聚苯乙烯基N,O-二酰基磺酰羟胺树脂: 一种双酰基转移试剂在合成酰胺库中的应用

用聚苯乙烯基磺酰羟胺树脂1与酰氯2反应合成了聚苯乙烯基N,O-二酰基磺酰羟胺树脂3. 树脂3作为一种新的双酰基转移试剂可与胺4发生酰基转移反应, 合成了含有24个结构类似的酰胺化合物库. 改变酰氯的种类, 结果发现双对硝基苯甲酰树脂3a的活性较高. 双酰基树脂3胺解结果表明, 由脂肪族胺得到的酰胺收率较芳香族胺高. 当解脱试剂同时含有羟基和氨基时, 双酰基树脂3能选择性地在氨基端发生酰基转移, 而羟基端不受影响.     

一步法合成N-1,3-二羟基丙烷-2-基烷基乙酰胺

以5-氨基烷基-2,2-二甲基-1,3-二噁烷为起始原料, 乙酸酐为酰化剂, 一步法选择性地合成氨基二醇类氨基乙酰化产物N-1,3-二羟基丙烷-2-基烷基乙酰胺. 该方法操作简便, 收率高. 所合成的4个新化合物的结构均经FTIR, ¹H NMR, ¹³C NMR及HRMS确证. N-3-(1,3-二羟基丙烷-2-基)丙基乙酰胺(1a)作为关键的中间体, 可以用于HIV-1 Tat/ PCAF BRD抑制剂4的合成.     

酶法拆分(±)-N-(2,6-二甲苯基)-丙氨酸甲酯

用脂肪酶Candida rugosa lipase (CRL)拆分(±)-N-(2,6-二甲苯基)-丙氨酸甲酯, 并进一步优化反应条件. 结果表明, 在加入1 mmol N-(2,6-二甲苯基)-丙氨酸甲酯、100 mL的0.2 mol/L磷酸缓冲液中, CRL拆分该底物的最适反应条件为: pH 6.4, CRL脂酶250 mg, 聚乙二醇(PEG) 2 g, 转速160 r•min^－1, 温度 35 ℃. 其中酶量、温度对转化率影响较大. 反应后分离得R-(＋)-N-(2,6-二甲苯基)-丙氨酸甲酯. 它和酰氯反应可制备一系列旋光性N-酰基丙氨酸类杀菌剂.     

聚苯乙烯基N-甲基-N-酰基磺酰胺树脂的制备及其作为酰基转移试剂在酰胺合成中的应用

聚苯乙烯基磺酰氯树脂(树脂1)与甲胺水溶液在吡啶的催化作用下反应，制备了N—甲基磺酰胺树脂(树脂2)．用酰氯在吡啶中与树脂2反应，得到N—酰基—N—甲基磺酰胺树脂(树脂3)．树脂3作为胺底物的酰基转移试剂，用来制备N—取代的酰胺，收率14～81％．树脂3可以有选择性地酰化乙醇胺中的氨基而不会使羟基酰化。     

双过氧钒配合物与N-取代皮考啉酰胺相互作用的NMR研究

为了探讨有机配体上取代基团对反应平衡的影响, 在模拟生理条件下(0.15 mol/L NaCl溶液), 应用多核(¹H, ¹³C和⁵¹V)多维(COSY和DOSY) NMR以及变温技术等谱学方法研究双过氧钒配合物[OV(O₂)₂(D₂O)]⁻/[OV(O₂)₂(HOD)]⁻与N-取代皮考啉酰胺的相互作用. 它们反应性从强到弱的顺序为: N-甲基-皮考啉酰胺≈N-(2-羟乙基)-皮考啉酰胺＞N-乙基-皮考啉酰胺＞N-丙基-皮考啉酰胺, 这说明了皮考啉酰胺N上取代基的电子效应影响反应. 竞争配位导致一系列新的7配位的过氧钒物种生成, 而利用上述谱学方法则有助于揭示此类相互作用体系的反应过程和配位机制.     

