Stephane G M Rolland, Nadin Memar, Anton Gartner. (2024) Tardigrades: Trained to be hardy in the face of DNA damage. Current Biology. 2024 May 20;34(10):R504-R507. doi: 10.1016/j.cub.2024.04.030. Link to paper
Hwang, T., Sitko, L.K., Khoirunnisa, R., Navarro Aguad, F., Samuel, D.M., Park, H., Cheon, B., Mutsnaini, L., Lee, J., Takeda, S., Lee, S.*, Ivanov D.*, and Gartner, A*. (2024) Comprehensive whole genome sequencing reveals origins of mutational signatures associated with aging and temozolomide chemotherapy. Nucleic Acids Res. In revision. bioRxiv 2024.04.17.590003; DOI: 10.1101/2024.04.17.590003 Link to paper *Co-corresponding authors
Odiba AS, Ezechukwu CS, Liao G, Hong Y, Fang W, Jin C, Gartner A, Wang B. (2024) SMC-5/6 complex subunit NSE-1 plays a crucial role in meiosis and DNA repair in Caenorhabditis elegant. DNA Repair (Amst), 137:103669. Link to paper
Yang Y, Wang N, Liu G, Nan W, Wang B, Gartner A, Zhang H, Hong Y. (2024) COSA-1 mediated pro-crossover complex formation promotes meiotic crossing over in C. elegans. Nucleic Acids Res, gkae130. Link to paper
Saredi G, Carelli FN, Rolland SGM, Furlan G, Piquet S, Appert A, Sanchez-Pulido L, Price JL, Alcon P, Lampersberger L, Déclais AC, Ramakrishna NB, Toth R, Macartney T, Alabert C, Ponting CP, Polo SE, Miska EA, Gartner A, Ahringer J, Rouse J. (2024) The histone chaperone SPT2 regulates chromatin structure and function in Metazoa. Nat Struct Mol Biol, 31(3):523-535. Link to paper
Park SH, Kim N, Kang N, Ryu E, Lee EA, Ra JS, Gartner A, Kang S, Myung K, Lee KY. (2023) Short-range end resection requires ATAD5-mediated PCNA unloading for faithful homologous recombination. Nucleic Acids Res, 51(19):10519-10535. Link to paper
Odiba AS, Liao G, Ezechukwu CS, Zhang L, Hong Y, Fang W, Jin C, Gartner A, Wang B. (2023) Caenorhabditis elegans NSE3 homolog (MAGE-1) is involved in genome stability and acts in inter-sister recombination during meiosis. Genetics, 149. Link to paper
Yamaya K, Wang B, Memar N, Odiba AS, Woglar A, Gartner A, Villeneuve AM. (2023) Disparate roles for C. elegans DNA translocase paralogs RAD-54.L and RAD-54.B in meiotic prophase germ cells. Nucleic Acids Res, 638. Link to paper
Ivanov D, Hwang T, Sitko LK, Lee S, Gartner A. (2023) Experimental systems for the analysis of mutational signatures: no 'one-size-fits-all' solution. Biochem Soc Trans 51 (3): 1307-1317. Link to paper
Gartner A, Engebrecht J. (2022) DNA repair, recombination, and damage signaling. GENETICS, Vol. 220, No. 2. Link to paper
Kim T, Gartner A. (2021) Bub1 kinase in the regulation of mitosis. Animal Cells and Systems, 25 (1): 1-10. Link to paper
Meier B, Volkova NV, Hong Y, Bertolini S, González-Huici V, Petrova T, et al. (2021) Protection of the C. elegans germ cell genome depends on diverse DNA repair pathways during normal proliferation. PloS one, 16 (4): e0250291. Link to paper
Hong Y, Zhang H, Gartner A. (2021) The Last Chance Saloon. Frontiers in Cell and Developmental Biology, 9: 1249. Link to paper
Meier B, Volkova NV, Wang B, González-Huici V, Bertolini S, Campbell PJ, et al. (2021) C. elegans genome-wide analysis reveals DNA repair pathways that act cooperatively to preserve genome integrity upon ionizing radiation. PloS one, 16 (10): e0258269. Link to paper
Volkova, N. V., Meier, B., González-Huici, V., Bertolini, S., Gonzalez, S., Vöhringer, H., Abascal, F., Martincorena, I., Campbell, P. J., and Gartner, A., Gerstung M. (2020) Mutational signatures are jointly shaped by DNA damage and repair, Nature Communications 11, 1-15. Link to paper *Co-correspondence
