The chemical and biochemical properties of methylphosphotriester DNA and RNA in comparison with their corresponding methylphosphonates. A dynamic model description

The Risk of the Preparation of Artificial DNAs via an Interrupted Automated Solid-Phase Triester Method

In this paper, the risk of the preparation of artificial DNAs via an interrupted automated solid-phase triester procedure is discussed. These results differ completely from the corresponding results obtained by a gradual non-automated synthesis, indicated as solution-phase chemistry. With experimental results focused on model systems under various conditions and molecular-mechanics calculations, it feels as a challenge to offer an explanation for this different behavior. Attention is briefly given to click-linked DNA fragments as a substitute of phosphate linkages.

DNA systems for B-Z transition and their significance as epigenetic model: the fundamental role of the methyl group

Epigenetic systems involved in the dynamics of gene expression, which are fundamental to cell determination and function without alteration in DNA sequences, are based on methylation of the N-terminal tails of lysine residues and DNA methylation. We demonstrate the vital importance for genetic transfer by different (hydrogen) networks, suggesting a complex interaction between the two epigenetic modifications. In other words, the methylation of local lysines can prescribe C(P)G methylation, which requires that methylation of histones and DNA are cooperative in carrying out an epigenetic instruction for integrating gene-silencing networks. To give a bio-organic description of the epigenetic coherence between histone and base methylation, we used the well-known B- into Z-DNA dynamics in combination with the unique properties of phosphatemethylated DNA on different levels of chemistry.