• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Sucrose 6-acylates, key intermediates in the preparation of sucralose, can be prepared by subjecting a sucrose alkyl 4,6-orthoacylate to mild aqueous acidic hydrolysis to provide a mixture of sucrose 4- and 6-­acylates and then treating the mixture with a base to convert the 4- acylate to the 6- acylate. The novel sucrose alkyl 4,6-orthoacylates are prepared by reacting sucrose in solution or suspension in an inert organic solvent with a trialkyl orthoacylate in the presence of an acid catalyst.
    公开号:SU1639430A3
    申请号:SU874203407
    申请日:1987-09-16
    公开日:1991-03-30
    发明作者:Джон Симпсон Филип
    申请人:Тэйт Энд Лайл Паблик Лимитед Компани (Фирма);
    IPC主号:
    专利说明:

    The invention relates to the chemistry of sugars, specifically to an improved process for the preparation of 6-sucrose esters of the general formula (I)
    REMOVING COLLAPSIBLE 2) Exhaust y-CH2OH
    but he but
    he
    where R4 is C-Cf-alkyl or benzyl, which are intermediate products of sucrose synthesis, the sweetness of which is several hundred times higher than the sweetness of sucrose melts.
    The purpose of the invention is to increase the yield of the target product, which is achieved by acylation of sucrose at room temperature with tri (Cj-C.-alkyl) orthoacetate in solution or suspension in an inert organic solvent in the presence of an acid catalyst, then hydrolyzed 4-6 sucrose orthoacetate of the general formula (II)
    O) OE
    CD
    J
    oo
    CH2OH
    (a BUT BUT NOH ° °
    where Ri has the indicated values;
    R C, -C 4-Achil,
    excess of theoretically required amount of water in inert
    s
    clear solvent at pH 5-6, followed by treatment with excess tertiary amine base.
    |
    Example 1. Preparation of sucrose methyl 4,6-orthoacetate.
    To a solution of sucrose (3-42 g) in dimethylformamide (27.5 ml) are added orthoacetic acid trimethyl ester (1.91 ml: 1.5 mol. Eq.) And a catalytic amount of p-toluenesulfonic acid (25 mg). Thin-layer chromatography on silica (with a mixture of n-butanol, ethanol and water in the ratio 5: 3: 2) shows the actual end of the reaction with the formation of a new compound U (0.62) and only traces of sucrose (R | 0.40) and intermediate compound (R, 0.54). Then the solution is neutralized using amberlite 1PA93 (OH), ion exchange resin, filtered, and the filtrate is evaporated in vacuo to a clear, colorless syrup (4.0 g). A sample of this substance is acetylated using a traditional method using acetic anamide NMR on

    with with structure. Mass spectrum of hexaacetate
    Roy,
    pyridine hydride
    D for H for hexaacetate-is,.
    also in agreement with the structure showing M -OCH-, equal to 619.
     Accept orthoesters.
    p 2. The splitting of complex 35
    The process described in Example 1 is carried out. After completion of the preparation of the ester, 10% by volume of water (8 mol. Eq. Based on sucrose) is added to the dimethylformamide solution without neutralizing para-toluenesulfonic acids to pH 5.5. Under these conditions, a splitting of the orthoester is observed, however, it takes at least 1 hour to restore a noticeable amount of sucrose. By increasing the acid concentration from the initial 4 to 6 mg / g of sucrose, the cleavage time is reduced to about 20 minutes and significantly less sucrose is recovered (table). If the addition of water is reduced to 5% (4 mol. Equiv.), Then the cleavage proceeds in the same way, but the rearrangement of acetate slows down.
    that
    Example 3. Getting 6-aceta-sucrose.
