Novel Protein design
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Transcript of Novel Protein design
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Novel Protein design
BTY516: protein engineering
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Question• Why design novel proteins?
• what can be gained by the design and characterization of novel proteins?
• Can we design 3D protein structures that have never been observed?
• Are the 3D structures that have not been observed in nature unattainable, or just unsampled?
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Main Motivations
• our understanding of natural proteins--their folding pathways, thermodynamic stabilities, and catalytic properties -- is enhanced (and ultimately tested) by our ability to design novel proteins with predetermined structures and properties.
• For solving important chemical or biochemical problems.
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STRATEGIES FOR THE DESIGN OF STRUCTURE
1. Self-Assembly of Modular Units of Secondary Structure
Schematic diagram showing the self-assembly of two peptides into an ordered dimeric structure.
End-on view of two parallel (α-helices forming a coiled-coil structure. A single heptad repeat is shown and the view is looking from the N-terminal end with the a-helices descending into the page.
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Schematic illustration of the incremental approach
STRATEGIES FOR THE DESIGN OF STRUCTURE
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2- Ligand-lnduced Assembly
STRATEGIES FOR THE DESIGN OF STRUCTURE
Ligand-induced assembly of a three-helix bundle.
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Schematic diagram showing ligand-induced assembly.
2- Ligand-lnduced Assembly
STRATEGIES FOR THE DESIGN OF STRUCTURE
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3- Assembly of Peptides via Covalent Cross-linking
Schematic diagram showing the assembly of a structure that is stabilized by
covalent cross-link
STRATEGIES FOR THE DESIGN OF STRUCTURE
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STRATEGIES FOR THE DESIGN OF STRUCTURE
The amino acid sequence and cross-linking pattern of Chymohelizyme
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4- Assembly of Peptides on a Synthetic Template
STRATEGIES FOR THE DESIGN OF STRUCTURE
Schematic diagram of a template-assembled synthetic protein (TASP).
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5-Linear Polypeptides That Fold into Globular Structures
STRATEGIES FOR THE DESIGN OF STRUCTURE
Ribbon drawing of the sequence and proposed structure of Felix. The Cysll-Cys71 disulfide bond is indicated
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Reference
Carey, P.R. (1996). Protein Engineering and Design. Academic Press.
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