Válogatott publikációk


1. Nagy LI, Fehér LZ, Szebeni GJ, Gyuris M, Sipos P, Alföldi R, Ózsvári B, Hackler L Jr, Balázs A, Batár P, Kanizsai I, Puskás LG. Curcumin and its analogue induce apoptosis in leukemia cells and have additive effects with bortezomib in cellular and xenograft models. Biomed Res Int. 2015;2015:968981.

2. Varga ZV, Giricz Z, Bencsik P, Madonna R, Gyongyosi M, Schulz R, Mayr M, Thum T, Puskas LG, Ferdinandy P. Functional Genomics of Cardioprotection by Ischemic Conditioning and the Influence of Comorbid Conditions: Implications in Target Identification. Curr Drug Targets. 2015;16:904-11.

3. Molnár G, Faragó N, Kocsis ÁK, Rózsa M, Lovas S, Boldog E, Báldi R, Csajbók É, Gardi J, Puskás LG, Tamás G. GABAergic neurogliaform cells represent local sources of insulin in the cerebral cortex. J Neurosci. 2014;34:1133-7.

4. Antal O, Hackler L Jr, Shen J, Mán I, Hideghéty K, Kitajka K, Puskás LG. Combination of unsaturated fatty acids and ionizing radiation on human glioma cells: cellular, biochemical and gene expression analysis. Lipids Health Dis. 2014;13:142.

5. Faragó N, Kocsis ÁK, Lovas S, Molnár G, Boldog E, Rózsa M, Szemenyei V, Vámos E, Nagy LI, Tamás G, Puskás LG. Digital PCR to determine the number of transcripts from single neurons after patch-clamp recording. Biotechniques. 2013;54:327-36.

6. Varga ZV, Zvara A, Faragó N, Kocsis GF, Pipicz M, Gáspár R, Bencsik P, Görbe A, Csonka C, Puskás LG, Thum T, Csont T, Ferdinandy P. MicroRNAs associated with ischemia-reperfusion injury and cardioprotection by ischemic pre- and postconditioning: protectomiRs. Am J Physiol Heart Circ Physiol. 2014;307:H216-27.

7. Fabian G, Farago N, Feher LZ, Nagy LI, Kulin S, Kitajka K, Bito T, Tubak V, Katona RL, Tiszlavicz L, Puskas LG. High-density real-time PCR-based in vivo toxicogenomic screen to predict organ-specific toxicity. Int J Mol Sci. 2011;12:6116-34.

8. Faragó N, Fehér LZ, Kitajka K, Das UN, Puskás LG. MicroRNA profile of polyunsaturated fatty acid treated glioma cells reveal apoptosis-specific expression changes. Lipids Health Dis. 2011;10:173.

9. Kitajka, K., Puskas, L.G., Zvara, A., Hackler Jr., L., Barceló-Coblijn, G., Yeo, Y.K. and Farkas, T. The role of n-3 polyunsaturated fatty acids in brain: Modulation of rat brain gene expression by dietary n-3 fatty acids. Proc. Natl. Acad. Sci. USA 2002; 99:2619-2624.

10. Puskas, L.G., Zvara, A., Hackler Jr., L., Micsik, T. and Van Hummelen, P. Production of Bulk Amounts of Universal RNA for DNA-microarrays. Biotechniques 2002; 33:898-904.

11. Puskas, L.G., Kitajka, K., Nyakas, C. and Farkas, T. Short-term administration of omega-3 fatty acids results in elevated transthyretin transcription in old rat hippocampus. Proc. Natl. Acad. Sci. USA 2003; 100:1580-1585.

12. Kitajka, K., Sinclair, A.J., Weisinger, R.S., Weisinger, H.S., Mathai, M., Jayasooriya, A.P., Halver, J.E. and Puskas, L.G. Effects of dietary omega-3 polyunsaturated fatty acids on brain gene expression. Proc. Natl. Acad. Sci. USA 2004; 101:10931-10936.

13. Jayasooriya, A.P., Ackland, M.L., Mathai, M.L., Sinclair, A.J., Weisinger, H.S., Weisinger, R.S., Halver, J.E., Kitajka, K. and Puskas, L.G. Perinatal omega-3 polyunsaturated fatty acid supply modifies the brain zinc homeostasis during adulthood. Proc. Natl. Acad. Sci. USA 2005; 102:7133-7138.

14. Puskas, L.G., Juhasz, F., Zarva, A., Hackler, L. Jr. and Farid, N.R. Gene profiling identifies genes specific for well-differentiated epithelial thyroid tumors. Cell Mol. Biol. (Noisy-le-grand) 2005; 51:177-186.

15. Puskás LG, Fehér LZ, Vizler C, Ayaydin F, Rásó E, Molnár E, Magyary I, Kanizsai I, Gyuris M, Madácsi R, Fábián G, Farkas K, Hegyi P, Baska F, Ozsvári B, Kitajka K. Polyunsaturated fatty acids synergize with lipid droplet binding thalidomide analogs to induce oxidative stress in cancer cells. Lipids Health Dis. 2010;9:56.