((R)-2,2-Dimethyl-[1,3]dioxolan-4-yl)-acetaldehyde | 72496-37-8
中文名称
——
中文别名
——
英文名称
((R)-2,2-Dimethyl-[1,3]dioxolan-4-yl)-acetaldehyde
英文别名
2-((R)-2,2-dimethyl-1,3-dioxolan-4-yl)acetaldehyde;(R)-2-(2,2-dimethyl-1,3-dioxolan-4-yl)aetaldehyde;(R)-2,2-dimethyl-1,3-dioxolane-4-acetaldehyde;(R)-3,4-isopropylidenedioxybutanal;2-[(4R)-2,2-Dimethyl-1,3-dioxolan-4-YL]acetaldehyde
![((R)-2,2-Dimethyl-[1,3]dioxolan-4-yl)-acetaldehyde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 1 3.53125 L 1 -14.0625 L 10.96875 -14.0625 L 10.96875 3.53125 Z M 2.109375 2.421875 L 9.859375 2.421875 L 9.859375 -12.953125 L 2.109375 -12.953125 Z M 2.109375 2.421875 "/>
</g>
<g id="glyph-0-1">
<path d="M 12.84375 -13.421875 L 12.84375 -11.34375 C 12.1875 -11.96875 11.484375 -12.429688 10.734375 -12.734375 C 9.984375 -13.035156 9.1875 -13.1875 8.34375 -13.1875 C 6.675781 -13.1875 5.398438 -12.675781 4.515625 -11.65625 C 3.640625 -10.644531 3.203125 -9.179688 3.203125 -7.265625 C 3.203125 -5.347656 3.640625 -3.878906 4.515625 -2.859375 C 5.398438 -1.835938 6.675781 -1.328125 8.34375 -1.328125 C 9.1875 -1.328125 9.984375 -1.476562 10.734375 -1.78125 C 11.484375 -2.09375 12.1875 -2.554688 12.84375 -3.171875 L 12.84375 -1.125 C 12.15625 -0.65625 11.425781 -0.300781 10.65625 -0.0625 C 9.894531 0.164062 9.082031 0.28125 8.21875 0.28125 C 6.019531 0.28125 4.285156 -0.390625 3.015625 -1.734375 C 1.753906 -3.085938 1.125 -4.929688 1.125 -7.265625 C 1.125 -9.597656 1.753906 -11.4375 3.015625 -12.78125 C 4.285156 -14.132812 6.019531 -14.8125 8.21875 -14.8125 C 9.09375 -14.8125 9.914062 -14.695312 10.6875 -14.46875 C 11.457031 -14.238281 12.175781 -13.890625 12.84375 -13.421875 Z M 12.84375 -13.421875 "/>
</g>
<g id="glyph-0-2">
<path d="M 10.953125 -6.59375 L 10.953125 0 L 9.15625 0 L 9.15625 -6.53125 C 9.15625 -7.5625 8.953125 -8.332031 8.546875 -8.84375 C 8.148438 -9.351562 7.546875 -9.609375 6.734375 -9.609375 C 5.773438 -9.609375 5.015625 -9.300781 4.453125 -8.6875 C 3.890625 -8.070312 3.609375 -7.234375 3.609375 -6.171875 L 3.609375 0 L 1.8125 0 L 1.8125 -15.15625 L 3.609375 -15.15625 L 3.609375 -9.21875 C 4.035156 -9.875 4.539062 -10.363281 5.125 -10.6875 C 5.707031 -11.007812 6.378906 -11.171875 7.140625 -11.171875 C 8.390625 -11.171875 9.335938 -10.78125 9.984375 -10 C 10.628906 -9.226562 10.953125 -8.09375 10.953125 -6.59375 Z M 10.953125 -6.59375 "/>
</g>
<g id="glyph-0-3">
<path d="M 1.875 -10.90625 L 3.671875 -10.90625 L 3.671875 0 L 1.875 0 Z M 1.875 -15.15625 L 3.671875 -15.15625 L 3.671875 -12.890625 L 1.875 -12.890625 Z M 1.875 -15.15625 "/>
