N-(2-羟基苯基)-2-[(苯甲氧基)羰基氨基]乙酰胺 | 58178-08-8
中文名称
N-(2-羟基苯基)-2-[(苯甲氧基)羰基氨基]乙酰胺
中文别名
——
英文名称
N-(2-hydroxyphenyl)-2-[(phenylmethoxy)carbonylamino]ethanamide
英文别名
benzyl N-[2-(2-hydroxyanilino)-2-oxoethyl]carbamate
![N-(2-羟基苯基)-2-[(苯甲氧基)羰基氨基]乙酰胺化学式](data:image/svg+xml;base64,<?xml version="1.0" encoding="UTF-8"?>
<svg xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" width="300" height="300" viewBox="0 0 300 300">
<defs>
<g>
<g id="glyph-0-0">
<path d="M 0.5625 2.015625 L 0.5625 -8.015625 L 6.25 -8.015625 L 6.25 2.015625 Z M 1.203125 1.375 L 5.609375 1.375 L 5.609375 -7.375 L 1.203125 -7.375 Z M 1.203125 1.375 "/>
</g>
<g id="glyph-0-1">
<path d="M 1.109375 -8.28125 L 2.625 -8.28125 L 6.296875 -1.359375 L 6.296875 -8.28125 L 7.375 -8.28125 L 7.375 0 L 5.875 0 L 2.203125 -6.921875 L 2.203125 0 L 1.109375 0 Z M 1.109375 -8.28125 "/>
</g>
<g id="glyph-0-2">
<path d="M 1.109375 -8.28125 L 2.234375 -8.28125 L 2.234375 -4.890625 L 6.3125 -4.890625 L 6.3125 -8.28125 L 7.421875 -8.28125 L 7.421875 0 L 6.3125 0 L 6.3125 -3.9375 L 2.234375 -3.9375 L 2.234375 0 L 1.109375 0 Z M 1.109375 -8.28125 "/>
</g>
<g id="glyph-0-3">
<path d="M 4.46875 -7.515625 C 3.65625 -7.515625 3.007812 -7.210938 2.53125 -6.609375 C 2.050781 -6.003906 1.8125 -5.175781 1.8125 -4.125 C 1.8125 -3.082031 2.050781 -2.257812 2.53125 -1.65625 C 3.007812 -1.050781 3.65625 -0.75 4.46875 -0.75 C 5.289062 -0.75 5.9375 -1.050781 6.40625 -1.65625 C 6.882812 -2.257812 7.125 -3.082031 7.125 -4.125 C 7.125 -5.175781 6.882812 -6.003906 6.40625 -6.609375 C 5.9375 -7.210938 5.289062 -7.515625 4.46875 -7.515625 Z M 4.46875 -8.4375 C 5.632812 -8.4375 6.5625 -8.046875 7.25 -7.265625 C 7.945312 -6.484375 8.296875 -5.4375 8.296875 -4.125 C 8.296875 -2.820312 7.945312 -1.78125 7.25 -1 C 6.5625 -0.226562 5.632812 0.15625 4.46875 0.15625 C 3.3125 0.15625 2.382812 -0.226562 1.6875 -1 C 0.988281 -1.78125 0.640625 -2.820312 0.640625 -4.125 C 0.640625 -5.4375 0.988281 -6.484375 1.6875 -7.265625 C 2.382812 -8.046875 3.3125 -8.4375 4.46875 -8.4375 Z M 4.46875 -8.4375 "/>
</g>
</g>
</defs>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 8.652248 1.504901 L 9.53488 0.99541 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 8.668896 1.504901 L 8.049058 1.147308 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 8.660503 1.500086 L 8.660503 2.509713 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 8.827261 1.59626 L 8.827261 2.413538 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 9.526625 1.000225 L 10.400865 1.504901 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 9.526625 1.192712 L 10.234245 1.601076 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 9.526625 1.009856 L 9.526625 0.261235 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 7.539291 1.147445 L 6.919865 1.504901 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 8.652248 2.495266 L 9.53488 3.005033 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 10.39261 1.490454 L 10.39261 2.509713 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 6.936514 1.504901 L 6.053881 0.99541 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 6.84488 1.45193 L 6.84488 2.238801 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 7.0115 1.45193 L 7.0115 2.238801 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 9.518232 3.005033 L 10.400865 2.495266 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 9.518232 2.812684 L 10.234245 2.399092 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 6.070529 0.99541 L 5.451104 1.353003 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.941199 