片段缩合法合成亮丙瑞林

将亮氨酸作为C末端氨基酸,采用片段缩合策略(2+7)合成亮丙瑞林.液相法合成困难序列Fmoc-Arg(Pbf)-Pro-NHEt时,以DIC为缩合试剂,THF作为溶剂,Pro-NHEt·HCl与Fmoc-Arg(Pbf)-OH的物质的量比为1:1.25,产率可达84.8%.采用固相法合成的全保护七肽片段产率为81.3%.全保护的七肽片段与Arg(Pbf)-Pro-NHEt在液相中缩合时,以DMF:DMSO(V:V=1:1)为溶剂,HATU/HOBt/DIEA为缩合剂,得全保护的九肽.切割侧链后得到目标产物亮丙瑞林.     

固相合成胸腺五肽(TP5)

采用Fmoc固相多肽合成中的活化酯方法和2,6-二氯苯甲酰氯(DCB)混合酸酐法, 对Fmoc-Tyr(t-Bu)-OH与Wang树脂反应中的反应级数和表观活化能进行了研究, 并采用常规方法和微波强化方法分别进行了胸腺五肽的合成. 实验结果表明, 活化酯方法的反应级数为1.855, 表观活化能15.24 kJ/mol, 混合酸酐法的表观活化能为35.14 kJ/mol. 与传统方法相比, 微波将缩合反应速率提高了30倍以上, 氨基酸过量倍数也从传统的三倍降低到两倍.     

微波辅助固相合成胸腺五肽的研究

在胸腺五肽的固相合成中, 引入微波辅助技术, 深入研究了微波作用下缩合试剂、溶剂、反应物浓度、反应时间和温度对产率的影响. 与传统方法相比, 微波将缩合反应速率提高了15倍以上, 氨基酸过量倍数也从传统的三倍降低到过量一倍, 减少胸腺五肽的合成成本约40%; 最终得到以吡啶/DMF为溶剂, 苯并三氮唑-N,N,N',N'-四甲基脲六氟磷酸酯为缩合试剂, 反应物浓度为0.113 mmol/L, 反应时间为4 min, 反应温度为20 ℃为最佳反应条件, 此时胸腺五肽的产率最高, 为88.7%.     

酞菁铁(Ⅱ)与分子氧反应中轴向配体的作用—动力学考察

通过电子光谱的变化,研究了不同轴向配体(DMSO、DMF和THF)对酞菁铁(Ⅱ)吸氧动力学的影响。实验表明,在DMSO体系中反应有诱导期和明显的可逆性,浓度随时间的变化表观上呈“S”形曲线,表明反应中有自催化过程,在DMF和THF体系中,浓度随时间的变化呈简单双曲线型。在分别对FePc/DMSO体系考虑自催化过程和对FePc/DMF(THF)体系考虑串联反应的影响后所得动力学方程可以很好地描述实验数据,所得结果表明,在这三种体系中,FePc与O_2反应有相同的反应机理并生成相同的反应中间体和最终产物,所不同的只是三体系的控制步骤不同。 在DMF中,FePc与空气氧的反应规律与纯氧的相同。反应速度为后者的1/4～1/5,正好和空气中O_2的分压相当。     

新型聚酰胺酰亚胺的合成及其热稳定性

L-丙氨酸与均苯四甲酸二酐经缩合反应制得手性酰亚胺(1);1与二苯基甲烷二异氰酸酯聚合制得新型的以L-丙氨酸为手性源的聚酰胺酰亚胺(2),其结构经1H NMR和FT-IR表征.用DSC和TGA研究了2的结晶性能和热稳定性,同时对2的溶解性能进行了探讨.结果表明,2的Tm为357.6℃,失重5％的分解温度为215℃;2在常温下溶于DMF,DMAc,DMSO和NMP.     

微波辐射固相合成4-三氟甲基-7-羟基-6-氯香豆素

分别以无水氯化锌、对甲苯磺酸为催化剂,采用微波辐射法,在无溶剂条件下由4-氯间苯二酚与三氟乙酰乙酸乙酯缩合制备标题化合物;优化了反应条件.结果表明,在微波辐射下,无水氯化锌对该反应有较好的催化活性,相应的4-三氟甲基-7-羟基-6-氯香豆素的产率可达73.0%.优化的反应条件为:4-氯间苯二酚、三氟乙酰乙酸乙酯和无水ZnCl2的摩尔比为1∶1.1∶0.9,微波辐射功率800W,辐射时间20min,反应温度85℃.     

