JPH0797357A - Malonic (p-nitrobenzyl alcohol) ester-amide and its production - Google Patents
Malonic (p-nitrobenzyl alcohol) ester-amide and its productionInfo
- Publication number
- JPH0797357A JPH0797357A JP27118693A JP27118693A JPH0797357A JP H0797357 A JPH0797357 A JP H0797357A JP 27118693 A JP27118693 A JP 27118693A JP 27118693 A JP27118693 A JP 27118693A JP H0797357 A JPH0797357 A JP H0797357A
- Authority
- JP
- Japan
- Prior art keywords
- nitrobenzyl alcohol
- ester
- amide
- nitrobenzyl
- malonic acid
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は,新規な化合物である,
マロン酸(P−ニトロベンジルアルコ−ル)エステル−
アミド及びその製造方法に関する。FIELD OF THE INVENTION The present invention is a novel compound,
Malonic acid (P-nitrobenzyl alcohol) ester-
The present invention relates to an amide and a method for producing the same.
【0002】[0002]
【従来の技術】本化合物は文献に未記載の化合物であ
り、またその製造法も知られていない。2. Description of the Related Art This compound is a compound not described in the literature and its production method is not known.
【0003】[0003]
【発明が解決しようとする課題】医薬品等の中間体とし
て有用な,新規化合物及びその効率的な製造方法を提供
する。PROBLEM TO BE SOLVED BY THE INVENTION The present invention provides a novel compound useful as an intermediate for pharmaceuticals and the like, and an efficient method for producing the same.
【0004】[0004]
【課題を解決するための手段】マロン酸(P−ニトロベ
ンジルアルコ−ル)エステル−アミド及びP−ニトロベ
ンジルアルコールシアノ酢酸エステルに微生物を作用さ
せてシアノ基を加水分解することによるマロン酸(P−
ニトロベンジルアルコール)エステル−アミドの製造方
法を提供する。[Means for Solving the Problems] Malonic acid (P-nitrobenzyl alcohol) ester-amide and malonic acid (P-nitrobenzyl alcohol cyanoacetate) are prepared by hydrolyzing a cyano group by allowing a microorganism to act on the ester. −
A method for producing a nitrobenzyl alcohol) ester-amide is provided.
【0005】本化合物を得るためには,P−ニトロベン
ジルアルコ−ルマロン酸半エステルを塩化チオニル,3
塩化リン,オキシ塩化リン,等の塩素化剤と反応させて
酸クロライドとし,ここにアンモニアガスやアンモニア
水を反応させる方法がある。また,P−ニトロベンジル
アルコ−ルシアノ酢酸エステルを,酵素加水分解反応に
かけることにより得ることが出来る。To obtain this compound, P-nitrobenzyl alcohol-malonic acid half-ester was added to thionyl chloride, 3
There is a method of reacting with a chlorinating agent such as phosphorus chloride or phosphorus oxychloride to form an acid chloride, and reacting with ammonia gas or ammonia water. It can also be obtained by subjecting P-nitrobenzyl alcohol cyanoacetic acid ester to an enzymatic hydrolysis reaction.
【0006】化学反応による方法は,まずP−ニトロベ
ンジルアルコ−ルマロン酸半エステルを,ベンゼン,ト
ルエン,キシレン,ジクロロメタン,ジクロロエタン等
の塩素化剤に対して安定な溶媒に,溶解または分散し,
必要に応じてジメチルフォルムアミド,を初めとする触
媒を添加し,前記の塩素化剤を滴下して反応させる。反
応温度は室温〜150℃がよい。反応時間は1〜5時間
で充分である。この様にして得られたP−ニトロベンジ
ルアルコ−ルマロン酸半エステルの酸クロライドを含む
溶液に,0℃〜80℃にてアンモニアガスを吹き込む
か,過剰のアンモニア水を加える事により合成すること
が出来る。The chemical reaction method is as follows. First, P-nitrobenzyl alcohol-malonic acid half ester is dissolved or dispersed in a solvent which is stable against chlorinating agents such as benzene, toluene, xylene, dichloromethane and dichloroethane.
