eprintid: 6957
rev_number: 4
userid: 6
dir: disk0/00/00/69/57
datestamp: 2011-11-10 19:35:37
lastmod: 2016-11-15 13:39:21
status_changed: 2011-11-10 19:35:37
type: thesis_degree
metadata_visibility: show
contact_email: cwm8@pitt.edu
item_issues_count: 0
eprint_status: archive
creators_name: Morgan, Christopher William
creators_email: cwm8@pitt.edu
creators_id: CWM8
title: From Structure to Function: From the Development of a Curved Hetero-Oligomer to the Development of an Actuated Glucose Sensor
ispublished: unpub
divisions: sch_as_chemistry
full_text_status: public
keywords: Bis-amino acids; glucose binding; glucose sensing; macromolecules; NMR techniques; residual dipolar coupling
abstract: The Schafmeister research group has developed a technology for synthesizing bis-peptide oligomers that adopt well defined structure dependent upon the rich stereochemistry of the independent bis-amino acid monomers used in its construction. These bis-amino acid monomers are designed to construct rigid bis-peptide scaffolds by utilizing a pair of amide bonds that form a 2,5 diketopiperazine (DKP) ring linkage between two monomers. It is hoped to be able to precisely position functionality within our rigid scaffolds so as to allow us to explore potential applications with our bis-peptide oligomers. Developing new bis-amino acid monomers will help achieve this goal. The first part of this thesis outlines the synthesis of the pip5(2R5R) and pip5(2R5S) bis-amino acid monomers. The newly synthesized pip5(2R5S) monomer was then coupled into a bis-peptide sequence with the previously synthesized pip5(2S5R) monomer. Molecular modeling predicted that this particular sequence formed a tight turn in space; a useful structural motif for the exploration of small cavities and clefts. The solution structure of this bis-peptide oligomer was determined by 2D-NMR techniques including a ROESY to determine important close contact information between protons on the same monomer and protons on adjacent monomers. In addition, two powerful 2D-NMR techniques that have begun their integration into our lab for structure determination were used to provide more NMR restraints on the bis-peptide structural model. These included amplitude-constrained multiplet evaluation of 3JHH coupling constants and the use of residual dipolar coupling (RDC) constants. Lastly, I have recently begun work on synthesizing a glucose sensitive molecular actuator. This molecular actuator is a water-soluble rod-hinge-rod motif that converts from its disordered "open" form to an ordered "closed" form upon reversible binding to glucose through the 4,6 and 1,2 diol pairs. It is envisioned that these rod-hinge-rod motifs can eventually be used for potential applications such as nanovalves.
date: 2007-06-14
date_type: completed
institution: University of Pittsburgh
refereed: TRUE
etdcommittee_type: committee_chair
etdcommittee_type: committee_member
etdcommittee_type: committee_member
etdcommittee_name: Schafmeister, Christian
etdcommittee_name: Wilcox, Craig
etdcommittee_name: Curran, Dennis
etdcommittee_email: meister@pitt.edu
etdcommittee_email: daylite@pitt.edu
etdcommittee_email: curran@pitt.edu
etdcommittee_id: MEISTER
etdcommittee_id: DAYLITE
etdcommittee_id: CURRAN
etd_defense_date: 2006-12-06
etd_approval_date: 2007-06-14
etd_submission_date: 2007-04-10
etd_access_restriction: immediate
etd_patent_pending: FALSE
assigned_doi: doi:10.5195/pitt.etd.2011.6957
thesis_type: thesis
degree: MS
committee: Christian Schafmeister (meister@pitt.edu) - Committee Chair
committee: Craig Wilcox (daylite@pitt.edu) - Committee Member
committee: Dennis Curran (curran@pitt.edu) - Committee Member
etdurn: etd-04102007-164326
other_id: http://etd.library.pitt.edu/ETD/available/etd-04102007-164326/
other_id: etd-04102007-164326
citation:   Morgan, Christopher William  (2007) From Structure to Function: From the Development of a Curved Hetero-Oligomer to the Development of an Actuated Glucose Sensor.  Master's Thesis, University of Pittsburgh.    (Unpublished)  
document_url: http://d-scholarship-dev.library.pitt.edu/6957/1/ChrisMorganthesisapril2007.pdf