    s 0 5
    0
    five
    0
    five
    0
    five
    Methyl 4,6-orthoacetate of sahagüzü (1.0 g) is dissolved in water (10 ml), the solution has a pH of 5. After 1 h at ambient temperature, thin layer chromatography (a mixture of n-butanol, ethanol and water in 5: 3: 2) shows the presence of the main component at Rf 0.54, only traces of orthoacetate (Rj 0.62) and a small sucrose residue (Rr 0.40). High performance liquid chromatography of the solution after 2 hours shows the main components with a retention time of 3.46 (sucrose), 4.66 (sucrose 4-acetate) and 8.3 (6-acetate) sucrose) approximately in the ratio of 7:49:43, Then pyridine (1 ml) is added to the aqueous solution. Periodic analyzes by high performance liquid chromatography show an increase in the concentration of sucrose 6-acetate over time and a decrease in sugar 4-acetate. After 4 hours, the ratio of sucrose, sucrose 4-acetate and sucrose 6-acetate is 11: 3: 85. The solution is then concentrated to dryness, and the residue is dissolved in pyridine and evaporated in vacuo to a syrup, in order to purify the residual water. A solution of syrup in pyridine (10 ml) was left overnight on a molecular sieve (4A).
    PRI me R 4. Preparation of sucrose 6-butyrate.
    To a stirred suspension of sucrose (10 g) in pyridine (50 ml) at 75 ° C are added trimethyl ortho-butypate (5.2 ml, 1.1 mol.eq.v.) and pyridinium tosylate (500 mg). After heating for 2.5 h, the reaction mixture is concentrated under reduced pressure to obtain sucrose methyl 4,6-orthobutyrate as a clear, colorless syrup (11 g). The resulting syrup is dissolved in pyridine (40 ml), to which water (2 ml, 4 mol. Equiv.) And pyridinium tosylate (200 mg) are added to bring the reaction mixture to pH 5.5.
    After 2 h, pyridine (4 ml) is added at 20 ° C and after another 2 h the solution is concentrated to obtain a syrup (l / 16 g) containing sucrose 6-butyrate (83%), sucrose 4-butyrate (5%) and sucrose (12%), as determined by HPLC on an amino column (Du Pont Zorbax araino 4.6 mm x 250 mm), using acetonitrile-water (85:15) as eluent.
    PRI me R 5. Obtaining 6-sucrose acetate.
    Water (2 ml, 4 mol. Eq.) And tozipate pyridinium are added to the stirred suspension of the sugar mixture to bring the reaction mixture to pH 5.0.
    PS (10 g) in pyridine (50 ml) at 75 ° C, ". (400 mg). After 12 hours at 20 ° C, triethyl orthoacetate (5.9 ml, 1.1 mol. Eq.) And pyridium chloride (500 mg) are added. After heating for about 2 hours, the mixture is cooled to and, to bring the reaction mixture to pH 5.5, pyridinium chloride (200 mg) in water (2 ml, 4 mol. Equiv.) Is added. After 2 hours, pyridine (4 ml) is added at 20 ° C and after another 2 hours the solution is concentrated to a syrup (16 g) containing sucrose 6-acetate T84NT, sucrose 4-acetate (4%) and sucrose (12%), as determined by HPLC on an amino column (Du Pont Zorbax araino 4.6 mm x 25E mm), using acetonitrile-water (85:15) as eluent.
    Samples of 6-sucrose acetate purified by crystallization from methanol and receive the product with so pl. 94-96 C. (00 d +60.3 (s 2.0, water). NMR spectrum on the cores of PS (dimethylsulfoxide-d)
    pyridine (4 ml) is added, and after another 6 hours, the solution is evaporated to a syrup of approximately 15 g containing 6-benzoate sacarose (80%), 4-sucrose benzoate (8%)
    S and sucrose (12%), as determined by HPLC on an amino column (Du Pont Zorbax aminb 4.6 mm x 250 mm), using acetonitrile-water (85:15) as eluent.
    15 Example. Getting sugar-vines.
    Thionyl chloride (1.52 ml, 8 mol. Eq. Was added to a solution of triphenyl20 phosphine oxide (2.17 g, 3 mol. Equiv.) In pyridine (8 ml). The solution was heated to 50 ° C before adding the sucrose 6-tata solution in pyridine (about 1 g 10 ml). The mixture is heated to 95 ° C and you
    25 is kept at this temperature for 1 hour. The mixture is then acetylated using a known method using acetic anhydride in pyridine. Thin-layer chromatography with diethyl ether-gasoline with respect to sugar
    104.4 92.4 82.8 77.4 74.7 73.3 72.0 73.3 70.2 60.9 62.6 62.4
    Significant difference.
