Cytosine Derivatives Form Hemiprotonated Dimers in Solution and the Gas Phase-Reference-Cited by-同舟云学术

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Cytosine Derivatives Form Hemiprotonated Dimers in Solution and the Gas Phase

Published:2012-05-09 Issue:10 Volume:14 Page:2560-2563
ISSN:1523-7060
Container-title:Organic Letters
language:en
Short-container-title:Org. Lett.

Author:

Moehlig Aaron R.¹,Djernes Katherine E.¹,Krishnan V. Mahesh¹,Hooley Richard J.¹

Affiliation:

1. Department of Chemistry, University of California, Riverside, California 92521, United States

Publisher

American Chemical Society (ACS)

Subject

Organic Chemistry,Physical and Theoretical Chemistry,Biochemistry

Link

https://pubs.acs.org/doi/pdf/10.1021/ol300861r

Reference23 articles.

1. Solution structure of the human telomeric repeat d[AG3(T2AG3)3] G-tetraplex

2. DNA tetraplex formation in the control region of c-myc

3. Direct evidence for a G-quadruplex in a promoter region and its targeting with a small molecule to repress c-MYC transcription

4. The Importance of Negative Superhelicity in Inducing the Formation of G-Quadruplex and i-Motif Structures in the c-Myc Promoter: Implications for Drug Targeting and Control of Gene Expression

5. A tetrameric DNA structure with protonated cytosine-cytosine base pairs

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1. Study of protonated dimers of cytosine, cytidine, and deoxycytidine using survival yield method and quantum mechanics calculations;Rapid Communications in Mass Spectrometry;2023-10-27

2. Influence of 5-Halogenation on the Base-Pairing Energies of Protonated Cytidine Nucleoside Analogue Base Pairs: Implications for the Stabilities of Synthetic i-Motif Structures for DNA Nanotechnology Applications;Journal of the American Society for Mass Spectrometry;2022-08-03

3. A theoretical study on the hydrogen bond and stability of cytosine and thymine dimers;Computational and Theoretical Chemistry;2018-01

4. Activity Enhancement of G-Quadruplex/Hemin DNAzyme by Flanking d(CCC);Chemistry - A European Journal;2016-01-27

5. Crystallographic and Computational Study on Cationic Triply Hydrogen-Bonded Nucleobases without Direct Anionic Stabilization;Crystal Growth & Design;2015-10-27

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