(3S,5R,8S)-3,5-dimethyl-2,6-dioxabicyclo[6.5.0]trideca-1(13),9,11-trien-7-one | 201848-46-6

分子结构分类

有机化合物 - 有机杂环化合物 - 奥昔康唑

中文名称

——

中文别名

——

英文名称

(3S,5R,8S)-3,5-dimethyl-2,6-dioxabicyclo[6.5.0]trideca-1(13),9,11-trien-7-one

英文别名

——

(3S,5R,8S)-3,5-dimethyl-2,6-dioxabicyclo[6.5.0]trideca-1(13),9,11-trien-7-one化学式

CAS

201848-46-6

化学式

C₁₃H₁₆O₃

mdl

——

分子量

220.268

InChiKey

UNGOVGNEEOCFOC-AXFHLTTASA-N

BEILSTEIN

——

EINECS

——

计算性质

辛醇/水分配系数(LogP)：

2.9
重原子数：

16
可旋转键数：

0
环数：

2.0
sp3杂化的碳原子比例：

0.46
拓扑面积：

35.5
氢给体数：

0
氢受体数：

3

反应信息

作为反应物：

描述：

(3S,5R,8S)-3,5-dimethyl-2,6-dioxabicyclo[6.5.0]trideca-1(13),9,11-trien-7-one 在叔丁基过氧化氢、 sodium hydroxide 、对甲苯磺酸作用下，以四氢呋喃为溶剂，生成 C₁₆H₂₄O₅

参考文献：

名称：

Perhydroxylation of Chiral Cycloheptatriene Ring through Stepwise Oxidation under Regio- and Stereocontrol

摘要：

在区域和立体控制下，实现了光学活性环庚三烯衍生物的顺序氧化，从而得到全羟基化产物。

DOI：

10.1246/cl.2005.546
作为产物：

描述：

(4S,2R)-4-phenoxypentane-2-ol 在 dirhodium tetraacetate 、对甲苯磺酰叠氮、三乙胺作用下，以二氯甲烷、乙腈为溶剂，反应 5.0h，生成 (3S,5R,8S)-3,5-dimethyl-2,6-dioxabicyclo[6.5.0]trideca-1(13),9,11-trien-7-one

参考文献：

名称：

“Chiral Perturbation Factor” Approach Reveals Importance of Entropy Term in Stereocontrol of the 2,4-Pentanediol-Tethered Reaction

摘要：

The stereocontrol mechanism of the 2, 4-pentanediol (PD)-tethered reaction was studied in detail using a reaction system consisting of phenyl and rhodium carbenoid moieties. Different tethers were examined to analyze the effects of the methyl groups on the PD tether. Among the reactions with these tethers, the PD tether achieves an unmeasurably high stereoselectivity in a diastereomeric ratio of > 500. Another tether showing a high but measurable stereoselectivity in a ratio of 41 is mostly controlled by the entropy term. To clarify the role of the methyl groups on the chiral tethers, which are the origin of the stereocontrol, the "chiral perturbation factor" is introduced. This parameter is defined as the rate of a chiral reaction relative to that of an achiral reference reaction. By analyzing the temperature dependence of the chiral perturbation factors for different chiral-tethered reactions, high potentials of the PD-tethered reaction in its stereocontrol are concluded to be due to the entropy term.

DOI：

10.1021/jo025937s

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文献信息

Regiocontrol of Diels-Alder Reaction of Conjugate 1-Trienol Ether in Chiral Tropilidene with TCNE

作者：Takashi Sugimura、Shinya Nagano、Harumi Kohno、Morifumi Fujita、Akira Tai

DOI：10.1246/cl.1999.179

日期：1999.2

The Diels-Alder reaction of tetracyanoethylene (TCNE) with a 1-trienol unit in the tropilidenes at the 1,4-position was a quick and reversible process, whereas the 3,6-addition only proceeded in polar solvent and was irreversible.

