CN1966504A - Guanine one-pot synthesis method - Google Patents
Guanine one-pot synthesis method Download PDFInfo
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- CN1966504A CN1966504A CN 200510110536 CN200510110536A CN1966504A CN 1966504 A CN1966504 A CN 1966504A CN 200510110536 CN200510110536 CN 200510110536 CN 200510110536 A CN200510110536 A CN 200510110536A CN 1966504 A CN1966504 A CN 1966504A
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Abstract
The invention discloses a synthesis method for guanine, which includes the following steps: carrying out a cyclization reaction of guanidine nitrate and ethyl cyanoacrylate to obtain the compound of 2, 4-diamino-6-hydroxypyrimidine in formamide solvent, adding sodium nitrite, formamide and concentrated formic acid in turn, and carrying out nitrosation and reduction reaction with reducing agent and cyclization reaction to obtain the final product. The invention is the use of ''one-pot'', and the raw materials are fat chain ethyl cyanoacrylate and guanidine nitrate, which are directly from market, cheap and easy to get, without need of separation and purification of pyrimidine intermediates. Guanine is prepared by one step through effective control of reaction conditions, feeding sequence and ratio. The product is purified through adjusting pH, which has high yield and is easy to operate.
Description
Technical field
The present invention relates to one kettle way (One pot) synthetic method of the synthetic method of guanine, particularly a kind of guanine.
Background technology
Guanine is the important substance of synthetic antiviral.As antiviral acyclovir (ACV) and more acyclovir (GCV) antiviral synthetic all be to be the starting raw material synthetic by guanine.Its chemical name is: 2-aminopurine, molecular formula is: C
5H
5N
5O, structural formula be synthetic route Chinese style 6 as follows.Because the water-soluble and ester dissolubility of guanine is extreme difference all, although therefore guanine early has the method for chemosynthesis, obtain the product that nitrogen content meets the ultimate analysis requirement is more scabrous problem always.Simultaneously, need polystep reaction mostly from the synthetic guanine of aliphatic chain compound (as Guanidinium nitrate and ethyl cyanacetate), the synthetic method of patent report nearly all is to be that raw material begins synthetic from the substituted pyrimidines compound, like this must earlier synthetic this class substituted pyrimidines compound, and reactions steps is longer.
Steffen etc. report in EP415028 that with 2,4 the vitriol of 5-triamino-6-hydroxy pyrimidine (TAHP vitriol) is raw material, with the formic acid of content more than 99% 200DEG (degree centigrade) reaction, the preparation guanine.But need polystep reaction just can make TAHP vitriol, and can use by separation and purification.In addition, because the TAHP instability must be made TAHP vitriol earlier, thereby bring a large amount of inorganic salt into, make troubles for the purifying of crude product guanine, the purifying expense is relatively more expensive.
In DE4136114, introduced the method for another kind of synthetic guanine.By 2,4-diamino-6-hydroxy-5-methyl amide group pyrimidine (DAFHP) reacts more than 140DEG with methane amide (in 1: 2~1: 3 ratio), and adds a small amount of formic acid (about 10%), synthetic guanine.DAFHP can be by what introduce among the EP0267594, and by 2,4-diamino-6-hydroxyl-5-nitroso-group pyrimidine obtains TAHP vitriol through catalytic hydrogenation, makes under mineral acid catalysis with formic acid again.Reactions steps is various, and preparing guanine from substituted pyrimidines at least also has three-step reaction.
Another kind method is to introduce among the EP690056, by 2,4-diamino-6-hydroxyl-5-nitroso-group pyrimidine (DAHNP, structural formula such as synthetic route Chinese style 4) under the catalysis of rare metal (as Pd/C) in 200DEG and formic acid/formamide, behind NaOH solution washing and recrystallization, to the pH=9.5 after-filtration, obtain HPLC purity and be 98.5% guanine with 85% formic acid residual titration.The DAHNP that this method must be purified with preparation is that raw material synthesizes guanine, and also will count the step reaction by the synthetic DAHNP of aliphatic chain compound, and synthetic route is also long.
