Universiteit Leiden

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Dissertation

A semisynthetic peptide-metalloporphyrin responsive matrix for artificial photosynthesis

This thesis is concerned with the constitution of chiral responsive matrix assemblies that may undergo light-driven conformational changes and self-select vibrations to develop vibronic states for driving semi-classical coherent transfer with nearly 100% yield in a lossless NCAP process.

Author
Sun, Z.
Date
20 November 2019
Links
Thesis in Leiden Repository

This thesis is concerned with the constitution of chiral responsive matrix assemblies that may undergo light-driven conformational changes and self-select vibrations to develop vibronic states for driving semi-classical coherent transfer with nearly 100% yield in a lossless NCAP process. In this work, a truncated CsmA derived from the CsmA protein from the baseplate of the Chlorobaculum tepidum has been used to engineer a chiral matrix around a zinc protoporphyrin IX (ZnPP) chromophore (Chapter 2). After the study of the specific structure of tCsmA-ZnPP complex, the mechanism of self-assembly was resolved (Chapter 3 and Chapter 4). Expression and purification of tCsmA in E.coli was explored to pave the way for other methods, such as NMR (Chapter 5).

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