</g>
<g id="glyph-0-4">
<path d="M 8.203125 -9.234375 C 8.003906 -9.347656 7.785156 -9.429688 7.546875 -9.484375 C 7.304688 -9.546875 7.046875 -9.578125 6.765625 -9.578125 C 5.742188 -9.578125 4.960938 -9.242188 4.421875 -8.578125 C 3.878906 -7.921875 3.609375 -6.976562 3.609375 -5.75 L 3.609375 0 L 1.8125 0 L 1.8125 -10.90625 L 3.609375 -10.90625 L 3.609375 -9.21875 C 3.984375 -9.875 4.472656 -10.363281 5.078125 -10.6875 C 5.679688 -11.007812 6.414062 -11.171875 7.28125 -11.171875 C 7.40625 -11.171875 7.539062 -11.160156 7.6875 -11.140625 C 7.84375 -11.128906 8.007812 -11.109375 8.1875 -11.078125 Z M 8.203125 -9.234375 "/>
</g>
<g id="glyph-0-5">
<path d="M 6.84375 -5.484375 C 5.394531 -5.484375 4.390625 -5.316406 3.828125 -4.984375 C 3.265625 -4.648438 2.984375 -4.085938 2.984375 -3.296875 C 2.984375 -2.660156 3.191406 -2.15625 3.609375 -1.78125 C 4.035156 -1.40625 4.609375 -1.21875 5.328125 -1.21875 C 6.316406 -1.21875 7.113281 -1.566406 7.71875 -2.265625 C 8.320312 -2.972656 8.625 -3.910156 8.625 -5.078125 L 8.625 -5.484375 Z M 10.421875 -6.21875 L 10.421875 0 L 8.625 0 L 8.625 -1.65625 C 8.21875 -0.988281 7.707031 -0.5 7.09375 -0.1875 C 6.476562 0.125 5.734375 0.28125 4.859375 0.28125 C 3.734375 0.28125 2.84375 -0.03125 2.1875 -0.65625 C 1.53125 -1.28125 1.203125 -2.117188 1.203125 -3.171875 C 1.203125 -4.398438 1.609375 -5.328125 2.421875 -5.953125 C 3.242188 -6.578125 4.472656 -6.890625 6.109375 -6.890625 L 8.625 -6.890625 L 8.625 -7.0625 C 8.625 -7.882812 8.351562 -8.519531 7.8125 -8.96875 C 7.269531 -9.425781 6.507812 -9.65625 5.53125 -9.65625 C 4.90625 -9.65625 4.296875 -9.578125 3.703125 -9.421875 C 3.109375 -9.273438 2.539062 -9.054688 2 -8.765625 L 2 -10.421875 C 2.65625 -10.671875 3.289062 -10.859375 3.90625 -10.984375 C 4.519531 -11.109375 5.117188 -11.171875 5.703125 -11.171875 C 7.285156 -11.171875 8.46875 -10.757812 9.25 -9.9375 C 10.03125 -9.125 10.421875 -7.882812 10.421875 -6.21875 Z M 10.421875 -6.21875 "/>
</g>
<g id="glyph-0-6">
<path d="M 1.875 -15.15625 L 3.671875 -15.15625 L 3.671875 0 L 1.875 0 Z M 1.875 -15.15625 "/>
</g>
<g id="glyph-0-7">