Song, J., Freeman, A. D., Knebel, A., Gartner, A., and Lilley, D. M. (2020) Human ANKLE1 is a nuclease specific for branched DNA, Journal of molecular biology 432, 5825-5834. Link to paper *Co-correspondence
Meier, B., Volkova, N. V., Gerstung, M., and Gartner, A. (2020) Analysis of mutational signatures in C. elegans: Implications for cancer genome analysis, DNA repair 95, 102957. Link to paper
Lee, S. g., Kim, N., Kim, S. m., Park, I. B., Kim, H., Kim, S., Kim, B. g., Hwang, J. M., Baek, I. J., and Gartner, A., Park, J.H., Myung, K. (2020) Ewing sarcoma protein promotes dissociation of poly (ADP‐ribose) polymerase 1 from chromatin, EMBO reports 21, e48676. Link to paper
Bailly, A. P., Perrin, A., Serrano-Macia, M., Maghames, C., Leidecker, O., Trauchessec, H., Martinez-Chantar, M., Gartner, A., and Xirodimas, D. P. (2019) The balance between mono-and NEDD8-chains controlled by NEDP1 upon DNA damage is a regulatory module of the HSP70 ATPase activity, Cell reports 29, 212-224. e218. Link to paper
Gartner, A., Boag, P. R., and Blackwell, T. K. (2018) Germline survival and apoptosis, In WormBook: The Online Review of C. elegans Biology [Internet], WormBook. Link to paper
Offenburger, S.-L., Ho, X. Y., Tachie-Menson, T., Coakley, S., Hilliard, M. A., and Gartner, A. (2018) 6-OHDA-induced dopaminergic neurodegeneration in Caenorhabditis elegans is promoted by the engulfment pathway and inhibited by the transthyretin-related protein TTR-33, PLoS genetics 14, e1007125. Link to paper
Offenburger, S.-L., Jongsma, E., and Gartner, A. (2018) Mutations in Caenorhabditis elegans neuroligin-like glit-1, the apoptosis pathway and the calcium chaperone crt-1 increase dopaminergic neurodegeneration after 6-OHDA treatment, PLoS genetics 14, e1007106. Link to paper
Hong, Y., Velkova, M., Silva, N., Jagut, M., Scheidt, V., Labib, K., Jantsch, V., and Gartner, A. (2018) The conserved LEM-3/Ankle1 nuclease is involved in the combinatorial regulation of meiotic recombination repair and chromosome segregation in Caenorhabditis elegans, PLoS genetics 14, e1007453. Link to paper
Liu, Y., Freeman, A., Declais, A.-C., Gartner, A., and Lilley, D. M. (2018) Biochemical and structural properties of fungal holliday Junction-Resolving enzymes, In Methods in Enzymology, pp 543-568, Academic Press. Link to paper
Meier, B., Volkova, N. V., Hong, Y., Schofield, P., Campbell, P. J., Gerstung, M., and Gartner, A. (2018) Mutational signatures of DNA mismatch repair deficiency in C. elegans and human cancers, Genome research 28, 666-675. Link to paper
Offenburger, S.-L., and Gartner, A. (2018) 6-hydroxydopamine (6-OHDA) oxidative stress assay for observing dopaminergic neuron loss in Caenorhabditis elegans, Bio-protocol 8. Link to paper
Hong, Y., Sonneville, R., Wang, B., Scheidt, V., Meier, B., Woglar, A., Demetriou, S., Labib, K., Jantsch, V., and Gartner, A. (2018) LEM-3 is a midbody-tethered DNA nuclease that resolves chromatin bridges during late mitosis, Nature communications 9, 1-11. Link to paper
Offenburger, S.-L., Bensaddek, D., Murillo, A. B., Lamond, A. I., and Gartner, A. (2017) Comparative genetic, proteomic and phosphoproteomic analysis of C. elegans embryos with a focus on ham-1/STOX and pig-1/MELK in dopaminergic neuron development, Scientific reports 7, 1-17. Link to paper
Harvald, E. B., Sprenger, R. R., Dall, K. B., Ejsing, C. S., Nielsen, R., Mandrup, S., Murillo, A. B., Larance, M., Gartner, A., and Lamond, A. I. (2017) Multi-omics analyses of starvation responses reveal a central role for lipoprotein metabolism in acute starvation survival in C. elegans, Cell systems 5, 38-52. e34. Link to paper
