Construction of an isoquinolinone framework from carboxylic-ester-directed umpolung ring opening of methylenecyclopropanes

Abstract: An unprecedented reaction pattern of functionalized methylenecyclopropanes (MCPs) has been disclosed in this paper, in which the nucleophilic attack of anionic species onto partially polarity-reversed MCP unit can be realized...

“…Extending the reaction time to 5 hours could not afford a better result, and 1 a is fully consumed upon generating 3 a‐OH in 57% yield along with unknown side products (Table 1, entry 7). As reported in our previous work, a higher temperature promoted the nucleophilic attack on the MCP group [6] . However, in this cascade cyclization reaction, the intermolecular Michael addition might be incompatible with the increased temperature, resulting in the moderate yields.…”

“…We inferred that increasing the amount of 1 a would reduce the influence of ambient moisture or water in the reaction system, providing the more reliable results since a large amount of EtMgBr was employed in the reaction. As we expected, when 0.5 mmol of 1 a was applied in the reaction, the yields of 3 a-OH could be obviously improved at various temperatures (37% for room temperature, 58% for 50 °C, and 60% for 70 °C, respectively) upon shorter reaction time (Table 1, entries [4][5][6]. Extending the reaction time to 5 hours could not afford a better result, and 1 a is fully consumed upon generating 3 a-OH in 57% yield along with unknown side products (Table 1, entry 7).…”

“…As reported in our previous work, a higher temperature promoted the nucleophilic attack on the MCP group. [6] However, in this cascade cyclization reaction, the intermolecular Michael addition might be incompatible with the increased temperature, resulting in the moderate yields. Other solvents including toluene and 1,4-dioxane were tested as well, affording 3 a-OH in 54% and 42% yields, respectively (Table 1, entries 8-9).…”

Construction of Cyclopenta[b]naphthalenol Frameworks by Weinreb Amide‐Directed Umpolung Ring Opening of Methylenecyclopropanes

“…Extending the reaction time to 5 hours could not afford a better result, and 1 a is fully consumed upon generating 3 a‐OH in 57% yield along with unknown side products (Table 1, entry 7). As reported in our previous work, a higher temperature promoted the nucleophilic attack on the MCP group [6] . However, in this cascade cyclization reaction, the intermolecular Michael addition might be incompatible with the increased temperature, resulting in the moderate yields.…”

“…We inferred that increasing the amount of 1 a would reduce the influence of ambient moisture or water in the reaction system, providing the more reliable results since a large amount of EtMgBr was employed in the reaction. As we expected, when 0.5 mmol of 1 a was applied in the reaction, the yields of 3 a-OH could be obviously improved at various temperatures (37% for room temperature, 58% for 50 °C, and 60% for 70 °C, respectively) upon shorter reaction time (Table 1, entries [4][5][6]. Extending the reaction time to 5 hours could not afford a better result, and 1 a is fully consumed upon generating 3 a-OH in 57% yield along with unknown side products (Table 1, entry 7).…”

“…As reported in our previous work, a higher temperature promoted the nucleophilic attack on the MCP group. [6] However, in this cascade cyclization reaction, the intermolecular Michael addition might be incompatible with the increased temperature, resulting in the moderate yields. Other solvents including toluene and 1,4-dioxane were tested as well, affording 3 a-OH in 54% and 42% yields, respectively (Table 1, entries 8-9).…”

Construction of Cyclopenta[b]naphthalenol Frameworks by Weinreb Amide‐Directed Umpolung Ring Opening of Methylenecyclopropanes

“…A variety of compounds reacting with methylenecyclopropanes, either in the addition reaction on the ternary ring or in the addition reaction on the double bond, can be used to selectively synthesize many of the target products . Wei et al reported a ring–opening reaction between carboxylate and methylenecyclopropanes to construct isoquinolinone skeletons . Li and co-workers proposed a palladium-catalyzed hydroalkylation of methylenecyclopropanes using a simple hydrazone as a carbanion equivalent through highly selective carbon–carbon σ-bond breaking under mild conditions .…”

“…16 Wei et al reported a ring−opening reaction between carboxylate and methylenecyclopropanes to construct isoquinolinone skeletons. 17 Li and co-workers proposed a palladium-catalyzed hydroalkylation of methylenecyclopropanes using a simple hydrazone as a carbanion equivalent through highly selective carbon−carbon σ-bond breaking under mild conditions. 18 Xu's group reported a method to form strained spiro [2,3] hexane with high enantioselectivity.…”

DFT Study on the Mechanisms of Iron-Catalyzed Ortho C–H Homoallylation of Aromatic Ketones with Methylenecyclopropanes

A New Method of Constructing Methyleneindene and Quinoline Frameworks from Methylenecyclopropanes