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Dynamic Covalent Assembly of Abiotic, Information-bearing Oligomers by Tao Wei A dissertation PDF

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Dynamic Covalent Assembly of Abiotic, Information-bearing Oligomers by Tao Wei A dissertation submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy (Chemical Engineering) in The University of Michigan 2017 Doctoral Committee: Assistant Professor Timothy F. Scott, Chair Professor Mark A. Barteau Professor Joerg Lahann Professor Anne McNeil Tao Wei [email protected] ORCID ID: 0000-0001-8923-293X © Tao Wei 2017 DEDICATION This dissertation is dedicated to Liang Mom and Dad Suying and Xuexian For their love and endless support ii ACKNOWLEDGEMENTS I would like to thank my PhD advisor Prof. Timothy F. Scott for his support, guidance, patience, encouragement, and wisdom throughout my doctoral studies at the University of Michigan. I would also like to express my gratitude to my dissertation committee members, Professor Mark Barteau, Professor Joerg Lahann and Professor Anne McNeil for their constructive discussions and advice. I am fortunate to have met many talented and fun individuals throughout my PhD. Some of these amazing people include Jin Ge, Ray Seo, Wenjun Huang, Molly Kozminsky, Jeff Lowe, Eric and Jai Holt, Lynn Secondo, Xiaozhou Sheng and Ziyong Lin; I am grateful for our fun times. I cannot thank these individuals enough for their support and friendship. I must emphasize how lucky I am to have extremely supportive and encouraging lab mates including Dr. Scott Zavada, Dr. Joseph Furgal, Dowon Ahn, Megan Dunn, Harry van der Laan, Max Ma, Samuel Leguizamon, Abdulla Alqubati, Austin Bingham, Dr. Jae Hwan Jung, Dr. Jungting Li, Sameer Sathe, and Dan Li. I want to thank them for building the family atmosphere of Polymer Dojo and I really appreciate their friendship. Especially, I want to thank Scott, Dowon, and Megan for their invaluable help in building the lab in early years. I want to mention Scott, who’s always been a great friend and a mentor, for his kind advice on research and life. I want to thank Megan and Sam for their iii support and I really enjoyed our discussions over Pokémon and doing raid battles together. I am also fortunate enough to have worked with Joe and Jae Hwan on various projects, from whom I learned a lot. In addition, I want to acknowledge Harry for his effort on maintaining a safe lab environment. I am also very grateful to Professor Greg Thurber at U-M and Thurber lab members for their help on instrumentation such as high performance liquid chromatography (HPLC). Especially, I want to thank Liang Zhang and Submit Bhatnagar for their great effort on the daily maintenance of HPLC and their help on HPLC trouble shooting. Special thanks are in order to James Windak of the Chemistry Department Mass Spec Services Lab for his help with determining molecule compositions. Gratitude is also given to the U-M Chemical Engineering faculty and staff, especially Susan Hamlin, Kelly Raickovich, Barbara Perry and Shelley Fellers for their assistance. I would also like to acknowledge the funding that supported my graduate studies. This includes the U.S. Department of Energy, the National Science Foundation, and the National Institutes of Health. I am eternally thankful for the love and support of my parents, my husband Liang, my parents-in-law Suying and Xuexian, and the rest of my family. I especially want to mention my ‘partner in crime’ Liang, who’s also a chemical engineering graduate student at U-M, for being a constant source of motivation and support, and I look forward to starting our next chapter in Boston. I want to express my gratitude to my parents for always believing in me, respecting and supporting every decision I made. I’d also like to acknowledge my parents in law for their endless support and making me always feel at home. I want to thank my cousin in law Yun Li and her husband Jun Zhao for letting us iv crash at their place and treating us to delicious Chinese food every time we visit Seattle. Last but not the least, I want to thank cat Meme for bringing joy and laughter to our life. v TABLE OF CONTENTS DEDICATION .................................................................................................................... ii ACKNOWLEDGEMENTS ............................................................................................... iii LIST OF FIGURES ............................................................................................................ x LIST OF SCHEMES ..................................................................................................... xviii LIST OF TABLES ............................................................................................................ xx ABSTRACT .................................................................................................................... xxii Chapter 1 Introduction .................................................................................................... 1 1.1 Background and Research Overview ........................................................................ 1 1.2 Sequence-controlled Polymers .................................................................................. 2 1.2.1 Synthetic Approaches to Sequence-controlled Polymerization ......................... 4 1.2.2 Nucleic Acids as Biological Sequence-controlled Polymers and DNA Nanotechnology ........................................................................................................ 10 1.2.3 Sequence-specific Peptoids .............................................................................. 14 1.3 Dynamic Covalent Chemistry ................................................................................. 28 1.4 Dynamic Imine Chemistry and Its Emerging Applications .................................... 32 1.5 Covalent Self-assembly .......................................................................................... 40 1.6 Overview of Subsequent Chapters .......................................................................... 42 1.7 References ............................................................................................................... 43 Chapter 2 Dynamic Covalent Assembly of Peptoid-Based Molecular Ladders ....... 55 2.1 Original Publication Information ............................................................................ 55 2.2 Abstract ................................................................................................................... 55 2.3 Introduction ............................................................................................................. 56 vi 2.4 Experimental ........................................................................................................... 58 2.4.1 General Experimental Procedure ..................................................................... 58 2.4.2 Monomer Synthesis ......................................................................................... 59 2.4.3 Synthesis of Peptoids Bearing Dynamic Covalent Functionalities .................. 69 2.4.4 Cleavage and Side-chain Deprotection ............................................................ 70 2.4.5 Purification of Oligopeptoids by Preparative RP-HPLC ................................. 71 2.4.6 Characterization of Peptoids Bearing Dynamic Covalent Functionalities ...... 