Metal-mediated base pairing in nucleic acids is an innovative area of research that explores how metal ions can influence the stability and functionality of DNA and RNA structures. This approach ...

The field of nucleic acid research has seen significant advancements with the introduction of unnatural base pairs (UBPs) and expanded genetic alphabets. These innovations allow scientists to ...

Hydrogels are polymeric materials with three-dimensional network structures containing large amounts of water. They serve as sustained-release drug delivery systems as they can encapsulate various ...

Hydrogels are polymeric materials with three-dimensional network structures containing large amounts of water. They serve as ...

DNA hydrogels are biocompatible drug delivery systems for targeted therapeutic interventions. Conventional DNA hydrogels, formed with many DNA nanostructure units, lead to increased preparation costs ...

The Nucleic Acids Institute is dedicated to understanding the chemical and biological basis for nucleic acid function, and to developing new and powerful nucleic acids based therapeutic and ...

The field of synthetic biology emerged as a result of revolutionary biotechnologies including high-throughput DNA synthesis, genome editing, and rapid genome sequencing as well as directed and ...

With a visually appealing interface and precise alignment capabilities as its core features, the software integrates functions such as pairing analysis, GC content calculation, and color annotation, ...

Innovative Takumi-shaped DNA hydrogels exhibit prolonged retention and drug release, showcasing their potential as biocompatible delivery systems in medicine.

Samples from the asteroid Bennu, brought back by the OSIRIS-REx mission, reveal key molecules for life. These discoveries ...