Menghua Wang scite author profile

Menghua Wang

4Publications

77Citation Statements Received

260Citation Statements Given

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149

254

Affiliations

University of British Columbia, Chinese Academy of Medical Sciences & Peking Union Medical College

Publications

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Biosynthesis of the N–N‐Bond‐Containing Compound l‐Alanosine

Wang

Niikura

et al. 2020

Angew Chem Int Ed

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The formation of a N−N bond is a unique biochemical transformation, and nature employs diverse biosynthetic strategies to activate nitrogen for bond formation. Among molecules that contain a N−N bond, biosynthetic routes to diazeniumdiolates remain enigmatic. We here report the biosynthetic pathway for the diazeniumdiolate‐containing amino acid l‐alanosine. Our work reveals that the two nitrogen atoms in the diazeniumdiolate of l‐alanosine arise from glutamic acid and aspartic acid, and we clarify the early steps of the biosynthetic pathway by using both in vitro and in vivo approaches. Our work demonstrates a peptidyl‐carrier‐protein‐based mechanism for activation of the precursor l‐diaminopropionate, and we also show that nitric oxide can participate in non‐enzymatic diazeniumdiolate formation. Furthermore, we demonstrate that the gene alnA, which encodes a fusion protein with an N‐terminal cupin domain and a C‐terminal AraC‐like DNA‐binding domain, is required for alanosine biosynthesis.

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Chetocochliodins A-I, Epipoly(thiodioxopiperazines) from Chaetomium cochliodes

et al. 2020

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Nine new epipoly(thiodioxopiperazine) (ETP) analogues, chetocochliodins A-I (1−9), along with two known ones, chetoseminudins E and C (10 and 11), were purified from the fungus Chaetomium cochliodes. The planar structures and absolute configurations of these new compounds were determined by extensive NMR spectroscopic analysis, CD spectra, and chemical reactions. Shielding effects from the indole on the 3-SCH 3 /3-OCH 3 /3-OCH 2 -groups facilitated the determination of relative configuration of the analogues. Compound 9 was cytotoxic, suggesting the importance of the sulfide bridge for the diketopiperazine bioactivities.

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Identification of the Azaserine Biosynthetic Gene Cluster Implicates Hydrazine as an Intermediate to the Diazo Moiety

et al. 2023

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Azaserine (1) is a natural product and nonproteinogenic amino acid containing a diazo group. Here we report the biosynthetic gene cluster for 1 from Glycomyces harbinensis. We then use isotopic feeding, gene deletion, and biochemical experiments to support a pathway whereby hydrazinoacetic acid (2) and a peptidyl carrier protein-loaded serine (3) are intermediates on route to the final natural product 1.

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Reductases Produce Nitric Oxide in an Alternative Pathway to Form the Diazeniumdiolate Group of l-Alanosine

Wang

Ryan

2023

J. Am. Chem. Soc.

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l-Alanosine is a diazeniumdiolate (N-nitrosohydroxylamine) antibiotic that inhibits MTAP-deficient tumor cells by blocking de novo adenine biosynthesis. Previous work revealed the early steps in the biosynthesis of l-alanosine. In the present study, we used genome mining to discover two new l-alanosine-producing strains that lack the aspartate-nitrosuccinate pathway genes found in the original l-alanosine producer. Instead, nitrate is reduced with a unique set of nitrate–nitrite reductases. These enzymes are typically used as part of the nitrogen cycle for denitrification or assimilation, and our report here shows how enzymes from the nitrogen cycle can be repurposed for the biosynthesis of specialized metabolites. The widespread distribution of nitric-oxide-producing reductases also indicates a potential for the discovery of new nitric-oxide-derived natural products.

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Menghua Wang

Biosynthesis of the N–N‐Bond‐Containing Compound l‐Alanosine

Chetocochliodins A-I, Epipoly(thiodioxopiperazines) from Chaetomium cochliodes

Identification of the Azaserine Biosynthetic Gene Cluster Implicates Hydrazine as an Intermediate to the Diazo Moiety

Reductases Produce Nitric Oxide in an Alternative Pathway to Form the Diazeniumdiolate Group of l-Alanosine

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