In EP1010700 (patent family application of CN1262273A), introduced a kind of industrial method for preparing guanine.It is that 4-diamino-6-hydroxy-5-methyl amide group pyrimidine (DAFHP) obtains guanine through the cyclization under the boiling point concentration at formic acid under the high pressure (4-5bar) of dense formic acid by isolated 2.The reductive agent that also must add catalytic amount in the reaction is as Pd/C etc.This method yield is more than 90%, but will be that raw material prepares guanine by the DAFHP that obtains through the reaction of number step.
Summary of the invention
The technical problem to be solved in the present invention promptly is to overcome above-mentioned defective of the prior art, provides a kind of and begins to synthesize from the aliphatic chain compound, need not separation, purify intermediates, the one-pot synthesis method of the guanine of synthetic route short (an only step).
The present invention realizes by following technical proposal: a kind of one-pot synthesis method of guanine, and it comprises the following step that carries out continuously:
Guanidinium nitrate (structural formula such as synthetic route Chinese style 2) and ethyl cyanacetate (structural formula such as synthetic route Chinese style 1) are carried out ring-closure reaction, resultant compound 2,4-diamino-6-hydroxy pyrimidine (structural formula such as synthetic route Chinese style 3) is in its formamide solvent, the mixing solutions and the reductive agent that add Sodium Nitrite, methane amide and dense formic acid successively carry out nitrosification, reduction reaction, further carry out ring-closure reaction again and make guanine.
Wherein, described ethyl cyanacetate and Guanidinium nitrate ring-closure reaction obtain compound 2, the method of 4-diamino-6-hydroxy pyrimidine (formula 3 compounds) can adopt technology, as in being added with alkali-metal alcoholic solvent, after adding Guanidinium nitrate, be heated to 50 ℃ of reflux temperatures, stir, add the ethyl cyanacetate reaction again and obtain to alcoholic solvent.
Wherein, described alcoholic solvent is selected the volatilizable alcohol of easily removing for use, as dehydrated alcohol, methyl alcohol, Virahol etc., its can with basic metal, as sodium Metal 99.5 or potassium etc. be reacted into alkalescence sodium alkoxide, help Guanidinium nitrate and ethyl cyanacetate and carry out ring-closure reaction.In the inventive method, this ethyl cyanacetate and Guanidinium nitrate or alkali-metal mol ratio all preferred 1: 1.5~2, more preferably 1: 1.6~1.85.
This alcoholic solvent consumption preferably adds alcoholic solvent 3-15mL in every gram ethyl cyanoacetate, more preferably be 6~8mL.
In a preferred embodiment of the present invention, after described ring-closure reaction is included in and adds Guanidinium nitrate in the alcohol sodium solution, be heated to 50 ℃ to the alcoholic acid reflux temperature, preferably 70 ℃, stirred 0.5~2 hour, and added ethyl cyanacetate reaction 1~10 hour again, preferably reacted 2 hours, cyclization becomes 2,4-diamino-6-hydroxy pyrimidine (formula 3 compounds).The evaporated under reduced pressure alcoholic solvent need not to separate then, directly carries out following reaction.
Surprisingly, by the present invention, can be in formamide soln with the above-mentioned oil-containing solids that obtains, the mixing solutions and the reductive agent that add Sodium Nitrite, methane amide and dense formic acid successively react, and make formula 3 compounds through the synthetic guanine of nitrosification, reduction and one pot of property of further ring-closure reaction.Wherein methane amide becomes earlier mixing solutions with dense formic acid after mixing, after adding Sodium Nitrite, dripped, behind the reacting by heating certain hour, add reductive agent and continue reaction, behind nitrosation reaction, directly carry out reduction reaction, need not wherein intermediate of separation and purification (shown in the following reaction scheme square brackets), directly cyclization becomes guanine, used formic acid, methane amide be reactant be again the solvent of reaction.Said dense formic acid is meant the formic acid of 98% concentration.
