Structural Elucidation of Cryptic Algaecides in Marine Algal‐Bacterial Symbioses by NMR Spectroscopy and MicroED

Park, Jong-Duk; Li, Yuchen; Moon, Kyuho; Han, Esther J.; Lee, Seoung Rak; Seyedsayamdost, Mohammad R.

doi:10.1002/anie.202114022

Cited by 14 publications

(12 citation statements)

References 34 publications

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“…2,3 3D ED/MicroED is currently attracting attention as a method for structure determination of small molecules. 1,22–26 To the best of our knowledge, this is the first time that the absolute configuration of natural compounds is directly elucidated by 3D ED/MicroED and confirmed by derivatization and SCXRD. Our data suggest that 3D ED/MicroED could be applicable to determine the absolute configuration of natural products by the previously reported method.…”

Section: Discussionmentioning

confidence: 76%

Hakuhybotrol, a polyketide produced byHypomyces pseudocorticiicola, characterized with the assistance of 3D ED/MicroED

et al. 2023

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Section: Discussionmentioning

confidence: 76%

Hakuhybotrol, a polyketide produced byHypomyces pseudocorticiicola, characterized with the assistance of 3D ED/MicroED

et al. 2023

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“…Given these limitations, if attempting to solve a challenging novel structure such as a complex natural product (generally replete with heteroatoms such as O and N) via 3D ED, rigorous corroboration with external data from NMR spectroscopy and mass spectrometry remains essential. 207,212 Second, 3D ED always requires well-formed single crystals. Serendipitously, many compounds may inhabit a specific "Goldilocks zone" where they refuse to form X-ray-scale crystals yet grudgingly aggregate into crystalline assemblies at the nanoscale.…”

Section: Small Moleculesmentioning

confidence: 99%

“…In a field continually grappling with the myriad pitfalls associated with analysis of complex 2D NMR spectra, the clarity provided by a corroborating crystal structure seems almost cathartic. Furthermore, when applied in tandem with comparative genomics or metabolomics (to mine relevant biosynthetic gene clusters) and synthetic biology (to express those genes in model organisms), 3D ED could also significantly accelerate the rate of NP discovery. − More broadly, 3D ED is rapidly finding a complementary niche within the wider context of synthetic chemistry; a growing number of reports now feature 3D ED structures of relevant synthetic targets or intermediates which proved unsuitable for single-crystal XRD. − These structures include two noncanonical amino acids bearing all-carbon quaternary stereocenters, a trio of organic semiconductors solved at ultrahigh resolution (one of which is depicted in Figure E), a family of electron-deficient expanded helicenes, a pentacyclic indole-derived ester, and a synthetic mimic of the cuboidal subunit in the oxygen-evolving complex of photosystem II …”

Section: Applicationsmentioning

confidence: 99%

“…In these cases, even at the refinement stage, elemental identity can be arduous or impossible to deduce based solely on experimental difference Fourier maps. Given these limitations, if attempting to solve a challenging novel structure such as a complex natural product (generally replete with heteroatoms such as O and N) via 3D ED, rigorous corroboration with external data from NMR spectroscopy and mass spectrometry remains essential. , …”

Section: Applicationsmentioning

confidence: 99%

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Electron Diffraction of 3D Molecular Crystals

2022

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Electron crystallography has a storied history which rivals that of its more established X-ray-enabled counterpart. Recent advances in data collection and analysis have sparked a renaissance in the field, opening a new chapter for this venerable technique. Burgeoning interest in electron crystallography has spawned innovative methods described by various interchangeable labels (3D ED, MicroED, cRED, etc.). This Review covers concepts and findings relevant to the practicing crystallographer, with an emphasis on experiments aimed at using electron diffraction to elucidate the atomic structure of threedimensional molecular crystals. CONTENTS 1. Introduction and Historical Background 13883 2. Theoretical Foundations 13884 2.1. Differences Between X-ray and Electron Scattering 13884 2.2. Differences Between X-ray and Electron Wavelengths 13886 2.3.

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“…Instead of brute force screenings of microbial monocultures, tapping into the metabolome associated with mutualistic or antagonistic ecological interactions between prokaryotes and eukaryotes is an effective approach to unlock the antibiotic treasure trove of nature. − Especially when in combination with genome mining, structure prediction of natural products from genetic information using bioinformatics tools is greatly facilitated . As a consequence, the biosynthetic potential of symbiotic bacteria can be uncovered in a timely fashion .…”

Section: Introductionmentioning

confidence: 99%

Ecological Niche-Inspired Genome Mining Leads to the Discovery of Crop-Protecting Nonribosomal Lipopeptides Featuring a Transient Amino Acid Building Block

et al. 2023

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Investigating the ecological context of microbial predator−prey interactions enables the identification of microorganisms, which produce multiple secondary metabolites to evade predation or to kill the predator. In addition, genome mining combined with molecular biology methods can be used to identify further biosynthetic gene clusters that yield new antimicrobials to fight the antimicrobial crisis. In contrast, classical screening-based approaches have limitations since they do not aim to unlock the entire biosynthetic potential of a given organism. Here, we describe the genomics-based identification of keanumycins A−C. These nonribosomal peptides enable bacteria of the genus Pseudomonas to evade amoebal predation. While being amoebicidal at a nanomolar level, these compounds also exhibit a strong antimycotic activity in particular against the devastating plant pathogen Botrytis cinerea and they drastically inhibit the infection of Hydrangea macrophylla leaves using only supernatants of Pseudomonas cultures. The structures of the keanumycins were fully elucidated through a combination of nuclear magnetic resonance, tandem mass spectrometry, and degradation experiments revealing an unprecedented terminal imine motif in keanumycin C extending the family of nonribosomal amino acids by a highly reactive building block. In addition, chemical synthesis unveiled the absolute configuration of the unusual dihydroxylated fatty acid of keanumycin A, which has not yet been reported for this lipodepsipeptide class. Finally, a detailed genome-wide microarray analysis of Candida albicans exposed to keanumycin A shed light on the mode-of-action of this potential natural product lead, which will aid the development of new pharmaceutical and agrochemical antifungals.

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Structural Elucidation of Cryptic Algaecides in Marine Algal‐Bacterial Symbioses by NMR Spectroscopy and MicroED

Cited by 14 publications

References 34 publications

Hakuhybotrol, a polyketide produced byHypomyces pseudocorticiicola, characterized with the assistance of 3D ED/MicroED

Hakuhybotrol, a polyketide produced byHypomyces pseudocorticiicola, characterized with the assistance of 3D ED/MicroED

Electron Diffraction of 3D Molecular Crystals

Ecological Niche-Inspired Genome Mining Leads to the Discovery of Crop-Protecting Nonribosomal Lipopeptides Featuring a Transient Amino Acid Building Block

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