If necessary, a catalyst such as dimethylformamide is added, and the above chlorinating agent is dropped to react. The reaction temperature is preferably room temperature to 150 ° C. A reaction time of 1 to 5 hours is sufficient. It can be synthesized by blowing ammonia gas at 0 ° C to 80 ° C or adding an excess of aqueous ammonia to the solution containing the acid chloride of P-nitrobenzylalcohol malonic acid half ester thus obtained. I can.
【0007】生成した目的物は,沈澱となるので濾別し
てメタノ−ル,エタノ−ル等で,洗浄して高純度品を得
ることが出来る。The target product thus produced becomes a precipitate, which can be filtered off and washed with methanol, ethanol or the like to obtain a high-purity product.
【0008】マロン酸(P−ニトロベンジルアルコ−
ル)エステル−アミドは,更に酵素加水分解をさせるこ
とにより,P−ニトロベンジルアルコ−ルマロン酸半エ
ステルに導くことが出来る。Malonic acid (P-nitrobenzyl alcohol-
The ru) ester-amide can be converted to a P-nitrobenzyl alcohol-malonic acid half ester by further enzymatic hydrolysis.
【0009】本発明の微生物を用いる製造方法について
詳細に説明する。反応は,培養した微生物の菌体,また
は菌体処理物(菌体の破砕物、粗・精製酵素、固定化菌
体・酵素等)を溶媒中で,原料であるP−ニトロベンジ
ルアルコ−ルシアノ酢酸エステルに接触させることによ
りおこなわれる。それらの使用量や反応条件等について
以下に詳細に説明する。The production method using the microorganism of the present invention will be described in detail. The reaction is carried out by culturing cells of the microorganisms or treated cells (crushed cells, crude / purified enzyme, immobilized cells / enzyme, etc.) in a solvent as the raw material P-nitrobenzyl alcohol cyano. It is carried out by contacting with acetic acid ester. The amounts used and the reaction conditions will be described in detail below.
【0010】反応の溶媒は水が好ましいが,生理食塩
水,溶媒のpHを安定に保つために緩衝液が使用でき
る。緩衝液の種類は燐酸塩,トリスアミノメタン−HC
l,クエン酸塩,グリシン・ソ−ダなどが使用できるが
特に限定はされない。緩衝液の濃度は1M〜0.001
Mが使用できるが緩衝液としての効果が発揮される範囲
であればよい。水を使用する場合にはEDTAなどの金
属キレ−ト剤を添加すると反応が促進される。また上記
の菌体処理物を用いる場合にジチオスレイト−ル,メル
カプトエタノールなどの酸化防止剤の添加は反応効率を
高める。その他,水とメタノ−ル,エタノ−ル,アセト
ン,アセトニトリル等の混合溶媒も使用することが出来
る。pHはpH5〜8に保つのがよい。反応の温度は,
0℃〜80℃,好ましくは5℃〜40℃の範囲で行うの
がよい。反応時間は,酵素の種類や原料の濃度によって
30分〜2日くらいを要する。原料であるp−ニトロベ
ンジルアルコ−ルシアノ酢酸エステルは中性〜アルカリ
側の水中で不安定であるため反応は短時間で完結するこ
とが望ましい。原料であるP−ニトロベンジルアルコ−
ルシアノ酢酸エステルの濃度は溶媒に対し0.1%〜3
0%(重量%),好ましくは0.3%〜10%とすると
よい結果がえられる。反応終了後,単離した酵素を用い
る時は濾過をすることによって取り出す事ができる。微
生物の菌体をそのまま用いた時は,有機溶媒を加えて目
的物を溶解し,濾過や遠心分離により菌体を取り除いた
後に溶媒を留去して析出した沈澱を濾別するのがよい。
本発明で使用する微生物の培養は,公知の培養方法に準
じて行う事が出来る。培地は,資化し得るグルコ−ス,
グリセリンなどの炭素源,硫酸アンモニウムなどの窒素
源,無機態リン,生育に必須の無機栄養素などを含有し
た通常の培地が利用できる。またこれらの培地に酵母エ
キス,肉エキスなどの天然培地を添加したものも使用す
ることが出来る。培養初期から中期に生育を大きく阻害
しない濃度のイソバレロニトリル,ベンゾニトリル,p
−ニトロベンゾニトリル,シアノ酢酸などのニトリル
類,ε−カプロラクタム,ジメチルアセトアミド,ニコ
チンアミドなどのアミド類及び鉄,コバルト,マンガ
ン,亜鉛等の金属を酵素誘導物質として添加することに
より,高い酵素活性がえられることがある。使用する培
地のpHは5〜9,培養温度は5〜40℃の範囲で選べ
ばよく,好ましくは25〜35℃である。培養は1〜7
日程度好気的に行い,目的の酵素活性が最大となるまで
継続すればよい。Water is preferably used as the reaction solvent, but physiological saline or a buffer solution can be used to keep the pH of the solvent stable. Type of buffer is phosphate, trisaminomethane-HC
1, citrate, glycine soda, etc. can be used, but are not particularly limited. Buffer concentration is 1M-0.001
