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Full-Text Articles in Education
Poster 2: Primary Structure, Max Shramuk '16, Mara Cardona '16
Poster 2: Primary Structure, Max Shramuk '16, Mara Cardona '16
Protein Folding & Structure Prediction Posters
No abstract provided.
Poster 8: Predicting Structure: Current Techniques And Challenges, Arun Arjunakani '16, Joseph Jagusah '16
Poster 8: Predicting Structure: Current Techniques And Challenges, Arun Arjunakani '16, Joseph Jagusah '16
Protein Folding & Structure Prediction Posters
No abstract provided.
Poster 5: Quaternary Structure, Arun Arjunakani '16, Joseph Jagusah '16
Poster 5: Quaternary Structure, Arun Arjunakani '16, Joseph Jagusah '16
Protein Folding & Structure Prediction Posters
No abstract provided.
Poster 7: Importance Of Protein Structure Prediction, Michael Qian '16, Sarah Dovgin '16, Esther Chung '16
Poster 7: Importance Of Protein Structure Prediction, Michael Qian '16, Sarah Dovgin '16, Esther Chung '16
Protein Folding & Structure Prediction Posters
Initially, drugs were discovered by either chance or by trial and error through screening methods. Because scientists did not have the ability to model protein structures, drug discovery was a very expensive process. Currently, researchers are working on technologies to determine protein ligands and potential drugs through the usage of predicted protein structures.
Poster 3: Secondary Structure, Michael Qian '16, Sarah Dovgin '16, Esther Chung '16
Poster 3: Secondary Structure, Michael Qian '16, Sarah Dovgin '16, Esther Chung '16
Protein Folding & Structure Prediction Posters
No abstract provided.
Poster 1: Protein Functions And Relationships Between Structure And Function, Mara Cardona '16, Max Shramuk '16
Poster 1: Protein Functions And Relationships Between Structure And Function, Mara Cardona '16, Max Shramuk '16
Protein Folding & Structure Prediction Posters
No abstract provided.
Poster 4: Tertiary Structure, Grace Carlberg '16, Andy Xu '16, Andrew Adams '16
Poster 4: Tertiary Structure, Grace Carlberg '16, Andy Xu '16, Andrew Adams '16
Protein Folding & Structure Prediction Posters
When proteins form polypeptide chains, they form primary structure - their amino acid sequence - secondary structure - their local shapes - and tertiary structure - their global fold and shape. Tertiary structure and its prediction are of vital importance to the biology community because of its importance for manipulating gene expression, cell-wide processes, and more. Because of the innumerable possibilities for even a simple primary structure protein, prediction is incredibly difficult. As bioinformatics technologies advance, though, our understanding of tertiary folding advances.
Poster 6: Chaperone Proteins, Grace Carlberg '16, Andy Xu '16, Andrew Adams '16
Poster 6: Chaperone Proteins, Grace Carlberg '16, Andy Xu '16, Andrew Adams '16
Protein Folding & Structure Prediction Posters
No abstract provided.