{"title":"Synthesis of New Glycosylamine Derivatives based on Carbohydrates","authors":"H. Jabbari","doi":"10.2174/1573407219666230810094657","DOIUrl":null,"url":null,"abstract":"\n\nGlycosylamine play an important role in living organisms. Most plants\nstore their chemical resources in the form of inactive glycosides, which are broken down and\nconverted into sugar in the body of herbivores by hydrolyzing enzymes. Glycosylamine are\nobtained from the secondary metabolism of plants and consist of two parts. One part of it contains\nsugar like glucose and is inactive in most substances, and has a good effect on the solubility of the\nglycosylamine derivatives and its absorption and even its transfer from one organ to another. The\ntherapeutic effect is related to the second part, which is called aglycan (or aglucan). Glycosylamine\nderivatives form a large group of valuable medicinal substances, which at the same time include\nsome of the most dangerous and toxic substances in nature. These substances are present in many\ngroups of flowering plants. Glycosides are made in different ways in different metabolic pathways.\nThese materials have a complex and special chemical structure and leave special effects on the\nhuman body. Glycosylamine derivatives are called O-glycosid, N-glycosid, S-glycosid in terms of\natoms coupling to anomeric carbon. Carbohydrate esterification reaction to prepare new glycosylamine derivatives is one of the most important carbohydrate reactions. The anomeric position of\ncarbohydrates with strong leaving groups is very important for the preparation of glycosides.\nPreparation of glycosylamine derivatives based on acetylated carbohydrates is the main purpose of this\narticle. Different carbohydrates were acetylated under mild conditions and high yields. The anomeric\nposition was deacetylated by a magnesium oxide heterogeneous catalyst in methanol solvent. In order\nto prepare new glycosides acetylated/ deacytylated carbohydrate reacted with N-Methyl-(naphtha-2-\nylmethoxy)amine. The final product was identified by various spectroscopic methods.\n\n\n\nAnhydrous sodium acetate (4 g) and α-D-glucose (28 mg, 5 g) were mixed. The mixture\nwas transferred to a 200 ml Round-bottom flask . Acetic acid (260 mg, 25 ml) was added to the\nreaction mixture. The reaction mixture was heated in a boiling water bath for 2 h until complete\ndissolution of the glucose. Then 100 ml of ice was added. After 1 hour, White crystals formed and\nwere washed with cold water. And then 1 mol of glucose pentaacetate per 50 ml of methanol was\ndissolved by a magnetic stirrer. After thatMgO (0.2gr) was added to the reaction mixture. The\nreaction mixture was refluxed at room temperature within 4-5 hours. After 5 hours, the solvent was\nremoved and separated by chromatography. It is then washed with hexane and crystallized by etherhexane. And the final step reacted with N-Methyl- (naphtha-2-ylmethoxy) amine in order to prepare\nnew glycosylamine derivatives.\n\n\n\nMagnesium oxide in methanol solvent is one of the best effective catalysts in the\ndeacetylation of the anomer position of acetylated carbohydrates. It is done under ambient temperature\nand in very easy conditions and makes carbohydrates susceptible to extensive chemical reactions. One\nof these reactions is the formation of glycosides. Various carbohydrates are acetylated by acetic\nanhydride in the presence of sodium acetate, and the anomeric position is deacetylated by a\nheterogeneous catalyst. In order to prepare N-glycoside, the glycosides are reacted with N-alkoxy Nmethylglycosyl amine. The final products are identified by various spectroscopic methods.\n\n\n\nGlucose, mannose, for example, were acetylated by acetic anhydride in the presence of\nsodium acetate. And the anomeric position of pentaacetate glucose was selectively deacetylated with\nmagnesium oxide in a methanol solvent. Then, the reaction for the preparation of glycosylamine derivatives was carried out under very mild and easy conditions. The aminoglycosides synthesized in\nthis article are used as raw materials for the synthesis of a wide range of antibacterials.\n","PeriodicalId":10772,"journal":{"name":"Current Bioactive Compounds","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-08-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Current Bioactive Compounds","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2174/1573407219666230810094657","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"Pharmacology, Toxicology and Pharmaceutics","Score":null,"Total":0}
引用次数: 0
Abstract
Glycosylamine play an important role in living organisms. Most plants
store their chemical resources in the form of inactive glycosides, which are broken down and
converted into sugar in the body of herbivores by hydrolyzing enzymes. Glycosylamine are
obtained from the secondary metabolism of plants and consist of two parts. One part of it contains
sugar like glucose and is inactive in most substances, and has a good effect on the solubility of the
glycosylamine derivatives and its absorption and even its transfer from one organ to another. The
therapeutic effect is related to the second part, which is called aglycan (or aglucan). Glycosylamine
derivatives form a large group of valuable medicinal substances, which at the same time include
some of the most dangerous and toxic substances in nature. These substances are present in many
groups of flowering plants. Glycosides are made in different ways in different metabolic pathways.
