Assembly of centrosomal proteins and microtubule organization depends on PCM-1 A Dammermann, A Merdes The Journal of cell biology 159 (2), 255-266, 2002 | 556 | 2002 |
Centriole assembly requires both centriolar and pericentriolar material proteins A Dammermann, T Müller-Reichert, L Pelletier, B Habermann, A Desai, ... Developmental cell 7 (6), 815-829, 2004 | 337 | 2004 |
The minus end in sight A Dammermann, A Desai, K Oegema Current Biology 13 (15), R614-R624, 2003 | 207 | 2003 |
A microtubule-independent role for centrosomes and aurora a in nuclear envelope breakdown N Portier, A Audhya, PS Maddox, RA Green, A Dammermann, A Desai, ... Developmental cell 12 (4), 515-529, 2007 | 143 | 2007 |
SAS-4 is recruited to a dynamic structure in newly forming centrioles that is stabilized by the γ-tubulin–mediated addition of centriolar microtubules A Dammermann, PS Maddox, A Desai, K Oegema The Journal of cell biology 180 (4), 771-785, 2008 | 139 | 2008 |
Centriolar satellites assemble centrosomal microcephaly proteins to recruit CDK2 and promote centriole duplication A Kodani, TW Yu, JR Johnson, D Jayaraman, TL Johnson, L Al-Gazali, ... Elife 4, e07519, 2015 | 138 | 2015 |
Inhibition of centrosome protein assembly leads to p53-dependent exit from the cell cycle V Srsen, N Gnadt, A Dammermann, A Merdes The Journal of cell biology 174 (5), 625-630, 2006 | 115 | 2006 |
The C. elegans RSA complex localizes protein phosphatase 2A to centrosomes and regulates mitotic spindle assembly AL Schlaitz, M Srayko, A Dammermann, S Quintin, N Wielsch, I MacLeod, ... Cell 128 (1), 115-127, 2007 | 109 | 2007 |
Systematic Analysis in Caenorhabditis elegans Reveals that the Spindle Checkpoint Is Composed of Two Largely Independent Branches A Essex, A Dammermann, L Lewellyn, K Oegema, A Desai Molecular biology of the cell 20 (4), 1252-1267, 2009 | 103 | 2009 |
The hydrolethalus syndrome protein HYLS-1 links core centriole structure to cilia formation A Dammermann, H Pemble, BJ Mitchell, I McLeod, JR Yates, C Kintner, ... Genes & development 23 (17), 2046-2059, 2009 | 90 | 2009 |
Expression and imaging of fluorescent proteins in the C. elegans gonad and early embryo RA Green, A Audhya, A Pozniakovsky, A Dammermann, H Pemble, ... Methods in cell biology 85, 179-218, 2008 | 79 | 2008 |
Multiple mechanisms contribute to centriole separation in C. elegans G Cabral, SS Sans, CR Cowan, A Dammermann Current biology 23 (14), 1380-1387, 2013 | 72 | 2013 |
SAS‐6 coiled‐coil structure and interaction with SAS‐5 suggest a regulatory mechanism in C. elegans centriole assembly R Qiao, G Cabral, MM Lettman, A Dammermann, G Dong The EMBO Journal 31 (22), 4334-4347, 2012 | 71 | 2012 |
The ciliary transition zone functions in cell adhesion but is dispensable for axoneme assembly in C. elegans C Schouteden, D Serwas, M Palfy, A Dammermann Journal of Cell Biology 210 (1), 35-44, 2015 | 67 | 2015 |
Glucocorticoid down-regulation of rat glucocorticoid receptor does not involve differential promoter regulation AI Freeman, HL Munn, V Lyons, A Dammermann, JR Seckl, KE Chapman Journal of endocrinology 183 (2), 365-374, 2004 | 54 | 2004 |
Centrioles initiate cilia assembly but are dispensable for maturation and maintenance in C. elegans D Serwas, TY Su, M Roessler, S Wang, A Dammermann Journal of Cell Biology 216 (6), 1659-1671, 2017 | 53 | 2017 |
A force-induced directional switch of a molecular motor enables parallel microtubule bundle formation MI Molodtsov, C Mieck, J Dobbelaere, A Dammermann, S Westermann, ... Cell 167 (2), 539-552. e14, 2016 | 53 | 2016 |
Differential requirements for centrioles in mitotic centrosome growth and maintenance G Cabral, T Laos, J Dumont, A Dammermann Developmental Cell 50 (3), 355-366. e6, 2019 | 48 | 2019 |
Isotropic incorporation of SPD-5 underlies centrosome assembly in C. elegans T Laos, G Cabral, A Dammermann Current Biology 25 (15), R648-R649, 2015 | 48 | 2015 |
Transient and partial nuclear lamina disruption promotes chromosome movement in early meiotic prophase J Link, D Paouneskou, M Velkova, A Daryabeigi, T Laos, S Labella, ... Developmental Cell 45 (2), 212-225. e7, 2018 | 43 | 2018 |