5874-57-7Relevant articles and documents
Synthesis of Novel Lysophosphatidylcholine Analogues Using Serine as Chiral Template
Kim, Young-Ah,Chung, Hae-Mi,Park, Jin-Seon,Choi, Wonja,Min, Juyoung,Park, Nok-Hyun,Kim, Ki-Hwan,Jhon, Gil-Ja,Han, So-Yeop
, p. 10162 - 10165 (2003)
Four novel lysophosphatidylcholine (lysoPC) analogues, (S)-N-stearoyl-O-phosphocholineserine methyl ester [(S)-1a], (R)-1-lyso-2-stearoylamino-2-deoxy-sn-glycero-3-phosphatidylcholine [(R)-2a], (R)-N-stearoyl-O-phosphocholineserine methyl ester [(R)-1b], and (S)-1-lyso-2-stearoyl-amino-2-deoxy-sn-glycero-3-phosphatidylcholine [(S)-2b], were synthesized starting from serine as a chiral template. These synthetic compounds exhibited greatly enhanced hyphal transition inhibitory activity in Candida as compared to the natural lysoPC.
Method for preparing high-purity (R)-4-formyl-2,2-dimethyl-3-oxazoline tert-butyl carboxylate
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Paragraph 0061; 0063-0066, (2020/03/09)
The invention discloses a method for preparing high-purity (R)-4-formyl-2,2-dimethyl-3-oxazoline tert-butyl carboxylate. The method comprises the following steps: carrying out a reaction on D-serine and thionyl chloride in methanol to obtain a compound 2; carrying out a reaction on the compound 2 and Boc anhydride under triethylamine to obtain a compound 3; carrying out a reaction on the compound3 and 2,2-dimethoxypropane under the action of boron trifluoride diethyl ether to obtain a compound 4; and reducing the compound 4 and DIBAL-H are at a temperature of -60 DEG C to -80 DEG C to obtaina crude product, carrying out a reaction on the crude product and sodium sulfite to form salt, and purifying to obtain the high-purity (R)-4-formyl-2,2-dimethyl-3-oxazoline tert-butyl carboxylate. According to the invention, the salt forming is performed by using the properties of sodium sulfite and an aldehyde group, so that the purity of the salified product can reach 98%, the industrial standard is met, and the production operation is well facilitated.
Total synthesis method for xinaomycin
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Paragraph 0033; 0047; 0049; 0051, (2018/05/16)
The invention belongs to the technical field of pharmaceutical chemistry and organic synthesis, and aims to provide a chemical total synthesis method for xinaomycin. The method comprises the steps of:using D-galactose and the like as raw materials, firstly carrying out 8 steps of reactions to obtain a compound 14, then performing condensation on the compound 14 and uracil to obtain a compound 15,performing 4 steps of reactions to obtain a compound 19, performing condensation on the compound 19 and a compound 6 to obtain a compound 20, and finally removing an ester protecting group and a Cbzprotecting group in turn, so as to obtain the natural product xinaomycin. The total synthesis method of the present invention is a method for synthesizing the natural product xinaomycin for the firsttime. The total synthesis method has the advantages of high product purity, low cost, simple operation and the like.
Crystal form of cyclic serine esterified product hydrochloride and preparation method
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Paragraph 0055; 0056; 0080; 0081, (2018/10/19)
The invention relates to a novel crystal form of a cyclic serine esterified product hydrochloride and a preparation method. The crystal form has excellent properties in terms of chemical stability andprocessing adaptability.
Industrial preparation method of lacosamide
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Paragraph 0018-0020; 0027, (2018/03/26)
The invention relates to an industrial preparation method of lacosamide. Esterification is performed on D-serine for generating D-serine methyl ester hydrochloride; the D-serine methyl ester hydrochloride reacts with acetyl chloride for generating N-acetyl-D-serine methyl ester; the N-acetyl-D-serine methyl ester reacts with benzylamine for obtaining (R)-2-acetamido-N-benzyl-3-hydroxypropionamide;the (R)-2-acetamido-N-benzyl-3-hydroxypropionamide reacts with methyl p-toluenesulfonate under an alkaline condition for obtaining (R)-2-acetamido-N-benzyl-3-methoxypropionamide. The preparation method provide by the invention has relatively mild reaction conditions in each steps; the raw materials are easy to obtain; no high-toxicity reagent is used; a safe and environment-friendly green chemistry idea is met; and the method is suitable for industrial amplification.