Specifically, it comprises compound 2, be cooled to 0~10 ℃ in 4-diamino-6-hydroxy pyrimidine adding formamide soln, add Sodium Nitrite, add the mixing solutions of methane amide and dense formic acid again, reacted 2~10 hours, reheat to 80~180 ℃, add reductive agent, under this temperature, reacted 1~5 hour, and then under 150~200 ℃, carry out 1~10 hour ring-closure reaction.
More preferably, with compound 2, be cooled to 4~5 ℃ in 4-diamino-6-hydroxy pyrimidine adding formamide soln, add Sodium Nitrite, add above-mentioned mixing solutions (ratio of methane amide and dense formic acid is about 1: 1) again, reacted 2.5 hours, reheat to 100 ℃, add reductive agent, under this temperature, reacted 1.5 hours, and then under 180 ℃ of temperature, carry out 2 hours ring-closure reactions.
Wherein, the used total amount of this methane amide is preferably and adds methane amide 5-15mL in every gram ethyl cyanoacetate, adds methane amide 10~13mL in more preferably every gram ethyl cyanoacetate; The volume ratio of formic acid and methane amide total amount is 1: 5~1: 10, preferred 1: 7; The consumption of this Sodium Nitrite is 1.1~1.5 times (mol ratios) of ethyl cyanacetate, and best is 1.2 times; The preferred sodium bisulfite of this reductive agent, its mole dosage are 0.3-0.8 times of ethyl cyanacetate, more preferably 0.4 times.
One-pot synthesis method of the present invention also comprises purification step: the hydrochloric acid of adding 2~4N at the activated carbon decolorizing post crystallization once; Add above-mentioned hydrochloric acid again, carry out the post-heating reflux and filter of decolouring the second time, filtrate is regulated pH to neutral with alkali, the cooling recrystallization.
Preferably, this purification step specifically comprises above-mentioned one kettle way synthetic guanine is added in the hydrochloric acid of 2.75~3N, adds the ratio of hydrochloric acid 5~15mL in every gram guanine, gac 10~15 gram decolourings are after 1~3 hour, reflux is filtered, filtrate crystallisation by cooling, suction filtration; Products therefrom adds in the above-mentioned hydrochloric acid again, and in the ratio of every gram guanine adding hydrochloric acid 5~10mL, gac 6~10 gram decolourings are after 1 hour, and reflux is filtered, and it is extremely neutral that filtrate is regulated pH with sodium hydroxide or potassium hydroxide, and cold filtration gets guanine.
In the present invention's one preference, cyclization under the sodium alkoxide alkaline condition gets 2, the 4-di-amino-pyrimidine with ethyl cyanacetate and Guanidinium nitrate, need not to separate, directly carry out nitrosification, do not separate and use the bisulfite sodium reduction again, and in this solution through methane amide and dense formic acid cyclization, directly obtain guanine.Prescind reduction earlier and isolate 2,4,5-triamino-6-hydroxy pyrimidine (following formula 5 compounds) through reacting the polystep reaction that makes guanine with formic acid, obtains guanine with " one kettle way " reaction again.In addition, because the water-soluble and ester dissolubility of guanine extreme difference all, purifying is the difficult point in the technology.In order to obtain the product that nitrogen content meets the ultimate analysis requirement, design is carried out recrystallization with hydrochloric acid, regulates the pH value with sodium hydroxide again, washes with water repeatedly, washes most inorganic salt, finally obtains the key intermediate guanine that conforms to quality requirements.
Reaction equation is:
The present invention is that usefulness " one kettle way " reaction is a raw material by commercially available aliphatic chain ethyl cyanacetate and Guanidinium nitrate cheap, that be easy to get directly, need not to separate, be purified into the pyrimidine intermediate, by effective control reaction conditions, order of addition(of ingredients) and ratio, one kettle way one-step synthesis guanine.And pass through to regulate the method purified product of potential of hydrogen, and the yield height, easy to operate.