    Example 6. Preparation of sucrose 6-benzoate.
    To a stirred suspension of sucrose (10 g) in pyridine (50 ml) were added trimethyl orthobenzoate (6.02 ml, 1.2 mol.eq.v.) and pyridinium tosylate (500 mg). After heating for 2.5 h, the reaction mixture
    55 rounds are concentrated under reduced pressure and methanol (20 ml) is added. to obtain methyl 4,6-orthobenzoate The solution is then concentrated to dryness, sucrose as a clear, colorless syrup (11 g). The resulting syrup
    dissolved in pyridine (40 ml), co-dissolved in ethyl acetate (50 ml) and evaporated on silica gel (Merck 7734). .
    Water (2 ml, 4 mol. Eq.) and tozipate pyridinium are added to the mixture to adjust the reaction mixture to pH 5.0.
    (400 mg). After 12 hours at 20 ° C, pyridine (4 ml) is added and after another 6 hours the solution is evaporated to a syrup of approximately 15 g containing sucrose 6-benzoate (80%), sucrose 4-benzoate (8%)
    and sucrose (12%), as determined by HPLC on an amino column (Du Pont Zorbax aminb 4.6 mm x 250 mm), using acetonitrile-water (85:15) as eluent.
    Example. Getting sugar-vines.
    Thionyl chloride (1.52 ml, 8 mol. Equiv.) Was added to a solution of triphenylphosphine oxide (2.17 g, 3 mol. Equiv.) In pyridine (8 ml). The solution is heated to 50 ° C until a solution of sucrose 6-acetate in pyridine is added (about 1 g in 10 ml). The mixture is heated to 95 ° C and maintained at this temperature for 1 hour. The mixture is then acetylated by a known method using acetic anhydride in pyridine. Thin layer chromatograph-. ph diethyl ether-gasoline in the ratio of 4: 1 acetylated reaction mixture shows the main component related to sucrose pentaacetate, traces of tetraacetate tetrahporga-lactosucrose and linear material
    i base. Sugarloe pentaacetate is separated off by crystallization, dissolved in methanol and deacetylr are conveniently treated with sodium methylate by the traditional method to obtain sucrose (yield about 0.5 g).
    five
    0
    Example Obtaining methyl 4,6-orthobutyrate sucrose (characterized as hexaacetate).
    Suspension of sucrose (10 g) in pyri-. Dine (50 ml) is treated with trimethyl butyric acid ester (5.2 ml, 1.1 mol. equiv.) and pyridinium tosylate (500 ml) at 75 ° C for 2.5 h. The resulting solution is cooled to 30 ° C. and acetic anhydride (35 ml) was added, raising the temperature to. After 1 h at 60 ° C, the solution is cooled to room temperature and methanol (20 ml) is added. Then the solution is concentrated to dryness.
    dissolved in ethyl acetate (50 ml) and evaporated on silica gel (Merck 7734). .
    Chromatography on a column, eluted with a mixture of dimethyl ether-petroleum ether (2: 1) at 40-60 ° C, gives pure g Exa-acetate methyl-4,6-sucrose orthobutyrate (16.2 g, 82%), which is crystallized from a mixture diztilo; ether and petroleum ether heated to 40-60 ° C. M.p. 84-854С. (00j +55.2 (c 2.0, СНС1,). NMR spectrum on nuclei H (CDClj) i (f, ppm: 5i66 (d, 1H, H-1, Iu 3.9 Hz); 5.44 (d, 1H, H-3, 15., 7 Hz); 5.38 (dd, 1H, H-41, I, .4i-5.7 Hz, I, 5.7 Hz); 5.37 (dd, 1H, H-3, 12, 3- - 10.0 Hz, 9 Hz); 4.82 (dd; 1H, H-2, 1,% g 3.9 Hz, 1 g. s 10 Hz); 3.89 (dd, 1H, H-4, 9 G "Usr 9.7 Hz); 3.83-4.33 (multiplets 8H, H-5, H-6 (X2), H-1 (X2), H-51, H-6 (X2); 3.26 (s, 3N, -IC, 2,19 (s, 3N, -OAc); 2.12 (s, 3N , -OAc); 2.11 (s, 3N, -OAc); 2.10 (s, 3N, -OAc); 2.08 (s, 3N, -OAc); 2.06 (s, 3N, - OAc; 1.70 (m, 2H,,); 1.40 (m, 2H,,) 0.89 (t, 3N, -CHN CH2 CH3).
