Johannes Boei
- Naam
- Dr.ing. J.J.W.A. Boei
- Telefoon
- +31 71 526 9624
- j.j.w.a.boei@lumc.nl
- Faculteit Geneeskunde
- Divisie 4
- Humane Genetica
- Drake, C.; Wehr, M.M.; Zobl, W.; Koschmann, J.; Lucca, D. de; Kuhne, B.A.; Hansen, T.; Knebel, J.; Ritter, D.; Boei, J.; Vrieling, H.; Bitsch, A. & Escher, S.E. (2023), Substantiate a read-across hypothesis by using transcriptome data-A case study on volatile diketones, Frontiers in Toxicology 5.
- Sampadi, B.; Vermeulen, S.; Misovic, B.; Boei, J.J.; Batth, T.S.; Chang, J.G.; Paulsen, M.T.; Magnuson, B.; Schimmel, J.; Kool, H.; Olie, C.S.; Everts, B.; Vertegaal, A.C.O.; Olsen, J.V.; Ljungman, M.; Jeggo, P.A.; Mullenders, L.H.F. & Vrieling, H. (2022), Divergent molecular and cellular responses to low and high-dose Ionizing radiation, Cells 11(23).
- Krebs, A.; Vugt-Lussenburg, B.M.A. van; Waldmann, T.; Albrecht, W.; Boei, J.; Braak, B. ter; Brajnik, M.; Braunbeck, T.; Brecklinghaus, T.; Busquet, F.; Dinnyes, A.; Dokler, J.; Dolde, X.; Exner, T.E.; Fisher, C.; Fluri, D.; Forsby, A.; Hengstler, J.G.; Holzer, A.K.; Janstova, Z.; Jennings, P.; Kisitu, J.; Kobolak, J.; Kumar, M.; Limonciel, A.; Lundqvist, J.; Mihalik, B.; Moritz, W.; Pallocca, G.; Ulloa, A.P.C.; Pastor, M.; Rovida, C.; Sarkans, U.; Schimming, J.P.; Schmidt, B.Z.; Stober, R.; Strassfeld, T.; Water, B. van de; Wilmes, A.; Burg, B. van der; Verfaillie, C.M.; Hellfeld, R. von; Vrieling, H.; Vrijenhoek, N.G. & Leist, M. (2020), The EU-ToxRisk method documentation, data processing and chemical testing pipeline for the regulatory use of new approach methods, Archives of Toxicology 94(7): 2435-2461.
- Boei, J.J.W.A.; Vermeulen, S.; Klein, B.; Hiemstra, P.S.; Verhoosel, R.M.; Jennen, D.G.J.; Lahoz, A.; Gmuender, H. & Vrieling, H. (2017), Xenobiotic metabolism in differentiated human bronchial epithelial cells, Archives of Toxicology 91(5): 2093-2105.
- Groot, S. de; Vreeswijk, M.P.G.; Welters, M.J.P.; Gravesteijn, G.; Boei, J.J.W.A.; Jochems, A.; Houtsma, D.; Putter, H.; Hoeven, J.J.M. van der; Nortier, J.W.R.; Pijl, H. & Kroep, J.R. (2015), The effects of short-term fasting on tolerance to (neo) adjuvant chemotherapy in HER2-negative breast cancer patients: a randomized pilot study, BMC Cancer 15.
- Bloch, K.M.; Yaqoob, N.; Evans, A.; Radford, R.; Jennings, P.; Boei, J.J.W.A.; McMorrow, T.; Slattery, C.; Ryan, M.P.; Gmuender, H.; Delft, J.H.M. van & Lock, E.A. (2012), Detection of genotoxic and non-genotoxic renal carcinogens in vitro in NRK-52E cells using a transcriptomics approach, Toxicology Research 1(3): 211-219.
- Temviriyanukul, P.; Meijers, M.; Hees-Stuivenberg, S. van; Boei, J.J.W.A.; Delbos, F.; Ohmori, H.; Wind, N. de & Jansen, J.G. (2012), Different Sets of Translesion Synthesis DNA Polymerases Protect From Genome Instability Induced by Distinct Food-Derived Genotoxins.
