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1	Fluorescent Nucleobases for Studying DNA Structure, Protein Interaction and Metal Binding / 蛍光性核酸類縁体の合成と応用：DNA-タンパク質複合体の構造及びメタルセンシングに関する研究 Han, Ji Hoon 25 March 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第21599号 / 理博第4506号 / 新制\|\|理\|\|1647(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授杉山弘, 教授秋山芳展, 准教授竹田一旗 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM Fluorescent nucleobase Föster resonance energy transfer Nucleosome B-Z transition Metal sensor 400
2	Investigation of FRET System and Fluorine-Containing Nucleic Acids by Artificial Nucleobases / 人工核酸塩基を活用したFRETシステムと含フッ素核酸の研究 Hirashima, Shingo 23 March 2023 (has links) 京都大学 / 新制・課程博士 / 博士(理学) / 甲第24442号 / 理博第4941号 / 新制\|\|理\|\|1706(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)准教授板東俊和, 教授深井周也, 教授秋山芳展 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM Fluorescent nucleic acid Fluorescent nucleobase FRET Nucleosome Fluorinated nucleobase 2-Fluoroadenine 400
3	Excited state electronic properties of DNA photolyase and fluorescent nucleobase analogues (FBA): An experimental and theoretical study Kodali, Goutham January 2009 (has links) An overexposure to ultraviolet radiation can cause sunburn and some forms of skin cancer. UV light causes many different photoproducts. The cys-syn cyclobutylpyrimidine dimer (CPD) is the major photoproduct upon UV irradiation. DNA photolyase (PL) is a light-driven flavoprotein that repairs CPD in UV-damaged DNA. This repair process occurs in the presence of blue light through ultrafast photo-induced electron transfer from reduced anionic flavin adenine dinucleotide (FADH¯) to the CPD by an unknown mechanism. Since the excited state flavin transfers an electron to repair the damaged DNA, it is of utmost importance that we understand better the excited state properties of the flavins. In this work the excited state electronic properties of all three-oxidation states of flavin: oxidized form (FAD), semiquinone radical form (FADH•) and reduced anionic form (FADH¯) were studied using Stark spectroscopy and complimented by time dependent density functional theory (TD-DFT) calculations. These results are presented and discussed in Chapter 3 and 4. The difference dipole moments (Δμ) and the difference polarizabilities (Tr(Δα01)) were experimentally determined for first two lowest optically accessible states. The results are discussed in the context of photoreduction of flavins in wider class of flavoprotein blue light photoreceptors and catalytic electron transfer process in DNA repair. In the later part of this thesis (Chapters 5 and 6) the excited state electronic properties of monomeric 2-Aminopurine (2AP), 8-Vinyladenine 8VA were presented. These 8VA, 2AP are examples of fluorescent nucleotide analogues of adenine that can be incorporated into DNA with little perturbation of the normal double-helical structure. The fluorescence of these analogues is quenched when incorporated in double-stranded DNA (dsDNA). The basic mechanism underlying the fluorescence quenching by base stacking of 2AP and 8VA are is not well understood, and thus exploring the excited state electronic structures of these bases is an important first step. We have explored the excited state properties of 2AP and 8VA in frozen LiCl and ethanol solutions using Stark spectroscopy. High-level ab initio and TD-DFT calculations were performed to compliment the experimental results. / Chemistry Chemistry, Physical Chemistry, Biochemistry Chemistry, General Dna Dna Photolyase Fba Flavins Fluorescent Nucleobase Analogues Stark Spectroscopy
4	Study of photoinduced electron transfer in fluorescent nucleobase analogues (FBAs) and DNA photolyase Narayanan, Madhavan January 2011 (has links) Photoinduced electron transfer (PET) plays a crucial role in a wide array of biological pathways. These electron transfer reactions happen from or to the excited state of a chromophore upon absorption of light. Hence understanding the properties of excited states is necessary in elucidating the details of such pathways. The work presented in this thesis deals with PET in two systems: Fluorescent Nucleobase Analogues (FBAs) and DNA photolyase. The introductory chapter (Chapter 1) presents some background information about the two systems and sets up the stage for the reasoning behind the problems addressed in this thesis. FBAs are fluorescent analogues of naturally occurring, weakly fluorescent native nucleic acid bases. When incorporated into single stranded (ss) or double stranded (ds) DNA, the FBA fluorescence is significantly quenched. PET has been implicated to be the cause for the