仿Microcin J25結構的多肽合成及其抗菌性之研究

許砡維; Yu-Wei Hsu

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/93300

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	朱忠瀚	zh_TW
dc.contributor.advisor	Chung-Han Chu	en
dc.contributor.author	許砡維	zh_TW
dc.contributor.author	Yu-Wei Hsu	en
dc.date.accessioned	2024-07-29T16:07:50Z	-
dc.date.available	2024-07-30	-
dc.date.copyright	2024-07-29	-
dc.date.issued	2024	-
dc.date.submitted	2024-07-17	-
dc.identifier.citation	1. Bruns, C. J.; Stoddart, J. F. The Nature of the Mechanical Bond; 2016. 2. Hannon, M. J. Supramolecular DNA recognition. Chem. Soc. Rev. 2007, 36, 280-295. 3. Kim, N. H.; Choi, H.; Shahzad, Z. M.; Ki, H.; Lee, J.; Chae, H.; Kim, Y. H. Supramolecular assembly of protein building blocks: from folding to function. Nano Converg. 2022, 9, 4. 4. Bickerton, L. E.; Johnson, T. G.; Kerckhoffs, A.; Langton, M. J. Supramolecular chemistry in lipid bilayer membranes. Chem. Sci. 2021, 12, 11252-11274. 5. Hegemann, J. D.; Zimmermann, M.; Xie, X.; Marahiel, M. A. Lasso peptides: an intriguing class of bacterial natural products. Acc. Chem. Res. 2015, 48, 1909-1919. 6. Maksimov, M. O.; Pan, S. J.; James Link, A. Lasso peptides: structure, function, biosynthesis, and engineering. Nat. Prod. Rep. 2012, 29, 996-1006. 7. Knappe, T. A.; Linne, U.; Xie, X.; Marahiel, M. A. The glucagon receptor antagonist BI-32169 constitutes a new class of lasso peptides. FEBS Lett. 2010, 584, 785-789. 8. Salomón R. A.; Farías R.N. Microcin 25, a novel antimicrobial peptide produced by Escherichia coli. J. Bacteriol. 1992, 174, 7428–7435. 9. Rosengren, K. J.; Clark, R. J.; Daly, N. L.; Goransson, U.; Jones, A.; Craik D. J. Microcin J25 Has a Threaded Sidechain-to-Backbone Ring Structure and Not a Head-to-Tail Cyclized Backbone. J. Am. Chem. Soc. 2003, 125, 12464-12474. 10. Bayro, M. J.; Mukhopadhyay, J.; Swapna, G. V.; Huang, J. V.; Ma, L. C.; Sineva, E.; Dawson, P. E.; Montelione, G. T.; Ebright R. H. Structure of antibacterial peptide microcin J25: a 21-residue lariat protoknot. J. Am. Chem. Soc. 2003, 125, 12382-12383. 11. Lopez, F. E.; Vincent, P. A.; Zenoff, A. M.; Salomon, R. A.; Farias, R. N. Efficacy of microcin J25 in biomatrices and in a mouse model of Salmonella infection. J. Antimicrob. Chemother. 2007, 59, 676-680. 12. Yu, H.; Ding, X.; Shang, L.; Zeng, X.; Liu, H.; Li, N.; Huang, S.; Wang, Y.; Wang, G.; Cai, S.; et al. Protective Ability of Biogenic Antimicrobial Peptide Microcin J25 Against Enterotoxigenic Escherichia Coli-Induced Intestinal Epithelial Dysfunction and Inflammatory Responses IPEC-J2 Cells. Front. Cell. Infect. Microbiol. 2018, 8, 242. 13. Delgado, M. A.; Rintoul, M. R.; Farias, R. N.; Salomon, R. A. Escherichia coli RNA polymerase is the target of the cyclopeptide antibiotic microcin J25. J. Bacteriol. 2001, 183, 4543-4550. 14. Solbiati J. O.; Ciaccio M.; Farías R, N. G.-P. J. E. M. F. S. R., A,. Sequence Analysis of the Four Plasmid Genes Required To Produce the Circular Peptide Antibiotic Microcin J25. J. Bacteriol. 1999, 181, 2659-2662. 15. Assrir, N.; Pavelkova, A.; Dazzoni, R.; Ducasse, R.; Morellet, N.; Guittet, E.; Rebuffat, S.; Zirah, S.; Li, Y.; Lescop, E. Initial Molecular Recognition Steps of McjA Precursor during Microcin J25 Lasso Peptide Maturation. ChemBioChem 2016, 17, 1851-1858. 16. Duquesne, S.; Destoumieux-Garzon, D.; Zirah, S.; Goulard, C.; Peduzzi, J.; Rebuffat, S. Two enzymes catalyze the maturation of a lasso peptide in Escherichia coli. Chem. Biol. 2007, 14, 793-803. 