These materials have a complex and special chemical structure and leave special effects on the
human body. Glycosylamine derivatives are called O-glycosid, N-glycosid, S-glycosid in terms of
atoms coupling to anomeric carbon. Carbohydrate esterification reaction to prepare new glycosylamine derivatives is one of the most important carbohydrate reactions. The anomeric position of
carbohydrates with strong leaving groups is very important for the preparation of glycosides.
Preparation of glycosylamine derivatives based on acetylated carbohydrates is the main purpose of this
article. Different carbohydrates were acetylated under mild conditions and high yields. The anomeric
position was deacetylated by a magnesium oxide heterogeneous catalyst in methanol solvent. In order
to prepare new glycosides acetylated/ deacytylated carbohydrate reacted with N-Methyl-(naphtha-2-
ylmethoxy)amine. The final product was identified by various spectroscopic methods.
Anhydrous sodium acetate (4 g) and α-D-glucose (28 mg, 5 g) were mixed. The mixture
was transferred to a 200 ml Round-bottom flask . Acetic acid (260 mg, 25 ml) was added to the
reaction mixture. The reaction mixture was heated in a boiling water bath for 2 h until complete
dissolution of the glucose. Then 100 ml of ice was added. After 1 hour, White crystals formed and
were washed with cold water. And then 1 mol of glucose pentaacetate per 50 ml of methanol was
dissolved by a magnetic stirrer. After thatMgO (0.2gr) was added to the reaction mixture. The
reaction mixture was refluxed at room temperature within 4-5 hours. After 5 hours, the solvent was
removed and separated by chromatography. It is then washed with hexane and crystallized by etherhexane. And the final step reacted with N-Methyl- (naphtha-2-ylmethoxy) amine in order to prepare
new glycosylamine derivatives.
Magnesium oxide in methanol solvent is one of the best effective catalysts in the
deacetylation of the anomer position of acetylated carbohydrates. It is done under ambient temperature
and in very easy conditions and makes carbohydrates susceptible to extensive chemical reactions. One
of these reactions is the formation of glycosides. Various carbohydrates are acetylated by acetic
anhydride in the presence of sodium acetate, and the anomeric position is deacetylated by a
heterogeneous catalyst. In order to prepare N-glycoside, the glycosides are reacted with N-alkoxy Nmethylglycosyl amine. The final products are identified by various spectroscopic methods.
Glucose, mannose, for example, were acetylated by acetic anhydride in the presence of
sodium acetate. And the anomeric position of pentaacetate glucose was selectively deacetylated with
magnesium oxide in a methanol solvent. Then, the reaction for the preparation of glycosylamine derivatives was carried out under very mild and easy conditions. The aminoglycosides synthesized in
this article are used as raw materials for the synthesis of a wide range of antibacterials.
Current Bioactive CompoundsPharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (all)
CiteScore
1.90
自引率
0.00%
发文量
112
期刊介绍:
The journal aims to provide comprehensive review articles on new bioactive compounds with proven activities in various biological screenings and pharmacological models with a special emphasis on stereoeselective synthesis. The aim is to provide a valuable information source of bioactive compounds synthesized or isolated, which can be used for further development of pharmaceuticals by industry and academia. The journal should prove to be essential reading for pharmacologists, natural product chemists and medicinal chemists who wish to be kept informed and up-to-date with the most important developments on new bioactive compounds of natural or synthetic origin, including their stereoeselective synthesis.