Search

Your search keyword '"Guberman J"' showing total 24 results
Start Over Author "Guberman J"
24 results on '"Guberman J"'

14. International network of cancer genome projects

Author

Hudson, TJ, Anderson, W, Aretz, A, Barker, AD, Bell, C, Bernabe, RR, Bhan, MK, Calvo, F, Eerola, I, Gerhard, DS, Guttmacher, A, Guyer, M, Hemsley, FM, Jennings, JL, Kerr, D, Klatt, P, Kolar, P, Kusuda, J, Lane, DP, Laplace, F, Lu, Y, Nettekoven, G, Ozenberger, B, Peterson, J, Rao, TS, Remacle, J, Schafer, AJ, Shibata, T, Stratton, MR, Vockley, JG, Watanabe, K, Yang, H, Yuen, MMF, Knoppers, M, Bobrow, M, Cambon-Thomsen, A, Dressler, LG, Dyke, SOM, Joly, Y, Kato, K, Kennedy, KL, Nicolas, P, Parker, MJ, Rial-Sebbag, E, Romeo-Casabona, CM, Shaw, KM, Wallace, S, Wiesner, GL, Zeps, N, Lichter, P, Biankin, AV, Chabannon, C, Chin, L, Clement, B, de Alava, E, Degos, F, Ferguson, ML, Geary, P, Hayes, DN, Johns, AL, Nakagawa, H, Penny, R, Piris, MA, Sarin, R, Scarpa, A, van de Vijver, M, Futreal, PA, Aburatani, H, Bayes, M, Bowtell, DDL, Campbell, PJ, Estivill, X, Grimmond, SM, Gut, I, Hirst, M, Lopez-Otin, C, Majumder, P, Marra, M, Ning, Z, Puente, XS, Ruan, Y, Stunnenberg, HG, Swerdlow, H, Velculescu, VE, Wilson, RK, Xue, HH, Yang, L, Spellman, PT, Bader, GD, Boutros, PC, Flicek, P, Getz, G, Guigo, R, Guo, G, Haussler, D, Heath, S, Hubbard, TJ, Jiang, T, Jones, SM, Li, Q, Lopez-Bigas, N, Luo, R, Pearson, JV, Quesada, V, Raphael, BJ, Sander, C, Speed, TP, Stuart, JM, Teague, JW, Totoki, Y, Tsunoda, T, Valencia, A, Wheeler, DA, Wu, H, Zhao, S, Zhou, G, Stein, LD, Lathrop, M, Ouellette, BFF, Thomas, G, Yoshida, T, Axton, M, Gunter, C, McPherson, JD, Miller, LJ, Kasprzyk, A, Zhang, J, Haider, SA, Wang, J, Yung, CK, Cross, A, Liang, Y, Gnaneshan, S, Guberman, J, Hsu, J, Chalmers, DRC, Hasel, KW, Kaan, TSH, Knoppers, BM, Lowrance, WW, Masui, T, Rodriguez, LL, Vergely, C, Cloonan, N, Defazio, A, Eshleman, JR, Etemadmoghadam, D, Gardiner, BA, Kench, JG, Sutherland, RL, Tempero, MA, Waddell, NJ, Wilson, PJ, Gallinger, S, Tsao, M-S, Shaw, PA, Petersen, GM, Mukhopadhyay, D, DePinho, RA, Thayer, S, Muthuswamy, L, Shazand, K, Beck, T, Sam, M, Timms, L, Ballin, V, Ji, J, Zhang, X, Chen, F, Hu, X, Yang, Q, Tian, G, Zhang, L, Xing, X, Li, X, Zhu, Z, Yu, Y, Yu, J, Tost, J, Brennan, P, Holcatova, I, Zaridze, D, Brazma, A, Egevad, L, Prokhortchouk, E, Banks, RE, Uhlen, M, Viksna, J, Ponten, F, Skryabin, K, Birney, E, Borg, A, Borresen-Dale, A-L, Caldas, C, Foekens, JA, Martin, S, Reis-Filho, JS, Richardson, AL, Sotiriou, C, van't Veer, L, Birnbaum, D, Blanche, H, Boucher, P, Boyault, S, Masson-Jacquemier, JD, Pauporte, I, Pivot, X, Vincent-Salomon, A, Tabone, E, Theillet, C, Treilleux, I, Bioulac-Sage, P, Decaens, T, Franco, D, Gut, M, Samuel, D, Zucman-Rossi, J, Eils, R, Brors, B, Korbel, JO, Korshunov, A, Landgraf, P, Lehrach, H, Pfister, S, Radlwimmer, B, Reifenberger, G, Taylor, MD, von Kalle, C, Majumder, PP, Pederzoli, P, Lawlor, RT, Delledonne, M, Bardelli, A, Gress, T, Klimstra, D, Zamboni, G, Nakamura, Y, Miyano, S, Fujimoto, A, Campo, E, de