Add to ORKGThere are over 100 modified bases and their derivatives found in RNA and DNA. For some of them, data con-cerning their properties, synthesis and roles in cellular metabolism are available, but for others the knowledge of their functions and biosynthetic pathways is rather limited. We have analysed the chemical structure of modified nucleosides of DNA and RNA considering mainly their putative synthetic routes. On this basis we suggest, that in addition to enzymatic biosynthetic pathways well established for some odd bases, many rare nucleosides can be recognised as products of random chemical reactions. We identify them as primary or secondary products of the reaction of nucleic acids with hydroxyl radicals, the most active oxidising agent i...
Formaldehyde is produced in cells by enzyme-catalysed demethylation reactions, including those occur...
Synthetic modified nucleosides designed to pair in unusual ways with natural nucleobases have many p...
The diversity and complexity of life on this planet is based on a narrow selection of organic molecu...
This unique book takes a radically fresh approach in providing general information on the chemistry ...
International audienceModified nucleotides are universally conserved in all living kingdoms and are ...
Emerging data strongly suggest that the oxidation of DNA bases can contribute to genomic instability...
In part I, the distribution of pyrimidine bases in ox spleen deoxyribonucleic acid (DNA) have been i...
The four canonical bases that make up genomic DNA are subject to a variety of chemical modifications...
The synthesis of potentially natural nucleic acid alternatives and comparison of some of their chemi...
The natural chemical modifications of messenger RNA (mRNA) in living organisms have shown essential ...
Chemically modified bases exist naturally in genomic DNA. Research into these bases has been invigor...
In recent years, numerous nucleic acid modifications have been explored in regard to their potential...
A review of innovative tools for creative nucleic acid chemists that open the door to novel probes a...
The hydroxyl (OH•) radical plays an important role in the degradation of living tissues induced by i...
Formaldehyde is produced in cells by enzyme-catalysed demethylation reactions, including those occur...
Formaldehyde is produced in cells by enzyme-catalysed demethylation reactions, including those occur...
Synthetic modified nucleosides designed to pair in unusual ways with natural nucleobases have many p...
The diversity and complexity of life on this planet is based on a narrow selection of organic molecu...
This unique book takes a radically fresh approach in providing general information on the chemistry ...
International audienceModified nucleotides are universally conserved in all living kingdoms and are ...
Emerging data strongly suggest that the oxidation of DNA bases can contribute to genomic instability...
In part I, the distribution of pyrimidine bases in ox spleen deoxyribonucleic acid (DNA) have been i...
The four canonical bases that make up genomic DNA are subject to a variety of chemical modifications...
The synthesis of potentially natural nucleic acid alternatives and comparison of some of their chemi...
The natural chemical modifications of messenger RNA (mRNA) in living organisms have shown essential ...
Chemically modified bases exist naturally in genomic DNA. Research into these bases has been invigor...
In recent years, numerous nucleic acid modifications have been explored in regard to their potential...
A review of innovative tools for creative nucleic acid chemists that open the door to novel probes a...
The hydroxyl (OH•) radical plays an important role in the degradation of living tissues induced by i...
Formaldehyde is produced in cells by enzyme-catalysed demethylation reactions, including those occur...
Formaldehyde is produced in cells by enzyme-catalysed demethylation reactions, including those occur...
Synthetic modified nucleosides designed to pair in unusual ways with natural nucleobases have many p...
The diversity and complexity of life on this planet is based on a narrow selection of organic molecu...