17. Yan, K. P.; Li, Y.; Zirah, S.; Goulard, C.; Knappe, T. A.; Marahiel, M. A.; Rebuffat, S. Dissecting the maturation steps of the lasso peptide microcin J25 in vitro. ChemBioChem 2012, 13, 1046-1052. 18. Braffman, N. R.; Piscotta, F. J.; Hauver, J.; Campbell, E. A.; Link, A. J.; Darst, S. A. Structural mechanism of transcription inhibition by lasso peptides microcin J25 and capistruin. Proc. Natl. Acad. Sci. U.S.A. 2019, 116, 1273-1278. 19. Adelman, K.; Yuzenkova, J.; La Porta, A.; Zenkin, N.; Lee, J.; Lis, J. T.; Borukhov, S.; Wang, M. D.; Severinov, K. Molecular mechanism of transcription inhibition by peptide antibiotic Microcin J25. Mol. Cell 2004, 14, 753-762. 20. Pavlova, O.; Mukhopadhyay, J.; Sineva, E.; Ebright, R. H.; Severinov, K. Systematic structure-activity analysis of microcin J25. J. Biol. Chem. 2008, 283, 25589-25595. 21. Eissler, S.; Kley, M.; Bachle, D.; Loidl, G.; Meier, T.; Samson, D. Substitution determination of Fmoc-substituted resins at different wavelengths. J. Pept. Sci. 2017, 23, 757-762. 22. Coste J.; Le-Nguyen D.; Castro B. PyBOP: A new peptide coupling reagent devoid of toxic by-product. Tetrahedron Lett. 1990, 31, 205-208. 23. Zheng, N.; Christensen, S. B.; Blakely, A.; Dowell, C.; Purushottam, L.; McIntosh, J. M.; Chou, D. H. Development of Conformationally Constrained alpha-RgIA Analogues as Stable Peptide Antagonists of Human alpha9alpha10 Nicotinic Acetylcholine Receptors. J. Med. Chem. 2020, 63, 8380-8387. 24. Carbajo, D.; Fransen, P.; El-Faham, A.; Royo, M.; Albericio, F. Pseudo-Wang Handle for the Preparation of Fully Protected Peptides. Synthesis of Liraglutide by Fragment Condensation. Org. Lett. 2019, 21, 2459-2463. 25. Yue C.; Thierry J.; Potier P. 2-phenyl isopropyl esters as carboxyl terminus protecting groups in the fast synthesis of peptide fragments. Tetrahedron Lett. 1993, 34, 323-326. 26. de Cristobal, R. E.; Solbiati, J. O.; Zenoff, A. M.; Vincent, P. A.; Salomon, R. A.; Yuzenkova, J.; Severinov, K.; Farias, R. N. Microcin J25 uptake: His5 of the MccJ25 lariat ring is involved in interaction with the inner membrane MccJ25 transporter protein SbmA. J. Bacteriol. 2006, 188, 3324-3328. 27. Nam, S. C.; Kang, C. W. Transcription initiation site selection and abortive initiation cycling of phage SP6 RNA polymerase. J. Biol. Chem. 1988, 263, 18123-18127. 28. Mukhopadhyay, J.; Sineva, E.; Knight, J.; Levy, R. M.; Ebright, R. H. Antibacterial peptide microcin J25 inhibits transcription by binding within and obstructing the RNA polymerase secondary channel. Mol. Cell 2004, 14, 739-751.	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/93300	-
dc.description.abstract	套索胜肽是由細菌等微生物產生的特殊環狀結構分子，在自然界中可做為天然的抗生素，也可在研究上用於開發新型多肽類藥物或作為藥物載體，其複雜的生合成過程及抗菌機制也是當今研究套索胜肽的重要課題之一，然而天然的套索胜肽在收集及純化上有著諸多限制，因此在本篇論文裡會以Microcin J25 (MccJ25) 作為研究的主要目標，並期望發展出一種可化學合成的仿套索胜肽結構，並利用此類胜肽分子來為後續的套索胜肽研究建立基礎。 MccJ25是一種含21個胺基酸且具有特殊套索結構的多肽抗生素，藉由阻止RNA聚合酶反應抑制葛蘭氏陰性菌生長，然而因為其複雜且獨特的結構，MccJ25並不容易藉由化學合成的方式製造出來，因此，我們利用改變胺基酸的序列並對支鏈進行不同的修飾，來合成與MccJ25結構類似的多肽及其片段，並分別測試它們對的RNA聚合酶的抑制效果，試圖找出MccJ25中哪一部分對於其生物活性有較大的重要性。仿MccJ25的胜肽合成法也能在生物測試上提供了相當大的靈活性，我們可以利用固相合成的方式輕易地改變套索胜肽的胺基酸序列，或是在序列中插入以及減少胺基酸數量，並測試胺基酸的改變對於胜肽對細胞膜之穿透性或抑菌性的影響，藉此來了解套索胜肽在生物體中運作的機制。	zh_TW
