糖基修饰的氨基酸类化合物的合成

通过对5种氨基酸酯化和氨基保护得到苄氧羰基氨基酸甲酯, 经肼解制备苄氧羰基氨基酸酰肼, 然后分别与3种不同的糖基异硫氰酸酯反应, 制备了相应的目标化合物15个, 且产率均在60%以上. 所有新化合物均经元素分析, IR, MS和¹H NMR确证. 同时探索了苄氧羰基氨基酸甲酯肼解的最佳反应条件.     

糖基取代的胍类化合物合成研究

胍基化合物有较强的生理活性,如抗高血压、降血糖、抗病毒、治疗爱滋病和抗癌等性能[1].近年来,含糖基的胍越来越受到制药工业的关注[2,3],糖基碎片的引入提高了胍类化合物的活性.以糖基异硫氰酸酯和2-氨基-4-取代苯基噻唑为原料,得到硫脲,再与伯胺在氯化汞存在下发生反应,合成了一系列糖基胍类化合物.     

1-芳酰基-4-(1'-N-β-D-吡喃型糖基)氨基硫脲类化合物的合成(英文)

通过 2 ,3,4 ,6 四 O 乙酰基 β D 吡喃型葡萄糖异硫氰酸酯和 2 ,3,4 三 O 乙酰基 β D 吡喃型木糖异硫氰酸酯与取代的芳基酰肼的亲核加成反应合成了 1 0个 1 芳酰基 4 ( 1′ N 2′,3′,4′,6′ 四 O 乙酰基 β D 吡喃型葡萄糖基 )氨基硫脲和 7个 1 芳酰基 4 ( 1′ N 2′,3′,4′ 三 O 乙酰基 β D 吡喃型木糖基 )氨基硫脲 ,所得化合物的结构经元素分析 ,IR ,1 HNMR确证 .     

1-芳酰基-4-(1＇-N-β-D-吡喃型糖基)氨基硫脲类化合物的合成

通过2,3,4,6-四-O-乙酰基-β-D-吡喃型葡萄糖异硫氰酸酯和2,3,4-三-O-乙酰基-β-D-吡喃型木糖异硫氰酸酯与取代的芳基酰肼的亲核加成反应合成了10个1-芳酰基-4-(1＇-N-2＇,3＇,4＇,6＇-四-O-乙酰基-β-D-吡喃型葡萄糖基)氨基硫脲和7个1-芳酰基-4-(1＇-N-2＇,3＇,4＇-三-O-乙酰基-β-D-吡喃型木糖基)氨基硫脲,所得化合物的结构经元素分析,IR,1H NMR确证.     

N,N'-二乙氧羰基-O,O'-烷基二硫氨酯的合成及表征

关于含有一个酯基和一个硫代酰胺基团的硫氨酯的合成研究已有大量报道,但含有两个酯基和两个硫代酰胺基团的硫氨酯的合成研究尚未见报道。由氯甲酸乙酯和硫氰酸钠经亲核取代反应和异构化合成N-烃氧羰基异硫氰酸酯中间体,再将该中间体与二醇经亲核加成反应,合成出了3种未见报道的N,N’-二乙氧羰基-O,O’-烷基二硫氨酯。经元素分析、红外光谱、核磁共振氢谱及碳谱分析,证实所合成的化合物即为目标产物。小型浮选实验表明,仅使用6 g/t的目标化合物a~c,铜的品位即可分别达到6.12%、6.35%、5.92%,回收率分别达到75.31%、76.50%、76.35%,用量远低于丁基黄药,且铜的品位和回收率都有不同程度的提高,可作为一种新型捕收剂应用到硫化铜类的矿物浮选中。     

异噁唑啉盐的合成及其应用

作为一类重要的有机合成中间体,异噁唑啉盐广泛地应用于具有生物活性化合物的制备.对异噁唑啉盐的结构、制备方法,及其作为多功能合成中间体,在N-甲基异噁唑烷、N-甲基氨基醇、N-甲基氨基多醇、α-氨基酸和β-氨基酸等重要化合物合成中的应用作了较详尽阐述,同时简单地介绍了新型N-取代异噁唑啉盐的合成及其应用.在对这些研究现状进行分析的基础上,对该研究领域下一步的发展方向进行了展望.     