<path d="M 7.859375 -13.21875 C 6.429688 -13.21875 5.296875 -12.679688 4.453125 -11.609375 C 3.617188 -10.546875 3.203125 -9.097656 3.203125 -7.265625 C 3.203125 -5.429688 3.617188 -3.976562 4.453125 -2.90625 C 5.296875 -1.84375 6.429688 -1.3125 7.859375 -1.3125 C 9.285156 -1.3125 10.414062 -1.84375 11.25 -2.90625 C 12.09375 -3.976562 12.515625 -5.429688 12.515625 -7.265625 C 12.515625 -9.097656 12.09375 -10.546875 11.25 -11.609375 C 10.414062 -12.679688 9.285156 -13.21875 7.859375 -13.21875 Z M 7.859375 -14.8125 C 9.898438 -14.8125 11.53125 -14.125 12.75 -12.75 C 13.96875 -11.382812 14.578125 -9.554688 14.578125 -7.265625 C 14.578125 -4.960938 13.96875 -3.128906 12.75 -1.765625 C 11.53125 -0.398438 9.898438 0.28125 7.859375 0.28125 C 5.816406 0.28125 4.179688 -0.398438 2.953125 -1.765625 C 1.734375 -3.128906 1.125 -4.960938 1.125 -7.265625 C 1.125 -9.554688 1.734375 -11.382812 2.953125 -12.75 C 4.179688 -14.125 5.816406 -14.8125 7.859375 -14.8125 Z M 7.859375 -14.8125 "/>
</g>
<g id="glyph-0-8">
<path d="M 1.953125 -14.546875 L 3.921875 -14.546875 L 3.921875 -8.578125 L 11.078125 -8.578125 L 11.078125 -14.546875 L 13.046875 -14.546875 L 13.046875 0 L 11.078125 0 L 11.078125 -6.921875 L 3.921875 -6.921875 L 3.921875 0 L 1.953125 0 Z M 1.953125 -14.546875 "/>
</g>
<g id="glyph-1-0">
<path d="M 0.65625 2.34375 L 0.65625 -9.375 L 7.3125 -9.375 L 7.3125 2.34375 Z M 1.40625 1.609375 L 6.578125 1.609375 L 6.578125 -8.625 L 1.40625 -8.625 Z M 1.40625 1.609375 "/>
</g>
<g id="glyph-1-1">
<path d="M 5.390625 -5.21875 C 6.023438 -5.09375 6.515625 -4.816406 6.859375 -4.390625 C 7.210938 -3.960938 7.390625 -3.4375 7.390625 -2.8125 C 7.390625 -1.863281 7.0625 -1.125 6.40625 -0.59375 C 5.75 -0.0703125 4.816406 0.1875 3.609375 0.1875 C 3.203125 0.1875 2.78125 0.144531 2.34375 0.0625 C 1.914062 -0.0078125 1.472656 -0.128906 1.015625 -0.296875 L 1.015625 -1.5625 C 1.378906 -1.34375 1.773438 -1.179688 2.203125 -1.078125 C 2.640625 -0.972656 3.09375 -0.921875 3.5625 -0.921875 C 4.382812 -0.921875 5.007812 -1.082031 5.4375 -1.40625 C 5.875 -1.726562 6.09375 -2.195312 6.09375 -2.8125 C 6.09375 -3.382812 5.890625 -3.832031 5.484375 -4.15625 C 5.085938 -4.476562 4.53125 -4.640625 3.8125 -4.640625 L 2.6875 -4.640625 L 2.6875 -5.71875 L 3.875 -5.71875 C 4.519531 -5.71875 5.007812 -5.847656 5.34375 -6.109375 C 5.6875 -6.367188 5.859375 -6.738281 5.859375 -7.21875 C 5.859375 -7.71875 5.679688 -8.097656 5.328125 -8.359375 C 4.972656 -8.628906 4.46875 -8.765625 3.8125 -8.765625 C 3.457031 -8.765625 3.070312 -8.722656 2.65625 -8.640625 C 2.25 -8.566406 1.800781 -8.445312 1.3125 -8.28125 L 1.3125 -9.453125 C 1.800781 -9.585938 2.265625 -9.691406 2.703125 -9.765625 C 3.140625 -9.835938 3.550781 -9.875 3.9375 -9.875 C 4.925781 -9.875 5.710938 -9.644531 6.296875 -9.1875 C 6.878906 -8.738281 7.171875 -8.128906 7.171875 -7.359375 C 7.171875 -6.816406 7.015625 -6.359375 6.703125 -5.984375 C 6.398438 -5.617188 5.960938 -5.363281 5.390625 -5.21875 Z M 5.390625 -5.21875 "/>