含希夫碱侧基聚酯及其锌配合物的合成和性能

经多步反应合成2种新型含希夫碱侧基聚酯(P5,P6),进一步与醋酸锌反应得到2种聚酯锌配合物(P5-Zn,P6-Zn)。 采用元素分析、FT-IR、UV-Vis、¹H NMR、GPC、TG、DSC和荧光光谱等技术手段对其结构和性能进行表征。 P5和P6均溶于四氢呋喃(THF)、氯仿(CHCl₃)、N,N-二甲基甲酰胺(DMF)、N,N-二甲基乙酰胺(DMAc)、二甲基亚砜(DMSO)、N-甲基吡咯烷酮法(NMP)等有机溶剂,P5-Zn和P6-Zn部分溶于THF及CHCl₃,溶于DMF、DMAc、DMSO、NMP等有机溶剂。 P5和P6的重均相对分子质量M_w及相对分子质量分布指数PDI分别为4164、6148 g/mol和1.42、1.43。 P5、P6、P5-Zn和P6-Zn的5%失重温度分别为339、348、367和358℃。 P5、P6、P5-Zn和P6-Zn的玻璃化转变温度T_g分别为88.8、123.3、39.8和63.8 ℃。 P5和P6的DMF溶液(5×10^-5 mol/L)在418和416 nm处发射弱紫色荧光,P5-Zn和P6-Zn的DMF溶液(5×10^-5 mol/L)在505和506 nm处发射强绿色荧光,固体P5-Zn和P6-Zn在527和532 nm处发射强绿色荧光。     

Fmoc保护氨基酸与Wang树脂的缩合反应

研究了保护氨基酸、Wang 树脂取代度、树脂粒度、搅拌方式对Fmoc-氨基酸-Wang树脂连接效率的影响. 结果表明, 保护氨基酸分子量的大小会因产生不同的位阻而影响缩合反应的效率, 分子量越小缩合效率越高; Wang树脂的取代度较高时, 已缩合的氨基酸给后续保护氨基酸的缩合形成阻碍, 使缩合效率降低; 粒径较小和搅拌较好时, 对保护氨基酸的粒内外扩散有利, 可提高反应速度和缩合效率.     

溴胺酸Ullmann缩合反应工艺

采用强酸阳离子交换树脂-乙醇-铜粉催化体系代替传统工艺中硫酸-水-铜粉催化体系,对溴胺酸进行Ullmann缩合反应。考察了强酸离子交换树脂用量、有机溶剂种类及反应温度等因素对反应收率的影响。结果表明,在V(乙醇)∶V(水)=9∶1介质中,在溴胺酸、铜粉存在下,树脂用量为16g/L,在70℃下反应3h,溴胺酸缩合产物收率可达94.0%。反应中所使用的离子交换树脂、铜粉和乙醇均可回收再利用,强酸离子交换树脂重复使用5次后其催化活性仍未降低;乙醇回收率可达70%～80%,铜粉的回收率可达85%～90%。     

固相多肽合成中王树脂和Fmoc/tBu酪氨酸成酯反应的研究

以Fmoc/tBu酪氨酸和王树脂为原料,分别探讨了对称酸酐法、活化酯法和2,6-二氯苯甲酰氯(DCB)法中各种因素对氨基酸与树脂成酯反应的影响。实验表明:对称酸酐法连接率低,而其它两种方法,通过筛选合适的反应介质,均能取得良好结果。在活化酯法中,使用强极性溶剂DMA,弱极性溶剂THF/DCM和混合溶剂45%DMF/THF,反应5h,连接率均可提高到90%以上;在DCB法中,使用弱极性溶剂THF时,反应3h,连接率可达99%。总之,DCB方法是酪氨酸和王树脂成酯反应的最好方法。     

Simple and rapid p-methoxybenzylation of hydroxy and amide groups at room temperature by NaOt-Bu and DMSO

The p-methoxybenzylation of hydroxy and amide groups by p-methoxybenzyl chloride utilizing NaOt-Bu in DMSO is described. p-Methoxybenzylation of sterically hindered menthol using NaOt-Bu in DMSO proceeded faster than the commonly used methods which use NaH in THF or DMF for p-methoxybenzylation of hydroxy and amide groups. The described method was applicable for sterically hindered substrates at room temperature without adding any activating reagents such as tetrabutylammonium iodide.     

