Antibody engineering of a cytotoxic monoclonal antibody 84 against human embryonic stem cells: Investigating the effects of multivalency on cytotoxicity.

Antibody fragments have shown targeted specificity to their antigens, but only modest tissue retention times in vivo and in vitro. Multimerization has been used as a protein engineering tool to increase the number of binding units and thereby enhance the efficacy and retention time of antibody fragments. In this work, we explored the effects of valency using a series of self-assembling polypeptides based on the GCN4 leucine zipper multimerization domain fused to a single-chain variable fragment via an antibody upper hinge sequence.

Exploring codon context bias for synthetic gene design of a thermostable invertase in Escherichia coli.

Various isoforms of invertases from prokaryotes, fungi, and higher plants has been expressed in Escherichia coli, and codon optimisation is a widely-adopted strategy for improvement of heterologous enzyme expression. Successful synthetic gene design for recombinant protein expression can be done by matching its translational elongation rate against heterologous host organisms via codon optimization. Amongst the various design parameters considered for the gene synthesis, codon context bias has been relatively overlooked compared to individual codon usage which is commonly adopted in most of codon optimization tools.

Effect of linker flexibility and length on the functionality of a cytotoxic engineered antibody fragment.

Engineered antibody fragments often contain natural or synthetic linkers joining the antigen-binding domain and multimerization regions, and the roles of these linkers have largely been overlooked. To investigate linker effects on structural properties and functionality, six bivalent cytotoxic antibody fragments with of linkers of varying flexibility and length were constructed: (1) 10-AA mouse IgG3 upper hinge region, (2) 20-AA mouse IgG3 upper hinge region repeat, (3) 10-AA glycine and serine linker, (4) 20-AA glycine and serine linker repeat, (5) 21-AA artificial linker, and (6) no-linker control. Interestingly, a higher cytotoxicity was observed for fragments bearing the rigid short linkers compared to the flexible longer linkers.

Metabolic reconstruction and flux analysis of industrial Pichia yeasts.

Pichia yeasts have been recognized as important microbial cell factories in the biotechnological industry. Notably, the Pichia pastoris and Pichia stipitis species have attracted much research interest due to their unique cellular physiology and metabolic capability: P. pastoris has the ability to utilize methanol for cell growth and recombinant protein production, while P.