Now showing items 1-4 of 4

    • Association analysis identifies 65 new breast cancer risk loci. 

      Michailidou, K; Lindström, S; Dennis, J; Beesley, J; Hui, S; Kar, S; Lemaçon, A; Soucy, P; Glubb, D; Rostamianfar, A; Bolla, MK; Wang, Q; Tyrer, J; Dicks, E; Lee, A; Wang, Z; Allen, J; Keeman, R; Eilber, U; French, JD; Qing Chen, X; Fachal, L; McCue, K; McCart Reed, AE; Ghoussaini, M; Carroll, JS; Jiang, X; Finucane, H; Adams, M; Adank, MA; Ahsan, H; Aittomäki, K; Anton-Culver, H; Antonenkova, NN; Arndt, V; Aronson, KJ; Arun, B; Auer, PL; Bacot, F; Barrdahl, M; Baynes, C; Beckmann, MW; Behrens, S; Benitez, J; Bermisheva, M; Bernstein, L; Blomqvist, C; Bogdanova, NV; Bojesen, SE; Bonanni, B; Børresen-Dale, A-L; Brand, JS; Brauch, H; Brennan, P; Brenner, H; Brinton, L; Broberg, P; Brock, IW; Broeks, A; Brooks-Wilson, A; Brucker, SY; Brüning, T; Burwinkel, B; Butterbach, K; Cai, Q; Cai, H; Caldés, T; Canzian, F; Carracedo, A; Carter, BD; Castelao, JE; Chan, TL; David Cheng, T-Y; Seng Chia, K; Choi, J-Y; Christiansen, H; Clarke, CL; NBCS Collaborators; Collée, M; Conroy, DM; Cordina-Duverger, E; Cornelissen, S; Cox, DG; Cox, A; Cross, SS; Cunningham, JM; Czene, K; Daly, MB; Devilee, P; Doheny, KF; Dörk, T; Dos-Santos-Silva, I; Dumont, M; Durcan, L; Dwek, M; Eccles, DM; Ekici, AB; Eliassen, AH; Ellberg, C; Elvira, M; Engel, C; Eriksson, M; Fasching, PA; Figueroa, J; Flesch-Janys, D; Fletcher, O; Flyger, H; Fritschi, L; Gaborieau, V; Gabrielson, M; Gago-Dominguez, M; Gao, Y-T; Gapstur, SM; García-Sáenz, JA; Gaudet, MM; Georgoulias, V; Giles, GG; Glendon, G; Goldberg, MS; Goldgar, DE; González-Neira, A; Grenaker Alnæs, GI; Grip, M; Gronwald, J; Grundy, A; Guénel, P; Haeberle, L; Hahnen, E; Haiman, CA; Håkansson, N; Hamann, U; Hamel, N; Hankinson, S; Harrington, P; Hart, SN; Hartikainen, JM; Hartman, M; Hein, A; Heyworth, J; Hicks, B; Hillemanns, P; Ho, DN; Hollestelle, A; Hooning, MJ; Hoover, RN; Hopper, JL; Hou, M-F; Hsiung, C-N; Huang, G; Humphreys, K; Ishiguro, J; Ito, H; Iwasaki, M; Iwata, H; Jakubowska, A; Janni, W; John, EM; Johnson, N; Jones, K; Jones, M; Jukkola-Vuorinen, A; Kaaks, R; Kabisch, M; Kaczmarek, K; Kang, D; Kasuga, Y; Kerin, MJ; Khan, S; Khusnutdinova, E; Kiiski, JI; Kim, S-W; Knight, JA; Kosma, V-M; Kristensen, VN; Krüger, U; Kwong, A; Lambrechts, D; Le Marchand, L; Lee, E; Lee, MH; Lee, JW; Neng Lee, C; Lejbkowicz, F; Li, J; Lilyquist, J; Lindblom, A; Lissowska, J; Lo, W-Y; Loibl, S; Long, J; Lophatananon, A; Lubinski, J; Luccarini, C; Lux, MP; Ma, ESK; MacInnis, RJ; Maishman, T; Makalic, E; Malone, KE; Kostovska, IM; Mannermaa, A; Manoukian, S; Manson, JE; Margolin, S; Mariapun, S; Martinez, ME; Matsuo, K; Mavroudis, D; McKay, J; McLean, C; Meijers-Heijboer, H; Meindl, A; Menéndez, P; Menon, U; Meyer, J; Miao, H; Miller, N; Taib, NAM; Muir, K; Mulligan, AM; Mulot, C; Neuhausen, SL; Nevanlinna, H; Neven, P; Nielsen, SF; Noh, D-Y; Nordestgaard, BG; Norman, A; Olopade, OI; Olson, JE; Olsson, H; Olswold, C; Orr, N; Pankratz, VS; Park, SK; Park-Simon, T-W; Lloyd, R; Perez, JIA; Peterlongo, P; Peto, J; Phillips, K-A; Pinchev, M; Plaseska-Karanfilska, D; Prentice, R; Presneau, N; Prokofyeva, D; Pugh, E; Pylkäs, K; Rack, B; Radice, P; Rahman, N; Rennert, G; Rennert, HS; Rhenius, V; Romero, A; Romm, J; Ruddy, KJ; Rüdiger, T; Rudolph, A; Ruebner, M; Rutgers, EJT; Saloustros, E; Sandler, DP; Sangrajrang, S; Sawyer, EJ; Schmidt, DF; Schmutzler, RK; Schneeweiss, A; Schoemaker, MJ; Schumacher, F; Schürmann, P; Scott, RJ; Scott, C; Seal, S; Seynaeve, C; Shah, M; Sharma, P; Shen, C-Y; Sheng, G; Sherman, ME; Shrubsole, MJ; Shu, X-O; Smeets, A; Sohn, C; Southey, MC; Spinelli, JJ; Stegmaier, C; Stewart-Brown, S; Stone, J; Stram, DO; Surowy, H; Swerdlow, A; Tamimi, R; Taylor, JA; Tengström, M; Teo, SH; Beth Terry, M; Tessier, DC; Thanasitthichai, S; Thöne, K; Tollenaar, RAEM; Tomlinson, I; Tong, L; Torres, D; Truong, T; Tseng, C-C; Tsugane, S; Ulmer, H-U; Ursin, G; Untch, M; Vachon, C; van Asperen, CJ; Van Den Berg, D; van den Ouweland, AMW; van der Kolk, L; van der Luijt, RB; Vincent, D; Vollenweider, J; Waisfisz, Q; Wang-Gohrke, S; Weinberg, CR; Wendt, C; Whittemore, AS; Wildiers, H; Willett, W; Winqvist, R; Wolk, A; Wu, AH; Xia, L; Yamaji, T; Yang, XR; Har Yip, C; Yoo, K-Y; Yu, J-C; Zheng, W; Zheng, Y; Zhu, B; Ziogas, A; Ziv, E; ABCTB Investigators; ConFab/AOCS Investigators; Lakhani, SR; Antoniou, AC; Droit, A; Andrulis, IL; Amos, CI; Couch, FJ; Pharoah, PDP; Chang-Claude, J; Hall, P; Hunter, DJ; Milne, RL; García-Closas, M; Schmidt, MK; Chanock, SJ; Dunning, AM; Edwards, SL; Bader, GD; Chenevix-Trench, G; Simard, J; Kraft, P; Easton, DF (2017-11)
      Breast cancer risk is influenced by rare coding variants in susceptibility genes, such as BRCA1, and many common, mostly non-coding variants. However, much of the genetic contribution to breast cancer risk remains unknown. ...
    • Characterization of sugar binding by the mannose receptor family member, Endo180. 