Sanjose, S, Montserrat, E, Gonzalez-Diaz, M, Jares, P, Himmelbaue, H, Bea, S, Aparicio, S, Easton, DF, Collins, FS, Compton, CC, Lander, ES, Burke, W, Green, AR, Hamilton, SR, Kallioniemi, OP, Ley, TJ, Liu, ET, Wainwright, BJ, Hudson, TJ, Anderson, W, Aretz, A, Barker, AD, Bell, C, Bernabe, RR, Bhan, MK, Calvo, F, Eerola, I, Gerhard, DS, Guttmacher, A, Guyer, M, Hemsley, FM, Jennings, JL, Kerr, D, Klatt, P, Kolar, P, Kusuda, J, Lane, DP, Laplace, F, Lu, Y, Nettekoven, G, Ozenberger, B, Peterson, J, Rao, TS, Remacle, J, Schafer, AJ, Shibata, T, Stratton, MR, Vockley, JG, Watanabe, K, Yang, H, Yuen, MMF, Knoppers, M, Bobrow, M, Cambon-Thomsen, A, Dressler, LG, Dyke, SOM, Joly, Y, Kato, K, Kennedy, KL, Nicolas, P, Parker, MJ, Rial-Sebbag, E, Romeo-Casabona, CM, Shaw, KM, Wallace, S, Wiesner, GL, Zeps, N, Lichter, P, Biankin, AV, Chabannon, C, Chin, L, Clement, B, de Alava, E, Degos, F, Ferguson, ML, Geary, P, Hayes, DN, Johns, AL, Nakagawa, H, Penny, R, Piris, MA, Sarin, R, Scarpa, A, van de Vijver, M, Futreal, PA, Aburatani, H, Bayes, M, Bowtell, DDL, Campbell, PJ, Estivill, X, Grimmond, SM, Gut, I, Hirst, M, Lopez-Otin, C, Majumder, P, Marra, M, Ning, Z, Puente, XS, Ruan, Y, Stunnenberg, HG, Swerdlow, H, Velculescu, VE, Wilson, RK, Xue, HH, Yang, L, Spellman, PT, Bader, GD, Boutros, PC, Flicek, P, Getz, G, Guigo, R, Guo, G, Haussler, D, Heath, S, Hubbard, TJ, Jiang, T, Jones, SM, Li, Q, Lopez-Bigas, N, Luo, R, Pearson, JV, Quesada, V, Raphael, BJ, Sander, C, Speed, TP, Stuart, JM, Teague, JW, Totoki, Y, Tsunoda, T, Valencia, A, Wheeler, DA, Wu, H, Zhao, S, Zhou, G, Stein, LD, Lathrop, M, Ouellette, BFF, Thomas, G, Yoshida, T, Axton, M, Gunter, C, McPherson, JD, Miller, LJ, Kasprzyk, A, Zhang, J, Haider, SA, Wang, J, Yung, CK, Cross, A, Liang, Y, Gnaneshan, S, Guberman, J, Hsu, J, Chalmers, DRC, Hasel, KW, Kaan, TSH, Knoppers, BM, Lowrance, WW, Masui, T, Rodriguez, LL, Vergely, C, Cloonan, N, Defazio, A, Eshleman, JR, Etemadmoghadam, D, Gardiner, BA, Kench, JG, Sutherland, RL, Tempero, MA, Waddell, NJ, Wilson, PJ, Gallinger, S, Tsao, M-S, Shaw, PA, Petersen, GM, Mukhopadhyay, D, DePinho, RA, Thayer, S, Muthuswamy, L, Shazand, K, Beck, T, Sam, M, Timms, L, Ballin, V, Ji, J, Zhang, X, Chen, F, Hu, X, Yang, Q, Tian, G, Zhang, L, Xing, X, Li, X, Zhu, Z, Yu, Y, Yu, J, Tost, J, Brennan, P, Holcatova, I, Zaridze, D, Brazma, A, Egevad, L, Prokhortchouk, E, Banks, RE, Uhlen, M, Viksna, J, Ponten, F, Skryabin, K, Birney, E, Borg, A, Borresen-Dale, A-L, Caldas, C, Foekens, JA, Martin, S, Reis-Filho, JS, Richardson, AL, Sotiriou, C, van't Veer, L, Birnbaum, D, Blanche, H, Boucher, P, Boyault, S, Masson-Jacquemier, JD, Pauporte, I, Pivot, X, Vincent-Salomon, A, Tabone, E, Theillet, C, Treilleux, I, Bioulac-Sage, P, Decaens, T, Franco, D, Gut, M, Samuel, D, Zucman-Rossi, J, Eils, R, Brors, B, Korbel, JO, Korshunov, A, Landgraf, P, Lehrach, H, Pfister, S, Radlwimmer, B, Reifenberger, G, Taylor, MD, von Kalle, C, Majumder, PP, Pederzoli, P, Lawlor, RT, Delledonne, M, Bardelli, A, Gress, T, Klimstra, D, Zamboni, G, Nakamura, Y, Miyano, S, Fujimoto, A, Campo, E, de Sanjose, S, Montserrat, E, Gonzalez-Diaz, M, Jares, P, Himmelbaue, H, Bea, S, Aparicio, S, Easton, DF, Collins, FS, Compton, CC, Lander, ES, Burke, W, Green, AR, Hamilton, SR, Kallioniemi, OP, Ley, TJ, Liu, ET, and Wainwright, BJ