González-Huici, V., Wang, B., and Gartner, A. (2017) A role for the nonsense-mediated mRNA decay pathway in maintaining genome stability in Caenorhabditis elegans, Genetics 206, 1853-1864. Link to paper
Sonneville, R., Moreno, S. P., Knebel, A., Johnson, C., Hastie, C. J., Gartner, A., Gambus, A., and Labib, K. (2017) CUL-2 LRR-1 and UBXN-3 drive replisome disassembly during DNA replication termination and mitosis, Nature cell biology 19, 468-479. Link to paper
Bertolini, S., Wang, B., Meier, B., Hong, Y., and Gartner, A. (2017) Caenorhabditis elegans BUB-3 and SAN-1/MAD3 spindle assembly checkpoint components are required for genome stability in response to treatment with ionizing radiation, G3: Genes, Genomes, Genetics 7, 3875-3885. Link to paper
Pelisch, F., Tammsalu, T., Wang, B., Jaffray, E. G., Gartner, A., and Hay, R. T. (2017) A SUMO-dependent protein network regulates chromosome congression during oocyte meiosis, Molecular cell 65, 66-77. Link to paper
Narayan, V., Ly, T., Pourkarimi, E., Murillo, A. B., Gartner, A., Lamond, A. I., and Kenyon, C. (2016) Deep proteome analysis identifies age-related processes in C. elegans, Cell systems 3, 144-159. Link to paper
Bensaddek, D., Narayan, V., Nicolas, A., Brenes Murillo, A., Gartner, A., Kenyon, C. J., and Lamond, A. I. (2016) Micro‐proteomics with iterative data analysis: proteome analysis in C. elegans at the single worm level, Proteomics 16, 381-392. Link to paper
Hong, Y., Sonneville, R., Agostinho, A., Meier, B., Wang, B., Blow, J. J., and Gartner, A. (2016) The SMC-5/6 complex and the HIM-6 (BLM) helicase synergistically promote meiotic recombination intermediate processing and chromosome maturation during Caenorhabditis elegans meiosis, PLoS genetics 12, e1005872. Link to paper
Ackermann, L., Schell, M., Pokrzywa, W., Kevei, É., Gartner, A., Schumacher, B., and Hoppe, T. (2016) E4 ligase–specific ubiquitination hubs coordinate DNA double-strand-break repair and apoptosis, Nature structural & molecular biology 23, 995-1002. Link to paper
Sonneville, R., Craig, G., Labib, K., Gartner, A., and Blow, J. J. (2015) Both chromosome decondensation and condensation are dependent on DNA replication in C. elegans embryos, Cell reports 12, 405-417. Link to paper *Co-correspondance
Liu, Y., Freeman, A. D. J., Declais, A. C., Wilson, T. J., Gartner, A., and Lilley, D. M. J. (2015) Crystal Structure of a Eukaryotic GEN1 Resolving Enzyme Bound to DNA, Cell Rep 13, 2565-2575. Link to paper
Larance, M., Pourkarimi, E., Wang, B., Brenes Murillo, A., Kent, R., Lamond, A. I., and Gartner, A. (2015) Global Proteomics Analysis of the Response to Starvation in C. elegans, Mol Cell Proteomics 14, 1989-2001. Link to paper
Shlien, A., Campbell, B. B., de Borja, R., Alexandrov, L. B., Merico, D., Wedge, D., Van Loo, P., Tarpey, P. S., Coupland, P., Behjati, S., Pollett, A., Lipman, T., Heidari, A., Deshmukh, S., Avitzur, N., Meier, B., Gerstung, M., Hong, Y., Merino, D. M., Ramakrishna, M., Remke, M., Arnold, R., Panigrahi, G. B., Thakkar, N. P., Hodel, K. P., Henninger, E. E., Goksenin, A. Y., Bakry, D., Charames, G. S., Druker, H., Lerner-Ellis, J., Mistry, M., Dvir, R., Grant, R., Elhasid, R., Farah, R., Taylor, G. P., Nathan, P. C., Alexander, S., Ben-Shachar, S., Ling, S. C., Gallinger, S., Constantini, S., Dirks, P., Huang, A., Scherer, S. W., Grundy, R. G., Durno, C., Aronson, M., Gartner, A., Meyn, M. S., Taylor, M. D., Pursell, Z. F., Pearson, C. E., Malkin, D., Futreal, P. A., Stratton, M. R., Bouffet, E., Hawkins, C., Campbell, P. J., Tabori, U., and Biallelic Mismatch Repair Deficiency, C. (2015) Combined hereditary and somatic mutations of replication error repair genes result in rapid onset of ultra-hypermutated cancers, Nat Genet 47, 257-262. Link to paper
