Difference between revisions of "User talk:Nirschl Lisa"
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::::::Rodriguez-Hernández, A., Staňková, P., González, R., Rosa, Á J., Álamo-Martinez, J. M., Marin-Gómez, L. M., Sobotka, O., Kučera, O., Padilli, F.J., Červinková, Z., Muntané, J. (2018). The alteration of mitochondrial function is associated with the induction of endoplasmic reticulum stress autophagy and apoptosis by Sorafenib in liver cancer cells. Free Radical Biology and Medicine, 120, 107. doi:10.1016/j.freeradbiomed.2018.04.353 | ::::::Rodriguez-Hernández, A., Staňková, P., González, R., Rosa, Á J., Álamo-Martinez, J. M., Marin-Gómez, L. M., Sobotka, O., Kučera, O., Padilli, F.J., Červinková, Z., Muntané, J. (2018). The alteration of mitochondrial function is associated with the induction of endoplasmic reticulum stress autophagy and apoptosis by Sorafenib in liver cancer cells. Free Radical Biology and Medicine, 120, 107. doi:10.1016/j.freeradbiomed.2018.04.353 | ||
::::* [https://www.nature.com/articles/pr2017250#acknowledgements| Oxygen consumption in platelets as an adjunct diagnostic method for pediatric mitochondrial disease] | ::::* [https://www.nature.com/articles/pr2017250#acknowledgements| Oxygen consumption in platelets as an adjunct diagnostic method for pediatric mitochondrial disease] | ||
::::* [https://www.ncbi.nlm.nih.gov/pubmed/?term=Biological+Implications+of+Differential+Expression+of+Mitochondrial-Shaping+Proteins+in+Parkinson%E2%80%99s+Disease| Biological Implications of Differential Expression of Mitochondrial-Shaping Proteins in Parkinson's Disease, 2017] | ::::* [https://www.ncbi.nlm.nih.gov/pubmed/?term=Biological+Implications+of+Differential+Expression+of+Mitochondrial-Shaping+Proteins+in+Parkinson%E2%80%99s+Disease| Biological Implications of Differential Expression of Mitochondrial-Shaping Proteins in Parkinson's Disease, 2017] | ||
::::::Rocha, S., Freitas, A., Guimaraes, S., Vitorino, R., Aroso, M., & Gomez-Lazaro, M. (2017). Biological Implications of Differential Expression of Mitochondrial-Shaping Proteins in Parkinson’s Disease. Antioxidants, 7(1). doi:10.3390/antiox7010001 | ::::::Rocha, S., Freitas, A., Guimaraes, S., Vitorino, R., Aroso, M., & Gomez-Lazaro, M. (2017). Biological Implications of Differential Expression of Mitochondrial-Shaping Proteins in Parkinson’s Disease. Antioxidants, 7(1). doi:10.3390/antiox7010001 | ||
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::::* [https://www.ncbi.nlm.nih.gov/pubmed/?term=Effects+of+Epigallocatechin+Gallate+on+Tert-Butyl+Hydroperoxide-Induced+Mitochondrial+Dysfunction+in+Rat+Liver+Mitochondria+and+Hepatocytes| Effects of Epigallocatechin Gallate on Tert-Butyl Hydroperoxide-Induced Mitochondrial Dysfunction in Rat Liver Mitochondria and Hepatocytes] | ::::* [https://www.ncbi.nlm.nih.gov/pubmed/?term=Effects+of+Epigallocatechin+Gallate+on+Tert-Butyl+Hydroperoxide-Induced+Mitochondrial+Dysfunction+in+Rat+Liver+Mitochondria+and+Hepatocytes| Effects of Epigallocatechin Gallate on Tert-Butyl Hydroperoxide-Induced Mitochondrial Dysfunction in Rat Liver Mitochondria and Hepatocytes] | ||