四氰基乙烯（TCNE）在 1,4 位与托品苯中的 1-三烯酚单元发生的 Diels-Alder 反应是一个快速且可逆的过程，而 3,6 加成反应只能在极性溶剂中进行，且不可逆。
The First Asymmetric Synthesis of Optically Active Tropilidenes. Highly Regio- and Diastereo-differentiating Addition of Diazo Ester to Aromatic Ring Using 2,4-Pentanediol as Chiral Linking Bridge

作者：Takashi Sugimura、Shinya Nagano、Akira Tai

DOI：10.1246/cl.1998.45

日期：1998.1

Optically active tropilidenes were prepared by cycloaddition of a diazo ester to an aromatic ring using 2,4-pentanediol as a chiral linking bridge under complete regio- and stereo-differentiations.

在完全区域和立体分化下，使用 2,4-戊二醇作为手性连接桥，通过重氮酯与芳环的环加成反应制备光学活性三亚苯基。
Entropy-Controlled Asymmetric Synthesis. How Differential Activation Entropy Is Induced in Chiral Tethered Reactions

作者：Takashi Sugimura、Kazutake Hagiya、Yasuhiro Sato、Takahiro Tei、Akira Tai、Tadashi Okuyama

DOI：10.1021/ol006741m

日期：2001.1.1

[GRAPHICS]Kinetic measurements to determine effective molarities of intramolecular reactions using 2,4-pentanediol and related tethers showed that methyl groups on the tether accelerate the major diastereomeric process but decelerate the minor process. The efficient promotion of stereocontrol is suggested to be due to chiral perturbation of the reaction rate through the entropy term, The conformation of the encounter complex of the reagent and reactant moieties was deduced by stereochemical analysis of the intramolecular adducts.
Rapid [1,5] Hydrogen Migration on 7-Alkoxycarbonyltropilidenes under Conformational Regulation

作者：Takashi Sugimura、Harumi Kohno、Shinya Nagano、Futoshi Nishida、Akira Tai

DOI：10.1246/cl.1999.1143

日期：1999.11

The thermal [1,5] hydrogen migration of 7-alkoxycarbonyltropilidene was found to be accelerated by conformational regulation at the carbonyl group, which was mainly affected to the activation energy. Methyl substitutions on the 3- and 5-positions further increased the migration rate.