</g>
</g>
</defs>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="212.945313" y="99.984375"/>
<use xlink:href="#glyph-0-2" x="226.878072" y="99.984375"/>
<use xlink:href="#glyph-0-3" x="239.524731" y="99.984375"/>
<use xlink:href="#glyph-0-4" x="245.068605" y="99.984375"/>
<use xlink:href="#glyph-0-5" x="253.272369" y="99.984375"/>
<use xlink:href="#glyph-0-6" x="265.500071" y="99.984375"/>
</g>
<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 4.262469 0.866075 L 3.717388 0.46946 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 4.262469 0.866075 L 4.048148 1.527125 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 4.262469 0.866075 L 4.91514 1.155568 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 4.262469 0.866075 L 4.605288 0.273306 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<path fill-rule="nonzero" fill="rgb(0%, 0%, 0%)" fill-opacity="1" d="M 143.292969 159.585938 L 172.523438 142.476562 L 167.640625 135.75 L 142.316406 158.242188 "/>
<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 3.709558 1.815992 L 2.942248 1.815992 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 2.641635 0.858009 L 2.958065 1.827424 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 2.652363 0.868659 L 1.685062 0.552933 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 1.70135 0.549488 L 0.942967 1.232385 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 0.959333 1.22894 L 0.281917 1.007963 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<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 0.919397 1.040616 L 0.333598 0.849552 " transform="matrix(49.88512, 0, 0, 49.88512, 10.893582, 115.709825)"/>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-7" x="175.359375" y="136.847656"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-7" x="200.3125" y="213.5625"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="262.191406" y="186.429688"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-8" x="274.746094" y="186.164062"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-1-1" x="288.441406" y="187.308594"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="241.527344" y="122.976562"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-8" x="254.082031" y="122.710938"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-1-1" x="267.777344" y="123.855469"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-7" x="3.042969" y="168.667969"/>
