JPS606649A - Monomer - Google Patents

Abstract

NEW MATERIAL:The monomer of formula (R is H or methyl; A and B are amino carboxylic acid component of NH-Y-CO or glycolic acid component of OCH2CO provided that A and B are different from each other; Y is bivalent hydrocarbon residue; R' is lower alkyl). USE:Carrier for immobilization of enzyme. The polymer derived from the monomer of the present invention is reactive with the amino compound of enzyme, protein, pharmacologically active substance, etc., and is useful for the immobilization of enzyme or in a pharmaceutical field. PREPARATION:For example, the compound of formula can be prepared by reacting a bromoacetylated compound with acrylic acid or methacrylic acid in ethyl acetate containing hydroquinone in the presence of triethylamine.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) This invention relates to a novel monomer. The polymer obtained using the substance of the present invention has a side chain that is easily substituted with an amine compound, and can be expected to be used for enzyme immobilization and in the pharmaceutical field.

(Prior art) An enzyme immobilization carrier needs to contain a functional group that easily reacts with the amino group of a general captured enzyme.

Certain esters of P-methacrylamidobenzoic acid and polymers derived therefrom are known in the field of ε, and hydroxyl compounds (such as hydroxybenzotriazole and N
-Hydroxysuccinimide) is released, and the enzyme is known to have an activity in which the enzyme is fixed to the polymer side chain in the form of an amide. (LuChen Gxun et al., J. Po
lym, Set, Chem, Ed.

rq, 3333<+qg+'>) This compound uses very special raw materials as the hydroxyl compound component.

On the other hand, ethoxycarbonyl methyl ester of methacrylic acid is also known, but it can be incorporated into a polymer to provide reaction activity with the above-mentioned amino compound only when used in a small proportion as a copolymer. (H, 6s
ter et al., Angew, Chem,, ss, 576 (1
976); Same.

Makromol, Chem, 181.2495<1
980>) (Object of the Invention) The present invention is characterized by a substance that has the function of reacting with and immobilizing amino compounds such as enzymes, proteins, and pharmacologically active substances, which is particularly easy to synthesize and has an active side chain. The present invention provides a monomer capable of forming a high molecular weight homopolymer having the following properties.

(Structure of the Invention) This invention is a monomer represented by the general formula %. This is A, B is NH-
A divalent group based on aminocarboxylic acid represented by Y-Co, or a divalent group based on glycolic acid represented by 0CHZCO, which is different from 1A and B. Moreover, R is a hydrogen atom or a methyl group. Further, R' is a lower alkyl group such as ethyl, butyl, methyl,
Y is methylene, ethylidene, ethylene, trimethylene,
It is a divalent hydrocarbon group such as tetramethylene or &iP-phenylene.

That is, among these compounds, those in which A = NH-Y-CO have an aminocarboxylic acid component lost in an amide bond in the acryloyl (in the case of R = H) or methacturoyl (R' = CH3) moiety as a polymerizable component. The gelcolic acid ester component has a structure in which its hydroxyl group is bonded as an ester. Further, A '' OCH2CO is an acrylic ester having a structure in which acrylic acid-glycolic acid-amino acid are linked in the order, and in either case, it is a polymerizable compound (monobu).

The monomers of the present invention are listed below in °C when R'=CzHs, Y=CeH< and Y=CHCHs.

C) h = CRCONHCs H4COOCH2COO
C2H5(1)CH3 CH2=CRCOOCI42 C0NHCs H4CO
OC2Hs (3) CH2=CRCOOCH2CONH
CHCOOC2H6(4)Use H3~ (Function, Effect) By polymerizing the monomer of the present invention by a known method, it can be made into a homopolymer or copolymer having a side chain with a characteristic structure. This side chain has an ester bond in which the hydroxyl group of the glycolic acid ester is condensed with the carboxyl group of the aminocarboxylic acid, and this ester between an amino acid and glycolic acid can be substituted by an amino compound such as an enzyme. It can be expected to have excellent activity. Such reactivity was known for esters between hippuric acid and glycolic acid in low molecular weight compounds (RlSchwyzer et al., He1v C
Him, Acta, 38.69 (1955)),
Introducing this bond into the side chain of a polymer and applying it to enzyme immobilization is a novel technical idea.

・ Unlike the literature of KO8ter and others mentioned above, Aku1
This type of monomer, in which an amino acid component is interposed between the nor component and the glycolic acid ester component, can be used in the form of a homopolymer, which frequently contains active groups.

The present invention will be explained below using specific examples.

Example 1 Ethyl p-aminobenzoate was dissolved in the presence of triethylamine.

Bromoacetylated amino group BrcH, coNnc, u4cooc! IH, (1
) was obtained.

m, p 122.5-124.5°C (l it, 1
21.0-121.5℃) or less margin 1 (, W, Johnson Jr., and Y, Iw
ata', J, Org.

Chem 3G. Pour the reaction mixture into water, separate the ethyl acetate layer, extract the aqueous layer once with ethyl acetate, and mix the mixture of organic 19# and extract with a saturated aqueous sodium carbonate solution once and with pure water. After washing twice, it is dried over sodium sulfate, the ethyl acetate is removed under reduced pressure, and the residue is recrystallized twice from a solvent containing hydroquinone.