Embodiment
Further specify the present invention below by embodiment.
Embodiment 1
Add dehydrated alcohol 400mL in the 2L four-hole boiling flask, sodium Metal 99.5 18.0g (0.783mol) stirs, and treats that its complete molten back adds Guanidinium nitrate 110.0g (0.898mol), is heated to 70 ℃ and stirs 0.8 hour.Be added dropwise to ethyl cyanoacetate 56.0g (0.486mol), be heated to 70 ℃ of (50 ℃~backflow of scope) reactions 2 hours, evaporated under reduced pressure ethanol.Add methane amide 600ml dissolving, in frozen water, be cooled to 4 ℃.Add Sodium Nitrite 40.0g (0.580mol), drip the mixing solutions of 100ml methane amide and 100ml 98% formic acid, controlled temperature is less than 5 ℃.Drip off in 4 ℃ of reactions 2.5 hours.Be heated to 100 ℃, add sodium bisulfite 20.0g (0.192mol), reacted 1.5 hours down in 100 ℃.180 ℃ were reacted 2 hours again.Cooling, suction filtration, washed several times with water.Oven dry gets brown solid 147g.
Above-mentioned solid adds 2.75N hydrochloric acid 2000mL recrystallization, activated carbon 12g decolouring 1-3 hour, and reflux, heat filtering postcooling filtrate, crystallization, placement is spent the night, and suction filtration gets yellow solid 78.0g.Use above concentration hydrochloric acid recrystallization more once.Promptly add 2.75N hydrochloric acid 500mL, activated carbon 8g decolouring 1 hour, reflux, heat filtering, the cold slightly back of filtrate adds 30%NaOH and is neutralized to pH=7, is chilled to about 4 ℃, and placement is spent the night, and suction filtration after the oven dry, gets light yellow solid 50.1g, yield 68.2%.
Embodiment 2
Add anhydrous methanol 200mL in the 2L four-hole boiling flask, sodium Metal 99.5 16g (0.70mol) stirs, and treats that its complete molten back adds Guanidinium nitrate 86.0g (0.702mol), is heated to 50 ℃, stirs 0.5 hour.Be added dropwise to ethyl cyanoacetate 56.0g (0.486mol), be heated to 50 ℃, reacted evaporated under reduced pressure methyl alcohol 1 hour.Add methane amide 300mL dissolving, in frozen water, be cooled to 4 ℃.Add Sodium Nitrite 37g (0.535mol), drip the mixing solutions of 100ml methane amide and 80ml98% formic acid, controlled temperature is no more than 10 ℃, drips off in 10 ℃ of reactions 2 hours.Be heated to 80 ℃, add sodium bisulfite 30.0g (0.288mol), reacted 1 hour down in 80 ℃.150 ℃ were reacted 4 hours again.Cooling, suction filtration, washed several times with water.Oven dry gets brown solid 140.5g.
Above-mentioned solid adds 2N hydrochloric acid 1500mL, after activated carbon 10g decoloured 1 hour, and reflux, heat filtering postcooling filtrate, crystallization, placement is spent the night, and suction filtration gets yellow solid 70g.Use above concentration hydrochloric acid recrystallization more once, promptly add 2N hydrochloric acid 700mL, activated carbon 6g decolouring 1 hour, reflux, the cold slightly back of heat filtering, filtrate adds 30%NaOH and is neutralized to pH=7, is chilled to about 4 ℃, and placement is spent the night, suction filtration after the oven dry, gets light yellow solid 45.3g, yield 61.7%.
