Wenjia Kang scite author profile

The structural puzzle of amipurimycin, ap eptidyl nucleoside antibiotic,i ss olved by total synthesis and X-ray diffraction analysis,w ith the originally proposed configurations at C3' and C8' inverted and those at C6',C 2 '',a nd C3'' corrected. As imilar structural revision of the relevant miharamycins is proposed via chemical transformations and then validated by X-ray diffraction analysis.T he miharamycins bear an unusual trans-fused dioxabicyclo[4.3.0]nonane sugar scaffold, whichw as previously assigned as being in the cis configuration.

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Identification of the Amipurimycin Gene Cluster Yields Insight into the Biosynthesis of C9 Sugar Nucleoside Antibiotics

Kang

Pan

Wang

et al. 2019

Org. Lett.

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Feeding studies indicate a possible synthetic pattern for the N-terminal cis-aminocyclopentane carboxylic acid (ACPC) and suggest an unusual source of the highcarbon sugar skeleton of amipurimycin (APM). The biosynthetic gene cluster of APM was identified and confirmed by in vivo experiments. A C9 core intermediate was discovered from null mutants of ACPC pathway, and an ATP-grasp enzyme (ApmA8) was reconstituted in vitro for ACPC loading. Our observations allow a first proposal of the APM biosynthetic pathway. Letter pubs.acs.org/OrgLett

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Characterization of Miharamycin Biosynthesis Reveals a Hybrid NRPS–PKS to Synthesize High-Carbon Sugar from a Complex Nucleoside

et al. 2020

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Miharamycins are peptidyl nucleoside antibiotics with a unique branched C9 pyranosyl amino acid core and a rare 2-aminopurine moiety. Inactivation of 19 genes in the biosynthetic gene cluster and identification of several unexpected intermediates suggest an alternative biosynthetic pathway, which is further supported by feeding experiments and in vitro characterization of an unusual adenylation domain recognizing a complex nucleoside derivative as the substrate. These results thereby provide an unprecedented biosynthetic route of high-carbon sugar catalyzed by atypical hybrid nonribosomal peptide synthetase–polyketide synthase.

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Development of Second Generation Activity-Based Chemical Probes for Sirtuins

et al. 2020

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NAD+ (nicotinamide adenine dinucleotide)-dependent protein deacylases, namely, the sirtuins, are important cell adaptor proteins that alter cell physiology in response to low calorie conditions. They are thought to mediate the beneficial effects of calorie restriction to extend longevity and improve health profiles. Novel chemical probes are highly desired for a better understanding of sirtuin’s roles in various biological processes. We developed a group of remarkably simple activity-based chemical probes for the investigation of active sirtuin content in complex native proteomes. These probes harbor a thioacyllysine warhead, a diazirine photoaffinity tag, as well as a terminal alkyne bioorthogonal functional group. Compared to their benzophenone-containing counterparts, these new probes demonstrated improved labeling efficiency and sensitivity, shortened irradiation time, and reduced background signal. They were applied to the labeling of individual recombinant proteins, protein mixtures, and whole cell lysate. These cell permeable small molecule probes also enabled the cellular imaging of sirtuin activity change. Taken together, our study provides new chemical biology tools and future drug discovery strategies for perturbing the activity of different sirtuin isoforms.

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Wenjia Kang

The Miharamycins and Amipurimycin: their Structural Revision and the Total Synthesis of the Latter

Identification of the Amipurimycin Gene Cluster Yields Insight into the Biosynthesis of C9 Sugar Nucleoside Antibiotics

Characterization of Miharamycin Biosynthesis Reveals a Hybrid NRPS–PKS to Synthesize High-Carbon Sugar from a Complex Nucleoside

Development of Second Generation Activity-Based Chemical Probes for Sirtuins

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