- Boei, J.J.W.A.; Vermeulen, S.; Skubakova, M.M.; Meijers, M.; Loenen, W.A.M.; Wolterbeek, R.; Mullenders, L.H.F.; Vrieling, H. & Giphart-Gassler, M. (2012), No Threshold for the Induction of Chromosomal Damage at Clinically Relevant Low Doses of X Rays, Radiation Research 177(5): 602-613.
- Temviriyanukul, P.; Meijers, M.; Hees-Stuivenberg, S. van; Boei, J.J.W.A.; Delbos, F.; Ohmori, H.; Wind, N. de & Jansen, J.G. (2012), Different sets of translesion synthesis DNA polymerases protect from genome instability induced by distinct food-derived genotoxins., Toxicological Sciences.
- Boei JJWA, Fomina J, Darroudi F, Nagelkerke NJD & Mullenders LHF (2006), Interphase chromosome positioning affects the spectrum of radiation-induced chromosomal aberrations, Radiation Research 166(2).
- Abdel-Halim HI, Mullenders LHF & Boei JJWA (2006), Pairing of heterochromatin in response to cellular stress, Experimental Cell Research 312(11).
- de Vries FAT, Zonneveld JBM, van Duijn-Goedhart A, Roodbergen M, Boei J, van Buul PPW, Essers J, van Steeg H, Van Zeeland AA, van Benthem J & Pastink A (2005), Inactivation of RAD52 aggravates RAD54 defects in mice but not in Schizosaccharomyces pombe, DNA Repair 4(10).
- Marcon F, Boei JJWA & Natarajan AT (2004), Human-hamster hybrid cells used as models to investigate species-specific factors modulating the efficiency of repair of UV-induced DNA damage, Cytogenetic and Genome Research 104(1-4).
- Abdel-Halim HI, Imam SA, Badr FM, Natarajan AT, Mullenders LHF & Boei JJWA (2004), Ionizing radiation-induced instant pairing of heterochromatin of homologous chromosomes in human cells, Cytogenetic and Genome Research 104(1-4).
- Natarajan A & Boei JJWA (2003), Formation of chromosome aberrations: insights from FISH, Mutation Research - Reviews 544(2-3).
- Boei JJWA, Vermeulen S, Moser J, Mullenders LHF & Natarajan AT (2002), Intrachanges as part of complex chromosome-type exchange aberrations, Mutation Research - Fundamental and Molecular Mechanisms of Mutagenesis 504(1-2).
- Van Sloun PPH, Varlet I, Sonneveld E, Boei JJWA, Romeijn RJ, Eeken JCJ & De Wind N (2002), Involvement of mouse Rev3 in tolerance of endogenous and exogenous DNA damage, Molecular and Cellular Biology 22(7).
- Boei JJWA, Vermeulen S, Mullenders LHF & Natarajan AT (2001), Impact of radiation quality on the spectrum of induced chromosome exchange aberrations, International Journal of Radiation Biology 77(8).
- Marcon F, Boei JJWA & Natarajan AT (2000), Recombination between homologous chromosomes does not play a dominant role in the formation of radiation-induced chromosomal aberrations, International Journal of Radiation Biology 76(10).
- Puerto S, Marcos R, Ramirez MJ, Creus A, Boei JJWA, Meijers M, Natarajan AT & Surralles J (2000), Induction, processing and persistence of radiation-induced chromosomal aberrations involving hamster euchromatin and heterochromatin, Mutation Research - Genetic Toxicology and Environmental Mutagenesis 469(2).
- Fomina J, Darroudi F, Boei JJWA & Natarajan AT (2000), Discrimination between complete and incomplete chromosome exchanges in X-irradiated human lymphocytes using FISH with pan-centromeric and chromosome specific DNA probes in combination with telomeric PNA probe.
- Boei JJWA, Vermeulen S & Natarajan AT (2000), Analysis of radiation-induced chromosomal aberrations using telomeric and centromeric PNA probes.