1.353003 L 4.321774 0.99541 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.338422 0.99541 L 3.739773 1.340895 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.413546 1.048381 L 4.413546 0.261235 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.246788 1.048381 L 4.246788 0.261235 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 3.188317 1.340895 L 2.589667 0.99541 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.606315 0.99541 L 1.723683 1.504901 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.732075 1.500086 L 1.732075 2.509713 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.565318 1.59626 L 1.565318 2.413538 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.740331 1.504901 L 0.857698 0.99541 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.740331 2.495266 L 0.857698 3.005033 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.874346 0.99541 L -0.00828676 1.504901 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.874346 1.187896 L 0.158333 1.601076 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.874346 3.005033 L -0.00828676 2.495266 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.874346 2.812684 L 0.158333 2.399092 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M -0.0000314287 1.490454 L -0.0000314287 2.509713 " transform="matrix(28.390732, 0, 0, 28.390732, 2.473549, 109.899752)"/>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="219.511719" y="142.4375"/>
</g>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="219.488281" y="133.210938"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="268.472656" y="114.035156"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="276.605469" y="113.882812"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="194.699219" y="185.015625"/>
</g>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="145.75" y="156.625"/>
</g>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="145.726563" y="165.851562"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="96.351562" y="156.625"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="120.941406" y="114.035156"/>
</g>
</svg>
)
CAS
58178-08-8
化学式
C16H16N2O4
mdl
——
分子量
300.314
InChiKey
STQMEDWFCIFDOH-UHFFFAOYSA-N
BEILSTEIN
——
EINECS
——
-
物化性质
-
计算性质
-
ADMET
-
安全信息
-
SDS
-
制备方法与用途
-
上下游信息
-
文献信息
-
表征谱图
-
同类化合物
-
相关功能分类
-
相关结构分类
物化性质
-
沸点:563.3±45.0 °C(Predicted)
-
密度:1.323±0.06 g/cm3(Predicted)
计算性质
-
辛醇/水分配系数(LogP):2
-
重原子数:22
-
可旋转键数:6
-
环数:2.0
-
sp3杂化的碳原子比例:0.12
-
拓扑面积:87.7
-
氢给体数:3
-
氢受体数:4
SDS
上下游信息
-
下游产品
中文名称 英文名称 CAS号 化学式 分子量 —— 2-amino-N-(2-hydroxyphenyl)ethanamide 71641-93-5 C8H10N2O2 166.18
反应信息
-
作为反应物:描述:N-(2-羟基苯基)-2-[(苯甲氧基)羰基氨基]乙酰胺 在 palladium on activated charcoal 环己烯 作用下, 以 甲醇 、 乙醇 为溶剂, 反应 3.25h, 生成 3-aza-4-(2-hydroxyphenyl)-N-(2-hydroxyphenyl)but-3-enamide参考文献:名称:获得具有新型不对称席夫碱配体的锰(III)配合物的直接途径摘要:已经合成了新的一类不对称取代的席夫碱配体,其中包含硬酰胺基供体原子。已确定这些配体之一H 3 -amsal的单晶X射线结构[H 3 -amsal = 3-氮杂-4-(2-羟基苯基)-N-(2-羟基苯基)but-3-酰胺]。该结构表明该配体适合用作八面体络合物中的赤道配位配体。设计了一种新的途径来获得这些配体的锰(III)配合物,具有高产率和高纯度。Mn III(amsal-R)(H 2 O)n (n的形式的配合物= 1–4)是通过在配体的乙腈溶液中对锰阳极进行电化学氧化而制备的。所述化合物已经通过元素分析,IR和1个1 H NMR波谱,FAB质谱,磁场测量,Λ中号和循环伏安法。DOI:10.1039/b000235f
-
作为产物:描述:参考文献:名称:木瓜蛋白酶催化下N-酰基氨基酸酰胺对苯胺和取代苯胺的行为摘要:通过木瓜蛋白酶催化与苯胺,三种茴香胺,三种氨基酚和三种氟苯胺的反应已实现了Z-dl-丙氨酸酰胺的拆分。所得的大多数酸酐显示出优于外消旋酰胺的95%分离度。在过量的干燥甲醇存在下,借助于最近报道的催化脱水器,制备了马尿酸,z-甘氨酸,zl-丙氨酸和z-dl-丙氨酸的四种甲酯。随后用氨处理产生酰胺。用与以前所用不同的方法,从氨基丙二酸乙酯盐酸盐合成了三种N-酰基氨基丙二酸酰胺。试验性不对称合成未能成功地用木瓜蛋白酶催化此类非手性酰胺与苯胺的反应。测试了一些有机溶质对苯胺合成过程中木瓜蛋白酶活性的影响。DOI:10.1016/0040-4020(75)80328-0
文献信息
-
