SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4361791692> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W4361791692 endingPage "26" @default.
W4361791692 startingPage "1" @default.
W4361791692 abstract "Internucleotide phosphate diester bonds in unmodified oligonucleotides are rapidly degraded by nucleolytic enzymes in cells or body fluids. This property excludes natural DNA and RNA molecules from potential medical applications and from many structural and mechanistic studies. DNA nucleotides and oligonucleotides in which one of the nonbridging phosphate oxygen atoms is replaced by a sulfur atom (PS-DNA) were among the first DNA analogs to be designed and synthesized. PS-DNA exhibits significantly higher nuclease resistance and also offers important opportunities for detailed studies of interactions with other biomolecules at the molecular level. However, the substitution creates a stereogenic center at the phosphorus atom, so that even short oligomers synthesized by a non-stereocontrolled method exist as mixtures of hundreds or even thousands of P-diastereomers, which usually cannot be separated chromatographically. Stereocontrolled synthesis methods have been developed to overcome this problem. P-stereodefined probes, including isotopomerically labeled species, have been used to elucidate the mode of action of numerous enzymes (nucleases, transferases, and kinases), ribozymes, and DNA-zymes, as well as to study the thermodynamic stability of nucleic acid complexes (duplexes, triplexes, and i-motif) and the mechanism of B-Z-type conformational changes. They are also useful tools for tuning the properties of siRNA duplexes. For many years, phosphorothioate modification was considered purely artificial, having been designed and implemented by chemists. However, in 2007, a phosphorothioate modification of DNA in bacteria was discovered and its functioning was intensively studied. In 2020, a report was published on the presence of a phosphorothioate modification in RNA isolated from prokaryotes and eukaryotes, but this claim has been criticized and seems premature, to say the least. This chapter covers two main areas related to PS-oligonucleotides: first, the synthetic routes to P-stereodefined oligonucleotides and selected examples of their application in structural, biochemical, and biological experiments; and second, the biosynthesis of oligonucleotides with phosphorothioate modification and their physiological functions." @default.
W4361791692 created "2023-04-05" @default.
W4361791692 creator A5000940594 @default.
W4361791692 creator A5054463947 @default.
W4361791692 date "2023-01-01" @default.
W4361791692 modified "2023-09-27" @default.
W4361791692 title "Phosphorothioate Nucleic Acids: Artificial Modification Envisaged by Nature" @default.
W4361791692 cites W1485999252 @default.
W4361791692 cites W1535899055 @default.
W4361791692 cites W1551623939 @default.
W4361791692 cites W1558683283 @default.
W4361791692 cites W1647075334 @default.
W4361791692 cites W1920138054 @default.
W4361791692 cites W1947145954 @default.
W4361791692 cites W1950069935 @default.
W4361791692 cites W1964272339 @default.
W4361791692 cites W1965753868 @default.
W4361791692 cites W1968686403 @default.
W4361791692 cites W1969419940 @default.
W4361791692 cites W1991975352 @default.
W4361791692 cites W2004663365 @default.
W4361791692 cites W2005350671 @default.
W4361791692 cites W2005534154 @default.
W4361791692 cites W2006586390 @default.
W4361791692 cites W2011395743 @default.
W4361791692 cites W2016315684 @default.
W4361791692 cites W2016819653 @default.
W4361791692 cites W2022006030 @default.
W4361791692 cites W2023016659 @default.
W4361791692 cites W2023180769 @default.
W4361791692 cites W2026036133 @default.
W4361791692 cites W2027488963 @default.
W4361791692 cites W2028888693 @default.
W4361791692 cites W2037945358 @default.
W4361791692 cites W2043152152 @default.
W4361791692 cites W2043619056 @default.
W4361791692 cites W2045359762 @default.
W4361791692 cites W2047312291 @default.
W4361791692 cites W2059766312 @default.
W4361791692 cites W2064808830 @default.
W4361791692 cites W2071301122 @default.
W4361791692 cites W2072654069 @default.
W4361791692 cites W2080621565 @default.
W4361791692 cites W2093234904 @default.
W4361791692 cites W2124363431 @default.
W4361791692 cites W2127848520 @default.
W4361791692 cites W2133606089 @default.
W4361791692 cites W2135626935 @default.
W4361791692 cites W2137561105 @default.
W4361791692 cites W2160207146 @default.
W4361791692 cites W2165732052 @default.
W4361791692 cites W2180895064 @default.
W4361791692 cites W2591728558 @default.
W4361791692 cites W2621446108 @default.
W4361791692 cites W2622766798 @default.
W4361791692 cites W2743879871 @default.
W4361791692 cites W2746807303 @default.
W4361791692 cites W2785700629 @default.
W4361791692 cites W2789357097 @default.
W4361791692 cites W2822342459 @default.
W4361791692 cites W2899430976 @default.
W4361791692 cites W2914090869 @default.
W4361791692 cites W2940408580 @default.
W4361791692 cites W2951323685 @default.
W4361791692 cites W3002094750 @default.
W4361791692 cites W3013683123 @default.
W4361791692 cites W3015577650 @default.
W4361791692 cites W3016286316 @default.
W4361791692 cites W3023454987 @default.
W4361791692 cites W3034960681 @default.
W4361791692 cites W3039603086 @default.
W4361791692 cites W3042395889 @default.
W4361791692 cites W3048725413 @default.
W4361791692 cites W3053377265 @default.
W4361791692 cites W3081184181 @default.
W4361791692 cites W3088774401 @default.
W4361791692 cites W3127222994 @default.
W4361791692 cites W3164967630 @default.
W4361791692 cites W3175238357 @default.
W4361791692 cites W3182560777 @default.
W4361791692 cites W3193127845 @default.
W4361791692 cites W3210343927 @default.
W4361791692 cites W3215794336 @default.
W4361791692 cites W4225351670 @default.
W4361791692 cites W4296702492 @default.
W4361791692 doi "https://doi.org/10.1007/978-981-16-1313-5_51-1" @default.
W4361791692 hasPublicationYear "2023" @default.
W4361791692 type Work @default.
W4361791692 citedByCount "0" @default.
W4361791692 crossrefType "book-chapter" @default.
W4361791692 hasAuthorship W4361791692A5000940594 @default.
W4361791692 hasAuthorship W4361791692A5054463947 @default.
W4361791692 hasConcept C104317684 @default.
W4361791692 hasConcept C129312508 @default.
W4361791692 hasConcept C185592680 @default.
W4361791692 hasConcept C21951064 @default.
W4361791692 hasConcept C24107716 @default.
W4361791692 hasConcept C2777271071 @default.