Embodiment 3
Add Virahol 1000mL in the 2L four-hole boiling flask, potassium metal 76g (1.95mol) stirs, and treats that its complete molten back adds Guanidinium nitrate 218.7g (1.944mol), is heated to reflux temperature, stirs 2 hours.Be added dropwise to ethyl cyanoacetate 112.0g (0.972mol), be heated to reflux temperature, reacted the evaporated under reduced pressure Virahol 10 hours.Add methane amide 1000mL dissolving, be cooled to 4 ℃ in frozen water, add Sodium Nitrite 100.5g (1.458mol), drip the mixing solutions of 100ml methane amide and 110ml98% formic acid, controlled temperature is less than 5 ℃.Drip off in 4 ℃ of reactions 10 hours.Be heated to 180 ℃, add sodium bisulfite 40.0g (0.384mol), reacted 5 hours down in 180 ℃.200 ℃ were reacted 10 hours again.Cooling, suction filtration, washed several times with water.Oven dry gets brown solid 283g.
Above-mentioned solid adds 3N hydrochloric acid 3000mL recrystallization, activated carbon 15g decolouring 3 hours, and reflux, heat filtering postcooling filtrate, crystallization, placement is spent the night, and suction filtration gets yellow solid 145g.Use above concentration hydrochloric acid recrystallization more once.Promptly add 3N hydrochloric acid 750mL, activated carbon 10g decolouring 1 hour, reflux, heat filtering, the cold slightly back of filtrate adds 30%KOH and is neutralized to pH=7, is chilled to about 4 ℃, and placement is spent the night, and suction filtration after the oven dry, gets light yellow solid 90g, yield 61.3%.
Various raw materials in the foregoing description or solvent are conventional commercially available chemical pure.
The product physicochemical data that makes at last in the foregoing description is:
mp:>300℃。(document: mp:>300 ℃);
IR (cm
-1): 3300 (NH), 3100 (HN-C-), 1690 (C=O), 1630 (C=N-H), 1560 (N-H), 900-650 (NH
2), consistent with the guanine standard diagram;
EA:C
5H
5N
5O Calcd.C-40.00 H-3.36 N-46.65;
Found C-39.63 H-3.33 N-46.30;
The susceptible of proof products therefrom is a guanine.
Claims (10)
1, a kind of one-pot synthesis method of guanine, it comprises the following step that carries out continuously:
Guanidinium nitrate and ethyl cyanacetate are carried out ring-closure reaction, resultant compound 2,4-diamino-6-hydroxy pyrimidine is in its formamide solvent, the mixing solutions and the reductive agent that add Sodium Nitrite, methane amide and dense formic acid successively carry out nitrosification, reduction reaction, further carry out ring-closure reaction again and make guanine.
2, one-pot synthesis method as claimed in claim 1, the ring-closure reaction that it is characterized in that described ethyl cyanacetate and Guanidinium nitrate is included in and is added with in the alkali-metal alcoholic solvent, after adding Guanidinium nitrate, be heated to 50 ℃ of reflux temperatures to alcoholic solvent, stirred 0.5~2 hour, and added ethyl cyanacetate reaction 1~10 hour again.
3, one-pot synthesis method as claimed in claim 2, it is characterized in that this ethyl cyanacetate and Guanidinium nitrate or alkali-metal mol ratio be 1: 1.5~2, the consumption of this alcoholic solvent is to add alcoholic solvent 3-15mL in every gram ethyl cyanoacetate.
4, one-pot synthesis method as claimed in claim 2 is characterized in that described alcoholic solvent is a dehydrated alcohol, and this basic metal is sodium Metal 99.5 or potassium.
5, one-pot synthesis method as claimed in claim 1, it is characterized in that described nitrosification, reduction reaction, further carrying out ring-closure reaction more specifically comprises compound 2, be cooled to 0~10 ℃ in 4-diamino-6-hydroxy pyrimidine adding formamide solvent, add Sodium Nitrite, the mixing solutions that adds methane amide and dense formic acid again, reacted 2~10 hours, reheat to 80~180 ℃, add reductive agent, under this temperature, reacted 1~5 hour, and then under 150~200 ℃, carry out 1~10 hour ring-closure reaction.