</g>
</svg>
)
CAS
72496-37-8
化学式
C7H12O3
mdl
——
分子量
144.17
InChiKey
BASUVKNKERZYGZ-ZCFIWIBFSA-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:193.6±15.0 °C(Predicted)
-
密度:1.000±0.06 g/cm3(Predicted)
计算性质
-
辛醇/水分配系数(LogP):-0.1
-
重原子数:10
-
可旋转键数:2
-
环数:1.0
-
sp3杂化的碳原子比例:0.86
-
拓扑面积:35.5
-
氢给体数:0
-
氢受体数:3
SDS
上下游信息
-
上游原料
中文名称 英文名称 CAS号 化学式 分子量 (R)-2,2-二甲基-1,3-二氧戊环-4-乙酸甲酯 Methyl (R)-2,2-dimethyl-1,3-dioxolane-4-acetate 112031-10-4 C8H14O4 174.197 —— (R)-ethyl 2-(2,2-dimethyl-1,3-dioxolan-4-yl)acetate 126946-51-8 C9H16O4 188.224 (R)-4-(2-羟乙基)-2,2-二甲基-1,3-二氧戊环 2-((4R)-2,2-dimethyl-1,3-dioxolan-4-yl)ethanol 70005-89-9 C7H14O3 146.186 (S)-4-(2-羟乙基)-2,2-二甲基-1,3-二氧戊环 (S)-3,4-isopropylidenedioxybutan-1-ol 32233-43-5 C7H14O3 146.186 —— ethyl (2R)-2-[(1S)-3,3-dimethyl(2,4-dioxolanyl)]-2-hydroxyacetate 114185-07-8 C9H16O5 204.223 -
下游产品
中文名称 英文名称 CAS号 化学式 分子量 —— ((R)-2,2-Dimethyl-[1,3]dioxolan-4-yl)-acetic acid 87319-13-9 C7H12O4 160.17 (R)-4-(2-羟乙基)-2,2-二甲基-1,3-二氧戊环 2-((4R)-2,2-dimethyl-1,3-dioxolan-4-yl)ethanol 70005-89-9 C7H14O3 146.186 —— (2R)-1,2-(1',2'-O-isopropylidene)dioxyhexan-6-ol 266318-67-6 C9H18O3 174.24 —— (R)-4-(2,2-dimethyl-1,3-dioxolan-4-yl)butyric acid 142560-61-0 C9H16O4 188.224 —— (5R)-1-iodo-5,6-(5',6'-O-isopropylidene)dioxyhexane 266318-69-8 C9H17IO2 284.137 —— ethyl (5R)-5,6-dihydroxy-5,6-O-isopropylidene-hexanoate 266318-66-5 C11H20O4 216.277 —— ethyl (4R,10R)-10,11-dihydroxy-10,11-O-isopropylidene-4-methoxymethoxyundecanoate 266318-71-2 C18H34O6 346.464 —— 1-[(4R)-2,2-dimethyl-1,3-dioxolan-4-yl]but-3-en-2-ol 192515-43-8 C9H16O3 172.224 —— (4R)-2,2-dimethyl-4-<(2S)-2-α-propenyl>-ethanol-1,3-dioxolane 131423-56-8 C10H18O3 186.251 —— (R)-1-((R)-2,2-dimethyl-1,3-dioxolan-4-yl)pent-4-en-2-ol 207983-60-6 C10H18O3 186.251
反应信息
-
作为反应物:描述:((R)-2,2-Dimethyl-[1,3]dioxolan-4-yl)-acetaldehyde 在 lithium aluminium tetrahydride 作用下, 生成 (R)-4-(2-羟乙基)-2,2-二甲基-1,3-二氧戊环参考文献:名称:通过硝酮的不对称 1,3-偶极环加成反应对映选择性和非对映选择性合成异恶唑烷摘要:具有吸电子基团的硝酮与非手性烯丙醇的不对称 1,3-偶极环加成反应是通过使用酒石酸二异丙酯作为手性助剂来实现的,得到相应的异恶唑烷,具有高区域-、非对映-和对映选择性。DOI:10.1246/cl.1997.547
-
作为产物:参考文献:名称:Total synthesis of fostriecin (CI-920) via a convergent route摘要:福斯替辛是一种有效且前景广阔的抗肿瘤抗生素,其立体选择性合成是通过三段偶联程序的聚合路线实现的。DOI:10.1039/b201302a
文献信息
-