dc.description.abstract	Lasso peptides are unique cyclic molecules produced by bacteria and other microorganisms. They function as natural antibiotics in nature and can be used in research for developing novel peptide-based drugs or as drug carriers. The complex biosynthesis process and antibacterial mechanisms of lasso peptides are key areas of current research. However, natural lasso peptides face significant limitations in terms of collection and purification. My thesis focuses on Microcin J25 (MccJ25) as the primary subject of study, aiming to develop a chemically synthesized mimic of the lasso peptide structure. This approach seeks to establish a foundation for future research on lasso peptides using these synthetic peptide molecules. MccJ25 is a peptide containing 21 amino acids with a unique lasso structure. It acts as an antibiotic against Gram-negative bacteria by inhibiting RNA polymerase activity. However, chemical synthesis is very challenging due to its complex structure. Therefore, we synthesized mimics and fragments that are structurally similar to MccJ25 by changing the sequence of amino acids and modifying the side chains. Bioassays were performed to determine which parts of the MccJ25 structure are most important for its biological activity. The synthesis method for mimicking MccJ25 peptides also offers considerable flexibility in biological testing. By employing solid-phase synthesis, we can easily alter the amino acid sequence of lasso peptides, insert or remove amino acids within the sequence, and assess how these changes affect the peptide's cell membrane permeability or antibacterial activity. This approach allows us to gain insights into the mechanisms by which lasso peptides operate within biological systems.	en
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dc.description.tableofcontents	謝誌 i 中文摘要 ii Abstract iii Content v List of Figures vii List of Tables viii List of Schemes ix Abbreviations x Chapter 1 Introduction 1 1.1 Supramolecular structures in nature 1 1.2 Lasso peptides 2 1.3 Microcin J25 (MccJ25) 4 1.3.1 Biosynthesis 5 1.3.2 Antibacterial and RNAP inhibition activity with E. coli 6 1.4 The aim of this study 8 Chapter 2 Synthesis of Microcin J25 mimics 9 2.1 Microcin J25 mimic design 9 2.2 Synthesis of MccJ25 fragments 11 2.3 Synthesis of the H mimic 23 Chapter 3 Biological activity of MccJ25 mimics 27 3.1 Inhibition zoom and MIC test 27 3.2 RNAP inhibition test 29 Chapter 4 Experimental Materials and Methods 31 4.1 Synthesis of Microcin J25 mimics 31 4.1.1 Synthesis of the tail 32 4.1.2 Synthesis of the hairpin 33 4.1.3 Synthesis of the loop 34 4.1.4 Synthesis of the hairpin-tail 36 4.1.5 Synthesis of the loop-tail 37 4.1.6 Synthesis of the hairpin-loop 40 4.1.7 Synthesis of the H mimic 42 4.2 Biological test 45 4.2.1 Inhibition zone and MIC test 45 4.2.2 RNAP inhibition test 46 Chapter 5 Conclusion 49 Reference 50 Appendix 55	-
dc.language.iso	en	-
dc.subject	套索胜肽	zh_TW
dc.subject	Microcin J25	zh_TW
dc.subject	固相胜肽合成法	zh_TW
dc.subject	仿生結構	zh_TW
dc.subject	Microcin J25	en
dc.subject	SPPS	en
dc.subject	Lasso peptide	en
dc.subject	Biomimetic structures	en
dc.title	仿Microcin J25結構的多肽合成及其抗菌性之研究	zh_TW
dc.title	Synthesis and Antimicrobial Activity Study of Peptides Analogous to Microcin J25	en
dc.type	Thesis	-
dc.date.schoolyear	112-2	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	陳平;王書品	zh_TW
dc.contributor.oralexamcommittee	Ping Cheng;Shu-Ping Wang	en
dc.subject.keyword	套索胜肽,Microcin J25,固相胜肽合成法,仿生結構,	zh_TW
dc.subject.keyword	Lasso peptide,Microcin J25,SPPS,Biomimetic structures,	en
dc.relation.page	62	-
dc.identifier.doi	10.6342/NTU202401782	-
dc.rights.note	未授權	-
dc.date.accepted	2024-07-17	-
dc.contributor.author-college	理學院	-
dc.contributor.author-dept	化學系	-
顯示於系所單位：	化學系

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