In Vitro Selection of Collagen-Binding Vascular Endothelial Growth Factor Containing Genetically Encoded Mussel-Inspired Adhesive Amino Acids.

Protein immobilization technology is important in medical and industrial applications. We previously reported all-in-one in vitro selection, wherein a collagen-binding vascular endothelial growth factor (CB-VEGF) was identified from a fusion library of random and VEGF sequences. However, its interaction chemistry is mainly limited to the interaction established by the 20 canonical amino acids.

Rational design of environmentally responsive antibodies with pH-sensing synthetic amino acids.

Antibodies are widely used as therapeutic agents to tackle various diseases. In the present study, to enhance their clinical values, we rationally designed pH-responsivity by exploiting the idiosyncratic protonation/deprotonation profiles of non-natural amino acids. 3-Nitro-L-tyrosine, 3-cyano-L-tyrosine, and 3, 5-halogenated-L-tyrosine, each with near neutral pK, were thus incorporated into Fab fragments in place of tyrosines and other residues in the variable regions.

Protein-Protein Interface Identification by Site-Specific Photo-Cross-linking/Cleavage in Mammalian Cells.

Identification of protein-protein interfaces is necessary for understanding and regulating biological events. Genetic code expansion enables site-specific photo-cross-linking by introducing photo-reactive non-canonical amino acids into proteins at defined positions during translation. This technology is widely used for analyzing protein-protein interactions and is applicable in mammalian cells.

A Novel Method for Acquired Sex Chromosome Mosaicism.

The phenomenon of sex chromosome loss from hematopoietic cells is an emerging indicator of biological aging. While many methods to detect this loss have been developed, enhancing the field, these existing methods often suffer from being labor-intensive, expensive, and not sufficiently sensitive. To bridge this gap, a novel and more efficient technique is developed, named the SinChro assay.

Site-specific photo-crosslinking/cleavage for protein-protein interface identification reveals oligomeric assembly of lysosomal-associated membrane protein type 2A in mammalian cells.

Genetic code expansion enables site-specific photo-crosslinking by introducing photo-reactive non-canonical amino acids into proteins at defined positions during translation. This technology is widely used for analyzing protein-protein interactions and is applicable in mammalian cells. However, the identification of the crosslinked region still remains challenging.