Modern Developments in the Chemistry of Homoenolates

Homoenolates are unique synthetic intermediates which display umpolung reactivity. Homoenolates and homoenolate equivalents like cyclopropanols have seen a recent surge in popularity due to their particular utility for accessing β‐functionalized carbonyl derivatives. This popularity has been enabled...

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Published inEuropean journal of organic chemistry Vol. 2019; no. 1; pp. 8 - 26
Main Authors Mills, L. Reginald, Rousseaux, Sophie A. L.
Format Journal Article
LanguageEnglish
Published Weinheim Wiley Subscription Services, Inc 10.01.2019
Subjects
Carbonyls
Chemical synthesis
Cyclopropane
Cyclopropanol
Homoenolate
Natural products
Organic chemistry
Synthetic intermediates
Umpolung reactions
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Abstract Homoenolates are unique synthetic intermediates which display umpolung reactivity. Homoenolates and homoenolate equivalents like cyclopropanols have seen a recent surge in popularity due to their particular utility for accessing β‐functionalized carbonyl derivatives. This popularity has been enabled by the development of protocols for facile access to cyclopropanols and homoenolates from a variety of readily available starting materials. This microreview will highlight common strategies for generating cyclopropanols and metal homoenolates, as well as procedures for homoenolate functionalization, with a particular emphasis on protocols that have appeared after 2003. As an amphoteric molecule, two main reactivity modes have been established: the homoenolate reacts as a carbon nucleophile for β‐functionalization reactions and/or as a carbonyl electrophile, a strategy which has only emerged in the past few years. This microreview will highlight the use of homoenolates as convenient intermediates for accessing especially challenging motifs. The use of homoenolate chemistry in the context of natural product and pharmaceutical synthesis will also be presented. This microreview highlights recent strategies for the synthesis of homoenolates and cyclopropanols, as well as protocols for homoenolate functionalization, both as nucleophilic and electrophilic reagents. The unique reactivity and synthetic utility of metal homoenolates is further showcased in recent examples of their use in natural product and pharmaceutical synthesis.
AbstractList Homoenolates are unique synthetic intermediates which display umpolung reactivity. Homoenolates and homoenolate equivalents like cyclopropanols have seen a recent surge in popularity due to their particular utility for accessing β‐functionalized carbonyl derivatives. This popularity has been enabled by the development of protocols for facile access to cyclopropanols and homoenolates from a variety of readily available starting materials. This microreview will highlight common strategies for generating cyclopropanols and metal homoenolates, as well as procedures for homoenolate functionalization, with a particular emphasis on protocols that have appeared after 2003. As an amphoteric molecule, two main reactivity modes have been established: the homoenolate reacts as a carbon nucleophile for β‐functionalization reactions and/or as a carbonyl electrophile, a strategy which has only emerged in the past few years. This microreview will highlight the use of homoenolates as convenient intermediates for accessing especially challenging motifs. The use of homoenolate chemistry in the context of natural product and pharmaceutical synthesis will also be presented.
Homoenolates are unique synthetic intermediates which display umpolung reactivity. Homoenolates and homoenolate equivalents like cyclopropanols have seen a recent surge in popularity due to their particular utility for accessing β‐functionalized carbonyl derivatives. This popularity has been enabled by the development of protocols for facile access to cyclopropanols and homoenolates from a variety of readily available starting materials. This microreview will highlight common strategies for generating cyclopropanols and metal homoenolates, as well as procedures for homoenolate functionalization, with a particular emphasis on protocols that have appeared after 2003. As an amphoteric molecule, two main reactivity modes have been established: the homoenolate reacts as a carbon nucleophile for β‐functionalization reactions and/or as a carbonyl electrophile, a strategy which has only emerged in the past few years. This microreview will highlight the use of homoenolates as convenient intermediates for accessing especially challenging motifs. The use of homoenolate chemistry in the context of natural product and pharmaceutical synthesis will also be presented. This microreview highlights recent strategies for the synthesis of homoenolates and cyclopropanols, as well as protocols for homoenolate functionalization, both as nucleophilic and electrophilic reagents. The unique reactivity and synthetic utility of metal homoenolates is further showcased in recent examples of their use in natural product and pharmaceutical synthesis.
Author Rousseaux, Sophie A. L.