Asymmetric Synthesis of α,β-Unsaturated δ-Lactones through Copper(I)-Catalyzed Direct Vinylogous Aldol Reaction作者:Hai-Jun Zhang、Liang YinDOI:10.1021/jacs.8b07929日期:2018.9.26for the asymmetric synthesis of chiral α,β-unsaturated δ-lactones was achieved by copper(I)-catalyzed direct vinylogous aldol reaction (DVAR) of β,γ-unsaturated esters and various aldehydes, including aromatic aldehydes, heteroaromatic aldehydes, α,β-unsaturated aldehydes, and aliphatic aldehydes. For aromatic and heteroaromatic aldehydes, a one-pot reaction consisting of DVAR, isomerization of the通过铜(I)催化的 β,γ-不饱和酯和各种醛(包括芳香醛、杂芳香醛)的直接乙烯基醛醇反应 (DVAR),实现了一种不对称合成手性 α,β-不饱和 δ-内酯的简单方法、α,β-不饱和醛和脂肪醛。对于芳香醛和杂芳香醛,需要由 DVAR、不饱和碳-碳双键从 (E)-形式异构化为 (Z)-形式以及随后的分子内酯交换组成的一锅反应,以获得中等至高产率和高对映选择性。对于 α,β-不饱和醛和脂肪族醛,DVAR 直接以中等收率和高对映选择性提供内酯。在 DVAR 中,各种功能组都具有良好的耐受性。而且,该方法很好地适用于分布在天然产物、天然产物衍生物和药物分子衍生物(托莫西汀和萘普生)中的醛基。机理研究表明,α-加成是可逆的且不受青睐,这说明了 DVAR 具有出色的区域选择性。提出通过去质子化产生的铜 (I)-二烯醇化物物质与烯丙基铜 (I) 物质形成平衡,烯丙基铜 (I) 物质与醛反应通过醛的催化不对称烯丙基化提供
-
Asymmetric 1,3-Dipolar Cycloaddition of Nitrones with an Electron-Withdrawing Group to Allylic Alcohols Utilizing Diisopropyl Tartrate as a Chiral Auxiliary作者:Xia Ding、Katsumi Taniguchi、Yoshihira Hamamoto、Kazunori Sada、Shuhei Fujinami、Yutaka Ukaji、Katsuhiko InomataDOI:10.1246/bcsj.79.1069日期:2006.7The asymmetric 1,3-dipolar cycloaddition of nitrones possessing an electron-withdrawing group to allylic alcohols was achieved by the use of diisopropyl (R,R)-tartrate as a chiral auxiliary to afford the corresponding isoxazolidines with high regio-, diastereo-, and enantioselectivity. In the case of nitrones possessing an electron-withdrawing cyano or t-butoxycarbonyl group, 1,3-dipolar cycloaddition具有吸电子基团的硝酮与烯丙醇的不对称 1,3-偶极环加成反应是通过使用酒石酸二异丙酯作为手性助剂来实现的,得到相应的异恶唑烷,具有高区域-、非对映-、和对映选择性。在硝酮具有吸电子氰基或叔丁氧基羰基的情况下,1,3-偶极环加成与 2-丙烯-1-醇发生产生相应的具有高对映选择性的 3,5-反式异恶唑烷。相反,具有酰胺部分的硝酮提供了相应的光学活性 3,5-顺式异恶唑烷,具有完全相反的非对映选择性。具有 N 的硝酮的催化不对称 1,3-偶极环加成,N-二异丙基酰胺部分转化为烯丙醇,得到二或三取代的异恶唑烷,对映选择性高达 99% 以上。本不对称 1,3-偶极环加成应用于 (2S,4R)-4-羟基鸟氨酸衍生物的合成。
-
A Modular Synthesis of Annonaceous Acetogenins作者:James A. Marshall、Arnaud Piettre、Mikell A. Paige、Frederick ValerioteDOI:10.1021/jo026433x日期:2003.3.1A-G, is described. The approach employs a central core aldehyde segment, C, to which are appended an aliphatic terminus, A or B, a spacer subunit, D or E, and a butenolide terminus, F or G. Coupling of the A, B, D, and E segments to the core aldehyde unit is effected by highly diastereoselective additions of enantiopure allylic indium or tin reagents. The butenolide termini are attached to the ACD描述了通过七个基本亚基AG的模块化方法,合成了四种无丙酮产乙酸素,阿斯米诺星,阿斯米星,阿斯米星和布兰宁。该方法采用中央核心醛链段C,脂肪链末端A或B,间隔物亚基D或E和丁烯内酯末端F或G附加在中央醛基链段上。A,B,D和C的偶联通过对映体纯的烯丙基铟或锡试剂的高度非对映选择性添加来实现核心醛单元的E链段。丁烯内酯末端通过Sonogashira偶联连接到ACD,BCE或BCD中间体。核心,间隔子和末端亚基的设计使得可以制备任何C30,C10或C4天然产乙酸原素或其立体异构体。发现上述四种乙酸原素对H-116人结肠癌细胞的IC50值在10(-3)至10(-4)microM范围内。IC90的活动约为。10(-3)microM的asimicin和asimin,但仅0.1-1 microM的Bullanin和asiminocin。