Design and synthesis of a novel family of semi-rigid ligands: versatile compounds for the preparation of 99mTc radiopharmaceuticals作者:Julien Le Gal、Laure Latapie、Marie Gressier、Yvon Coulais、Mich�le Dartiguenave、Eric BenoistDOI:10.1039/b313996d日期:——Synthetic pathways to a range of novel semi-rigid tetradentate ligands, with sulfur, amido or amino donor groups, designed to coordinate technetium 99m have been developed. The technetium-99m complexes have been prepared and their stabilities in serum and by metathesis reaction via cysteine exchange reactions were compared. HPLC comparison of two (99m)Tc-complexes and their rhenium analogues led to已开发出设计用于协调99 99m的一系列新型半刚性四齿配体(具有硫,酰胺基或氨基供体基团)的合成途径。制备了-99m配合物,并比较了它们在血清中的稳定性以及通过半胱氨酸交换反应进行的复分解反应的稳定性。两种(99m)Tc配合物及其their类似物的HPLC比较导致我们放射性配合物性质的第一个证明。
-
An Efficient Greener Approach for N-acylation of Amines in Water Using Benzotriazole Chemistry作者:Tarek S. Ibrahim、Israa A. Seliem、Siva S. Panda、Amany M. M. Al-Mahmoudy、Zakaria K. M. Abdel-Samii、Nabil A. Alhakamy、Hani Z. Asfour、Mohamed ElagawanyDOI:10.3390/molecules25112501日期:——straightforward, mild and cost-efficient synthesis of various arylamides in water was accomplished using versatile benzotriazole chemistry. Acylation of various amines was achieved in water at room temperature as well as under microwave irradiation. The developed protocol unfolds the synthesis of amino acid aryl amides, drug conjugates and benzimidazoles. The environmentally friendly synthesis, short reaction使用通用的苯并三唑化学完成了在水中直接、温和且经济高效地合成各种芳基酰胺。在室温下以及在微波辐射下,在水中实现了各种胺的酰化。开发的协议展开了氨基酸芳基酰胺、药物偶联物和苯并咪唑的合成。环保合成、反应时间短、后处理简单、收率高、条件温和、无外消旋化是该协议的主要优点。
-
[EN] SALT INDUCIBLE KINASE INHIBITORS<br/>[FR] INHIBITEURS DE KINASES INDUCTIBLES PAR UN SEL申请人:MASSACHUSETTS GEN HOSPITAL公开号:WO2022031928A1公开(公告)日:2022-02-10The present application provides compounds that modulate the activity of one or more salt inducible kinases (SIKs). Pharmaceutical composition and methods of treating diseases associated with abnormal expression and/or activity of one or more SIKs are also provided.本申请提供了调节一个或多个盐诱导激酶(SIKs)活性的化合物。还提供了与一个或多个SIKs异常表达和/或活性相关的疾病治疗方法和药物组合。
-
Formation of Novel 1‐D Chains by μ‐Amido Bridging of Dinuclear Manganese( <scp>III</scp> )‐Schiff Base Complexes作者:Manuel R. Bermejo、Ana M. González‐Noya、Víctor Abad、M. Isabel Fernández、Marcelino Maneiro、Rosa Pedrido、Miguel VázquezDOI:10.1002/ejic.200400198日期:2004.9Three novel neutral manganese(III) complexes of stoichiometry Mn(R-amsal-3,5-di-tBu)(H2O)n [H3-R-amsal-3,5-ditBu = 3-aza-4-(2-hydroxyphenyl)-N-(2-hydroxyphenyl)but-3enamide; (R = H, 4-Me, 5-tBu)] have been synthesised using potentially trianionic and pentadentate Schiff-base ligands containing an amide group. Complexes were thoroughly characterised by elemental analysis, FAB mass spectrometry, infrared三种新型中性锰 (III) 配合物的化学计量为 Mn(R-amsal-3,5-di-tBu)(H2O)n [H3-R-amsal-3,5-ditBu = 3-aza-4-(2-羟基苯基)-N-(2-羟基苯基)丁-3烯酰胺;(R = H, 4-Me, 5-tBu)] 已经使用含有酰胺基团的潜在三阴离子和五齿席夫碱配体合成。通过元素分析、FAB 质谱、红外光谱、磁化率测量和摩尔电导率对配合物进行了彻底的表征。这些复合物从甲醇中重结晶得到单晶 [Mn2(amsal3,5-di-tBu)2(MeOH)2]n 1,[Mn 2(4-Me-amsal-3,5-di-tBu)2
-
A simplified route to the synthesis of new 99mTc-specific tetradentate ligands作者:Julien Le Gal、Eric Benoist、Marie Gressier、Yvon Coulais、Michèle DartiguenaveDOI:10.1016/s0040-4039(02)02385-7日期:2002.12The synthesis of two new N2S2 or N2SO tetradentate ligands and the preparation of their technetium-99m complexes are reported. Each ligand leads to a unique Tc-99m-complex with an excellent radiochemical yield. The in vivo stability of these complexes was determined by serum stability and cysteine challenge studies. (C) 2002 Elsevier Science Ltd. All rights reserved.