N′-(取代嘧啶-2-基)-N-菊酰硫脲的合成与生物活性研究

采用活性基团拼接法, 将第一菊酸构型中的最高活性组分(＋)-反式菊酸以及二氯菊酸引入到含取代嘧啶环的酰基硫脲结构中, 合成了5个未见文献报道的N′-(取代嘧啶-2-基)-N-(＋)-反式菊酰硫脲衍生物(3a～3e)和3个均未见文献报道的N′-(取代嘧啶-2-基)-N-二氯菊酰硫脲(3f～3h), 结构经元素分析、IR和¹H NMR得到确证. 初步的生物活性测试结果表明: 大部分化合物具有较好的杀菌活性, 有的化合物兼具除草和杀菌活性, 有的化合物兼具杀虫和杀菌活性.     

[1-芳基甲羰基-2-(1,2,4-三唑-1-基)]乙基-N,N-二烷基二硫代氨基甲酸酯衍生物的合成、结构表征及生物活性研究

以芳香基三唑类杀菌剂三唑酮为先导物设计并合成了5个含N,N-二烷基二硫代氨基甲酸酯的芳香三唑类化合物, 通过元素分析、红外光谱、核磁共振氢谱和质谱对其结构进行了表征. 用X射线单晶衍射测定了[α-(4-甲氧基苯甲酰基)-2-(1,2,4-三唑-1-基)]乙基-N,N-二甲基二硫代氨基甲酸酯的晶体结构, 晶体属于三斜晶系, 空间群, 晶胞参数为: a＝0.73482(15) nm, b＝1.1051(2) nm, c＝1.1209(2) nm, α＝90.32(3)°, β＝101.97(3)°, γ＝105.13(3)°, V＝0.8578(3) nm³, Z＝2, D_c＝1.357 g/cm³, F(000)＝368, µ＝0.324 mm^－1. 生物测试结果显示这5种有机化合物都具有杀菌性和植物生长调节活性     

相转移催化条件下N-苯甲酰基-N'-芳基硒脲类化合物的合成及其超分子晶体结构

以PEG-400为固液相转移催化剂, 通过苯甲酰氯与硒氰酸钾反应合成了中间体苯甲酰基异硒氰酸酯, 该中间体不需分离, 直接与芳胺反应, 得到N-苯甲酰基-N'-芳基硒脲(2a～2p), 这些化合物用¹H NMR, IR及元素分析进行了表征, 并用X射线单晶衍射确定了化合物2k的单晶结构. 晶体结构表明, 该化合物通过分子间氢键组装成了沿a轴无限延伸的一维链状超分子结构. 晶体属于单斜晶系, P2(1)/c空间群, 晶胞参数: a＝1.1073(1) nm, b＝0.5745(1) nm, c＝2.4356(5) nm, β＝92.10(1)°, V＝1.5483(4) nm³, Z＝4, μ＝2.428.     

N-[3-氰基-1-(2,6-二氯-4-三氟甲基苯基)-1H-吡唑-5-基]菊酰胺类化合物的合成及生物活性

为了寻求新的N-芳基吡唑类先导化合物, 用5种拟除虫菊酯类农药的活性基团——菊酸与高活性杀虫剂氟虫腈和其中间体5-氨基-3-氰基-1-(2,6-二氯-4-三氟甲基-苯基)吡唑在其氨基位置采用亚结构对接的方法合成得到了10个新的芳基吡唑菊酰胺类化合物. 经¹H NMR, ESI-MS和元素分析对化合物的结构进行了表征. 初步生物活性测定结果表明, 在37.5 mg/L浓度下, N-[3-氰基-1-(2,6-二氯-4-三氟甲基苯基)-4-(三氟甲基亚磺酰基)-1H-吡咯-5-基]-3-(2,2-二氯乙烯基)-2,2-二甲基环丙酰胺(3b)对小菜蛾Amaranthus spinosus抑制活性达到100%, LC₅₀为15.1 mg/L. 初步雌雄大鼠急性经口毒性综合评价属中毒级, 同时还检测了2-(4-氯苯基)-N-[3-氰基-1-(2,6-二氯-4-三氟甲基苯基)-1H-吡唑-5-基]-3-甲基丁酰胺(3i)的晶体结构.     

