme(s) derived from the microorganism or moreover, its enzyme preparation.
That is, the present invention relates to a process for preparation of optically active compounds [2] and [3] represented by following formulae
in which R means C
2
-C
4
alkanoyl group,
which comprises reacting a racemic 4-halogeno-3-alkanoyloxybutyronitrile represented by following formula
in which R is defined above,
with a microorganism which has the activity stereoselectively hydrolyzing the ester portion, its culture broth or an enzyme(s) derived from the microorganism to make it optical resolution.
The present invention more in detail, relates to a process for preparation of an optically active compound [2] in (S) form and an optically active compound [3] in (R) form by reacting a racemic compound [1] with a microorganism which has the activity stereoselectively hydrolyzing the ester portion of (R) form, its culture broth or an enzyme(s) derived from the microorganism, and to a process for preparation of an optically active compound [2] in (R) form and an optically active compound [3] in (S) form by reacting a racemic compound [1] with a microorganism which has the activity stereoselectively hydrolyzing the ester portion of (S) form, its culture broth or an enzyme(s) derived from the microorganism.
DETAILED DESCRIPTION OF THE INVENTION
The present invention is practiced in accordance with the following method.
Optically active compounds [2] and [3] from a racemic compound [1] are obtainable by reacting the substrate [1] with an enzyme(s) which has the activity stereoselectively hydrolyzing the ester portion of compound [1], a microorganism producible such the enzyme in a solution having pH suitable for the enzyme or its culture broth.
With progress of the reaction, pH value gradually become lower due to occurrence of an alkanoic acid such as acetic acid. Therefore, it is preferable to maintain suitable pH value by adding an acid-neutralizing agent, such as a suitable alkali, e.g. aqueous calcium carbonate, aqueous sodium hydroxide, aqueous sodium carbonate or aqueous ammonia.
In case of reacting a racemic compound [1] with an enzyme(s), after adjusting pH to 6-8 with a buffer solution such as phosphate buffer etc., the reaction is preferably carried out at the temperature 24-40° C., preferably 25-37° C. and in the concentration of the substrate (0.1-80% (v/v)).
The culture medium for cultivation of the microorganisms related to the present invention is not limited as long as the microorganisms can grow in the culture medium. For example, there are illustrated carbohydrates such as glucose, galactose or sucrose, alcohols such as glycerol, organic acids or their salts such as acetic acid, sodium acetate, citric acid, malic acid, maleic acid, fumaric acid or gluconic acid, or a mixture thereof as carbon source, inorganic nitrogen compounds such as ammonium sulfate, ammonium nitrate or ammonium phosphate, organic nitrogen compounds such as urea, peptone, casein, yeast extract, meat extract, corn steep liquor or a mixture thereof as nitrogen source. Further, inorganic salts such as phosphoric acid salt, magnesium salt, calcium salt, manganese salt, iron salt, zinc salt cooper salt, or if suitable, vitamins may be used.
The microorganisms related to the present invention can be cultivated as in the usual manner, for example at pH 6-9, preferably 6.5-7.51 at the temperature 20-40° C., preferably 25-37° C., and aerobically for 10-96 hours.
According to the present invention, the objective optically active compound can be obtained by 1) adding the substrate [1] in racemate to the culture medium prepared above, or 2) mixing cells of the microorganisms obtained by centrifugation etc., or the treated cells (disrupted cells or cell-free extract) or mixing an enzyme(s) immobilized by usual way with a buffer and then adding the substrate to the mixture.
The reaction is carried out preferably at 15-50° C. and preferably at pH 4-9. Concentration of the substrate in the reaction mixture is preferably 0.1-80% (v/v) and the substrate may be added at once in the initial stage or in several times.
The reaction is usually carried out under stirring or agitation, and the reaction is preferably completed in 1-120 hours, depending on the concentration of the substrate or amount of the microorganisms. With measurement of optical purity on an optically active compound, preferably with subjecting to gas chromatography, the end point nay be preferably determined.
Thus obtained optically active compounds [2] and [3] remaining in the reaction medium are recovered and purified by extraction of them with ethyl acetate and followed by distillation or subjecting to many kinds of chromatography. For example, after removal of cells of the microorganisms from the reaction medium by centrifugation, they are extracted with a solvent such as ethyl acetate. The extract is dried with anhydrous magnesium sulfate, and then the solvent is evaporated in vacuo to obtain a mixture of optically active compounds [2] and [3] in syrup.
Additionally, extraction, distillation, and many kinds of chromatography may be carried out.
According to the present invention, optical purity of an optically active compound [3] in which the ester portion is hydrolyzed is 25-80.5% ee. Therefore, after recovery of the compound with a solvent such as ethyl acetate, the compound is again esterified and by reacting said esterified compound (in racemate) with a microorganism which has the stereoselective activity reversed to the activity of a microorganism used in the first step, culture broth thereof or an enzyme(s) derived from the microorganism, there is obtainable each optical isomer (about 40-45% yield against racemate, each optical activity field; 80-90%). In this point the process of the present invention is efficient and economical.
The microorganisms used in the present invention are ones having the activity stereoselectively hydrolyzing the ester portion of a racemic 4-halogeno-3-alkanoyloxybutyro-nitrile, preferably following four strains. Furthermore, culture broth of these microorganisms and an enzyme(s) derived from these microorganisms can be also used.
Further, by using enzyme preparations having the activity stereoselectively hydrolyzing the ester portion of compound [1], optically active compounds [2] and [3] are also obtainable. That is, by reacting a compound [1] in racemate with an enzyme preparation having the
Hatada Miki
Idogaki Hideaki
Kasai Naoya
Suzuki Toshio
Takeuchi Motoko
Daiso Co. Ltd.
Jacobson & Holman PLLC
Saucier Sandra E.
LandOfFree
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