Zobrazeno 1 - 10
of 177
pro vyhledávání: '"Wedge, D.C."'
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.
K zobrazení výsledku je třeba se přihlásit.
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.
K zobrazení výsledku je třeba se přihlásit.
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.
K zobrazení výsledku je třeba se přihlásit.
Autor:
Pladsen, A.V., Nilsen, G., Rueda, O.M., Aure, M.R., Borgan, Ø., Liestøl, K., Vitelli, V., Frigessi, A., Langerød, A., Mathelier, A., Bathen, T.F., Borgen, E., Børresen-Dale, A.-L., Engebråten, O., Fritzman, B., Garred, Ø., Geisler, J., Geitvik, G.A., Hofvind, S., Kristensen, V., Kåresen, R., Lingjærde, O.C., Mælandsmo, G.M., Naume, B., Russnes, H.G., Sahlberg, K.K., Sauer, T., Skjerven, H.K., Schlichting, E., Sørlie, T., Wedge, D.C., Van Loo, P., Caldas, C.
Publikováno v:
Communications Biology, Vol 3, Iss 1, Pp 1-9 (2020)
Communications Biology
Pladsen, A V, Nilsen, G, Rueda, O M, Aure, M R, Borgan, Ø, Liestøl, K, Vitelli, V, Frigessi, A, Langerød, A, Mathelier, A, Bathen, T F, Borgen, E, Børresen-Dale, A-L, Engebråten, O, Fritzman, B, Garred, Ø, Geisler, J, Geitvik, G A, Hofvind, S, Kristensen, V, Kåresen, R, Langerød, A, Lingjærde, O C, Mælandsmo, G M, Naume, B, Russnes, H G, Sahlberg, K K, Sauer, T, Skjerven, H K, Schlichting, E, Sørlie, T, Engebråten, O, Kristensen, V, Wedge, D C, Van Loo, P, Caldas, C, Børresen-Dale, A-L, Russnes, H G & Lingjærde, O C 2020, ' DNA copy number motifs are strong and independent predictors of survival in breast cancer ', Communications Biology . https://doi.org/10.1038/s42003-020-0884-6
Communications Biology
Pladsen, A V, Nilsen, G, Rueda, O M, Aure, M R, Borgan, Ø, Liestøl, K, Vitelli, V, Frigessi, A, Langerød, A, Mathelier, A, Bathen, T F, Borgen, E, Børresen-Dale, A-L, Engebråten, O, Fritzman, B, Garred, Ø, Geisler, J, Geitvik, G A, Hofvind, S, Kristensen, V, Kåresen, R, Langerød, A, Lingjærde, O C, Mælandsmo, G M, Naume, B, Russnes, H G, Sahlberg, K K, Sauer, T, Skjerven, H K, Schlichting, E, Sørlie, T, Engebråten, O, Kristensen, V, Wedge, D C, Van Loo, P, Caldas, C, Børresen-Dale, A-L, Russnes, H G & Lingjærde, O C 2020, ' DNA copy number motifs are strong and independent predictors of survival in breast cancer ', Communications Biology . https://doi.org/10.1038/s42003-020-0884-6
Somatic copy number alterations are a frequent sign of genome instability in cancer. A precise characterization of the genome architecture would reveal underlying instability mechanisms and provide an instrument for outcome prediction and treatment g
Autor:
Gerstung, M., Jolly, C., Leshchiner, I., Dentro, S.C., Gonzalez, S., Rosebrock, D., Mitchell, T.J., Rubanova, Y., Anur, P., Yu, K., Tarabichi, M., Deshwar, A.G., Wintersinger, J., Kleinheinz, K., Vázquez-García, I., Haase, K., Jerman, L., Sengupta, Subhajit, Macintyre, G., Malikic, S., Donmez, N., Livitz, D.G., Cmero, M., Demeulemeester, J., Schumacher, S., Fan, Y., Yao, X., Lee, J., Schlesner, M., Boutros, P.C., Bowtell, D.D., Zhu, H., Getz, G., Imielinski, M., Beroukhim, R., Sahinalp, S.C., Ji, Y., Peifer, M., Markowetz, F., Mustonen, V., Yuan, K., Wang, W., Morris, Q.D., Adams, D.J., Campbell, P.J., Cao, S., Christie, E.L., Cun, Y., Dawson, K.J., Drews, R.M., Eils, R., Fittall, M., Garsed, D.W., Ha, G., Lee-Six, H., Martincorena, I., Oesper, L., Peto, M., Raphael, B.J., Salcedo, A., Sengupta, S., Shi, R., Shin, S.J., Spiro, O., Stein, L.D., Vembu, S., Wheeler, D.A., Yang, T.-P., Spellman, P.T., Wedge, D.C., Van Loo, P.
