Explore how FTIR spectroscopy is used in life sciences to analyze biomolecules, identify compounds, and advance research in biology and medicine.

Researchers from the Biomedical Sciences Research Center “Alexander Fleming” and the Centre for Misfolding Diseases at the University of Cambridge have found a way to predict the structure of a signif ...

Recent advances in automated protein design algorithms are leading ... being explored is to use parametric representations of secondary structure elements and folds to systematically drive ...

Proteins have four levels of structure: primary (amino acid sequence), secondary (local folding patterns like alpha helices and beta sheets), tertiary (overall 3D shape), and quaternary (assembly of ...

The sequence of amino acids in the chain determines how the chain will fold up to make the protein, so different proteins have different three-dimensional shapes. The three-dimensional shape of a ...

tertiary structure, and often begins co-translationally. Protein folding requires chaperones and often involves stepwise establishment of regular secondary and supersecondary structures ...

tRNAs have a distinct cloverleaf secondary structure and an L-shaped tertiary ... highlights the fundamental role of tRNA in the essential process of protein synthesis. The basic structure and ...

Pancreas This releases enzymes into the intestines which break down carbohydrates, protein and lipids in ... called villi which have a tiny hair-like structure poking into the small intestine ...