    E1 mass spectrum: M.ves. 678; m / e 679 647 MN-MeOH; 331 and 0V and G
    By a similar method, using the corresponding trialkyl orthoesters, the following compounds were obtained: hexa-methyl-4,6-orthoacetate-sucrose 4,6-0- (1-methoxyethylidene) -saccharose-hexaacetate.
    Crystallized from a mixture of diethyl ether and petroleum ether at a temperature of 40-60 ° C, and the like. 79-81 ° C. (0 ° + 61.0 ° (c 2.0, SIS19).
    NMR spectrum l ppm: 5.66 (d, 1H, H-1, 14D 3.9 Hz); 5.44 (d, 1H, H-3 I3 4t 5.5 Hz); 5.39 (dd, 1H, H-3, .12.3 9.8 Hz, 8 Hz); 5.37 (dd, W, H-41, 1у4 -5.5 Hz, 14 / 5- 5.5 Hz); 4.81 (dd, 1H, H-2, 1gz 9.8 Hz, 1 ,,, 9 Hz); 4.30-3.84 (m, 9H, H-4, H-5, H-6 (X2), H-11, (X2), H-5, H-6 (X2); 3.29 ( s, 3N, -Ome), 2.20 (s, 3N, -OAc), 2.12 (s, 3N, -OAc), 2.11 (s, 3N, -OAc), 2.10 (s, ЗН, -ОАс); 2.08 (s, ЗН, -ОАс); 2.07 (s, ЗН, -ОАс); 1.45 (с, ЗН, -Me). Mass spectrum: mole, weight 650 , t / e 651 619 -MeON; 33 IF OAC4 .; 303 OAcG OAce.,,
    Ethyl-4,6-ortho-acetate-rex-acetate-tatsaharo-9a-4,6-0- (1-ethoxyethylidene sugar-hexaacetate.
    The ich mixtures were crystallized with diethyl ether-petroleum ether at 40 ° C, so pl. 93-95 C, (oi) j, +59.2 (c 2.0, СНС1в). , /.
    NMR at H (CDC1,),
    COP FT
    5.64 (d, 1H, H-1, 3.8 Hz),
    5.43 (d, 1H, H-3, I, ... | 4i 5.5 Hz);
    5.38 (dd, 1H, H-3, b., 9 Hz, t, 10.2 Hz); 5.36 (dd, 1H, H-4, I5 (4las 5.6 Hz, I4; ff. 5.6 Hz); 4.82 (dd, W, H-2, 9.9 Hz 1 (2, 3.8 Hz); 4.33- 3.85 (m, 9H, H-4, H-6 (X2), H-1 (X2),
    5, H-5, H-6 (X2); 3.51 (s, 2H,
    —OCH2CH3); 2.20 (s, 3N, -OAc); 2.12 (s, 3N, -OAc); 2.11 (s, 3N, -OAc), 2.10 (s, 3N, -OAc); 2.08 (s, 3N, -OAc); 2.07 (s, 3N, -OAc); 1.46 (s,
    0 ZN, -CH); 1.26 (t, 3N;,). Mass spectrum: mol. weight 664, ha / e 665 MN +; 619-EtOH; 331 F OAc4; 317, ОАсО + ОАсг. Methyl 4,6-orthobeneatol xaacetate
    5 sucrose syrup, (oOD + 40.8 ° (c 2.0,
    CHClg).