Although M can be used, it may be within the range where the effect as a buffer is exhibited. When water is used, the reaction is accelerated by adding a metal chelating agent such as EDTA. Further, when using the treated product of the above bacterial cells, the addition of an antioxidant such as dithiothreitol or mercaptoethanol enhances the reaction efficiency. In addition, a mixed solvent of water and methanol, ethanol, acetone, acetonitrile or the like can be used. The pH should be kept at pH 5-8. The reaction temperature is
It is good to carry out in the range of 0 ° C to 80 ° C, preferably 5 ° C to 40 ° C. The reaction time requires about 30 minutes to 2 days depending on the type of enzyme and the concentration of the raw material. Since the starting material, p-nitrobenzyl alcohol cyanoacetic acid ester, is unstable in neutral to alkaline water, it is desirable that the reaction be completed in a short time. Raw material P-nitrobenzyl alcohol
The concentration of lucyanoacetic acid ester is 0.1% to 3 with respect to the solvent.
Good results can be obtained with 0% (% by weight), preferably 0.3% to 10%. After the reaction is completed, when the isolated enzyme is used, it can be taken out by filtration. When the microbial cells are used as they are, it is preferable to add an organic solvent to dissolve the target substance, remove the microbial cells by filtration or centrifugation, and then distill off the solvent to separate the deposited precipitate by filtration.
The microorganism used in the present invention can be cultured according to a known culture method. The medium is glucose that can be assimilated,
A normal medium containing a carbon source such as glycerin, a nitrogen source such as ammonium sulfate, inorganic phosphorus, and inorganic nutrients essential for growth can be used. Further, it is also possible to use a medium to which a natural medium such as yeast extract or meat extract is added. Isovaleronitrile, benzonitrile, p at a concentration that does not significantly inhibit growth during the early to mid-stage of culture
-By adding nitriles such as nitrobenzonitrile and cyanoacetic acid, amides such as ε-caprolactam, dimethylacetamide and nicotinamide and metals such as iron, cobalt, manganese and zinc as enzyme inducers, high enzyme activity can be obtained. You can get it. The medium to be used may have a pH of 5 to 9 and a culture temperature of 5 to 40 ° C, preferably 25 to 35 ° C. Culture is 1-7
It should be performed aerobically for about a day and continued until the desired enzyme activity is maximized.
【0011】本発明に用いられる微生物は例えば新規シ
ュウドモナス属(Pseudomonas)細菌NKN
003菌(微工研寄託番号 FERM P−13850
号)および新規ロドコッカス属(Rhodococcu
s)細菌NKN113菌(微工研寄託番号 FERM
P−13865号)が挙げられる。これらはいずれも工
業技術院微生物工業技術研究所に寄託されている。これ
ら2細菌の特徴を次項以降表1に示す。The microorganism used in the present invention is, for example, a novel Pseudomonas bacterium NKN.