同类化合物

胰岛素原(cattle),29-[N6-[[2-(甲磺酰)乙氧基]羰基]-L-赖氨酸]-59-[N6-[[2-(甲磺酰)乙氧基]羰基]-L-赖氨酸]-(9CI) 十氢-2,7-苯并二氧杂环癸烷-3,6-二酮二环<3.3.0>-2-氧杂-5-(2-丙烯基)-1-辛烯乙烯邻苯二甲酸酯 [(E,1R)-1-[(2R,4Z,7S,8R)-7-溴-8-乙基-3,6,7,8-四氢-2H-氧杂环辛三烯-2-基]己-3-烯-5-炔基]乙酸酯 [(2R,3S,4E,6R,7S)-6,7-二羟基-2-甲基-10-氧代-2,3,6,7,8,9-六氢氧杂环辛三烯-3-基] (E)-丁-2-烯酸酯 6,7-二氢-5aH-氧杂环丁烷并[3,2-d][1,3]苯并二氧戊环 5-氧杂-10-氮杂三环[5.3.1.03,8]十一碳-1(10),2,6,8-四烯 3-氧杂二环[3.3.1]壬-6-烯-9-酮 3,4,5,6-四氢-2,7-苯并二氧杂环癸烷e-1,8-二酮 17-苯基-18,19,20-三去甲-前列腺素F2-alpha1,15-内酯 10-(乙酰氧基)-4,5,6,7-四氢-2H-1-苯并氧杂环辛三烯-2,8(3H)-二酮 1-(2,3,4,5-四氢-1,6-苯并二噁辛英-8-基)丙烷-1-酮 1,2-环己烷二甲酸1-甲基-1,2-乙二基酯 (S)-5-烯丙基-2-氧杂双环[3.3.0]辛-8-烯 (R)-5-烯丙基-2-氧杂双环[3.3.0]辛-8-烯 (7Z)-2-(3-溴丙-1,2-二烯基)-5-(1-溴丙基)-3,3a,5,6,9,9a-六氢-2H-呋喃并[3,2-b]氧杂环辛三烯 (7E)-4,7-二羟基-10-甲基-3,4,5,6,9,10-六氢氧杂环辛三烯-2-酮 (6Z)-10-甲基-3,4,5,8,9,10-六氢-2H-氧杂环辛三烯-2-酮 (5Z,8S)-3-氯-2-[(E)-戊-2-烯-4-炔基]-8-[(E)-丙-1-烯基]-3,4,7,8-四氢-2H-氧杂环辛三烯 (4Z)-3,6-二氢-2,7-苯并二氧杂环癸烷e-1,8-二酮 (4S,5Z,7S,8S,10R)-4,7,8-三羟基-10-甲基-3,4,7,8,9,10-六氢氧杂环辛三烯-2-酮 (4R,5R,6Z,8S,10R)-4,5,8-三羟基-10-甲基-3,4,5,8,9,10-六氢氧杂环辛三烯-2-酮 (2R,5Z)-8a-[(R)-1-溴丙基]-3a-氯-3,4,7,8-四氢-2a-[(Z)-2-戊烯-4-炔基]-2H-氧杂环辛三烯 8-Chlor-1,6-benzodioxocin 2,2,6-Trifluoro-4-phenyl-3-trifluoromethyl-2H-pyran 2,3,4,5,6,7-Hexahydro-1-benzoxonin aspinolide C 4-deutero-4,5-dihydro-2H-benzo[b]oxocin-6(3H)-one 3-Carbethoxy-4-bromo-5,6-dihydro-2-pyron (E,8S,13S)-8,13-diisopropyl-5,8,9,12,13,16-hexahydro-6,15-dioxa-benzocyclotetradecene-7,14-dione (1S,7Z,10R,11S)-11-t-butyldimethylsolyloxy-4-oxabicyclo[8.3.0]tridec-7-en-3-one (Z)-2-Methyl-3a,4,5,6,7,9a-hexahydro-cycloocta[b]furan-3-carboxylic acid ethyl ester (5R,8S,9R,10S,E)-5,8,9-trihydroxy-10-methyl-3,4,5,8,9,10-hexahydro-2H-oxecin-2-one 19,21-Dimethyl-4,15-dioxa-bicyclo[16.2.2]docosa-1(21),18(22),19-triene-3,16-dione (1S,4aR,8aS)-1,4,4a,8a-Tetrahydro-naphthalen-1-ol 5-methyl-2-oxo-2H-cyclohepta[b]furan-3-carboxylic acid methyl ester trans,trans-2,3;10,11-Dibenzo-1,4,9,12-tetraoxa-cyclohexadecatetraen-(2,6,10,14) 1-C-(4-O-acetyl-2,3,6-trideoxy-β-L-erytro-hex-2-en-pyranosyl)-3-bromopentane 2,2,2-Trichloro-acetimidic acid (2S,3S,6R)-2-methoxy-6-methyl-3,6-dihydro-2H-pyran-3-yl ester 1-C-(4-O-acetyl-2,3,6-trideoxy-α-L-erytro-hex-2-en-pyranosyl)-5-bromopentane (3,4-dihydro-1H-2-benzopyran-7-yl)methanesulfonylchloride methyl 2,3-C-(2-butene-1,4-diyl)-2,3-dideoxy-α,β-D-talofuranoside 3-oxobicyclo<7.3.1>-trideca-1(12),9(10)-diene-(ZZ)-12-carboxylic acid (3aS,5S,6R,8aR)-6-Hydroxy-5-methyl-3,3a,4,5,6,8a-hexahydro-cyclohepta[b]furan-2-one (Z)-3-butyl-6,7,8,9-tetrahydrooxonin-2(5H)-one 3,6-dihydro-4-methyl-2H-1-benzoxocine 18,20-Dimethyl-4,14-dioxa-bicyclo[15.2.2]henicosa-1(20),17(21),18-triene-3,15-dione 3-butyl-5,6,7,8,9,10-hexahydro-2H-oxecin-2-one