Abstract

The International Cancer Genome Consortium (ICGC) was launched to coordinate large-scale cancer genome studies in tumours from 50 different cancer types and/or subtypes that are of clinical and societal importance across the globe. Systematic studies of more than 25,000 cancer genomes at the genomic, epigenomic and transcriptomic levels will reveal the repertoire of oncogenic mutations, uncover traces of the mutagenic influences, define clinically relevant subtypes for prognosis and therapeutic management, and enable the development of new cancer therapies.

Published
2010

17. BioMart Central Portal: an open database network for the biological community

Author

Guberman, J. M., primary, Ai, J., additional, Arnaiz, O., additional, Baran, J., additional, Blake, A., additional, Baldock, R., additional, Chelala, C., additional, Croft, D., additional, Cros, A., additional, Cutts, R. J., additional, Di Genova, A., additional, Forbes, S., additional, Fujisawa, T., additional, Gadaleta, E., additional, Goodstein, D. M., additional, Gundem, G., additional, Haggarty, B., additional, Haider, S., additional, Hall, M., additional, Harris, T., additional, Haw, R., additional, Hu, S., additional, Hubbard, S., additional, Hsu, J., additional, Iyer, V., additional, Jones, P., additional, Katayama, T., additional, Kinsella, R., additional, Kong, L., additional, Lawson, D., additional, Liang, Y., additional, Lopez-Bigas, N., additional, Luo, J., additional, Lush, M., additional, Mason, J., additional, Moreews, F., additional, Ndegwa, N., additional, Oakley, D., additional, Perez-Llamas, C., additional, Primig, M., additional, Rivkin, E., additional, Rosanoff, S., additional, Shepherd, R., additional, Simon, R., additional, Skarnes, B., additional, Smedley, D., additional, Sperling, L., additional, Spooner, W., additional, Stevenson, P., additional, Stone, K., additional, Teague, J., additional, Wang, J., additional, Whitty, B., additional, Wong, D. T., additional, Wong-Erasmus, M., additional, Yao, L., additional, Youens-Clark, K., additional, Yung, C., additional, Zhang, J., additional, and Kasprzyk, A., additional

Published
2011
Full Text
View/download PDF

23. A distance-weighted interaction map reveals a previously uncharacterized layer of the Bacillus subtilis spore coat.

Author

McKenney PT, Driks A, Eskandarian HA, Grabowski P, Guberman J, Wang KH, Gitai Z, and Eichenberger P

Subjects
Bacillus subtilis chemistry, Bacillus subtilis metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Spores, Bacterial chemistry, Bacillus subtilis ultrastructure, Bacterial Proteins genetics, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Gene Regulatory Networks, Spores, Bacterial ultrastructure
Abstract