Pelisch, F., Sonneville, R., Pourkarimi, E., Agostinho, A., Blow, J. J., Gartner, A., and Hay, R. T. (2014) Dynamic SUMO modification regulates mitotic chromosome assembly and cell cycle progression in Caenorhabditis elegans, Nature communications 5, 1-14. Link to paper
Meier, B., and Gartner, A. (2014) Having a direct look: analysis of DNA damage and repair mechanisms by next-generation sequencing, Experimental cell research 329, 35-41. Link to paper
Masoudi, N., Ibanez-Cruceyra, P., Offenburger, S. L., Holmes, A., and Gartner, A. (2014) Tetraspanin (TSP-17) protects dopaminergic neurons against 6-OHDA-induced neurodegeneration in C. elegans, PLoS Genet 10, e1004767. Link to paper
Freeman, A. D. J., Liu, Y., Declais, A. C., Gartner, A., and Lilley, D. M. J. (2014) GEN1 from a thermophilic fungus is functionally closely similar to non-eukaryotic junction-resolving enzymes, J Mol Biol 426, 3946-3959. Link to paper
Meier, B., Cooke, S. L., Weiss, J., Bailly, A. P., Alexandrov, L. B., Marshall, J., Raine, K., Maddison, M., Anderson, E., Stratton, M. R., Gartner, A., and Campbell, P. J. (2014) C. elegans whole-genome sequencing reveals mutational signatures related to carcinogens and DNA repair deficiency, Genome Res 24, 1624-1636. Link to paper *Co-correspondence
Agostinho, A., Meier, B., Sonneville, R., Jagut, M., Woglar, A., Blow, J., Jantsch, V., and Gartner, A. (2013) Combinatorial regulation of meiotic holliday junction resolution in C. elegans by HIM-6 (BLM) helicase, SLX-4, and the SLX-1, MUS-81 and XPF-1 nucleases, PLoS Genet 9, e1003591. Link to paper
Bailly, A., and Gartner, A. (2013) Germ cell apoptosis and DNA damage responses, In Germ Cell Development in C. elegans, pp 249-276, Springer, New York, NY. Link to paper
Masoudi, N., Fancsalszky, L., Pourkarimi, E., Vellai, T., Alexa, A., Reményi, A., Gartner, A., Mehta, A., and Takács-Vellai, K. (2013) The NM23-H1/H2 homolog NDK-1 is required for full activation of Ras signaling in C. elegans, Development 140, 3486-3495. Link to paper
Gartner, A., and Akay, A. (2013) Stress response: anything that doesn’t kill you makes you stronger, Current Biology 23, R1012-R1014. Link to paper
Pourkarimi, E., and Gartner, A. (2013) If you don't want them shed them, Cell research 23, 171-172. Link to paper
Akay, A., Craig, A., Lehrbach, N., Larance, M., Pourkarimi, E., Wright, J. E., Lamond, A., Miska, E., and Gartner, A. (2013) RNA-binding protein GLD-1/quaking genetically interacts with the mir-35 and the let-7 miRNA pathways in Caenorhabditis elegans, Open biology 3, 130151. Link to paper
Liu, B., Du, H., Rutkowski, R., Gartner, A., and Wang, X. (2012) LAAT-1 is the lysosomal lysine/arginine transporter that maintains amino acid homeostasis, Science 337, 351-354. Link to paper
Sonneville, R., Querenet, M., Craig, A., Gartner, A., and Blow, J. J. (2012) The dynamics of replication licensing in live Caenorhabditis elegans embryos, Journal of Cell Biology 196, 233-246. Link to paper *Co-correspondence
Pourkarimi, E., Greiss, S., and Gartner, A. (2012) Evidence that CED-9/Bcl2 and CED-4/Apaf-1 localization is not consistent with the current model for C. elegans apoptosis induction, Cell Death & Differentiation 19, 406-415. Link to paper
Craig, A. L., Moser, S. C., Bailly, A. P., and Gartner, A. (2012) Methods for studying the DNA damage response in the Caenorhabditis elegans germline, Methods Cell Biol 107, 321-352. Link to paper
Rutkowski, R., and Gartner, A. (2012) The shark in us: learning about the evolution of the p53 regulatory circuit, Cell Cycle 11, 216-216. Link to paper