Microwave-promoted Suzuki reactions of aryl chlorides in aqueous media

[reaction: see text] The microwave-promoted Suzuki coupling reaction of aryl chlorides with boronic acids performed in an aqueous media was studied using the air- and moisture-stable catalyst POPd2 (dihydrogen di-mu-chlorodichlorobis(di-tert-butylphosphinito-kappaP)dipalladate (2-)). This catalyst system under microwave conditions (150 degrees C, 15 min) provided coupled products with yields ranging from 64% to 99%. This method tolerated a variety of substituents and sterically hindered substrates.     

Homogeneous catalysts supported on soluble polymers: biphasic Sonogashira coupling of aryl halides and acetylenes using MeOPEG-bound phosphine-palladium catalysts for efficient catalyst recycling

The Sonogashira coupling of various aryl bromides and iodides with different acetylenes was studied under biphasic conditions with soluble, polymer-modified catalysts to allow the efficient recycling of the homogeneous catalyst. For this purpose, several sterically demanding and electron-rich phosphines of the type R(P)PR(2) were synthesised. They are covalently linked to a monomethyl polyethylene glycol ether with a mass of 2000 Dalton (R(P)=MeOPEG(2000)) R(P)PR(2): -PR(2)= -CH(2)C(6)H(4)CH(2)P(1-Ad)(2), -C(6)H(4)-P(1-Ad)(2), -C(6)H(4)-PPh(2). To couple aryl iodides and acetylenes, the catalyst [(MeCN)(2)PdCl(2)]/2 R(P)-C(6)H(4)-PPh(2) was used in CH(3)CN/Et(3)N/n-heptane (5/2/5). The combined yields of coupling product over five reaction cycles are between 80-95 percent. There is no apparent leaching of the catalyst into n-heptane, as evidenced by (1)H NMR spectroscopy. The new catalyst [(MeCN)(2)PdCl(2)]/2 (1-Ad)(2)PBn can be used for room-temperature coupling of various aryl bromides and acetylenes in THF with HNiPr(2) as a base. A closely related catalyst Na(2)[PdCl(4)]/2 R(P)-CH(2)C(6)H(4)CH(2)P(1-Ad)(2) linked to the polymer was used to couple aryl bromides and acetylenes in DMSO or DMSO/n-heptane at 60 degrees C with 0.5 mol percent Na(2)[PdCl(4)], 1 mol percent R(P)PR(2) and 0.33 mol percent CuI. The combined yield of coupling products over five cycles is always greater than 90 percent, except for sterically hindered aryl bromides. The determination of the turnover frequency (TOF) of the catalyst indicates only a small decrease in activity over five cycles. Leaching of the catalyst into the product containing n-heptane solution could not be detected by means of (1)H NMR and TXRF; this is indicative of >99.995 percent catalyst retention in the DMSO solvent.     

Highly effective activation of aryl chlorides for Suzuki coupling in aqueous media using a ferrocene-based Pd(II)–diimine catalyst

The Suzuki coupling of aryl chlorides with boronic acids using a ferrocene-containing Pd(II)–diimine complex as catalyst, in aqueous media, under microwave heating is reported. A small amount of the catalyst (0.1%) was found to be highly effective for coupling unactivated aryl chlorides with boronic acids to form sterically hindered ortho-substituted biaryls. The same catalyst also enabled the coupling of aryl bromides and iodides with various boronic acids in very high yields. The catalyst is air stable and the catalytic reaction can be completed in 15 min.     

Lithium-Salt Effects in Peptide Synthesis. Part II. Improvement of Degree of Resin Swelling and of Efficiency of Coupling in Solid-Phase Synthesis

