[HTML] springer.com

[HTML][HTML] Decreased poly (ADP-ribose) polymerase 1 expression attenuates glucose oxidase-induced damage in rat cochlear marginal strial cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang, X Zhao… - Molecular …, 2016 - Springer
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …
被引用次数:15 相关文章
[PDF] core.ac.uk

[PDF][PDF] Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang, X Zhao, Y Sun… - Mol Neurobiol, 2016 - core.ac.uk
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …
[PDF] cyberleninka.org

[PDF][PDF] Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang, X Zhao, Y Sun… - 2015 - cyberleninka.org
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …
[PDF] researchgate.net

[PDF][PDF] Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang, X Zhao… - Mol …, 2016 - researchgate.net
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …

Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang… - Molecular …, 2016 - search.proquest.com
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …

Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo… - Molecular …, 2016 - pubmed.ncbi.nlm.nih.gov
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …

Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang, X Zhao… - Molecular …, 2015 - infona.pl
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …

Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells.

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang… - Molecular …, 2015 - europepmc.org
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …
[HTML] nih.gov

[HTML][HTML] Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang… - Molecular …, 2016 - ncbi.nlm.nih.gov
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …

Decreased Poly (ADP-Ribose) Polymerase 1 Expression Attenuates Glucose Oxidase-Induced Damage in Rat Cochlear Marginal Strial Cells.

Y Zhang, Y Yang, Z Xie, W Zuo, H Jiang… - Molecular …, 2015 - europepmc.org
Oxidative damage to the inner ear is responsible for several types of sensorineural
deafness. Cochlear stria marginal cells (MCs) are thought to be vulnerable to such oxidative …