β-D-葡萄糖基硫脲合成及生物活性研究

从1-溴-2,3,4,6-四乙酰化-β-D-吡喃葡萄糖I出发, 经异硫氰酸酯化反应, 合成了2,3,4,6-四乙酰化-β-D-吡喃糖基硫脲化合物IV, 再经脱乙酰化得到V. 将乙酰化糖基异硫氰酸酯的合成从文献的60%提高到80%. 所得化合物经元素分析, IR, MS, ¹H NMR和 ¹³C NMR谱学分析确定了结构, 并对产物进行了初步的除草活性测试.     

半乳糖伯羟基氧化及其衍生物的合成

半乳糖伯羟基氧化及其衍生物的合成;半乳糖;氧化;糖基异硫氰酸酯;亲核加成     

N,N'-二(糖基硫代亚脲基)芳基硫代膦酰二胺的合成

N;N'-二(糖基硫代亚脲基)芳基硫代膦酰二胺的合成;糖基异硫氰酸酯;硫代膦酰二肼;生物活性     

区域选择性合成2-取代磺酰基亚肼基-3-全乙酰糖基-2,3-二氢噻唑及其表征、生物活性研究

以取代磺酰肼和糖基异硫氰酸酯反应,生成8种1-取代磺酰基-4-全乙酰糖基氨基硫脲,然后在ClCH2CHO/CH3COONa/DMF条件下关环,区域选择性地合成了一系列新型2-取代磺酰基亚肼基-3-全乙酰糖基-2,3-二氢噻唑.化合物3e的1H-13CHMBC谱图表明1-取代磺酰基-4-全乙酰糖基氨基硫脲与氯乙醛的缩合反应关环位置为氨基硫脲的N-4,而非N-2.所有新化合物的结构均经过1HNMR,13CNMR和元素分析确证,生物活性初步测定结果表明该类二氢噻唑化合物具有一定的除草活性.     

Specifically deuteriated intermediates for the synthesis of liquid crystals and liquid-crystalline polymers

The recent developments in solid state N.M.R. techniques have rendered deuterium a most attractive nucleus for use in the study of liquid crystals and other ordered systems. Its application often requires that the deuterium be positioned at specific sites in the molecule. Here, the preparation of such specifically labelled compounds for use in liquid crystal research is discussed. It is shown that many deuteriated liquid crystals can be prepared from a limited set of labelled intermediates. Strategies for the labelling of such intermediates in both aromatic and aliphatic sites based on experience gained in the author's laboratory during the last years are discussed. In the experimental section more than fifty procedures for obtaining specifically deuteriated intermediates and mesogens are described in detail.     

Specifically deuteriated intermediates for the synthesis of liquid crystals and liquid-crystalline polymers

Abstract

The recent developments in solid state N.M.R. techniques have rendered deuterium a most attractive nucleus for use in the study of liquid crystals and other ordered systems. Its application often requires that the deuterium be positioned at specific sites in the molecule. Here, the preparation of such specifically labelled compounds for use in liquid crystal research is discussed. It is shown that many deuteriated liquid crystals can be prepared from a limited set of labelled intermediates. Strategies for the labelling of such intermediates in both aromatic and aliphatic sites based on experience gained in the author's laboratory during the last years are discussed. In the experimental section more than fifty procedures for obtaining specifically deuteriated intermediates and mesogens are described in detail.     

球形氯化镁载体与四氯化钛反应的载钛过程研究

球形氯化镁载体型齐格勒-纳塔催化剂是目前常用的工业聚烯烃催化剂,由于制备工艺对催化剂性能影响很大,因此对此类催化剂制备过程的研究具有重要意义。本文利用自制球形氯化镁载体与四氯化钛反应制备球形聚烯烃催化剂,分析了载钛反应过程的中间产物。对球形氯化镁载体载钛过程中钛含量、比表面、比孔容、晶型等发生的变化进行分析,并研究了邻苯二甲酸二丁酯作为内给电子体在球形氯化镁载体载钛过程中的作用,为球形氯化镁载体型催化剂制备工艺的改进提供了重要参考依据。     

选择性氧化HMF

近年来,利用储量丰富且可再生的生物质资源制备高附加值化学品和液体燃料是目前化学研究领域的热点之一,同时契合可持续发展的国家战略.5-羟甲基糠醛(HMF)是关键的生物质平台化合物之一,广泛应用于制备精细平台化合物、药物的中间体、聚合物的合成、液体燃料的前驱体等.因此,HMF的选择性氧化逐渐成为生物质领域的研究热点.本文主...     