1,3-二(乙氧基甲基)-5-N,N-二甲氨基-6-甲基尿嘧啶的合成

报道了1,3-二(乙氧基甲基)-5-N,N-二甲氨基-6-甲基尿嘧啶方便、高产率的合成方法. 以6-甲基尿嘧啶(1)为起始物, 经硝化、嘧啶N¹,N ³-烷基化、还原及氨基甲基化, 首次高产率合成了1,3-二(乙氧基甲基)-5- N,N -二甲氨基-6-甲基尿嘧啶(5), 并对其化学结构进行了表征.     

Preparation of Polystyrene-supported N-phenyl-N-acyl Sulfonamide Resin and its Application in Solution-phase Synthesis of Amides

Polystyrene-supported N-phenyl-N-acyl sulfonamide resin was prepared by reacting polystyrene sulfonyl chloride resin with aniline and acylating in pyridine with either acid chlorides or anhydrides. Then, this resin was utilized as a new type of acyl transfer reagent to synthesize the amide library. It was approved to be a more effective acyl transfer reagent with higher amide yields than the polystyrene-supported N-methyl-N-acyl sulfonamide resin and N-benzyl-N-acyl sulfonamide resin. When the phenyl group bonded to the N atom on N-phenyl-N-acyl sulfonamide resin was substituted by the electron withdrawing group or electron donating group, a decreasing amide yield was obtained. N-phenyl-N-acyl sulfonamide resin could be regenerated many times.     

CATALYSIS OF POLYSTYRENE N-HYDROXYL SULFONAMIDE FOR ESTERIFICATION OF BUTANOL WITH ACETIC ANHYDRIDE

Polystyrene N-hydroxyl sulfonamide resin l was prepared and used to catalyze the esterification of n-butanol and acetic anhydride. The mechanism of catalytic esterification proved by IR spectra of the resins was found that O-H and N-H of the N-lrydroxyl sulfonamide resin reacted with the acetic anhydride respectively to form the active intermediate polystyrene N.O-diaceyl sulfonamate which was cleaved by n-butanol to produce butyl acetate. The catalytic esterification by resin I was in good agreement with the kinetic model of “bi-bi-ping-pong“ mechanism.     

Solid-phase synthesis of 1,5-disubstituted 2-aryliminoimidazolidines

The solid-phase synthesis of 1,5-disubstituted 2-aryliminoimidazolidines, starting from resin-bound N-acylated amino acid amides, is described. Exhaustive reduction of resin-bound acylated amino acid amides with borane-THF afforded the corresponding disecondary amines. Further reaction with arylisothiocyanates in the presence of mercuric chloride (HgCl(2)) yielded the corresponding resin-bound 1,5-disubstituted 2-aryliminoimidazolidines. Cleavage of the product from the resin using HF/anisole (95/5) for 1.5 h at 0 degrees C gave the desired products in good yield and purity. The preparation of a large combinatorial library of such compounds is also discussed.     

