Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis

Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis

The recent explosion of high throughput technologies in many fields of biology has necessitated the use of sophisticated algorithms to guide experimental design and analyze results. This thesis explores two such fields: directed protein evolution and single molecule fluorescence resonance energy tra...

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Main Author: Bronson, Jonathan Eiseman
Language:English
Published: 2011
Subjects:
Chemistry
Online Access:https://doi.org/10.7916/D8Z325MN
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spelling ndltd-columbia.edu-oai-academiccommons.columbia.edu-10.7916-D8Z325MN2019-05-09T15:13:32ZNavigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysisBronson, Jonathan Eiseman2011ThesesChemistryThe recent explosion of high throughput technologies in many fields of biology has necessitated the use of sophisticated algorithms to guide experimental design and analyze results. This thesis explores two such fields: directed protein evolution and single molecule fluorescence resonance energy transfer analysis. Although the methodologies and applications of the fields differ greatly, they are both limited by a process which scales exponentially with problem size. In the former case, the problem is determining which combination of amino acids should be mutated to enhance or create protein function. In the latter case, the problem is inferring the number of conformations a molecule explores during an experiment and the probability of being in each state at each time point in the experiment. Methods to address both problems will be presented in this thesis.Englishhttps://doi.org/10.7916/D8Z325MN
collection NDLTD
language English
sources NDLTD
topic Chemistry
spellingShingle Chemistry
Bronson, Jonathan Eiseman
Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis
description The recent explosion of high throughput technologies in many fields of biology has necessitated the use of sophisticated algorithms to guide experimental design and analyze results. This thesis explores two such fields: directed protein evolution and single molecule fluorescence resonance energy transfer analysis. Although the methodologies and applications of the fields differ greatly, they are both limited by a process which scales exponentially with problem size. In the former case, the problem is determining which combination of amino acids should be mutated to enhance or create protein function. In the latter case, the problem is inferring the number of conformations a molecule explores during an experiment and the probability of being in each state at each time point in the experiment. Methods to address both problems will be presented in this thesis.
author Bronson, Jonathan Eiseman
author_facet Bronson, Jonathan Eiseman
author_sort Bronson, Jonathan Eiseman
title Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis
title_short Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis
title_full Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis
title_fullStr Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis
title_full_unstemmed Navigating exponentially large spaces in biology : methods for directed evolution and smFRET time series analysis
title_sort navigating exponentially large spaces in biology : methods for directed evolution and smfret time series analysis
publishDate 2011
url https://doi.org/10.7916/D8Z325MN
work_keys_str_mv AT bronsonjonathaneiseman navigatingexponentiallylargespacesinbiologymethodsfordirectedevolutionandsmfrettimeseriesanalysis
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