Bacterial 003 (Deposit No. FERM P-13850
No.) and a new genus Rhodococcus
s) Bacteria NKN113 bacteria (Ministry of Engineering Research Deposit No. FERM
P-13865). All of these have been deposited at the Institute of Microbial Technology, Institute of Industrial Technology. The characteristics of these two bacteria are shown in Table 1 below.
【0012】[0012]
【表1】 [Table 1]
【0013】上述の菌学的性質をBERGEY’S M
ANUAL of Systematic Bacte
riology Volume 1及び2に従い公知の
菌株とその異同を検討した結果,上記2菌株は以下の通
りであった。Based on the above-mentioned mycological properties, BERGEY'S M
ANUAL of Systematic Bacte
As a result of examining the known strains and their differences according to riology Volume 1 and 2, the above 2 strains were as follows.
【0014】NKN003菌(微工研寄託番号FERM
P−13850号)はグラム染色陰性,運動性を示し
べん毛として極毛を有するカタラ−ゼプラスの好気的で
栄養要求性のない桿菌であり,蛍光性色素を生成する
等,表1記載の特徴から本菌はシュウドモナス属(Ps
eudomonas)に属し,本菌株の菌体細胞の大き
さが少し小さくD−ガラクト−スから酸を発生するとい
う点を除けば前記文献中のシュウドモナス・プチダ
(P.putida)種とほぼ一致する。以上の点から
本菌はシュウドモナス・プチダ(P.putida)種
に近縁の種と推定された。なお、本発明のマロン酸(P
−ニトロベンジルアルコール)エステル−アミドはカル
バペネム系抗菌剤などを製造する際の保護基として有用
である。NKN003 bacterium (Ministry of Engineering Research Deposit No. FERM
P-13850) is an aerobic, non-auxotrophic bacillus of catalase plus having Gram-staining negativeness, motility, and polar hairs as flagella, and produces a fluorescent dye. The characteristics of this bacterium are Pseudomonas (Ps
eudomonas), which is almost the same as the P. putida species in the above-mentioned document except that the somatic cell size of this strain is a little small and acid is generated from D-galactose. From the above points, this bacterium was estimated to be a species closely related to P. putida species. The malonic acid (P
-Nitrobenzyl alcohol) ester-amide is useful as a protective group in the production of carbapenem antibacterial agents and the like.
【0015】NKN113菌(微工研寄託番号FERM
P−13865号)はグラム染色陽性,運動性なく,
多形性を有し,好気性,カタラ−ゼプラスの桿菌,さら
にDNA中のGC含量が69.1%,細胞壁成分にジア
ミノピメリン酸,ミコ−ル酸を有することからロドコッ
カス属(Rhodococcus)に属する。また硝酸
還元プラス,糖から酸を発生しない,および前記記載の
試験結果は前記文献中のロドコッカス・エクイ(R.e
qui)種の記載内容と一致する。以上の点から本菌は
ロドコッカス・エクイ(R.equi)種に類縁の種と
推定された。NKN113 bacteria (Ministry of Industrial Science deposit number FERM
P-13865) is positive for Gram stain, has no motility,
It belongs to the genus Rhodococcus because it has polymorphism, is aerobic, has a catalase plus bacillus, has a GC content of 69.1% in DNA, and has diaminopimelic acid and mycolic acid as cell wall components. Also, the nitrate reduction plus, no acid is generated from sugar, and the test results described above are shown in Rhodococcus equi (R. e.
qui) Matches the description of the species. From the above points, this bacterium was presumed to be related to Rhodococcus equi (R. equi).
【0016】次に実施例によって詳しく説明する。Next, a detailed description will be given with reference to examples.