同类化合物
(甲基3-(二甲基氨基)-2-苯基-2H-azirene-2-羧酸乙酯)
(±)-盐酸氯吡格雷
(±)-丙酰肉碱氯化物
(d(CH2)51,Tyr(Me)2,Arg8)-血管加压素
(S)-(+)-α-氨基-4-羧基-2-甲基苯乙酸
(S)-阿拉考特盐酸盐
(S)-赖诺普利-d5钠
(S)-2-氨基-5-氧代己酸,氢溴酸盐
(S)-2-[3-[(1R,2R)-2-(二丙基氨基)环己基]硫脲基]-N-异丙基-3,3-二甲基丁酰胺
(S)-1-(4-氨基氧基乙酰胺基苄基)乙二胺四乙酸
(S)-1-[N-[3-苯基-1-[(苯基甲氧基)羰基]丙基]-L-丙氨酰基]-L-脯氨酸
(R)-乙基N-甲酰基-N-(1-苯乙基)甘氨酸
(R)-丙酰肉碱-d3氯化物
(R)-4-N-Cbz-哌嗪-2-甲酸甲酯
(R)-3-氨基-2-苄基丙酸盐酸盐
(R)-1-(3-溴-2-甲基-1-氧丙基)-L-脯氨酸
(N-[(苄氧基)羰基]丙氨酰-N〜5〜-(diaminomethylidene)鸟氨酸)
(6-氯-2-吲哚基甲基)乙酰氨基丙二酸二乙酯
(4R)-N-亚硝基噻唑烷-4-羧酸
(3R)-1-噻-4-氮杂螺[4.4]壬烷-3-羧酸
(3-硝基-1H-1,2,4-三唑-1-基)乙酸乙酯
(2S,3S,5S)-2-氨基-3-羟基-1,6-二苯己烷-5-N-氨基甲酰基-L-缬氨酸
(2S,3S)-3-((S)-1-((1-(4-氟苯基)-1H-1,2,3-三唑-4-基)-甲基氨基)-1-氧-3-(噻唑-4-基)丙-2-基氨基甲酰基)-环氧乙烷-2-羧酸
(2S)-2,6-二氨基-N-[4-(5-氟-1,3-苯并噻唑-2-基)-2-甲基苯基]己酰胺二盐酸盐
(2S)-2-氨基-3-甲基-N-2-吡啶基丁酰胺
(2S)-2-氨基-3,3-二甲基-N-(苯基甲基)丁酰胺,
(2S,4R)-1-((S)-2-氨基-3,3-二甲基丁酰基)-4-羟基-N-(4-(4-甲基噻唑-5-基)苄基)吡咯烷-2-甲酰胺盐酸盐
(2R,3'S)苯那普利叔丁基酯d5
(2R)-2-氨基-3,3-二甲基-N-(苯甲基)丁酰胺
(2-氯丙烯基)草酰氯
(1S,3S,5S)-2-Boc-2-氮杂双环[3.1.0]己烷-3-羧酸
(1R,4R,5S,6R)-4-氨基-2-氧杂双环[3.1.0]己烷-4,6-二羧酸
齐特巴坦
齐德巴坦钠盐
齐墩果-12-烯-28-酸,2,3-二羟基-,苯基甲基酯,(2a,3a)-
齐墩果-12-烯-28-酸,2,3-二羟基-,羧基甲基酯,(2a,3b)-(9CI)
黄酮-8-乙酸二甲氨基乙基酯
黄荧菌素
黄体生成激素释放激素 (1-5) 酰肼
黄体瑞林
麦醇溶蛋白
麦角硫因
麦芽聚糖六乙酸酯
麦根酸
麦撒奎
鹅膏氨酸
鹅膏氨酸
鸦胆子酸A甲酯
鸦胆子酸A
鸟氨酸缩合物
联系我们
关注我们
公众号
