Synthesis of <scp>D</scp>‐Desosamine and Analogs by Rapid Assembly of 3‐Amino Sugars

Zhang, Ziyang; Fukuzaki, Takehiro; Myers, Andrew G.

doi:10.1002/anie.201507357

Cited by 23 publications

(19 citation statements)

References 29 publications

(15 reference statements)

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“…The recently witnessed renaissance in photochemistry provides an interesting general stimulus and the lately reported example of a photoinduced racemization combined with CIDT revealed just a single broad category of reversible reactions out of several other that have been possibly never linked with CIDT before [151] . In some cases, the decisive role of CIDT in the reaction outcome can only be surmised and CIDT itself might even remain unnamed, as was the case in Myers' captivatingly straightforward synthesis of D‐Desosamine [154] …”

Section: Discussionmentioning

confidence: 99%

“…[151] In some cases, the decisive role of CIDT in the reaction outcome can only be surmised and CIDT itself might even remain unnamed, as was the case in Myers' captivatingly straightforward synthesis of D-Desosamine. [154] Relatively less pronounced is the potential that CIDT has in green chemistry applications. Since the fundamental outcome of CIDT is a high purity product collected simply by filtration, both energy and resources consuming purification and waste production can be significantly minimized.…”

Section: Discussionmentioning

confidence: 99%

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State of the Art in Crystallization‐Induced Diastereomer Transformations

Kolarovič

Jakubec

2021

Adv Synth Catal

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Crystallization-induced diastereomer transformations (CIDT) enable isolation of the target compounds in high enantio-and diastereomeric purities and with up to quantitative yields simply by filtration. Numerous inspiring examples of this appealing synthetic strategy reported over the last fifteen years are reviewed. Important observations along with aspects to consider when designing CIDT experiments are discussed. 3.3. Formation of Schiff Base or Related Intermediates 3.4. Aza-Michael and Mannich-Type Reactions 3.5. Strecker Reaction 3.6. Aldol Reactions 3.7. Epimerization at Phosphorus-Based Stereocenters 3.8. Racemization/Epimerization through Change of Conformation 3.9. Miscellaneous Examples of CIDT 4.Conclusions and Perspectives

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

State of the Art in Crystallization‐Induced Diastereomer Transformations

Kolarovič

Jakubec

2021

Adv Synth Catal

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“…Assays could be developed to ensure that the synthesis of certain vital proteins is impacted and/or to monitor the mechanism(s) of action, potentially enriching for compounds that promote frameshifting, for example. The route to total synthesis will allow the exploration of structure -activity relationships, overcoming any limitations of semisynthesis (see macrolide.com; Zhang et al 2016) and potentially extending spectrum beyond the community-acquired respiratory pathogens. With our present understanding, perhaps it is prime time to rethink macrolide drug discovery and use the existing and expanding tool sets to find molecules with more refined, targeted actions.…”