Separation of Enantiomers of 2-(4-hydroxyphenoxy) Propionic Acid and its Esters by HPLC

(±)-2-(4-hydroxyphenoxy) propionic acid and its esters are the important intermediates of the preparation of herbicides such as fenoxaprop, quizalofop-P, fluazifop-P-butyl,fenthiaprop, haloxyfop and so on, especially, (+)-2-(4-hydroxyphenoxy) propionic acid and its esters using as intermediates of the preparation of super-high efficient herbicides.Presently, the separation of the enantiomer of 2-substituted phenoxy propionic acid and its esters had been reported.     

Some Applications of Isopropenyl Acetate To O-, N-and C-Acetylation

New procedures for the preparation of drugs and drug intermediates (isosorbide-5-nitrate, diltiazem) and intermediates of potential drugs using isopropenyl acetate are described.     

Recent advances in synthesis of ketenimines

Ketenimines are a kind of reactive species that can be used as synthetic intermediates. In the last two decades, there has been a surge of interest in this class of building blocks and their applications, which has led to extensive research on ketenimine derivatives such as fluorine ketenimine, metal complexes of ketenimines, and the various methods of their preparation. Ketenimines have been prepared by a variety of methods, including photolysis, elimination, or rearrangement reactions. As well as, ketenimines can be prepared using a variety of useful reagents, including isocyanates, copper acetylide, amides, organometallic compounds, and metal complexes. An overview of these achievements is presented here.     

Tosylhydrazones: new uses for classic reagents in palladium-catalyzed cross-coupling and metal-free reactions

Tosylhydrazones are useful synthetic intermediates that have been used in organic chemistry for almost 60 years. The recent discovery of a palladium-catalyzed cross-coupling reaction involving a tosylhydrazone coupling partner has triggered renewed interest in these reagents. This reaction shows nearly universal generality with regard to the hydrazone and can be employed for the preparation of polysubstituted alkenes. In the course of this research, novel metal-free C-C and C-O bond-forming reactions have been discovered. Since tosylhydrazones are readily prepared from carbonyl compounds, these transformations offer new synthetic opportunities for the unconventional modification of carbonyl compounds. This Minireview discusses all of these new reactions of a classic reagent.     

An Improved Approach for Practical Synthesis of 5-Hydroxymethyl-2′-deoxycytidine (5hmdC) Phosphoramidite and Triphosphate

5-Hydroxymethyl-2′-deoxycytidine (5hmdC) phosphoramidite and triphosphate are important building blocks in 5hmdC-containing DNA synthesis for epigenetic studies. However, efficient and practical methods for the synthesis of these compounds are still limited. The current research provides an intensively improved synthetic method that enables the preparation of commercially available cyanoethyl-protected 5hmdC phosphoramidite with an overall yield of 39% on 5 g scale. On the basis of facile and efficient accesses to cyanoethyl protected-5hmdU and 5hmdC intermediates, two efficient synthetic routes for 5hmdC triphosphate were also developed.     

New Generation of Biocatalysts for Organic Synthesis

The use of enzymes as catalysts for the preparation of novel compounds has received steadily increasing attention over the past few years. High demands are placed on the identification of new biocatalysts for organic synthesis. The catalysis of more ambitious reactions reflects the high expectations of this field of research. Enzymes play an increasingly important role as biocatalysts in the synthesis of key intermediates for the pharmaceutical and chemical industry, and new enzymatic technologies and processes have been established. Enzymes are an important part of the spectrum of catalysts available for synthetic chemistry. The advantages and applications of the most recent and attractive biocatalysts—reductases, transaminases, ammonia lyases, epoxide hydrolases, and dehalogenases—will be discussed herein and exemplified by the syntheses of interesting compounds.