Larance, M., Bailly, A. P., Pourkarimi, E., Hay, R. T., Buchanan, G., Coulthurst, S., Xirodimas, D. P., Gartner, A., and Lamond, A. I. (2011) Stable-isotope labeling with amino acids in nematodes, nature methods 8, 849-851. Link to paper
Franz, A., Orth, M., Pirson, P. A., Sonneville, R., Blow, J. J., Gartner, A., Stemmann, O., and Hoppe, T. (2011) CDC-48/p97 coordinates CDT-1 degradation with GINS chromatin dissociation to ensure faithful DNA replication, Molecular cell 44, 85-96. Link to paper
Rutkowski, R., Dickinson, R., Stewart, G., Craig, A., Schimpl, M., Keyse, S. M., and Gartner, A. (2011) Regulation of Caenorhabditis elegans p53/CEP-1–Dependent Germ Cell Apoptosis by Ras/MAPK Signaling, PLoS Genet 7, e1002238. Link to paper
Bailly, A., and Gartner, A. (2011) Caenorhabditis elegans radiation responses, In Molecular Determinants of Radiation Response, pp 101-123, Springer, New York, NY. Link to paper
MacKay, C., Déclais, A.-C., Lundin, C., Agostinho, A., Deans, A. J., MacArtney, T. J., Hofmann, K., Gartner, A., West, S. C., and Helleday, T. (2010) Identification of KIAA1018/FAN1, a DNA repair nuclease recruited to DNA damage by monoubiquitinated FANCD2, Cell 142, 65-76. Link to paper
Bailly, A. P., Freeman, A., Hall, J., Déclais, A.-C., Alpi, A., Lilley, D. M., Ahmed, S., and Gartner, A. (2010) The Caenorhabditis elegans homolog of Gen1/Yen1 resolvases links DNA damage signaling to DNA double-strand break repair, PLoS Genet 6, e1001025. Link to paper
Rutkowski, R., Hofmann, K., and Gartner, A. (2010) Phylogeny and function of the invertebrate p53 superfamily, Cold Spring Harbor perspectives in biology 2, a001131. Link to paper
Lee, S.-J., Gartner, A., Hyun, M., Ahn, B., and Koo, H.-S. (2010) The Caenorhabditis elegans Werner syndrome protein functions upstream of ATR and ATM in response to DNA replication inhibition and double-strand DNA breaks, PLoS Genet 6, e1000801. Link to paper
Ito, S., Greiss, S., Gartner, A., and Derry, W. B. (2010) Cell-nonautonomous regulation of C. elegans germ cell death by kri-1, Current Biology 20, 333-338. Link to paper
Rutkowski, R., and Gartner, A. (2010) Tagging the dead: a bridging factor for Caenorhabditis elegans phagocyte receptors, Nature cell biology 12, 638-640. Link to paper
Greiss, S., and Gartner, A. (2009) Sirtuin/Sir2 phylogeny, evolutionary considerations and structural conservation, Molecules and cells 28, 407. Link to paper
Bilitou, A., Watson, J., Gartner, A., and Ohnuma, S.-i. (2009) The NM23 family in development, Molecular and cellular biochemistry 329, 17-33. Link to paper
Moser, S. C., von Elsner, S., Büssing, I., Alpi, A., Schnabel, R., and Gartner, A. (2009) Functional dissection of Caenorhabditis elegans CLK-2/TEL2 cell cycle defects during embryogenesis and germline development, PLoS Genet 5, e1000451. Link to paper
Meier, B., Barber, L. J., Liu, Y., Shtessel, L., Boulton, S. J., Gartner, A., and Ahmed, S. (2009) The MRT‐1 nuclease is required for DNA crosslink repair and telomerase activity in vivo in Caenorhabditis elegans, The EMBO journal 28, 3549-3563. Link to paper
Greiss, S., Hall, J., Ahmed, S., and Gartner, A. (2008) C. elegans SIR-2.1 translocation is linked to a proapoptotic pathway parallel to cep-1/p53 during DNA damage-induced apoptosis, Genes & development 22, 2831-2842. Link to paper
Mouysset, J., Deichsel, A., Moser, S., Hoege, C., Hyman, A. A., Gartner, A., and Hoppe, T. (2008) Cell cycle progression requires the CDC-48UFD− 1/NPL− 4 complex for efficient DNA replication, Proceedings of the National Academy of Sciences 105, 12879-12884. Link to paper