【実施例1】100mlのフラスコにP−ニトロベンジ
ルアルコ−ルマロン酸半エステルを10g,トルエンを
60ml仕込み,ジメチルフォルムアミド0.5gを添
加した。75℃に昇温し,塩化チオニル6gをトルエン
5mlに溶解した物を0.5時間で滴下した。1時間同
温で反応させた後,反応混合物を,室温で撹はんしてい
る28%アンモニア水25ml中に徐々に滴下した。沈
澱が生成したので濾過した。乾燥後,マロン酸(P−ニ
トロベンジルアルコ−ル)エステル−アミドの収量は
3.9gであった。液体クロマトグラフによる純度は,
90%であった。これをメタノ−ル中に分散し室温で1
時間撹はんした後,濾別し乾燥した。液体クロマトグラ
フによる純度は,97,2%に向上した。融点は127
〜129℃であった。IRスペクトルは,第一アミドの
N−Hに基ずく吸収が,波数3400,3190に,第
一アミドのカルボニル基に基ずく吸収が,波数1660
に,エステル結合のカルボニルに基ずく吸収が,波数1
730に特徴的吸収として観測された。1H−NMRス
ペクトルにおいては,3.45ppmにマロン酸のメチ
レン水素に基ずく吸収,5.30ppmにはベンジルメ
チレンの水素に基ずく吸収,7.5〜7.6にニトロ基
のオルソ位の芳香族水素のダブレット,8.3〜8.4
にニトロ基のメタ位の芳香族水素のダブレットの吸収が
観測された。また,イソブタンを用いたCI−マススペ
クトルにおいては,分子量+1の質量数239ピ−クが
観測された。Example 1 A 100 ml flask was charged with 10 g of P-nitrobenzyl alcohol-malonic acid half ester and 60 ml of toluene, and 0.5 g of dimethylformamide was added. The temperature was raised to 75 ° C., and a product prepared by dissolving 6 g of thionyl chloride in 5 ml of toluene was added dropwise over 0.5 hour. After reacting at the same temperature for 1 hour, the reaction mixture was gradually added dropwise to 25 ml of 28% ammonia water stirred at room temperature. A precipitate formed and was filtered. After drying, the yield of malonic acid (P-nitrobenzyl alcohol) ester-amide was 3.9 g. The purity measured by liquid chromatography is
It was 90%. Disperse this in methanol and mix at room temperature for 1
After stirring for a time, the mixture was filtered and dried. The purity by liquid chromatography was improved to 97,2%. Melting point is 127
Was ~ 129 ° C. The IR spectrum shows that the absorption based on the NH of the primary amide is at wave numbers 3400 and 3190, and the absorption based on the carbonyl group of the primary amide is
In addition, the carbonyl-based absorption of the ester bond has a wavenumber of 1
Observed at 730 as a characteristic absorption. In the 1H-NMR spectrum, the absorption based on methylene hydrogen of malonic acid at 3.45 ppm, the absorption based on hydrogen of benzylmethylene at 5.30 ppm, and the ortho position aroma of the nitro group at 7.5 to 7.6. Group hydrogen doublets, 8.3-8.4
A doublet absorption of aromatic hydrogen at the meta position of the nitro group was observed. Further, in the CI-mass spectrum using isobutane, a mass number of 239 peak with a molecular weight of +1 was observed.
【0017】[0017]
【実施例2】グリセリン1%、ポリペプトン0.5%、
マルト・エキストラクト0.3%、イ−スト・エキスト
ラクト0.3%を含んだ井戸水をオ−トクレ−ブで殺菌
した培地に0.1%のイソバレロニトリルを添加して,
NKN003菌を植菌して30℃で培養を開始した。培
養1日目に0.1%のイソバレロニトリルを添加し培養
2日目に4mlの培養液を得た。細菌を遠心分離により
分離し10mMのEDTAを含む生理食塩水20mlに
分散した。ここに,1257mgのP−ニトロベンジル
アルコ−ルシアノ酢酸エステルを添加してシアノ基加水
分解を行った。10%の水酸化ナトリウムでpHを7.
