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https://d1y502jg6fpugt.cloudfront.net/17269/archive/files/4db293db8061ff9f761e38af71cb89c4.pdf?Expires=1712793600&Signature=cf6GIbnwE7yYX6EmlFQYVR-wQdvqq4XHZeHo0kP7y90ngsALqwLec0YfvEycPx9GLNbs66jSwfa01DaaV14B9A9NRfVPekn7CT5hYVfjhtLwArcOeYq9UpzMgPyhLwnw4L2mfoOnZmdTmOlEUGgWGBOkLSXzMxvDz8O8QgMU4l077W56tFK4HmViL90jndmiwEd-beirewm7v3dp8n3PjTGCrRvnla8sa7lpj-1HjiHvGoTWq-KTMs85NxXCxmZqX2kfr-rkeg0BUWgtkV13-I8lFJ-NLmqDvy3YwaO4YSBODzkK5yOmKxAeBw%7EKKJ166gm4bcMZQKWZ4rNe3Zqmwg__&Key-Pair-Id=K6UGZS9ZTDSZM
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Dublin Core
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Title
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Senior Showcase 2017
Description
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Oral and poster presentations from Senior Showcase held on April 18, 2017 at Ripon College.
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Ripon College Lane Library
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Ripon College Seniors 2017
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Dublin Core
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Title
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Pondering Polyhelical Proteins: Mathematically Modeling Helical Repeat Proteins by Lincoln Wurtz
Subject
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Mathematics
Creator
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Lincoln Wurtz
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Senior Showcase Oral Presentation
Publisher
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Ripon College
Date
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April 18, 2017
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The author reserves all rights.
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Majors: Mathematics and Chemistry-Biology
Description
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Proteins are the most abundant biological macromolecules and, based on their
three-dimensional shape, perform life-sustaining functions. The process by which a
protein assumes its folded shape remains an open question and has intrigued biologist and chemists for decades. Mathematicians have joined forces with the natural scientists and brought with them the tools of differential geometry, which prove powerful for modeling proteins. We explore the method of [3] to model a small subset of proteins using polyhelical space curves. We successfully modeled three alpha-helical repeat proteins. The developed model has demonstrated possible uses in predicting theoretical tertiary structures of proteins given a set of secondary structures--a step in the right direction of solving the protein folding problem. Additionally, we provide insight into the relationship between clashes and the model's stability calculator, which may improve the viability of their model.
Chemistry-Biology
differential geometry
Mathematics
Protein