Oxazolidinone Structure–Activity Relationships Leading to Linezolid

Barbachyn, Michael R.; Ford, Charles W.

doi:10.1002/anie.200200528

Cited by 500 publications

(238 citation statements)

References 45 publications

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“…68,69 While these compounds showed good antibacterial activity against Gram-positive bacteria such as Staphylococci, Streptococci, and Enterococci, 68 the compound class was not pursued as a result of toxicity issues in animals studies. 70 Scientists at Pharmacia subsequently found that a structure-toxicity relationship could be established for the oxazolidinones and initiated a campaign to develop these compounds as novel antibacterial agents (historically reviewed in ref 70).…”

Section: Oxazolidinone Antibiotics 41 Discovery and Structure−activmentioning

confidence: 99%

“…The details of this SAR program have recently been reviewed. 70 The outcome of this drug discovery program is the antibiotic linezolid (Figure 13), which received FDA approval in 2000 and is marketed under the trade name Zyvox. 76 Linezolid is active both in oral and injectable forms and is indicated for the treatment of a variety of infections caused by Gram-positive bacteria.…”

Section: Oxazolidinone Antibiotics 41 Discovery and Structure−activmentioning

confidence: 99%

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Streptogramins, Oxazolidinones, and Other Inhibitors of Bacterial Protein Synthesis

Mukhtar

Wright

2005

ChemInform

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Section: Oxazolidinone Antibiotics 41 Discovery and Structure−activmentioning

confidence: 99%

Section: Oxazolidinone Antibiotics 41 Discovery and Structure−activmentioning

confidence: 99%

Streptogramins, Oxazolidinones, and Other Inhibitors of Bacterial Protein Synthesis

Mukhtar

Wright

2005

ChemInform

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“…[1][2][3] Among oxazolidin-2-ones derivatives there are new synthetic antibacterial agents active against gram-positive microorganisms, including multiple-antibiotic resistant strains (eg. linezolid which has been awarded the 2003 Prix Galien in Germany, as the prominent innovative drug), [4][5][6] as well as pharmaceuticals with different pharmacological activities e.g. drugs for prevention and treatment of heart disorders, antithrombotics 7,8 and anti-tumor remedies, 9,10 antidepressants.…”

Section: Introductionmentioning

confidence: 99%

An efficient access to functionally substituted 1,3-oxazolidin-2-ones via cyclization of 1-alkylamino- and 1-arylamino-3-[2-(vinyloxy)ethoxy)]propan-2-ols with dimethyl carbonate

Lobanova¹,

Sadykov²,

Stankevich³

2015

Arkivoc

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“…Many types of pharmacologically active compounds containing oxazolidinone frameworks have been reported. 48,49) When propargylamine and its derivatives bearing alkyl or phenyl groups 8 were added to a Au or Ag catalyst in MeOH under atmospheric conditions, no desired product 9 was observed (Fig. 3, Eq.…”

mentioning

confidence: 99%

Energyless CO<sub>2</sub> Absorption, Generation, and Fixation Using Atmospheric CO<sub>2</sub>

Inagaki

Okada

Matsumoto

et al. 2016

CHEMICAL & PHARMACEUTICAL BULLETIN

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From an economic and ecological perspective, the efficient utilization of atmospheric CO 2 as a carbon resource should be a much more important goal than reducing CO 2 emissions. However, no strategy to harvest CO 2 using atmospheric CO 2 at room temperature currently exists, which is presumably due to the extremely low concentration of CO 2 in ambient air (approximately 400 ppm 0.04 vol%). We discovered that monoethanolamine (MEA) and its derivatives efficiently absorbed atmospheric CO 2 without requiring an energy source. We also found that the absorbed CO 2 could be easily liberated with acid. Furthermore, a novel CO 2 generator enabled us to synthesize a high value-added material (i.e., 2-oxazolidinone derivatives based on the metal catalyzed CO 2 -fixation at room temperature) from atmospheric CO 2 .Key words carbon dioxide absorption; carbon dioxide generation; carbon dioxide fixation; cyclization; atmospheric chemistryIn 2014, the Intergovernmental Panel on Climate Change (IPCC) reported 1) that warming of the climate is unequivocal and that the largest contribution is a result of increasing atmospheric CO 2 since 1750. In the previous year, the National Oceanic and Atmospheric Administration (NOAA) in Mauna Loa, Hawaii, observed that the concentration of atmospheric CO 2 surpassed 400 ppm for the first time since measurements began in 1958. This value is approximately 120 ppm higher than that of the pre-industrial atmosphere (approximately 280 ppm).2) Global CO 2 emissions from fuel combustion in 2012 reached a record of 31.7 gigatons (GtCO 2 ) based on calculations performed by the International Energy Agency (IEA).3) On the other hand, there are many reports that CO 2 is not an essential source for Climate Change.4-10) The experimental fact can only prove the answer of these discussions. Thus, techniques for reduction of CO 2 must be globally important.Current efforts for CO 2 reduction include CO 2 capture and storage (CCS) 11) and artificial photosynthetic systems (APSs).12,13) CCS involves the capture of CO 2 using chemical absorbent (i.e., monoethanolamine, MEA 1 etc.) [14][15][16][17][18][19][20] in highdensity areas, such as industrial facilities and power stations, and transporting CO 2 to deep subsurface rock formations or the bottom of the ocean via pipelines. This is a useful and efficient technique that can prevent the release of large quantities of CO 2 . However, this technology does not provide any immediate economic benefit, and the captured CO 2 is not chemically altered. In the projects of CCS, the liberation of CO 2 gas from chemical absorbent requires heating at high temperature, which uses high amount of electricity. This means that introducing CCS plants spends one part of electricgenerating capacity in power station. The limited number of sites is also problematic because CCS plants must be constructed near areas with high CO 2 densities. In contrast, APSs use solar light and a metal catalyst. In this approach, CO 2 is transformed into HCO 2 H 12) or CO, 13) whereby the products c...

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Oxazolidinone Structure–Activity Relationships Leading to Linezolid

Cited by 500 publications

References 45 publications

Streptogramins, Oxazolidinones, and Other Inhibitors of Bacterial Protein Synthesis

Streptogramins, Oxazolidinones, and Other Inhibitors of Bacterial Protein Synthesis

An efficient access to functionally substituted 1,3-oxazolidin-2-ones via cyclization of 1-alkylamino- and 1-arylamino-3-[2-(vinyloxy)ethoxy)]propan-2-ols with dimethyl carbonate

Energyless CO<sub>2</sub> Absorption, Generation, and Fixation Using Atmospheric CO<sub>2</sub>

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