Greiss, S., Schumacher, B., Grandien, K., Rothblatt, J., and Gartner, A. (2008) Transcriptional profiling in C. elegans suggests DNA damage dependent apoptosis as an ancient function of the p53 family, BMC genomics 9, 334. Link to paper
Lee, H., Cho, J. S., Lambacher, N., Lee, J., Lee, S.-J., Lee, T. H., Gartner, A., and Koo, H.-S. (2008) The Caenorhabditis elegans AMP-activated protein kinase AAK-2 is phosphorylated by LKB1 and is required for resistance to oxidative stress and for normal motility and foraging behavior, Journal of biological chemistry 283, 14988-14993. Link to paper
Jantsch, V., Tang, L., Pasierbek, P., Penkner, A., Nayak, S., Baudrimont, A., Schedl, T., Gartner, A., and Loidl, J. (2007) Caenorhabditis elegans prom-1 is required for meiotic prophase progression and homologous chromosome pairing, Molecular biology of the cell 18, 4911-4920. Link to paper
Woodward, A. M., Göhler, T., Luciani, M. G., Oehlmann, M., Ge, X., Gartner, A., Jackson, D. A., and Blow, J. J. (2006) Excess Mcm2–7 license dormant origins of replication that can be used under conditions of replicative stress, The Journal of cell biology 173, 673-683. Link to paper
Meier, B., Clejan, I., Liu, Y., Lowden, M., Gartner, A., Hodgkin, J., and Ahmed, S. (2006) trt-1 is the Caenorhabditis elegans catalytic subunit of telomerase, PLoS Genet 2, e18. Link to paper
Meier, B., and Gartner, A. (2006) Meiosis: checking chromosomes pair up properly, Current Biology 16, R249-R251. Link to paper
Schumacher, B., and Gartner, A. (2006) Translational regulation of p53 as a potential tumor therapy target. Link to paper
Schumacher, B., Hanazawa, M., Lee, M.-H., Nayak, S., Volkmann, K., Hofmann, R., Hengartner, M., Schedl, T., and Gartner, A. (2005) Translational repression of C. elegans p53 by GLD-1 regulates DNA damage-induced apoptosis, Cell 120, 357-368. Link to paper
Schumacher, B., Schertel, C., Wittenburg, N., Tuck, S., Mitani, S., Gartner, A., Conradt, B., and Shaham, S. (2005) C. elegans ced-13 can promote apoptosis and is induced in response to DNA damage, Cell Death & Differentiation 12. Link to paper
Leroi, A. M., Bartke, A., De Benedictis, G., Franceschi, C., Gartner, A., Gonos, E., Feder, M. E., Kivisild, T., Lee, S., and Kartal-Özer, N. (2005) What evidence is there for the existence of individual genes with antagonistic pleiotropic effects?, Mechanisms of ageing and development 126, 421-429. Link to paper
Boulton, S. J., Martin, J. S., Polanowska, J., Hill, D. E., Gartner, A., and Vidal, M. (2004) BRCA1/BARD1 orthologs required for DNA repair in Caenorhabditis elegans, Current Biology 14, 33-39. Link to paper
Wicky, C., Alpi, A., Passannante, M., Rose, A., Gartner, A., and Müller, F. (2004) Multiple genetic pathways involving the Caenorhabditis elegans Bloom's syndrome genes him-6, rad-51, and top-3 are needed to maintain genome stability in the germ line, Molecular and cellular biology 24, 5016-5027. Link to paper
Gartner, A., MacQueen, A. J., and Villeneuve, A. M. (2004) Methods for analyzing checkpoint responses in Caenorhabditis elegans, Checkpoint Controls and Cancer: Volume 1: Reviews and Model Systems, 257-274. Link to paper
Alpi, A., Pasierbek, P., Gartner, A., and Loidl, J. (2003) Genetic and cytological characterization of the recombination protein RAD-51 in Caenorhabditis elegans, Chromosoma 112, 6-16. Link to paper
Schumacher, B., Alpi, A., and Gartner, A. (2003) Cell Cycle: Check for Asynchrony, Current Biology 13, R560-R562. Link to paper
Gartner, A. (2003) Genome-wide genetic screening by RNAi–a glimpse of the future, ELSO Gazette 14, 1-5.