6, one-pot synthesis method as claimed in claim 5, it is characterized in that described nitrosification, reduction reaction, further carry out ring-closure reaction again and specifically comprise, be cooled to 4~5 ℃ in 4-diamino-6-hydroxy pyrimidine adding formamide soln, add Sodium Nitrite compound 2, add above-mentioned mixing solutions again, reacted 2.5 hours, reheat to 100 ℃ adds reductive agent, under this temperature, reacted 1.5 hours, and then under 180 ℃ of temperature, carry out 2 hours ring-closure reactions.
7, one-pot synthesis method as claimed in claim 5 is characterized in that the used total amount of this formamide soln is to add methane amide 5-15mL in every gram ethyl cyanoacetate, and the volume ratio of formic acid and methane amide total amount is 1: 5~1: 10; The mole dosage of this Sodium Nitrite is 1.1~1.5 times of ethyl cyanacetate; This reductive agent is a sodium bisulfite, and its mole dosage is 0.3-0.8 a times of ethyl cyanacetate.
8, one-pot synthesis method as claimed in claim 7 is characterized in that the used total amount of this formamide soln is to add methane amide 10-13mL in every gram ethyl cyanoacetate, and the volume ratio of formic acid and methane amide total amount is 1: 7; The mole dosage of this Sodium Nitrite is 1.2 times of ethyl cyanacetate; The mole dosage of this sodium bisulfite is 0.4 times of ethyl cyanacetate.
9, as each described one-pot synthesis method of claim 1~8, it is characterized in that it also comprises purification step: the hydrochloric acid of adding 2~4N at the activated carbon decolorizing post crystallization once; Add above-mentioned hydrochloric acid again, and after carrying out the decolouring second time, reflux is filtered, filtrate is regulated pH to neutral with alkali, the cooling recrystallization.
10, one-pot synthesis method as claimed in claim 9, it is characterized in that this purification step specifically comprises adds the gained guanine in the hydrochloric acid of 2.75~3N, the ratio that adds hydrochloric acid 5~15mL in every gram guanine, gac 10~15 gram decolourings are after 1~3 hour, reflux is filtered, the filtrate crystallisation by cooling, suction filtration; Products therefrom adds in the above-mentioned hydrochloric acid again, and in the ratio of every gram guanine adding hydrochloric acid 5~10mL, gac 6~10 gram decolourings are after 1 hour, and reflux is filtered, and it is extremely neutral that filtrate is regulated pH with sodium hydroxide or potassium hydroxide, the cooling recrystallization.
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106117207A (en) * | 2016-06-16 | 2016-11-16 | 江苏八巨药业有限公司 | A kind of new method preparing guanine |
| CN108558776A (en) * | 2018-05-07 | 2018-09-21 | 潍坊奥通药业有限公司 | The preparation method of 2,4- diamino -5- nitroso -6- hydroxy pyrimidines and guanine |
| CN108752344A (en) * | 2018-06-27 | 2018-11-06 | 大连万福制药有限公司 | With the synthetic method of the acyclovir of cobalt optimized for catalysis |
| CN114380832A (en) * | 2022-01-24 | 2022-04-22 | 湖北李泽园医药科技有限公司 | One-step synthetic method of guanine |
-
2005
- 2005-11-18 CN CNB200510110536XA patent/CN100491377C/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106117207A (en) * | 2016-06-16 | 2016-11-16 | 江苏八巨药业有限公司 | A kind of new method preparing guanine |
| CN108558776A (en) * | 2018-05-07 | 2018-09-21 | 潍坊奥通药业有限公司 | The preparation method of 2,4- diamino -5- nitroso -6- hydroxy pyrimidines and guanine |
| CN108752344A (en) * | 2018-06-27 | 2018-11-06 | 大连万福制药有限公司 | With the synthetic method of the acyclovir of cobalt optimized for catalysis |
| CN114380832A (en) * | 2022-01-24 | 2022-04-22 | 湖北李泽园医药科技有限公司 | One-step synthetic method of guanine |
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