Bacillus subtilis spores are encased in a protein assembly called the spore coat that is made up of at least 70 different proteins. Conventional electron microscopy shows the coat to be organized into two distinct layers. Because the coat is about as wide as the theoretical limit of light microscopy, quantitatively measuring the localization of individual coat proteins within the coat is challenging. We used fusions of coat proteins to green fluorescent protein to map genetic dependencies for coat assembly and to define three independent subnetworks of coat proteins. To complement the genetic data, we measured coat protein localization at subpixel resolution and integrated these two data sets to produce a distance-weighted genetic interaction map. Using these data, we predict that the coat comprises at least four spatially distinct layers, including a previously uncharacterized glycoprotein outermost layer that we name the spore crust. We found that crust assembly depends on proteins we predicted to localize to the crust. The crust may be conserved in all Bacillus spores and may play critical functions in the environment., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published
2010
Full Text
View/download PDF

24. International network of cancer genome projects.

Author

Hudson TJ, Anderson W, Artez A, Barker AD, Bell C, Bernabé RR, Bhan MK, Calvo F, Eerola I, Gerhard DS, Guttmacher A, Guyer M, Hemsley FM, Jennings JL, Kerr D, Klatt P, Kolar P, Kusada J, Lane DP, Laplace F, Youyong L, Nettekoven G, Ozenberger B, Peterson J, Rao TS, Remacle J, Schafer AJ, Shibata T, Stratton MR, Vockley JG, Watanabe K, Yang H, Yuen MM, Knoppers BM, Bobrow M, Cambon-Thomsen A, Dressler LG, Dyke SO, Joly Y, Kato K, Kennedy KL, Nicolás P, Parker MJ, Rial-Sebbag E, Romeo-Casabona CM, Shaw KM, Wallace S, Wiesner GL, Zeps N, Lichter P, Biankin AV, Chabannon C, Chin L, Clément B, de Alava E, Degos F, Ferguson ML, Geary P, Hayes DN, Hudson TJ, Johns AL, Kasprzyk A, Nakagawa H, Penny R, Piris MA, Sarin R, Scarpa A, Shibata T, van de Vijver M, Futreal PA, Aburatani H, Bayés M, Botwell DD, Campbell PJ, Estivill X, Gerhard DS, Grimmond SM, Gut I, Hirst M, López-Otín C, Majumder P, Marra M, McPherson JD, Nakagawa H, Ning Z, Puente XS, Ruan Y, Shibata T, Stratton MR, Stunnenberg HG, Swerdlow H, Velculescu VE, Wilson RK, Xue HH, Yang L, Spellman PT, Bader GD, Boutros PC, Campbell PJ, Flicek P, Getz G, Guigó R, Guo G, Haussler D, Heath S, Hubbard TJ, Jiang T, Jones SM, Li Q, López-Bigas N, Luo R, Muthuswamy L, Ouellette BF, Pearson JV, Puente XS, Quesada V, Raphael BJ, Sander C, Shibata T, Speed TP, Stein LD, Stuart JM, Teague JW, Totoki Y, Tsunoda T, Valencia A, Wheeler DA, Wu H, Zhao S, Zhou G, Stein LD, Guigó R, Hubbard TJ, Joly Y, Jones SM, Kasprzyk A, Lathrop M, López-Bigas N, Ouellette BF, Spellman PT, Teague JW, Thomas G, Valencia A, Yoshida T, Kennedy KL, Axton M, Dyke SO, Futreal PA, Gerhard DS, Gunter C, Guyer M, Hudson TJ, McPherson JD, Miller LJ, Ozenberger B, Shaw KM, Kasprzyk A, Stein LD, Zhang J, Haider SA, Wang J, Yung CK, Cros A, Liang Y, Gnaneshan S, Guberman J, Hsu J, Bobrow M, Chalmers DR, Hasel KW, Joly Y, Kaan TS, Kennedy KL, Knoppers BM, Lowrance WW, Masui T, Nicolás P, Rial-Sebbag E, Rodriguez LL, Vergely C, Yoshida T, Grimmond SM, Biankin AV, Bowtell DD, Cloonan N, deFazio A, Eshleman JR, Etemadmoghadam D, Gardiner BB, Kench JG, Scarpa A, Sutherland RL, Tempero MA, Waddell NJ, Wilson PJ, McPherson JD, Gallinger S, Tsao