Boulton, S. J., Gartner, A., Reboul, J., Vaglio, P., Dyson, N., Hill, D. E., and Vidal, M. (2002) Combined functional genomic maps of the C. elegans DNA damage response, Science 295, 127-131. Link to paper
Hofmann, E. R., Milstein, S., Boulton, S. J., Ye, M., Hofmann, J. J., Stergiou, L., Gartner, A., Vidal, M., and Hengartner, M. O. (2002) Caenorhabditis elegans HUS-1 is a DNA damage checkpoint protein required for genome stability and EGL-1-mediated apoptosis, Current biology 12, 1908-1918. Link to paper
Gruneberg, U., Glotzer, M., Gartner, A., and Nigg, E. A. (2002) The CeCDC-14 phosphatase is required for cytokinesis in the Caenorhabditis elegans embryo, The Journal of cell biology 158, 901-914. Link to paper
Schumacher, B., Hofmann, K., Boulton, S., and Gartner, A. (2001) The C. elegans homolog of the p53 tumor suppressor is required for DNA damage-induced apoptosis, Current biology 11, 1722-1727. Link to paper
Ahmed, S., Alpi, A., Hengartner, M. O., and Gartner, A. (2001) C. elegans RAD-5/CLK-2 defines a new DNA damage checkpoint protein, Current Biology 11, 1934-1944. Link to paper
Gartner, A., Milstein, S., Ahmed, S., Hodgkin, J., and Hengartner, M. O. (2000) A conserved checkpoint pathway mediates DNA damage–induced apoptosis and cell cycle arrest in C. elegans, Molecular cell 5, 435-443. Link to paper
Gartner, A., Jovanović, A., Jeoung, D.-I., Bourlat, S., Cross, F. R., and Ammerer, G. (1998) Pheromone-dependent G1 cell cycle arrest requires Far1 phosphorylation, but may not involve inhibition of Cdc28-Cln2 kinase, in vivo, Molecular and cellular biology 18, 3681-3691. Link to paper
Gartner, A., and Hengartner, M. O. (1998) Genetic approaches to programmed cell death in C. elegans, RA Lockshin, Z. Zakeri and JL Tilly.
Doi, K., Gartner, A., Ammerer, G., Errede, B., Shinkawa, H., Sugimoto, K., and Matsumoto, K. (1994) MSG5, a novel protein phosphatase promotes adaptation to pheromone response in S. cerevisiae, The EMBO journal 13, 61-70. Link to paper
Gartner, A. (1994) The role of protein phosphatases in the adaptation to the pheromone response in yeast, ADVANCES IN PROTEIN PHOSPHATASES 8, 153-153.
Peter, M., Gartner, A., Horecka, J., Ammerer, G., and Herskowitz, I. (1993) FAR1 links the signal transduction pathway to the cell cycle machinery in yeast, Cell 73, 747-760. Link to paper
Errede, B., Gartner, A., Zhou, Z., Nasmyth, K., and Ammerer, G. (1993) MAP kinase-related FUS3 from S. cerevisiae is activated by STE7 in vitro, Nature 362, 261-264. Link to paper
Zhou, Z., Gartner, A., Cade, R., Ammerer, G., and Errede, B. (1993) Pheromone-induced signal transduction in Saccharomyces cerevisiae requires the sequential function of three protein kinases, Molecular and Cellular Biology 13, 2069-2080. Link to paper
Wilson, C., Eller, N., Gartner, A., Vicente, O., and Heberle-Bors, E. (1993) Isolation and characterization of a tobacco cDNA clone encoding a putative MAP kinase, Plant molecular biology 23, 543-551. Link to paper
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