Synthesis and biological evaluation of fluorinated deoxynucleotide analogs based on bis-(difluoromethylene)triphosphoric acid

Prakash, G. K. Surya; Zibinsky, Mikhail; Upton, Thomas G.; Kashemirov, B. A.; McKenna, Charles E.; Oertell, Keriann; Goodman, Myron F.; Batra, V.K.; Pedersen, Lars C.; Beard, William A.; Shock, David D.; Wilson, Samuel H.; Oláh, George A.

doi:10.1073/pnas.1007430107

Cited by 43 publications

(42 citation statements)

References 40 publications

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“…DNA analogs 74a-d can be used as probes to evaluate the mechanism of polymerase action, to explore stereoelectronic effect on active site interactions and to illustrate small differences in the catalytic activity of different enzymes [60].…”

Section: Sugar and Phosphate Modificationsmentioning

confidence: 99%

Polyfluorinated Groups in Medicinal Chemistry

2015

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Introduction of novel and diverse functional groups in drug discovery is always seen with hesitancy until good activity and low toxicity characteristics are proven. The introduction of fluorine in drug-like compounds is now a well-accepted strategy in medicinal chemistry. However, polyfluoroalkyl groups, with the exception of trifluoromethyl substituents, are not well explored yet. Our aim is to show to the readers how polyfluorinated groups can be beneficial to the properties of pharmaceutically active compounds by highlighting the structure-activity relationship (SAR) studies that led to the selection of polyfluorinated moieties as key structural features. Despite the fact that the use of higher polyfluoroalkyl/aryl moieties is still in its infancy, we believe that they will soon acquire the same importance of their lower parents.

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Section: Sugar and Phosphate Modificationsmentioning

confidence: 99%

Polyfluorinated Groups in Medicinal Chemistry

2015

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“…Tetrafluorophosphinobisphosphonates 266a-d were prepared starting from difluoromethylphosphonate 260 (Scheme 52) [194]. Once deprotonated by LTMPA and treated with diethylaminodichlorophosphine, the resulting aminophosphine intermediate was oxidized by m-CPBA, affording phosphinamide 261 in 75% yield.…”

Section: Fluorinated Deoxynucleotide Analoguesmentioning

confidence: 99%

Synthesis and Biological Applications of Phosphinates and Derivatives

Virieux

Volle

Bakalara

et al. 2014

Topics in Current Chemistry

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This review first outlines general considerations on phosphinic acids and derivatives as bioisosteric groups. The next sections present key aspects of phosphinic acid-based molecules and include a brief description of the biological pathways involved for their activities. The synthetic aspects and the biological activities of such compounds reported in the literature between 2008 and 2013 are also described.

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“…Recently, Hu and co-workers reported that TMSCF 2 Cl can act as an efficient difluorocarbene precursor under chloride-ion catalysis at 110 8C. [12] However, TMSCF 2 Cl is not commercially available and its preparation requires the use of ozone-depleting CBrClF 2 . [13] For substrates that are thermally unstable, the abovementioned methods and reagents could be a serious limitation, and development of better difluorocarbene precursors that can generate difluorocarbenes at lower temperatures is required.…”

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confidence: 99%

“…[1] The difluoromethylene group is also considered as a bioisostere for an oxygen atom in biological studies. [2] Recently, a unique application of difluorocyclopropanes to trap the 1,3-diradical formed during the mechanochemical activation of the polybutadiene backbone was reported. [3] Besides biological and polymeric applications, difluorocyclopropanes are synthetically useful substrates for a variety of reactions such as thermal rearrangements, bimolecular reactions, carbocation, carbanion, and radical chemistry.…”

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confidence: 99%