Holly has a degree in Medical Biochemistry from the University of Leicester. Her scientific interests include genomics, personalized medicine, and bioethics.View full profile Holly has a degree in ...

Proteins are the workhorses that keep our cells running, and there are many thousands of types of proteins in our cells, each ...

An artificial intelligence (AI) model has simulated half a billion years of molecular evolution to create the code for a ...

Tlusty's topological rate distortion approach to the genetic code is applied to the problem of protein symmetries and to the analysis of protein folding rates. Unlike the genetic case, numerous ...

Transcription and translation are processes a cell uses to make all proteins the body needs to function from information stored in the sequence of bases in DNA. The four bases (C, A, T/U, and G in the ...

the equipment is designed to help unravel the structure of protein molecules.

Scientists explored mRNA and protein public databases to unravel hidden meanings of the genetic code. Using a metric derived from mRNA codon composition, they found out how gene sequence choice can ...

Solving puzzles experimentally is enjoyable for many researchers. However, there are some puzzles that force even the best puzzlers to nominate modeling over experimental approaches to help decipher ...

There are hundreds of diseases affecting humans that result from errors in cellular production of its proteins. A team led by researchers at the University of Massachusetts, Amherst, report they ...

Building muscle is a multifaceted process that requires more than just lifting weights. To achieve optimal muscle growth, it’s crucial to understand the intricate balance between proper nutrition, ...

Tlusty's topological arguments regarding the genetic code are applied to the classification of tertiary irregular protein symmetries. Unlike the genetic case, two protein folding codes are found, a ...