5〜8.0に保ちながら室温で4時間撹はんした。反応
終了後液体クロマトグラフにより分析した結果,生成し
たマロン酸(P−ニトロベンジルアルコ−ル)エステル
−アミドは83.3%,P−ニトロベンジルアルコ−ル
マロン酸半エステルは2.1%,P−ニトロベンジルア
ルコ−ルは2.7%,未反応のP−ニトロベンジルアル
コ−ルシアノ酢酸エステルは12%であった。反応終了
後20mlのアセトニトリルを加え目的物を溶解させた
後,細菌を遠心分離し,その濾液からアセトニトリルの
一部を留去した。析出した沈澱を濾別し乾燥してマロン
酸(P−ニトロベンジルアルコ−ル)エステル−アミド
800mgを得た。液体クロマトグラフによる純度は9
7.0%であった。融点は127℃〜129℃であり,
1H−NMRスペクトル,IRスペクトルは実施例1で
得たものと一致した。Example 2 Glycerin 1%, Polypeptone 0.5%,
Well water containing 0.3% malt extract and 0.3% yeast extract was sterilized with an autoclave, and 0.1% isovaleronitrile was added to the medium.
The NKN003 strain was inoculated and the culture was started at 30 ° C. On the first day of culture, 0.1% isovaleronitrile was added, and on the second day of culture, 4 ml of a culture solution was obtained. Bacteria were separated by centrifugation and dispersed in 20 ml of physiological saline containing 10 mM EDTA. To this, 1257 mg of P-nitrobenzyl alcohol cyanoacetic acid ester was added to carry out cyano group hydrolysis. Adjust the pH to 7 with 10% sodium hydroxide.
The mixture was stirred at room temperature for 4 hours while maintaining the temperature at 5 to 8.0. After completion of the reaction, analysis by liquid chromatography revealed that the formed malonic acid (P-nitrobenzyl alcohol) ester-amide was 83.3%, the P-nitrobenzyl alcohol-malonic acid half ester was 2.1%, and P -Nitrobenzyl alcohol was 2.7% and unreacted P-nitrobenzyl alcohol cyanoacetic acid ester was 12%. After the reaction was completed, 20 ml of acetonitrile was added to dissolve the target substance, and then the bacteria were centrifuged, and a part of acetonitrile was distilled off from the filtrate. The deposited precipitate was separated by filtration and dried to obtain 800 mg of malonic acid (P-nitrobenzyl alcohol) ester-amide. The purity by liquid chromatography is 9
It was 7.0%. The melting point is 127 ° C to 129 ° C,
The 1H-NMR spectrum and IR spectrum were the same as those obtained in Example 1.
【0018】[0018]
【参考例】実施例2において,反応時間を15時間に延
長したとき,更に酵素加水分解された,P−ニトロベン
ジルアルコ−ルマロン酸半エステルが主生成物として生
成していることが液体クロマトグラフで確認された。[Reference Example] In Example 2, when the reaction time was extended to 15 hours, it was confirmed that P-nitrobenzyl alcohol-malonic acid half ester, which was further enzymatically hydrolyzed, was produced as the main product. Confirmed in.
【0019】[0019]
【実施例4】NKN113菌を実施例2と同様の培地
で、培養を同様に開始して培養2日目に0.1%のイソ
バレロニトリルを添加した。培養3日目に5mlの培養
液を得た。細菌を遠心分離により分離して5mlの0.
1Mの燐酸バッファ−(pH=7.0)に分散した。こ
こにP−ニトロベンジルアルコ−ルシアノ酢酸エステル
25mgを添加して4時間撹はんした。反応終了後液体
クロマトグラフにより分析した結果,生成したマロン酸
(P−ニトロベンジルアルコ−ル)エステル−アミドは
17.1mgであった。P−ニトロベンジルアルコ−ル
マロン酸半エステルは5.3mg,P−ニトロベンジル
アルコ−ルは,3.9mg生成した。Example 4 The NKN113 strain was cultured in the same medium as in Example 2, and the same culture was started, and 0.1% isovaleronitrile was added on the second day of the culture. On the 3rd day of culture, 5 ml of culture solution was obtained. Bacteria were separated by centrifugation and 5 ml of 0.
