Maša Ždralević

dr Maša Ždralević

saradnik u nastavi dr | Medicinski fakultet

Dr Maša Ždralević rođena je 07.08.1985. godine u Nikšiću, gdje je završila osnovnu i srednju školu, kao učenik generacije u osnovnoj i dobitnik diplome « Luča » u srednjoj školi. Osnovne četvorogodišnje akademske studije na Prirodno-matematičkom fakultetu, Odsjeku za Biologiju, Univerziteta Crne Gore u Podgorici završila je u aprilu 2008. godine sa srednjom ocjenom 9,81/10. Dobitnik je nagrade Prirodno-matematičkog fakulteta za najboljeg studenta Odsjeka za Biologiju. U toku studija bila je korisnik stipendije...

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Izabrane publikacije

Godina Kategorija Autori Naslov Izvor
2020SCI, SCIE, SSCI, A&HCI
Elizabeth Mazzio, Ramesh Badisa, Nzinga Mack, Shamir Cassim, Masa Zdralevic, Jacques Pouyssegur, Karam F A Soliman Whole-transcriptome Analysis of Fully Viable Energy Efficient Glycolytic-null Cancer Cells Established by Double Genetic Knockout of Lactate Dehydrogenase A/B or Glucose-6-Phosphate IsomeraseCancer Genomics Proteomics
2020SCI, SCIE, SSCI, A&HCI
Shamir Cassim, Milica Vučetić, Maša Ždralević and Jacques Pouyssegur Warburg and Beyond: The Power of Mitochondrial Metabolism to Collaborate or Replace Fermentative Glycolysis in Cancer Cancers
2019SCOPUS
Pouysségur J, Ždralević MReply to Beltinger: Double genetic disruption of lactate dehydrogenases A and B is required to ablate the J Biol Chem
2018SCI, SCIE, SSCI, A&HCI
Ždralević M, Brand A, Di Ianni L, Dettmer K, Reinders J, Singer K, Peter K, Schnell A, Bruss C, Decking SM, Koehl G, Felipe-Abrio B, Durivault J, Bayer P, Evangelista M, O'Brien T, Oefner PJ, Renner K, Pouysségur J, Kreutz MDouble genetic disruption of lactate dehydrogenase A and B is required to ablate the 'Warburg effect' restricting tumor growth to oxidative metabolismJournal of Biochemistry
2018SCOPUS
Ždralević M, Vučetić M, Daher B, Marchiq I, Parks SK, Pouysségur JDisrupting the 'Warburg effect' re-routes cancer cells to OXPHOS offering a vulnerability point via 'ferroptosis'-induced cell deathAdv Biol Regul
2017SCI, SCIE, SSCI, A&HCI
Ždralević M, Marchiq I, de Padua MMC, Parks SK, Pouysségur JMetabolic Plasiticy in Cancers-Distinct Role of Glycolytic Enzymes GPI, LDHs or Membrane Transporters MCTsFrontiers in Oncology
2017SCOPUS
de Padua MC, Delodi G, Vučetić M, Durivault J, Vial V, Bayer P, Noleto GR, Mazure NM, Ždralević M, Pouysségur JDisrupting glucose-6-phosphate isomerase fully suppresses the "Warburg effect" and activates OXPHOS with minimal impact on tumor growth except in hypoxiaOncotarget
2016SCOPUS
Luna Laera, Nicoletta Guaragnella, Maša Ždralević, Domenico Marzulli, Zhengchang Liu, Sergio Giannattasio The Transcription Factors ADR1 or CAT8 Are Required for RTG Pathway Activation and Evasion From Yeast Acetic Acid-Induced Programmed Cell Death in RaffinoseMicrobial Cell
2015SCI, SCIE, SSCI, A&HCI
Longo V, Ždralević M, Guaragnella N, Giannattasio S, Zolla L, Timperio AMProteome and metabolome profiling of wild-type and YCA1-knock-out yeast cells during acetic acid-induced programmed cell deathJournal of Proteomics
2015SCOPUS
Ždralević M, Longo V, Guaragnella N, Giannattasio S, Timperio AM, Zolla LDifferential proteome-metabolome profiling of YCA1-knock-out and wild type cells reveals novel metabolic pathways and cellular processes dependent on the yeast metacaspaseMolecular BioSystems
2015SCOPUS
Ždralević M, Guaragnella N, Giannattasio SYeast as a tool to study mitochondrial retrograde pathway en route to cell stress responseMethods in Molecular Biology
2013SCI, SCIE, SSCI, A&HCI
Guaragnella N, Ždralević M, Lattanzio P, Marzulli D, Pracheil T, Liu Z, Passarella S, Marra E, Giannattasio SYeast growth in raffinose results in resistance to acetic-acid induced programmed cell death mostly due to the activation of the mitochondrial retrograde pathwayBiochimica et Biophysica Acta - Molecular Cell Research
2013SCI, SCIE, SSCI, A&HCI
Giannattasio S, Guaragnella N, Zdralević M, Marra EMolecular mechanisms of Saccharomyces cerevisiae stress adaptation and programmed cell death in response to acetic acidFrontiers in Microbiology
2012SCI, SCIE, SSCI, A&HCI
Antonacci L, Guaragnella N, Ždralevic M, Passarella S, Marra E, Giannattasio SThe N-acetylcysteine-insensitive acetic acid-induced yeast programmed cell death occurs without macroautophagyCurrent Pharmaceutical Biotechnology
2012SCI, SCIE, SSCI, A&HCI
Guaragnella N, Zdralević M, Antonacci L, Passarella S, Marra E, Giannattasio SThe role of mitochondria in yeast programmed cell deathFrontiers in Oncology
2012SCOPUS
Zdralević M, Guaragnella N, Antonacci L, Marra E, Giannattasio SYeast as a tool to study signaling pathways in mitochondrial stress response and cytoprotectionThe Scientific World Journal

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