Section: Discussionmentioning

confidence: 99%

Resistance to Macrolide Antibiotics in Public Health Pathogens

Fyfe

Grossman

Kerstein

et al. 2016

Cold Spring Harb Perspect Med

153

140

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Macrolide resistance mechanisms can be target-based with a change in a 23S ribosomal RNA (rRNA) residue or a mutation in ribosomal protein L4 or L22 affecting the ribosome's interaction with the antibiotic. Alternatively, mono-or dimethylation of A2058 in domain V of the 23S rRNA by an acquired rRNA methyltransferase, the product of an erm (erythromycin ribosome methylation) gene, can interfere with antibiotic binding. Acquired genes encoding efflux pumps, most predominantly mef(A) þ msr(D) in pneumococci/streptococci and msr(A/B) in staphylococci, also mediate resistance. Drug-inactivating mechanisms include phosphorylation of the 2 0 -hydroxyl of the amino sugar found at position C5 by phosphotransferases and hydrolysis of the macrocyclic lactone by esterases. These acquired genes are regulated by either translation or transcription attenuation, largely because cells are less fit when these genes, especially the rRNA methyltransferases, are highly induced or constitutively expressed. The induction of gene expression is cleverly tied to the mechanism of action of macrolides, relying on antibiotic-bound ribosomes stalled at specific sequences of nascent polypeptides to promote transcription or translation of downstream sequences. Macrolide antibiotics are polyketides composed of a 14-, 15-, or 16-membered macrocyclic lactone ring (14-, 15-, and 16-membered) to which several sugars and/or side chains have been attached by the producing organism or as modifications during semisynthesis in the laboratory (Figs. 1 and 2). Newer semisynthetic derivations, like ketolides telithromycin, and solithromycin, have a C3-keto group in place of the C3 cladinose (akin to naturally occurring pikromycin) (Brockmann and Henkel 1950) and an 11,12-cyclic carbamate with an extended alkyl -aryl side chain that increases the affinity of the antibiotic for the ribosome by 10-to 100-fold (Hansen et al. 1999;Dunkle et al. 2010); in the case of solithromycin, a fluorine substituent at C2 provides an additional ribosomal interaction (Llano-Sotelo et al. 2010). Macrolides continue to be important in the therapeutic treatment of community-acquired pneumonia (Streptococcus pneumoniae, Haemophilus influenzae, Moraxella catarrhalis, and atypicals Legionella pneumophila, Mycoplasma pneumoniae, Chlamydia pneumoniae), sexually transmitted diseases (Neiserria gonorhoeae, Chlamydia trachomatis, Mycoplasma genitalium), shigellosis, and salmonellosis. With solithromycin heading for a new drug application (NDA) filing in 2016 and having the in vitro potency to treat erythromycin-resistant

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“…Os carboidratos e seus derivados são biomoléculas potencialmente úteis nos campos da química e da biologia, 1 de modo que modificações estruturais nestes compostos podem ocorrer por substituição com nitrogênio, enxofre, fosfato ou cloro, e outros grupos. 2 Os aminoaçúcares que são sem dúvida os mais importante açúcares modificados existentes, são os constituintes fundamentais 3,4 de muitos compostos biologicamente ativos, como antibióticos 5,6 e biopolímeros. 7 Aminoaçúcares são definidos como aldoses ou cetoses que têm seu grupo hidroxila substituído por grupo amino nos C2, C3 ou C4 do anel hexose ou pentose, exceto no carbono anomérico.…”

Section: Considerações Geraisunclassified

Avanços Recentes Na Química Dos Aminoaçúcares: Ocorrência, Biossíntese, Síntese E Aplicação

Moura

Guimarães

Lima

et al. 2019

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RECENT ADVANCES IN CHEMISTRY OF AMINO SUGARS: OCCURRENCE, BIOSYNTHESIS, SYNTHESIS AND APPLICATION. Amino sugars are chemical compounds that have a sugar backbone, in which one of the hydroxyl groups is replaced by an amino group. Derivatives of amine-containing sugars, such as N-acetylglucosamine, are also considered amino sugars. The synthetic introduction of amino functionalities in a regio-and stereoselective manner ontosugar scaffolds represents a substantial challenge. Most of the modern methods for the preparation of 1-, 2-and 3-amino sugars are those starting from glycals, 2,3-unsaturated O-glycosides epoxy-sugars, keto-sugars among others. This review summarizes recent developments in the current state of knowledge concerning the occurrence, biosynthesis, synthesis and application of amino sugars.

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Synthesis of D‐Desosamine and Analogs by Rapid Assembly of 3‐Amino Sugars

Cited by 23 publications

References 29 publications

State of the Art in Crystallization‐Induced Diastereomer Transformations

State of the Art in Crystallization‐Induced Diastereomer Transformations

Resistance to Macrolide Antibiotics in Public Health Pathogens

Avanços Recentes Na Química Dos Aminoaçúcares: Ocorrência, Biossíntese, Síntese E Aplicação

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