Generating Stereodiversity: Diastereoselective Fluorination and Highly Diastereoselective Epimerization of α-Amino Acid Building Blocks
Wei, Wei,Khangarot, Rama Kanwar,Stahl, Lothar,Veresmortean, Cristina,Pradhan, Padmanava,Yang, Lijia,Zajc, Barbara
supporting information, p. 3574 - 3578 (2018/06/26)
Diastereoselective fluorination of N-Boc (R)- and (S)-2,2-dimethyl-4-((arylsulfonyl)methyl)oxazolidines and a previously unknown diastereoselective epimerization at the fluorine-bearing carbon atom α to the sulfone was realized. Diastereoselectivities of both reactions were excellent for benzothiazolyl sulfones, allowing access to two enantiomerically pure diastereomers from one chiral precursor. To demonstrate synthetic utility, the benzothiazolyl sulfones were converted to diastereomerically pure (S,S)- and (R,S)-benzyl sulfones via sulfinate salts and to amino acids. To understand the diastereoselectivities, DFT analysis was performed.
FUSED MORPHOLINOPYRIMIDINES AND METHODS OF USE THEREOF
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Paragraph 1067, (2017/05/14)
The present disclosure relates to Fused Morpholinopyrimidines, pharmaceutical compositions comprising an effective amount of a Fused Morpholinopyrimidine and methods for using a Fused Morpholinopyrimidine in the treatment of a neurodegenerative disease, comprising administering to a subject in need thereof an effective amount of a Fused Morpholinopyrimidine.
Incorporation and visualization of azido-functionalized: N -oleoyl serinol in Jurkat cells, mouse brain astrocytes, 3T3 fibroblasts and human brain microvascular endothelial cells
Walter,Collenburg,Japtok,Kleuser,Schneider-Schaulies,Müller,Becam,Schubert-Unkmeir,Kong,Bieberich,Seibel
supporting information, p. 8612 - 8614 (2016/07/13)
The synthesis and biological evaluation of azido-N-oleoyl serinol is reported. It mimicks biofunctional lipid ceramides and has shown to be capable of click reactions for cell membrane imaging in Jurkat and human brain microvascular endothelial cells.
Process for the preparation of lacosamide
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Page/Page column 11, (2016/10/17)
A novel process for the preparation of (R)-2-acetamido-N-benzyl-3-methoxypropionamide (Lacosamide) is described. It comprises reacting N-acetyl-D-serine methyl ester with benzylamine catalyzed by a non-nucleophilic base to obtain (R)-2-acetamido-2-N-benzyl-3-hydroxy propionamide followed by its methylation.
Structure-activity relationships of lysophosphatidylserine analogs as agonists of G-protein-coupled receptors GPR34, P2Y10, and GPR174
Ikubo, Masaya,Inoue, Asuka,Nakamura, Sho,Jung, Sejin,Sayama, Misa,Otani, Yuko,Uwamizu, Akiharu,Suzuki, Keisuke,Kishi, Takayuki,Shuto, Akira,Ishiguro, Jun,Okudaira, Michiyo,Kano, Kuniyuki,Makide, Kumiko,Aoki, Junken,Ohwada, Tomohiko
supporting information, p. 4204 - 4219 (2015/06/08)
Lysophosphatidylserine (LysoPS) is an endogenous lipid mediator generated by hydrolysis of membrane phospholipid phosphatidylserine. Recent ligand screening of orphan G-protein-coupled receptors (GPCRs) identified two LysoPS-specific human GPCRs, namely, P2Y10 (LPS2) and GPR174 (LPS3), which, together with previously reported GPR34 (LPS1), comprise a LysoPS receptor family. Herein, we examined the structure-activity relationships of a series of synthetic LysoPS analogues toward these recently deorphanized LysoPS receptors, based on the idea that LysoPS can be regarded as consisting of distinct modules (fatty acid, glycerol, and l-serine) connected by phosphodiester and ester linkages. Starting from the endogenous ligand (1-oleoyl-LysoPS, 1), we optimized the structure of each module and the ester linkage. Accordingly, we identified some structural requirements of each module for potency and for receptor subtype selectivity. Further assembly of individually structure-optimized modules yielded a series of potent and LysoPS receptor subtype-selective agonists, particularly for P2Y10 and GPR174.
