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
1997-07-28
2001-04-10
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
06214608
ABSTRACT:
The present invention relates to a novel process for resolving racemates of primary and secondary heteroatom-substituted amines by reaction with an ester in the presence of a hydrolase and subsequent separation of the enantioselectively acylated heteroatom-substituted amine from the other, unreacted, enantiomer of the heteroatom-substituted amine.
WO 95/08636 describes a process for resolving racemates of primary and secondary amines by reaction with an ester in the presence of a hydrolase. The preferred amines mentioned therein are primary arylalkylamines. However, there is no reference to the usability of heteroatom-substituted amines.
We have now found, surprisingly, that the process described at the outset functions particularly advantageously when the heteroatom-substituted amine used is an amine of the general formula I
where
n is 0, 1, 2, 3;
Y is O, S, NH, NR
5
;
R
1
, R
2
are each, independently of one another, H, alkyl, or aryl or R
1
and R
2
or R
2
and R
3
, or R
1
and R
4
are, together with the adjacent carbon atoms, part of a ring system;
R
4
is alkyl or arylalkyl;
R
3
, R
5
are, independently of one another, H, alkyl or arylalkyl.
We have also found a process for preparing acylated primary and secondary amines by reacting the heteroatom-substituted amines with an ester with specific catalysis by a hydrolase, wherein the acid component of the ester carries a fluorine, nitrogen, phosphorus, oxygen or sulfur atom in the vicinity of the carbonyl carbon.
The esters suitable for the process according to the invention are those which carry in the acid component of the ester an electron-rich heteroatom in the vicinity of the carbonyl carbon or in which an acceptor substituent in the form of one or more heteroatonms is located in the vicinity of the carbonyl carbon in the acid component.
The heteroatom must have at least one free pair of electrons. It can be a fluorine, nitrogen, phosphorus, oxygen or sulfur atom.
It should be located in the vicinity of the carbonyl carbon. This means that the heteroatom is bonded to a carbon atom in the position alpha, beta or gamma to the carbonyl carbon. The heteroatom can also be multiply bonded to the carbon as in the cyano group. Preferred acid components in the ester are those in which the heteroatom is bonded to the alpha carbon atom. Oxygen is preferred as heteroatom.
The heteroatom may also be linked to other groups, eg. alkyl groups. If the heteroatom is, for example, oxygen, an ether moiety is present.
Particularly suitable esters are those having the structure
where
R
1
=C
1
-C
10
-alkyl,
R
2
=C
1
-C
10
-alkyl, H
R
3
=H, C
1
-C
10
-alkyl, or phenyl which is unsubstituted or substituted by NH
2
, OH, C
1-4
-alkoxy or halogen,
X=O, S, NR
4
,
R
4
=H, C
1
-C
10
-alkyl, or phenyl which is unsubstituted or substituted by NH
2
, OH, C
1-4
-alkoxy or halogen,
n=0, 1 or 2.
Of these, the C
1-4
-alkyl esters of C
1-4
-alkoxyacetic acids are preferred, such as ethyl methoxyacetate.
A large number of enzymes can be used as hydrolases in the process according to the invention. Proteases and, in particular, lipases, are preferably used. Particularly suitable lipases are microbial lipases which can be isolated, for example, from yeasts or bacteria. Particularly suitable lipases are those from Pseudomonas, eg. Amano P or the lipase from Pseudomonas spec. DSM 8246.
Further particularly suitable hydrolases are the enzymes commercially obtainable from Novo Nordisk (Enzyme Toolbox), in particular lipases SP 523, SP 524, SP 525, SP 526 and Novozym® 435. These enzymes are microbial lipases which can be prepared from yeasts such as
Candida antarctica.
It is furthermore possible and advantageous to employ the lipases “Chirazyme L1 bis L8′, which are commercially obtainable (Boehringer Mannheim) in the process according to the invention.
The enzyme can be employed in native or immobilized form. The immobilized enzyme Novozym® 435 is particularly suitable.
The processes according to the invention can be carried out in the presence or absence of solvents.
Organic solvents are generally suitable as solvents. The reaction takes place particularly well in ethers, for example in MTBE, 1,4-dioxane or THF, or in hydrocarbons such as hexane, cyclohexane, toluene or halogenated hydrocarbons such as methylene chloride.
The reaction of the ester with the racemic heteroatom-substituted amine with enzyme catalysis is normally carried out at room temperature. The times for this reaction are from 1 to 48 hours, depending on the substrate. Secondary heteroatom-substituted amines usually require longer reaction times than do primary heteroatom-substituted amines. The lower reactivity of secondary heteroatom-substituted amines can also be compensated by increasing the amount of catalyst by comparison with primary heteroatom-substituted amines.
0.5-3 mol of ester are added per mol of amine to be reacted. 0.5-3, preferably 0.5-1.0, mol of ester are added even when racemic substrates are used.
The amount of enzyme to be added depends on the nature of the hydrolase and the activity of the enzyme preparation. The optimal amount of enzyme for the reaction can easily be determined by simple preliminary tests. As a rule, 1000 units of lipase are added per mmol of heteroatom-substituted amine.
The progress of the reaction can easily be followed by conventional methods, for example by gas chromatography. In the case of racemate resolution, it is sensible to terminate the reaction when 50% of the racemic heteroatom-substituted amine is reacted.
This normally takes place by removing the catalyst from the reaction, for example by filtering off the enzyme.
The enantioselective reaction of the racemic substrate with the ester results in the correspondingly acylated product (amide) from one enantiomer, while the other enantiomer remains unchanged. The resulting mixture of heteroatom-substituted amines and amide can easily be separated by conventional methods. For example, extraction or distillation processes are very suitable for separating the mixture of amine and amide.
The process according to the invention is particularly advantageously suitable for acylating heteroatom-substituted amines of the formula I. It can also be used to resolve racemates of virtually all primary and secondary heteroatom-substituted amines. It takes place particularly well with primary amino alcohols, especially those in which R
4
is arylalkyl, in particular benzyl, or alkyl, in particular methyl.
Further preferred compounds of the formula I are those where R
1
and R
2
form with the adjacent carbon atoms a ring system, in particular those of the following structure
or R
2
and R
3
are part of a ring system, in particular those of the following structure
or R
1
and R
4
are part of a ring system, in particular those of the following structure
Surprisingly, the reaction of heteroatom-substituted amines of the formula I takes place with very much higher optical yields than the similar reaction of non-heteroatom-substituted amines or those substituted differently from formula I.
Furthermore, as a consequence of the high selectivity and reactivity of the process according to the invention, only a small, or no, excess of acylating agent is needed, which greatly facilitates subsequent separation and purification.
The invention is also suitable for preparing optically active primary and secondary heteroatom-substituted amines from the corresponding racemates, by
a) enantioselective acylation of a racemic heteroatom-substituted amine with an ester whose acid component carries a fluorine, nitrogen, oxygen or sulfur atom in the vicinity of the carbonyl carbon, in the presence of a hydrolase,
b) separation of the mixture of optically active heteroatom-substituted amine and optically active acylated heteroatom-substituted amine to obtain one enantiomer of the heteroatom-substituted amine,
c) if required isolation of the other enantiomer of the heteroatom-substituted amine from the acylated heteroatom-substituted amine by amide cleavage.
The process acco
Balkenhohl Friedhelm
Ditrich Klaus
Nubling Christoph
BASF - Aktiengesellschaft
Keil & Weinkauf
Saucier Sandra E.
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