Peiyuan Yu scite author profile

The trans-decalin structure formed as a result of intramolecular Diels–Alder cycloaddition is widely present among bioactive natural products isolated from fungi. In this work, we elucidated the concise, three-enzyme biosynthetic pathway of the cytotoxic myceliothermophin and biochemically characterized the Diels–Alderase (DAase) that catalyzes formation of trans-decalin from an acyclic substrate. Computational studies on the reaction mechanisms rationalizes both the substrate- and stereoselectivity of the enzyme.

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Relationships between Product Ratios in Ambimodal Pericyclic Reactions and Bond Lengths in Transition Structures

Yang

Dong

et al. 2018

J. Am. Chem. Soc.

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Ambimodal reactions involve a single transition state leading to multiple products. In such reactions, transition state theory gives no information about the ratio of products that are formed, and molecular dynamics must be performed to predict this ratio. Understanding the relationship between the transition structure and the product ratio is a long-standing problem in molecular dynamics. We have studied 15 ambimodal pericyclic reactions and investigated the relationship between the TS bond lengths in the saddle points and the product ratios from trajectory simulations. A linear correlation, ln(B:A) = -9.4(Bond 3 - Bond 2), is found with R = 0.92, where A and B refer to the products formed upon formation of bonds 2 and 3, respectively. The correlation shows that the ratio of products formed after the bifurcation is related to the partial bond lengths, and corresponding bond orders, in the transition state.

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Asymmetric phosphoric acid–catalyzed four-component Ugi reaction

Zhang

et al. 2018

Science

172

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The Ugi reaction constructs α-acylaminoamide compounds by combining an aldehyde or ketone, an amine, a carboxylic acid, and an isocyanide in a single flask. Its appealing features include inherent atom and step economy together with the potential to generate products of broad structural diversity. However, control of the stereochemistry in this reaction has proven to be a formidable challenge. We describe an efficient enantioselective four-component Ugi reaction catalyzed by a chiral phosphoric acid derivative that delivers more than 80 α-acylaminoamides in good to excellent enantiomeric excess. Experimental and computational studies establish the reaction mechanism and origins of stereoselectivity.

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Transannular [6 + 4] and Ambimodal Cycloaddition in the Biosynthesis of Heronamide A

Patel

Houk

2015

J. Am. Chem. Soc.

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The transannular [6 + 4] cycloaddition proposed as a step in the biosynthesis of heronamide A has been modeled using density functional theory. The proposed cycloaddition is highly stereoselective, affording a single product. The reaction proceeds through an ambimodal transition state that directly leads to a [4 + 2] adduct in addition to the observed [6 + 4] adduct. Interconversion of these adducts is possible via a facile Cope rearrangement. The [6 + 4] adduct is thermodynamically more stable than the [4 + 2] adduct by 5.2 kcal mol(-1) due to a combination of the ring and steric strain in the [4 + 2] product. The results strongly support the plausibility of the proposed transannular [6 + 4] cycloaddition in the biogenesis of heronamide A and may provide insights to designing substrates that selectively undergo [6 + 4] cycloaddition to form unbridged 10-membered rings.

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Peiyuan Yu

Biochemical Characterization of a Eukaryotic Decalin-Forming Diels–Alderase

Relationships between Product Ratios in Ambimodal Pericyclic Reactions and Bond Lengths in Transition Structures

Asymmetric phosphoric acid–catalyzed four-component Ugi reaction

Transannular [6 + 4] and Ambimodal Cycloaddition in the Biosynthesis of Heronamide A

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