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name Hajnalka Laura Pálinkás
name of institution University of Szeged
doctoral school SzTE Doctoral School of Multidisciplinary Medical Scienses
thesis supervisor Beáta Vértessy G.
one supervisor or with co-supervisor individual
degree PhD
starting of doctoral studies 2014
date of final certificate (year,month) 2017/08
deadline to accomplish doctoral procedure(year,month) 2019/08

Gergely Rona, Ildiko Scheer, Kinga Nagy, Hajnalka L Palinkas, Gergely Tihanyi, Mate Borsos, Angela Bekesi, Vertessy BG: Detection of uracil within DNA using a sensitive labeling method for in vitro and cellular applications, NUCLEIC ACIDS RESEARCH 44: (3) Paper e28. 13 p.
type of document: Journal paper/Article
language: English

Judit E Szabó, Veronika Németh, Veronika Papp-Kádár, Kinga Nyíri, Ibolya Leveles, Ábris Á Bendes, Imre Zagyva, Gergely Róna, Hajnalka Pálinkás, Balázs Besztercei, Olivér Ozohanics, Károly Vékey, Károly Liliom, Judit Tóth, Beáta G Vértessy: Highly potent dUTPase inhibition by a bacterial repressor protein reveals a novel mechanism for gene expression control, NUCLEIC ACIDS RESEARCH 42: (19) pp. 11912-11920.
type of document: Journal paper/Article
number of independent citations: 5
language: English

Róna Gergely, Pálinkás Hajnalka, Horváth András, Borsos Máté, Scheer Ildikó, Benedek András, Zagyva Imre, Nagy Gergely, Vertessy Beata G: NLS copy number variation governs efficiency of nuclear import: case study on dUTPases, FEBS JOURNAL 281: (24) pp. 5463-5478.
type of document: Journal paper/Article
language: English
Number of independent citations to these publications:
Scientometric data
list of publications and citations
number of scientific publications that meet accreditation criteria:
number of scientific publications:
monographs and professional books:
monographs/books in which chapters/sections were contributed:
number of independent citations to scientific publications and creative works:
research area I am currently working on a new project aiming to clarify the mechanism of cell death induced by the lack of dUTPase (thyhmine-less cell death is a widely-used chemotherapeutic strategy).
research field in which current research is conducted biology
bio, environmental and chemical engineering
thesis topic announcement Újszerű gyógyszer-célpont fehérjék karakterizálása a malária elleni küzdelemben

All rights reserved © 2007, Hungarian Doctoral Council. Doctoral Council registration number at commissioner for data protection: 02003/0001. Program version: 2.2358 ( 2017. X. 31. )