::::::Mezera, V., Endlicher, R., Kucera, O., Sobotka, O., Drahota, Z., & Cervinkova, Z. (2016). Effects of Epigallocatechin Gallate on Tert-Butyl Hydroperoxide-Induced Mitochondrial Dysfunction in Rat Liver Mitochondria and Hepatocytes. Oxidative Medicine and Cellular Longevity, 2016, 1-8. doi:10.1155/2016/7573131 | ::::::Mezera, V., Endlicher, R., Kucera, O., Sobotka, O., Drahota, Z., & Cervinkova, Z. (2016). Effects of Epigallocatechin Gallate on Tert-Butyl Hydroperoxide-Induced Mitochondrial Dysfunction in Rat Liver Mitochondria and Hepatocytes. Oxidative Medicine and Cellular Longevity, 2016, 1-8. doi:10.1155/2016/7573131 | ||
Publications found/ added link: | |||
::::::Westerlund, E., Marelsson, S. E., Ehinger, J. K., Sjövall, F., Morota, S., Frostner, E. Å, Oldfors, A., Darin, N., Lundgren, J., Hansson, M., Fellman, V., Elmér, E. (2017). Oxygen consumption in platelets as an adjunct diagnostic method for pediatric mitochondrial disease. Pediatric Research, 83(2), 455-465. doi:10.1038/pr.2017.250 |
Revision as of 11:59, 18 January 2019
MitoEAGLE Disseminations
Publications
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- 1995-2018
- Rodriguez-Hernández, A., Staňková, P., González, R., Rosa, Á J., Álamo-Martinez, J. M., Marin-Gómez, L. M., Sobotka, O., Kučera, O., Padilli, F.J., Červinková, Z., Muntané, J. (2018). The alteration of mitochondrial function is associated with the induction of endoplasmic reticulum stress autophagy and apoptosis by Sorafenib in liver cancer cells. Free Radical Biology and Medicine, 120, 107. doi:10.1016/j.freeradbiomed.2018.04.353
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- Rocha, S., Freitas, A., Guimaraes, S., Vitorino, R., Aroso, M., & Gomez-Lazaro, M. (2017). Biological Implications of Differential Expression of Mitochondrial-Shaping Proteins in Parkinson’s Disease. Antioxidants, 7(1). doi:10.3390/antiox7010001
- Lemieux, H., Blier, P. U., & Gnaiger, E. (2017). Remodeling pathway control of mitochondrial respiratory capacity by temperature in mouse heart: Electron flow through the Q-junction in permeabilized fibers. Scientific Reports, 7(1). doi:10.1038/s41598-017-02789-8
- Lemieux, H., Subarsky, P., Doblander, C., Wurm, M., Troppmair, J., & Gnaiger, E. (2017). Impairment of mitochondrial respiratory function as an early biomarker of apoptosis induced by growth factor removal. doi:10.1101/151480
- Kučera, O., Endlicher, R., Rychtrmoc, D., Lotková, H., Sobotka, O., & Červinková, Z. (2016). Acetaminophen toxicity in rat and mouse hepatocytes in vitro. Drug and Chemical Toxicology, 40(4), 448-456. doi:10.1080/01480545.2016.1255953
- Mezera, V., Endlicher, R., Kucera, O., Sobotka, O., Drahota, Z., & Cervinkova, Z. (2016). Effects of Epigallocatechin Gallate on Tert-Butyl Hydroperoxide-Induced Mitochondrial Dysfunction in Rat Liver Mitochondria and Hepatocytes. Oxidative Medicine and Cellular Longevity, 2016, 1-8. doi:10.1155/2016/7573131
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Publications found/ added link:
- Westerlund, E., Marelsson, S. E., Ehinger, J. K., Sjövall, F., Morota, S., Frostner, E. Å, Oldfors, A., Darin, N., Lundgren, J., Hansson, M., Fellman, V., Elmér, E. (2017). Oxygen consumption in platelets as an adjunct diagnostic method for pediatric mitochondrial disease. Pediatric Research, 83(2), 455-465. doi:10.1038/pr.2017.250