MS, Shaw PA, Petersen GM, Mukhopadhyay D, Chin L, DePinho RA, Thayer S, Muthuswamy L, Shazand K, Beck T, Sam M, Timms L, Ballin V, Lu Y, Ji J, Zhang X, Chen F, Hu X, Zhou G, Yang Q, Tian G, Zhang L, Xing X, Li X, Zhu Z, Yu Y, Yu J, Yang H, Lathrop M, Tost J, Brennan P, Holcatova I, Zaridze D, Brazma A, Egevard L, Prokhortchouk E, Banks RE, Uhlén M, Cambon-Thomsen A, Viksna J, Ponten F, Skryabin K, Stratton MR, Futreal PA, Birney E, Borg A, Børresen-Dale AL, Caldas C, Foekens JA, Martin S, Reis-Filho JS, Richardson AL, Sotiriou C, Stunnenberg HG, Thoms G, van de Vijver M, van't Veer L, Calvo F, Birnbaum D, Blanche H, Boucher P, Boyault S, Chabannon C, Gut I, Masson-Jacquemier JD, Lathrop M, Pauporté I, Pivot X, Vincent-Salomon A, Tabone E, Theillet C, Thomas G, Tost J, Treilleux I, Calvo F, Bioulac-Sage P, Clément B, Decaens T, Degos F, Franco D, Gut I, Gut M, Heath S, Lathrop M, Samuel D, Thomas G, Zucman-Rossi J, Lichter P, Eils R, Brors B, Korbel JO, Korshunov A, Landgraf P, Lehrach H, Pfister S, Radlwimmer B, Reifenberger G, Taylor MD, von Kalle C, Majumder PP, Sarin R, Rao TS, Bhan MK, Scarpa A, Pederzoli P, Lawlor RA, Delledonne M, Bardelli A, Biankin AV, Grimmond SM, Gress T, Klimstra D, Zamboni G, Shibata T, Nakamura Y, Nakagawa H, Kusada J, Tsunoda T, Miyano S, Aburatani H, Kato K, Fujimoto A, Yoshida T, Campo E, López-Otín C, Estivill X, Guigó R, de Sanjosé S, Piris MA, Montserrat E, González-Díaz M, Puente XS, Jares P, Valencia A, Himmelbauer H, Quesada V, Bea S, Stratton MR, Futreal PA, Campbell PJ, Vincent-Salomon A, Richardson AL, Reis-Filho JS, van de Vijver M, Thomas G, Masson-Jacquemier JD, Aparicio S, Borg A, Børresen-Dale AL, Caldas C, Foekens JA, Stunnenberg HG, van't Veer L, Easton DF, Spellman PT, Martin S, Barker AD, Chin L, Collins FS, Compton CC, Ferguson ML, Gerhard DS, Getz G, Gunter C, Guttmacher A, Guyer M, Hayes DN, Lander ES, Ozenberger B, Penny R, Peterson J, Sander C, Shaw KM, Speed TP, Spellman PT, Vockley JG, Wheeler DA, Wilson RK, Hudson TJ, Chin L, Knoppers BM, Lander ES, Lichter P, Stein LD, Stratton MR, Anderson W, Barker AD, Bell C, Bobrow M, Burke W, Collins FS, Compton CC, DePinho RA, Easton DF, Futreal PA, Gerhard DS, Green AR, Guyer M, Hamilton SR, Hubbard TJ, Kallioniemi OP, Kennedy KL, Ley TJ, Liu ET, Lu Y, Majumder P, Marra M, Ozenberger B, Peterson J, Schafer AJ, Spellman PT, Stunnenberg HG, Wainwright BJ, Wilson RK, and Yang H

Subjects
DNA Methylation, DNA Mutational Analysis trends, Databases, Genetic, Genes, Neoplasm genetics, Genetics, Medical trends, Genomics trends, Humans, Intellectual Property, Mutation, Neoplasms classification, Neoplasms pathology, Neoplasms therapy, Genetics, Medical organization & administration, Genome, Human genetics, Genomics organization & administration, International Cooperation, Neoplasms genetics
Abstract

The International Cancer Genome Consortium (ICGC) was launched to coordinate large-scale cancer genome studies in tumours from 50 different cancer types and/or subtypes that are of clinical and societal importance across the globe. Systematic studies of more than 25,000 cancer genomes at the genomic, epigenomic and transcriptomic levels will reveal the repertoire of oncogenic mutations, uncover traces of the mutagenic influences, define clinically relevant subtypes for prognosis and therapeutic management, and enable the development of new cancer therapies.

Published
2010
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results