74 2.4.7 General Procedure for Self-assembly of Molecular Ladders of Length n ....... 83 2.5 Results and Discussion ........................................................................................... 84 2.5.1 Formation of Short Peptoid-based n-Rung Ladders (n = 3~6) ........................ 87 2.5.2 Formation of Long Peptoid-based n-Rung Ladders (n = 8~16) ...................... 90 2.6 Conclusions ............................................................................................................. 94 2.7 References ............................................................................................................... 95 Chapter 3 Reaction Kinetics and Registry Mechanism of n-Rung Molecular Ladder Formation ........................................................................................................................ 99 3.1 Original Publication Information ............................................................................ 99 3.2 Abstract ................................................................................................................... 99 3.3 Introduction ........................................................................................................... 100 3.4 Experimental ......................................................................................................... 101 3.4.1 General Experimental Procedures .................................................................. 101 3.4.2 Experimental Procedures for Kinetics of Molecular Ladder Formation ....... 103 3.4.3 Synthesis and Characterization of DABCYL-EN for Subsequent Solid-phase Peptoid Synthesis .................................................................................................... 104 3.4.4 Synthesis and Characterization of Oligopeptoids for FRET Study ............... 106 3.4.5 Photoluminescence Spectroscopy .................................................................. 112 3.5 Results and Discussion ......................................................................................... 113 3.5.1 Kinetics of Molecular Ladder Formation with n Rungs ................................ 113 3.5.2 Registry Mechanism of n × n Molecular Ladder Formation by Förster Resonance Energy Transfer (FRET) ....................................................................... 121 3.6 Conclusions ........................................................................................................... 127 3.7 References ............................................................................................................. 129 vii Chapter 4 Long, Self-assembled Molecular Ladders by Vernier Templating ........ 131 4.1 Original Publication Information .......................................................................... 131 4.2 Abstract ................................................................................................................. 131 4.3 Introduction ........................................................................................................... 132 4.4 Experimental ......................................................................................................... 134 4.4.1 General Experimental Procedure ................................................................... 134 4.4.2 Monomer Synthesis ....................................................................................... 135 4.4.3 Synthesis and Characterization of Peptoids for Vernier Templating and Molecular Ladder Scrambling ................................................................................ 138 4.4.4 General Procedure for Vernier-templated Self-assembly of Molecular Ladders of Length m × n ....................................................................................................... 141 4.4.5 Procedure for Dynamic Covalent Assembly of Ladder ME3A-Im_4 ............ 142 4.4.6 Procedure for Molecular Ladder Scrambling by Strand Exchange ............... 143 4.5 Results and Discussion ......................................................................................... 144 4.5.1 Vernier-templated Assembly of Complementary m×n Oligopeptoids .......... 144 4.5.2 Molecular Ladder Scrambling by Strand Exchange ...................................... 151 4.6 Conclusion ............................................................................................................ 156 4.7 References ............................................................................................................. 157 Chapter 5 In Situ Deprotection and Dynamic Covalent Assembly Using a Dual Role Catalyst .......................................................................................................................... 158 5.1 Original Publication Information .......................................................................... 158 5.2 Abstract ................................................................................................................. 158 5.3 Introduction ........................................................................................................... 159 5.4 Experimental ......................................................................................................... 161 5.4.1 General Experimental Procedure ................................................................... 161 5.4.2 Monomer Synthesis ....................................................................................... 161 5.4.3. Solid-phase Synthesis of Oligo(peptoid)s ..................................................... 172 5.4.4 Amine Protecting Groups and Deprotection .................................................. 179 5.4.5 Deprotection of Acetal Group by Lewis Acids .............................................. 182 5.5 Results and Discussion ......................................................................................... 183 5.5.1 Orthogonal Protecting Groups for Amines and Aldehydes ........................... 183 viii 5.5.2 Optimization of Acetal Deprotection by Sc(III) ............................................ 188 5.5.3 Sc(III) as a Dual Role Catalyst ...................................................................... 195 5.5.4 Information-bearing Peptoids and Self-assembly of Complex Structures ..... 199 5.6 Conclusion ............................................................................................................ 207 5.7 References ............................................................................................................. 208 Chapter 6 Concluding Remarks and Future Directions ........................................... 211 6.1 Summary of Research ........................................................................................... 211 6.2 Future Work .......................................................................................................... 217 6.3 References ............................................................................................................. 221 ix

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Dynamic Covalent Assembly of Abiotic, Information-bearing Oligomers by. Tao Wei. A dissertation submitted in partial fulfillment of the requirements for the degree of. Doctor of Philosophy. (Chemical Engineering) in The University of Michigan. 2017. Doctoral Committee: Assistant Professor Timothy F
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