Publications by authors named "Alexander J Lander"
Many cell-surface receptors are promising targets for chemical synthesis because of their critical roles in disease development. This synthetic approach enables investigations by racemic protein crystallography and ligand discovery by mirror-image methodologies. However, due to their complex nature, the chemical synthesis of a receptor can be a significant challenge.
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- Tryptophan is often located on the surfaces of membrane-associated proteins, making it hard to determine the specific roles of each tryptophan due to their complex interactions.
- The study explores using racemic protein crystallography with the tryptophan-rich bacteriocin aureocin A53 to examine how this amino acid interacts with different ligands, revealing important hydrogen bond networks crucial for antibacterial activity.
- Results showed that certain tryptophan residues are essential for both antibacterial function and the protein's structure, suggesting a similar mechanism could apply to a related bacteriocin, lacticin Q.
Total chemical protein synthesis provides access to entire D-protein enantiomers enabling unique applications in molecular biology, structural biology, and bioactive compound discovery. Key enzymes involved in the central dogma of molecular biology have been prepared in their D-enantiomeric forms facilitating the development of mirror-image life. Crystallization of a racemic mixture of L- and D-protein enantiomers provides access to high-resolution X-ray structures of polypeptides.
View Article and Find Full Text PDFAsparaginyl endopeptidases (AEPs) are ideal for peptide and protein labeling. However, because of the reaction reversibility, a large excess of labels or backbone modified substrates are needed. In turn, simple and cheap reagents can be used to label N-terminal cysteine, but its availability inherently limits the potential applications.
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