observed quenching. Here we have presented our attempt to correlate the quenching behavior of free FBA: nucleic acid monophosphate (NMP) pairs with the free energies associated with excited state electron transfer delta GET. Based on the delta GET values, we have tried to assign the direction of electron transfer. The quenching behavior of the FBA:NMP pairs were studied through Stern-Volmer (SV) quenching and time-resolved fluorescence studies. The above described analysis has been applied on FBAs: 4-amino-6-methyl-8-(2'-deoxy-beta-D-ribofuranosyl)-7(8H)-pteridone (6MAP), 4-amino - 2, 6 - dimethyl - 8 - (2'-deoxy-beta-d-ribofuranosyl) -7(8H) - pteridone (DMAP), 3-methyl-8-(2'-deoxy-beta-D-ribofuranosyl) isoxanthopterin (3MI) and 6-Methyl-8-(2'-deoxy-β-D-ribofuranosyl) isoxanthopterin (6MI) (Chapter 3), 2-Aminopurine (2AP) (Chapter 4), 8-Vinyl Adenosine (8VA) (Chapter 5). The final part of this thesis (Chapter 6) is on understanding the mechanistic details of a DNA repair process that is due to photoinduced electron transfer in DNA photolyase, a flavoprotein. Before the electron reaches the damaged site in the DNA, the initial electron acceptor in this repair process has been speculated to be the adenine of the flavin adenine dinucleotide (FAD). We have tested this hypothesis by measuring and comparing the various kinetic parameters associated with this process by reconstituting into apo-photolyase the natural cofactor of photolyase (FAD) and an adenine modified flavin (Etheno FAD, epsilon FAD). / Chemistry Chemistry Chemistry, Physical Biophysics Dna Photolyase Dna Repair Electron Transfer Fbas Fluorescent Nucleobase Analogs Rehm-weller Equation
5	Caractérisation et ciblage de la reconnaissance dynamique de Trp37-G lors de l’interaction de la protéine NCp7 de HIV-1 avec des acides nucléiques / Characterization and targeting the dynamic recognition of Trp37-G during the interaction of NCp7 protein of HIV-1 with nucleic acids Sharma, Rajhans 10 April 2018 (has links) La protéine de la nucléocapside (NC) possède un rôle important dans le cycle de viral du VIH-1 grâce à sa propriété chaperone des acides nucléiques (NA) qui implique la reconnaissance de son résidu Trp37 avec un résidu Guanine de l'acide nucléique cible. Nous avons caractérisé cette reconnaissance dynamique Trp37-G en utilisant des séquences impliquées dans la transcription inverse et l'assemblage de l'ARN génomique. En utilisant les analogues nucléosidiques fluorescents thienoguanosine (thG) et 2-thiényl-3-hydroxychromone (3HCnt), nous avons déterminé l'ensemble des constantes de vitesse cinétiques du mécanisme d’hybridation de la séquence (-)PBS avec (+)PBS en absence et en présence de NC. Nous avons également étudié le rôle du NA sucre dans les complexes NC-ARN et NC-ADN, puisque la protéine NC se lie avec la polarité opposée aux séquences d'ADN et d'ARN. Nous avons confirmé que l'interaction du résidu Trp37 avec les amino-acides de type guanines était critique lors de la formation des complexes avec les deux mutants d’ARN et d’ADN de PBS et de SL3. Enfin, nous avons réalisé un criblage de potentiels inhibiteurs de la protéine NC et examiné les touches identifiées à partir d’un test basé sur la fluorescence de la sonde thG. / Nucleocapsid protein (NC) plays crucial roles in HIV-1 life cycle through its nucleic acid (NA) chaperoning property that involves recognition of it’s Trp37 residue with a Guanine residue of the target nucleic acid sequences. Herein, we characterized this dynamic Trp37-G recognition with sequences involved in reverse transcription and genomic RNA packaging. Using the fluorescent thienoguanosine (thG) and 2-thienyl-3-hydroxychromone (3HCnt) nucleoside analogues, we determined the whole set of kinetic rate constants for annealing of (-)PBS with (+)PBS in the absence and presence of NC. We also investigated the role of NA sugar in NC-RNA and NC-DNA complexes, as NC binds with opposite polarity to DNA and RNA sequences. We confirmed that the interaction of the Trp37 residue with guanines was critical for the formation of complexes with both RNA and DNA variants of PBS and SL3. Finally, we performed screening of NC inhibitors and tested the selected hits on a thG-based assay. VIH-1 Nucléocapside protéine Analogues nucléosidiques fluorescents Thiéoguanosine Primer binding site SL3 Acides nucléiques dynamique Fluorescence spectroscopie Protéine-acides nucléiques interaction HIV-1 Nucleocapsid protein Fluorescent nucleobase analogues Thieoguanosine Primer binding site SL3 Nucleic acid dynamics Fluorescence spectroscopy Protein-nucleic acids interaction 579.2 616.91

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