-
Total Synthesis of Phorboxazole A via <i>de Novo</i> Oxazole Formation: Strategy and Component Assembly作者:Bo Wang、T. Matthew Hansen、Ting Wang、Dimao Wu、Lynn Weyer、Lu Ying、Mary M. Engler、Melissa Sanville、Christopher Leitheiser、Mathias Christmann、Yingtao Lu、Jiehao Chen、Nicholas Zunker、Russell D. Cink、Feryan Ahmed、Chi-Sing Lee、Craig J. ForsythDOI:10.1021/ja108906e日期:2011.2.9The phorboxazole natural products are among the most potent inhibitors of cancer cell division, but they are essentially unavailable from natural sources at present. Laboratory syntheses based upon tri-component fragment coupling strategies have been developed that provide phorboxazole A and analogues in a reliable manner and with unprecedented efficiency. This has been orchestrated to occur via the佛盒唑天然产物是癌细胞分裂最有效的抑制剂之一,但目前基本上无法从天然来源获得。已经开发了基于三组分片段偶联策略的实验室合成,以可靠的方式和前所未有的效率提供佛盒唑 A 和类似物。这是通过从两个丝氨酸衍生的酰胺依次或同时形成天然产物的两个恶唑部分来进行的,包括氧化-环化脱水。已经开发了代表碳 3-17、18-30 和 31-46 的三种预组装组件的优化制备。本文详细介绍了这三个基本构建块的设计和综合。
-
Stereoselective total synthesis of (+)-strictifolione and (6R)-6[(E,4R,6R)-4,6-dihydro-10-phenyl-1-decenyl)-5,6-dihydro-2H-2-pyrone作者:Biswanath Das、Boyapati Veeranjaneyulu、Penagaluri Balasubramanyam、Malampati SrilathaDOI:10.1016/j.tetasy.2010.11.003日期:2010.12The stereoselective total synthesis of two naturally occurring α-pyrone derivatives, (+)-strictifolione and (6R)-6[(E,4R,6R)-4,6-dihydroxy-10-phenyl-1-decanyl]-5,6-dihydro-2H-2-pyrone has been accomplished involving the Sharpless kinetic resolution and olefin cross-metathesis as the key reactions.两种天然存在的α-吡喃酮衍生物,(+)-strictifolione和(6 R)-6 [(E,4 R,6 R)-4,6-二羟基-10-苯基-1-癸基]的立体选择性全合成已经完成了-5,6-二氢-2 H -2-吡喃酮的合成,其中包括Sharpless动力学拆分和烯烃交叉复分解反应。
同类化合物
(反式)-4-壬烯醛
(s)-2,3-二羟基丙酸甲酯
([1-(甲氧基甲基)-1H-1,2,4-三唑-5-基](苯基)甲酮)
(Z)-4-辛烯醛
(S)-氨基甲酸酯β-D-O-葡糖醛酸
(S)-3-(((2,2-二氟-1-羟基-7-(甲基磺酰基)-2,3-二氢-1H-茚满-4-基)氧基)-5-氟苄腈
(R)-氨基甲酸酯β-D-O-葡糖醛酸
(2,5-二氟苯基)-4-哌啶基-甲酮
龙胆苦苷
龙胆二糖甲乙酮氰醇(P)
龙胆二糖丙酮氰醇(P)
龙胆三糖
龙涎酮
齐罗硅酮
齐留通beta-D-葡糖苷酸
鼠李糖
黑芥子苷单钾盐
黑海棉酸钠盐
黑木金合欢素
黑曲霉三糖
黑介子苷
黄尿酸8-O-葡糖苷
麻西那霉素II
麦迪霉素
麦芽糖脎
麦芽糖基海藻糖
麦芽糖1-磷酸酯
麦芽糖
麦芽四糖醇
麦芽四糖
麦芽十糖
麦芽六糖
麦芽五糖水合物
麦芽五糖
麦芽五糖
麦芽五糖
麦芽三糖醇
麦芽三糖
麦芽三糖
麦芽三塘水合
麦芽七糖水合物
麦芽七糖
麦法朵
麦可酚酸-酰基-Β-D-葡糖苷酸
麦利查咪
麝香酮
鹤草酚
鸢尾酚酮 3-C-beta-D-吡喃葡萄糖苷
鸟苷5'-硫代二磷酸酯
鸟苷 5'-磷酰-2-甲基咪唑
联系我们
关注我们
公众号