      East, L; Rushton, S; Taylor, ME; Isacke, CM (2002-12)
      Members of the mannose receptor family, the mannose receptor, the phospholipase A(2) receptor, DEC-205, and Endo180, contain multiple C-type lectin-like domains (CTLDs) within a single polypeptide. In addition, at their N ...
    • Genome-wide characterization reveals complex interplay between TP53 and TP63 in response to genotoxic stress. 

      McDade, SS; Patel, D; Moran, M; Campbell, J; Fenwick, K; Kozarewa, I; Orr, NJ; Lord, CJ; Ashworth, AA; McCance, DJ (2014-06)
      In response to genotoxic stress the TP53 tumour suppressor activates target gene expression to induce cell cycle arrest or apoptosis depending on the extent of DNA damage. These canonical activities can be repressed by ...
    • rs2735383, located at a microRNA binding site in the 3'UTR of NBS1, is not associated with breast cancer risk. 

      Liu, J; Lončar, I; Collée, JM; Bolla, MK; Dennis, J; Michailidou, K; Wang, Q; Andrulis, IL; Barile, M; Beckmann, MW; Behrens, S; Benitez, J; Blomqvist, C; Boeckx, B; Bogdanova, NV; Bojesen, SE; Brauch, H; Brennan, P; Brenner, H; Broeks, A; Burwinkel, B; Chang-Claude, J; Chen, S-T; Chenevix-Trench, G; Cheng, CY; Choi, J-Y; Couch, FJ; Cox, A; Cross, SS; Cuk, K; Czene, K; Dörk, T; Dos-Santos-Silva, I; Fasching, PA; Figueroa, J; Flyger, H; García-Closas, M; Giles, GG; Glendon, G; Goldberg, MS; González-Neira, A; Guénel, P; Haiman, CA; Hamann, U; Hart, SN; Hartman, M; Hatse, S; Hopper, JL; Ito, H; Jakubowska, A; Kabisch, M; Kang, D; Kosma, V-M; Kristensen, VN; Le Marchand, L; Lee, E; Li, J; Lophatananon, A; Jan Lubinski; Mannermaa, A; Matsuo, K; Milne, RL; NBCS Collaborators; Neuhausen, SL; Nevanlinna, H; Orr, N; Perez, JIA; Peto, J; Putti, TC; Pylkäs, K; Radice, P; Sangrajrang, S; Sawyer, EJ; Schmidt, MK; Schneeweiss, A; Shen, C-Y; Shrubsole, MJ; Shu, X-O; Simard, J; Southey, MC; Swerdlow, A; Teo, SH; Tessier, DC; Thanasitthichai, S; Tomlinson, I; Torres, D; Truong, T; Tseng, C-C; Vachon, C; Winqvist, R; Wu, AH; Yannoukakos, D; Zheng, W; Hall, P; Dunning, AM; Easton, DF; Hooning, MJ; van den Ouweland, AMW; Martens, JWM; Hollestelle, A (2016-11-15)
      NBS1, also known as NBN, plays an important role in maintaining genomic stability. Interestingly, rs2735383 G > C, located in a microRNA binding site in the 3'-untranslated region (UTR) of NBS1, was shown to be associated ...