(3, R=H) Yield 59.3%, mp, 69.5-7
0.5°C (benzene:hexane=2:1) Found C: 60.90. H:5.61. N:
4.91caled c:cto,es,H:5.41
．． N: 5.05Hs Yield 66. IX, mp-95,0-95.5℃
(from benzene) (a, R=CHs) found C:61.921 fi:5. so, N:
4.81calcd C:61.86. H:5.84
．． N: 4.82 cases 2. (Polymerization method) Mono-r-1 or Ill 1. o g to 10d
Add 5.6+y of azobisisobutyronitrile as an initiator.Pour the reaction solution into a polymerization tube, purge with nitrogen and melt seal at 60°C.
Polymerization was carried out in a constant temperature bath for 40 to 65 hours.

The violet amalgamation solution is poured into water, and the precipitated polymer is separated and dried. The viscosity is 0.597, measured at 30℃ in DMF.
Polymer from III, with a reduced viscosity of 0.22 to 0.5% at around 80% yield.
25 polymers were obtained.

Both polymers were mixed with acetone and DIVIF SDMSO.

Example 3゜(111% l p-aminobenzoate and 1 mole bromo l)
! Add tW ethyl and 1 mol of triethylamine to o+:acid ether 600Q, and flow the mixture rapidly for 6 hours ◎ After cooling, pour the reaction mixture into water, separate Misaki Ethi 7m, and extract the aqueous layer once with Io Ether. , Combine the Okinagi layer and the acetic acid layer, anti-purify twice with pure water, dehydrate with sodium sulfate, and then condense the ethyl chloride under reduced pressure. If the residue is left to stand, (V) will precipitate as crystals, so separate it. Add petroleum ether to the liquid and leave it in the refrigerator overnight.

The precipitated 1v was dissolved in warm benzene and recrystallized by adding petroleum ether. (2) is crystallized from methanol.

1v found C:58B3. H:5.87.
N: 6.32V found C: 58.51. )G
5.77, N: 6.221v and ■υcalcd C: 5
9.19. l(:5.82.N:6.29+210
．． 01 mole IV, 0.01 mole of acrylic chloride,
0.01 mole of triethylamine? Add 40 d of ethyl acetate containing the first hydroquinone and stir the reaction mixture at room temperature for 6 hours. Reconstitute the reaction mixture with water - rMl, resaturate once in a sodium water bath and twice with pure water. v “[
After 1 purification and dehydration with Naoden sodium, the or-modified ethyl was removed under reduced pressure, and the 9!4 residue was recrystallized from benzene containing a small amount of hydroquinone. Yield: 649.1%.

Imp, 125-126°C.

=(1,R=)i) Vl found C:60.61. H:5.48.
N: 4.91 calcd C: 60.65. [:5
．． 42+ N: 5.05 Example 4 003 mol of IV and 0.04 mol of methacrylic anhydride are added to 150 ml of ethyl acetate and stirred for 6 hours at room temperature.

The mixture was washed once with a saturated aqueous carbonate solution and twice with pure water, then dried over sulfuric acid (IJ), and ethyl acetate was removed under reduced pressure. The residue was recrystallized from benzene containing a small amount of hydroquinone.

Yield 813%. mp, 87-88℃ (■) −(i,
R=CH3)vn found C:61.31. ,
H:5.91. N: 4.81 calcd C: 61
．． 851 H: 5.841 N: 4.81 Example 5 ■ or ■ 1. Og, DMF or DMSo
1 mol % of AIBN as an initiator and polymerized at 60° C. for 40 hours in a sealed tube. The M mixture solution is poured into water, and the precipitated polymer is separated and dried.

Solvent yield reduced viscosity ■From DMF 68.3 0.19 DM50 81.3 0.65 ■From DMF 74.9 0.21 DM50 73.7 0.38 Reduced viscosity was measured at 30° C. in DMF, O,”4/　.

Example 6 N-methacryloylalanine was obtained from methacrylic acid chloride and alanine by the Jonten-Bauman method, and this was condensed with ethyl bromoacetate in the presence of triethylamine to obtain N-methacryloylalanine ethoxycarbonylmethyl ester (■) = (2, R =CH3) was obtained. The reaction was carried out using ethyl acetate as a solvent and heated under reflux for 6 hours. Yield 947%.

Found C: 54.76, H near, 20. N:
5.71caled C:54.31. H near, 00
．． Polymerization of N: 5.76 (■) was carried out using DMF as in Example 5.
In addition, the findings of the spectra of (■) to (Vllll) are as follows.

(Vl) is an amide at 1650 cm in the IR spectrum,
1710.1740 Absorption of ester in cnL-1, N
MR Spectrum Teha 9:5-8. Phenyl proton B511p in OF [amide proton in n, 6.2.6.4
- has methylene attached to the vinyl group, methylene proton at 48P, methyl proton peak at 1,5.1.2ppHl, (VID is IR spectrum (same as VD, but NMR spectrum is 7.7 A peak of (CH2=)ton appeared at phenyl proton, 57.5.3 F. The IR spectrum of (■) was 160 ocTL-t
The absorption of the double bond is 7.9.8 in the NMR spectrum.
Amide proton at 1-, 56.5, 2 ppHl (C
H2=) proton peak appeared 0 Patent applicant Daicel Chemical Industries, Ltd.

Claims (1)

[Claims] In the general formula CH2=CRCOABOR', R is a hydrogen atom or a methyl group, and ANB is NH-Y-CO
A and B are different. Y is a divalent hydrocarbon residue, and R' is a lower alkyl group. ) A monomer represented by