It was dispersed in 1M phosphate buffer (pH = 7.0). 25 mg of P-nitrobenzyl alcohol cyanoacetic acid ester was added thereto and stirred for 4 hours. After completion of the reaction, analysis by liquid chromatography revealed that the produced malonic acid (P-nitrobenzyl alcohol) ester-amide was 17.1 mg. P-nitrobenzyl alcohol malonic acid half ester was produced in an amount of 5.3 mg, and P-nitrobenzyl alcohol was produced in an amount of 3.9 mg.
【0020】[0020]
【発明の効果】新規化合物,マロン酸(P−ニトロベン
ジルアルコ−ル)エステル−アミドが微生物による,P
−ニトロベンジルアルコ−ルシアノ酢酸エステルの加水
分解反応により効率的に得られるようになった。The novel compound, malonic acid (P-nitrobenzyl alcohol) ester-amide, is a microorganism
It can be efficiently obtained by the hydrolysis reaction of -nitrobenzyl alcohol cyanoacetic acid ester.
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 C12R 1:01) ─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. 6 Identification code Office reference number FI technical display location C12R 1:01)
Claims (3)
トロベンジルアルコ−ル)エステル−アミド 【化1】 1. Malonic acid (P-nitrobenzyl alcohol) ester-amide represented by the following chemical formula 1
酸エステルにシュウドモナス属(Pseudomona
s)又はロドコッカス属(Phodococcus)に
属する細菌を作用させることにより加水分解することを
特徴とするマロン酸(P−ニトロベンジルアルコ−ル)
エステルアミドの製造方法2. P-nitrobenzyl alcohol cyanoacetate is added to Pseudomonas.
s) or malonic acid (P-nitrobenzyl alcohol) characterized by being hydrolyzed by the action of a bacterium belonging to the genus Rhodococcus (Phodococcus)
Method for producing esteramide
as)に属する細菌がNKN003菌であり、ロドコッ
カス属(Rhodococcus)に属する細菌がNK
N113菌である特許請求項2に記載の方法3. The genus Pseudomonas
The bacterium belonging to as) is NKN003, and the bacterium belonging to Rhodococcus is NK.
The method according to claim 2, which is N113 bacteria.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP27118693A JPH0797357A (en) | 1993-08-06 | 1993-10-05 | Malonic (p-nitrobenzyl alcohol) ester-amide and its production |
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP21359793 | 1993-08-06 | ||
| JP5-213597 | 1993-08-06 | ||
| JP27118693A JPH0797357A (en) | 1993-08-06 | 1993-10-05 | Malonic (p-nitrobenzyl alcohol) ester-amide and its production |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0797357A true JPH0797357A (en) | 1995-04-11 |
Family
ID=26519885
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP27118693A Pending JPH0797357A (en) | 1993-08-06 | 1993-10-05 | Malonic (p-nitrobenzyl alcohol) ester-amide and its production |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0797357A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1998037219A1 (en) * | 1997-02-20 | 1998-08-27 | Mitsubishi Rayon Co., Ltd. | Process for producing malonic acid derivatives |
| CN108060186A (en) * | 2017-12-13 | 2018-05-22 | 台州学院 | A kind of biological preparation method to nitrobenzyl alcohol malonic acid monoester |
-
1993
- 1993-10-05 JP JP27118693A patent/JPH0797357A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1998037219A1 (en) * | 1997-02-20 | 1998-08-27 | Mitsubishi Rayon Co., Ltd. | Process for producing malonic acid derivatives |
| CN108060186A (en) * | 2017-12-13 | 2018-05-22 | 台州学院 | A kind of biological preparation method to nitrobenzyl alcohol malonic acid monoester |
| CN108060186B (en) * | 2017-12-13 | 2020-08-28 | 台州学院 | Biological preparation method of p-nitrobenzyl alcohol malonic acid monoester |
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