Mills, L. Reginald
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e_1_2_8_11_1
e_1_2_8_34_1
e_1_2_8_53_1
e_1_2_8_76_1
e_1_2_8_11_2
e_1_2_8_101_1
e_1_2_8_72_2
e_1_2_8_30_1
e_1_2_8_72_1
e_1_2_8_29_1
e_1_2_8_25_1
e_1_2_8_48_2
e_1_2_8_48_1
(e_1_2_8_27_7) 2010
e_1_2_8_2_1
e_1_2_8_110_1
e_1_2_8_6_1
e_1_2_8_67_1
e_1_2_8_21_2
e_1_2_8_44_2
e_1_2_8_21_3
e_1_2_8_44_1
e_1_2_8_86_1
e_1_2_8_82_4
e_1_2_8_63_1
e_1_2_8_82_3
e_1_2_8_82_2
e_1_2_8_114_2
e_1_2_8_40_1
e_1_2_8_82_1
e_1_2_8_114_1
e_1_2_8_18_1
e_1_2_8_37_2
e_1_2_8_56_2
e_1_2_8_37_1
e_1_2_8_79_1
e_1_2_8_76_11
e_1_2_8_76_10
e_1_2_8_94_1
e_1_2_8_90_1
e_1_2_8_94_2
e_1_2_8_98_1
e_1_2_8_10_1
e_1_2_8_56_1
e_1_2_8_106_1
e_1_2_8_33_2
e_1_2_8_33_1
e_1_2_8_75_1
e_1_2_8_52_1
e_1_2_8_102_1
e_1_2_8_102_2
e_1_2_8_71_1
e_1_2_8_28_1
e_1_2_8_24_1
e_1_2_8_47_1
e_1_2_8_89_2
e_1_2_8_3_1
e_1_2_8_81_1
e_1_2_8_111_1
e_1_2_8_7_1
Shevchuk T. A. (e_1_2_8_84_2) 2000; 36
e_1_2_8_20_1
e_1_2_8_43_1
e_1_2_8_66_1
e_1_2_8_89_1
e_1_2_8_43_2
e_1_2_8_62_1
e_1_2_8_85_1
e_1_2_8_115_1
e_1_2_8_17_1
e_1_2_8_13_1
e_1_2_8_36_1
e_1_2_8_59_1
e_1_2_8_13_2
e_1_2_8_59_2
Kulinkovich O. G. (e_1_2_8_31_1) 1989; 25
e_1_2_8_36_2
Hasegawa E. (e_1_2_8_21_1) 1995; 36
e_1_2_8_97_5
e_1_2_8_70_1
e_1_2_8_97_1
e_1_2_8_97_2
e_1_2_8_97_3
e_1_2_8_97_4
e_1_2_8_32_1
e_1_2_8_55_1
e_1_2_8_78_1
e_1_2_8_107_1
e_1_2_8_51_1
e_1_2_8_74_1
e_1_2_8_93_2
e_1_2_8_93_1
e_1_2_8_27_2
e_1_2_8_27_3
e_1_2_8_27_4
e_1_2_8_27_5
e_1_2_8_46_1
e_1_2_8_27_1
e_1_2_8_69_1
e_1_2_8_84_7
e_1_2_8_27_6
e_1_2_8_27_8
e_1_2_8_27_9
e_1_2_8_80_1
e_1_2_8_4_2
e_1_2_8_4_1
e_1_2_8_8_1
e_1_2_8_84_6
e_1_2_8_88_2
e_1_2_8_42_1
e_1_2_8_84_5
e_1_2_8_88_1
e_1_2_8_116_1
e_1_2_8_84_4
e_1_2_8_23_1
e_1_2_8_65_1
e_1_2_8_84_3
e_1_2_8_84_1
e_1_2_8_112_1
e_1_2_8_61_1
e_1_2_8_39_1
e_1_2_8_35_1
e_1_2_8_16_1
e_1_2_8_58_1
e_1_2_8_92_1
Yang J. (e_1_2_8_103_1) 2018
e_1_2_8_96_1
e_1_2_8_100_1
e_1_2_8_96_2
e_1_2_8_31_2
e_1_2_8_77_1
e_1_2_8_12_1
e_1_2_8_27_10
e_1_2_8_54_1
e_1_2_8_108_1
e_1_2_8_73_2
e_1_2_8_100_2
e_1_2_8_73_1
e_1_2_8_100_3
e_1_2_8_100_4
e_1_2_8_50_1
e_1_2_8_104_1
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Snippet Homoenolates are unique synthetic intermediates which display umpolung reactivity. Homoenolates and homoenolate equivalents like cyclopropanols have seen a...
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SubjectTerms Carbonyls
Chemical synthesis
Cyclopropane
Cyclopropanol
Homoenolate
Natural products
Organic chemistry
Synthetic intermediates
Umpolung reactions
Title Modern Developments in the Chemistry of Homoenolates
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fejoc.201801312
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Volume 2019
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