     NMR spectrum on fH (CDC13), ppm: 7.52-7.28 (m, 5HS Ph), 5.71
    (d, 1H, H-1, IU, 3.9 Hz); 5.51 (dd, 0 1H, H-3, 1g., 0 Hz, 1.9.8 Hz);
    5.44 (d, 1H, ft-3, I, -4, 5.6 Hz); 5.37 (dd, 1H, H-4, l, .4, 5.6 Hz, t4 5r 5.7 Hz) - 4.91 (dd, 1H, H-2, 1 ", - 3.9 Hz, 1g ,, 0 Hz), 4.08 (dd,
    5 W, H-4, 1% .9.8 Hz, 4 Hz); 4.04-4.30 (m, 8H, H-5; H-6 (X2). H-1 (X2), R-5, H-6 (X2); 3.06. (S, 3N. -OCH); 2.17 (s. ZN.-OAc), 2.12 (s, 3N, -OAc); 2.11 (s, 3N, -OAc);
    0 2.10 (s, 3N, -OAc); 2.09 (s, 3N,. -OAc); 2.02 (s, 3N, -OAc).
     Mass spectrum: mol. weight 712, ha / e MN -MeON; 365, OBzC OAcG; 331 F OAc4.
    5 Thus, the proposed method allows to increase the yield of 6-esters of sucrose.
    权利要求:
    Claims (1)
    [1]
    Invention Formula
    The method of obtaining the 6-esters of sucrose of the General formula
    CHaOCORi HOCH2
    BUT () О «g СН2ОН l„
    but he but
    he
    where TC is C-C-alkyl or benzyl, including the reaction of sucrose with an acylating agent, characterized in that, in order to increase the yield of the desired product, three (C, -S-f-alkyl) orthoacetate is used as the acylating agent at room temperature by acylation of sucrose in solution or suspension in an inert organic solvent in the presence of an acid catalyst by hydrolysis of the resulting 4,6-sucrose orthoacetate of the general formula
    but
    ft "uV °
    RI (
    About CHZOH
    / 3 „„ o | jyCH2OH
     no0 he
    where R, has the indicated meanings;
    R2 - Cm-C-alkyl,
    with an excess of the theoretically required amount of water with an inert polar organic solvent at pH 5-6, followed by treatment with an excess of a tertiary amine base.
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    同族专利:
    公开号 | 公开日
    ZA876948B|1988-05-25|
    IL83911A|1992-11-15|
    IL83911D0|1988-02-29|
    US4889928A|1989-12-26|
    FI85493B|1992-01-15|
    EP0260979A2|1988-03-23|
    DE3770096D1|1991-06-20|
    NO167092C|1991-10-02|
    FI874044A0|1987-09-16|
    GB2195632B|1990-10-03|
    AU594502B2|1990-03-08|
    ES2054683T3|1994-08-16|
    PT85745A|1987-10-01|
    GR3002069T3|1992-12-30|
    FI874044A|1988-03-18|
    IE872509L|1988-03-17|
    JPS63165394A|1988-07-08|
    GB2195632A|1988-04-13|
    NO167092B|1991-06-24|
    MX8358A|1993-12-01|
    KR950007922B1|1995-07-21|
    PT85745B|1990-07-31|
    DK487187D0|1987-09-16|
    GB8721855D0|1987-10-21|
    GB8622345D0|1986-10-22|
    NO873850D0|1987-09-15|
    KR880003966A|1988-06-01|
    JP2505817B2|1996-06-12|
    IE61065B1|1994-09-21|
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    FI85493C|1992-04-27|
    AT63561T|1991-06-15|
    JP2705921B2|1998-01-28|
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    EP0260979A3|1988-12-07|
    CA1291127C|1991-10-22|
    AU7849887A|1988-03-24|
    DK487187A|1988-03-18|
    DK166827B1|1993-07-19|
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    引用文献:
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    GB868622345A|GB8622345D0|1986-09-17|1986-09-17|Sucrose derivatives|LV920527A| LV5137A3|1986-09-17|1992-12-29|Saturation of sucrose 6-esters|
    LTRP677A| LT2151B|1986-09-17|1993-06-22|SACHAROSES 6-ESTER RECEIVING BUDGET|
    MD94-0109A| MD126C2|1986-09-17|1994-03-23|Method of obtaining of 6-ethers saccharose|
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