Recent advances in synthetic polypeptide and polymer chemistry have transformed the landscape of biomaterials by combining the precision of organic synthesis with the versatile functionalities of ...

Animals such as spiders make fibers which are strong and elastic. These fibers have a polypeptide structure and serve as inspiration for research into the development of functional materials.

Aza-peptides, peptide analogues in which one or more α-carbon atoms are replaced by nitrogen atoms, represent a promising class of compounds in therapeutic development. This structural modification ...

A major problem in solid-phase peptide synthesis (SPPS) is aggregation and poor solvation leading to incomplete deprotection and/or coupling steps, resulting in low crude purity peptides. 1 This ...

In nature, there are animals that make fibers that are strong and elastic—for example, the thread that spiders produce to make webs. These fibers have a polypeptide structure and serve as inspiration ...

How did catalytic organic polymers emerge on prebiotic Earth? Answering this essential question will unlock key understandings in the origin of life. A team of scientists at Tohoku University have ...

In recent years, interest has grown around two investigational peptides, BPC-157 and TB-500, proposed as part of a combined research-oriented protocol to explore tissue regeneration, angiogenesis, and ...

In the rapidly evolving landscape of modern biotechnology, the precision of molecular tools determines the speed of medical breakthroughs. As a Global Leading Biotinylated Peptide Synthesis specialist ...