Found 24 results
Author [ Keyword(Desc)] Title Type Year
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Antitubercular Agents
Qin L, Huang C-H, Xu D, Xie L-N, Shao J, Mao L, Kalyanaraman B, Zhu B-Z.  2019.  Molecular mechanism for the activation of the anti-tuberculosis drug isoniazid by Mn(III): First detection and unequivocal identification of the critical N-centered isoniazidyl radical and its exact location.. Free Radic Biol Med. 143:232-239.
Cell Nucleus
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Chemistry, Physical
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Chlorophenols
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Coordination Complexes
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
DNA
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Electron Spin Resonance Spectroscopy
Qin L, Huang C-H, Xu D, Xie L-N, Shao J, Mao L, Kalyanaraman B, Zhu B-Z.  2019.  Molecular mechanism for the activation of the anti-tuberculosis drug isoniazid by Mn(III): First detection and unequivocal identification of the critical N-centered isoniazidyl radical and its exact location.. Free Radic Biol Med. 143:232-239.
Free Radicals
Qin L, Huang C-H, Xu D, Xie L-N, Shao J, Mao L, Kalyanaraman B, Zhu B-Z.  2019.  Molecular mechanism for the activation of the anti-tuberculosis drug isoniazid by Mn(III): First detection and unequivocal identification of the critical N-centered isoniazidyl radical and its exact location.. Free Radic Biol Med. 143:232-239.
Gene Transfer Techniques
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
HeLa Cells
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Humans
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Hydrophobic and Hydrophilic Interactions
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Ions
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Isoniazid
Qin L, Huang C-H, Xu D, Xie L-N, Shao J, Mao L, Kalyanaraman B, Zhu B-Z.  2019.  Molecular mechanism for the activation of the anti-tuberculosis drug isoniazid by Mn(III): First detection and unequivocal identification of the critical N-centered isoniazidyl radical and its exact location.. Free Radic Biol Med. 143:232-239.
Manganese
Qin L, Huang C-H, Xu D, Xie L-N, Shao J, Mao L, Kalyanaraman B, Zhu B-Z.  2019.  Molecular mechanism for the activation of the anti-tuberculosis drug isoniazid by Mn(III): First detection and unequivocal identification of the critical N-centered isoniazidyl radical and its exact location.. Free Radic Biol Med. 143:232-239.
Molecular Structure
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Polymers
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Pyridines
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.
Ruthenium
Chao X-J, Tang M, Huang R, Huang C-H, Shao J, Yan Z-Y, Zhu B-Z.  2019.  Targeted live-cell nuclear delivery of the DNA 'light-switching' Ru(II) complex via ion-pairing with chlorophenolate counter-anions: the critical role of binding stability and lipophilicity of the ion-pairing complexes.. Nucleic Acids Res. 47(20):10520-10528.
Huang R, Tang M, Huang C-H, Chao X-J, Yan Z-Y, Shao J, Zhu B-Z.  2019.  What Are the Major Physicochemical Factors in Determining the Preferential Nuclear Uptake of the DNA "Light-Switching" Ru(II)-Polypyridyl Complex in Live Cells via Ion-Pairing with Chlorophenolate Counter-Anions? J Phys Chem Lett. 10(14):4123-4128.