Polystyrene bis[N-(2-pyridyl) sulfonamide] palladium(II): Synthesis,characterization as a catalyst for coupling reactions

The [N-(2-pyridyl)] para-styrene sulfonamide (PSS) was prepared as a monomer, from the reaction of para-styrene sulfonyl chloride and 2-amino pyridine in the presence of potassium hydroxide solution 0.5 M as a base, and CH₃Cl. Polystyrene [N-(2-pyridyl) sulfonamide] (PPSS) was synthesized from the polymerization of [N-(2-pyridyl)] para-styrene sulfonamide (PSS). The Polystyrene bis [N-(2-pyridyl) sulfonamide] palladium (II) as a polymer- supporting palladium complex was also prepared from the reaction of PdCl₂ (CH₃CN)₂ with PPSS in the presence of KOH 0.5 M. Polystyrene bis [N-(2-pyridyl) sulfonamide] palladium (II) is produced as a novel heterogeneous catalyst for coupling reactions for C-C bond formation. This method includes higher yield and has an easier work-up procedure. The structures of the monomer, polymer and its Pd complex were confirmed by using FT-IR and ¹H-NMR spectroscopy. Elemental analysis of Pd by inductively coupled plasma (ICP) technique and hot filtration test showed loading of the metal into solution from the catalyst The heterogeneous catalyst was recycled without any loss in its properties.     

Solid phase synthesis and application of trisubstituted thioureas

Resin-bound amines 1a-e condense with isothiocyanates to give thiourea resins 2a-i. Resins 2a-g subsequently react with iodomethane followed by cleavage affording S-methyl isothioureas 4a-g, and resins 2a-b,h-i react with acyl chlorides to afford N-acylated thioureas 6a-d. N-Acylthioureas 8a-f (R(2) = H) were prepared directly from resin-bound amines 1a-d with acyl isothiocyanates. N-Acylthioureas 8a-d,f(R(2) = H) were used for the preparation of S-methyl-N-acylisothioureas 10a-e. Alkylation was performed using methyl iodide. Resin-bound S-methyl-N-acylisothioureas 10a,b,d are converted by an action of hydrazines into 3-amino-1,2,4-triazoles 13a-d. Condensation of resins 8a-e (R(2) = H) with 2-bromoacetophenones in the presence of TEA affords thiazoles 15 a-e. All transformations proceeded in high yields and gave products of good purities.     

Polystyrene resins cross-linked with di- or tri(ethylene glycol) dimethacrylates as supports for solid-phase peptide synthesis

Polystyrene resins cross-linked with di(ethylene glycol) dimethacrylate (DEGDMA) and tri(ethylene glycol) dimethacrylate (TEGDMA), DEGDMA-PS and TEGDMA-PS, were synthesized by suspension copolymerization. Four functionalized resins, chloromethyl resin, 4-hydroxymethylphenoxymethyl resin (Wang resin), 4-methylbenzhydrylamine resin (MBHA resin) and 2-chlorotrityl chloride resin, were prepared from DEGDMA-PS and TEGDMA-PS. DEGDMA-PS and TEGDMA-PS showed high reactivity in the functionalization reactions in comparison with Merrifield resin (polystyrene cross-linked with divinylbenzene, DVB-PS). DEGDMA-PS-Wang resin and TEGDMA-PS-Wang resin were used as the solid-phase support for the synthesis of a difficult sequence, the fragment of acyl carrier protein 65-74. The yields of the crude peptide synthesized using DEGDMA-PS-Wang resin, TEGDMA-PS-Wang resin and DVB-PS-Wang resin were 92.3%, 91.6% and 78.8%, respectively. The purities of the crude peptides were 85.7%, 88.1% and 73.3%, respectively.     

胺基化树脂负载Pd(0)对Heck反应催化性能的研究

将氯球用胺化剂、乙二胺、胍进行胺化后负载氯化钯, 在乙醇溶液中用硼氢化钾还原, 制备了含胺功能基树脂负载钯(0)的催化剂; 研究了催化剂对含各种取代基碘代苯与丙烯酸的Heck芳基化反应催化性能. 结果表明, 该类催化剂具有良好的催化活性和重复使用性能, 其中用乙二胺功能化树脂负载的Pd(0)催化剂在90 ℃重复使用17次时能保持良好的催化活性. 催化剂反应前后的SEM形貌图和过滤液的活性试验表明催化剂活性组分Pd(0)在反应中有沥取(leaching)现象.