The course of solid-phase peptide-coupling reactions as well as the swelling properties of a peptide-resin are influenced by the addition of inorganic salts (LiCl, LiBr, LiClO₄, KSCN). Used as additives, these salts can (i) improve coupling yields (e.g., for Fmoc-(Ala)₅-Phe-resin → Fmoc-(AIa)₆-Phe-resin in DMF/CH₂Cl₂ 1:1 from 89.4 to 97.1% (for polyethylene oxide) on polystyrene (? PEO-PS) resin) or from 77.5 to 93.8% (for poly-(N,N′-dimethylacrylamide) on ‘Kieselgur’ (?PDMAA-KG) resin) without and with 0.4M LiCl, respectively), (ii) increase resin swelling (e.g. for Fmoc-(Ala)₅-Phe-(polystyrene resin) from 2.42- to 5.73-fold in 1-methylpyrrolidin-2-one (?NMP) without and with LiCl, (respectively), and (iii) change coupling rates. Example;; of coupling reactions and swelling behaviour (degree and rate) in different solvents (DMF, DMF/CH₂Cl₂ 1:1, THF, NMP, N,N-dimethylpropyleneurea (? DMPU) with and without salts) using different resins (polystyrene (PS); PEO–PS, and PDMAA-KG) and an improved analysis of alanine oligomers up to Ala₁₂-Phe by HPLC and FAB-MS are reported.     

交联聚苯乙烯树脂固载甲酰基的微波辅助还原

在微波照射的相转移催化(MI-PTC)条件下,3种甲酰基功能化的交联聚苯乙烯树脂——对甲酰基苯氧基甲基树脂、对甲酰基-2-甲氧基苯氧基甲基树脂和对甲酰基-3-甲氧基苯氧基甲基树脂固载的甲酰基被NaBH4还原,得到相应的3种苄羟基功能化的树脂——Wang树脂、Sasrin树脂和新型的对苄羟基-3-甲氧基苯氧基甲基树脂.考察了溶剂、相转移催化剂等因素对反应的影响,优化的反应介质为THF/H2O混合溶剂,相转移催化剂为苄基三羟乙基氯化铵(BTHAC).然而,在传统加热和微波辐射条件下,最有效混合溶剂的配比有所不同.在水浴加热条件下,最有效的反应溶剂为12 mL THF+3 mL H2O;而在微波加热的条件下,最有效的反应溶剂却是3 mL THF+12 mL H2O.在优化的溶剂、催化剂条件下,微波功率为60 W时,高分子固载的甲酰基30 min之内几乎被定量地还原成羟基.与传统加热方式比较,MI-PTC还原聚苯乙烯固载甲酰基可以大大缩短反应时间,提高反应效率,是一种进行高分子化合物官能团转化的良好方法.     

A General, Highly Efficient Ullmann C-O Coupling Reaction under Microwave Irradiation and the Effects of Water

A general, rapid and highly efficient method for the synthesis of diaryl ethers under the assistance of microwave irradiation was described. A series of diaryl ethers were prepared by direct coupling of phenols and aryl halides in good to excellent yields in anhydrous DMF or NMP at 150 ℃ within 20 rain. The presence of water was found to have a significant impact on the Ullmann C-O coupling reaction between aryl halides and phenols under microwave irradiation.     

The synthesis of o-Amino-N-substituted benzamides and 3-substituted 2,4 (1H,3H)-quinazolinediones from isatoic anhydride

The reaction of isatoic anhydride with sterically hindered amines in DMF or DMSO, and subsequent treatment of the o-amino-N-substituted benzamides thus produced with phosgene, gives high yields of 2,4(1H,3H)-quinazolinediones with branched alkyl groups in the 3-position.     

On DABAL-Me3 promoted formation of amides

The range and utility of DABAL-Me₃ couplings of methyl esters and free carboxylic acids with primary and secondary amines under a variety of conditions (reflux, sealed tube, microwave) has been compared for a significant range of coupling partners of relevance to the preparation of amides of interest in pharmaceutical chemistry. Commercial microwave reactors promote the fastest couplings and allow the use of significantly sterically hindered amines (primary and secondary) and carboxylic acids derivatives. The influence of microwave energy on the reaction system was shown to be typically related to thermal effects (over-pressuring and superheating).     

Microwave-assisted solid-phase organic synthesis (MASPOS) as a key step for an indole library construction

[reaction: see text] Microwave-assisted solid-phase organic synthesis (MASPOS) has been demonstrated to significantly facilitate the Cu(II)- or Pd(II)-mediated ring closure of the resin-bound 2-alkynylanilides. Under microwave irradiation at 200 degrees C [for Cu(OAc)(2), NMP] or 160 degrees C [for Pd(MeCN)(2)Cl(2), THF] for 10 min, 1-acyl-2-alkyl-5-arenesulfamoylindoles were obtained, after cleavage from the resin, in 95-99% purities and in 65-82% overall yields via a 5-step synthetic sequence.