Publikováno v:
Nature, vol 578, iss 7793
Nature, 578, 122-128
Nature
Nature, 578, 7793, pp. 122-128
Gerstung, M, Jolly, C, Leshchiner, I, Dentro, S C, Gonzalez, S, Rosebrock, D, Mitchell, T J, Rubanova, Y, Anur, P, Yu, K, Tarabichi, M, Deshwar, A G, Wintersinger, J, Kleinheinz, K, Vázquez-García, I, Haase, K, Jerman, L, Sengupta, S, Macintyre, G, Malikic, S, Donmez, N, Livitz, D G, Cmero, M, Demeulemeester, J, Schumacher, S, Fan, Y, Yao, X, Lee, J, Schlesner, M, Boutros, P C, Bowtell, D D, Zhu, H, Getz, G, Imielinski, M, Beroukhim, R, Sahinalp, S C, Ji, Y, Peifer, M, Markowetz, F, Mustonen, V, Yuan, K, Wang, W, Morris, Q D, Dentro, S C, Leshchiner, I, Gerstung, M, Jolly, C, Haase, K, Tarabichi, M, Wintersinger, J, Deshwar, A G, Yu, K, Gonzalez, S, Rubanova, Y, Macintyre, G, Adams, D J, Anur, P, Beroukhim, R, Boutros, P C, Bowtell, D D, Campbell, P J, Cao, S, Christie, E L, Cmero, M, Cun, Y, Dawson, K J, Donmez, N, Drews, R M, Eils, R, Fan, Y, Fittall, M, Garsed, D W, Getz, G, Ha, G, Imielinski, M, Jerman, L, Ji, Y, Kleinheinz, K, Lee, J, Lee-Six, H, Livitz, D G, Malikic, S, Markowetz, F, Martincorena, I, Mitchell, T J, Mustonen, V, Oesper, L, Peifer, M, Peto, M, Raphael, B J, Rosebrock, D, Sahinalp, S C, Salcedo, A, Schlesner, M, Schumacher, S, Sengupta, S, Shi, R, Shin, S J, Spiro, O, Stein, L D, Vázquez-García, I, Vembu, S, Wheeler, D A, Yang, T-P, Yao, X, Yuan, K, Zhu, H, Wang, W, Morris, Q D, Spellman, P T, Wedge, D C, Van Loo, P, Spellman, P T & Wedge, D C 2020, ' The evolutionary history of 2,658 cancers ', Nature, vol. 578, no. 7793, pp. 122-128 . https://doi.org/10.1038/s41586-019-1907-7
Nature, 578, 122-128
Nature
Nature, 578, 7793, pp. 122-128
Gerstung, M, Jolly, C, Leshchiner, I, Dentro, S C, Gonzalez, S, Rosebrock, D, Mitchell, T J, Rubanova, Y, Anur, P, Yu, K, Tarabichi, M, Deshwar, A G, Wintersinger, J, Kleinheinz, K, Vázquez-García, I, Haase, K, Jerman, L, Sengupta, S, Macintyre, G, Malikic, S, Donmez, N, Livitz, D G, Cmero, M, Demeulemeester, J, Schumacher, S, Fan, Y, Yao, X, Lee, J, Schlesner, M, Boutros, P C, Bowtell, D D, Zhu, H, Getz, G, Imielinski, M, Beroukhim, R, Sahinalp, S C, Ji, Y, Peifer, M, Markowetz, F, Mustonen, V, Yuan, K, Wang, W, Morris, Q D, Dentro, S C, Leshchiner, I, Gerstung, M, Jolly, C, Haase, K, Tarabichi, M, Wintersinger, J, Deshwar, A G, Yu, K, Gonzalez, S, Rubanova, Y, Macintyre, G, Adams, D J, Anur, P, Beroukhim, R, Boutros, P C, Bowtell, D D, Campbell, P J, Cao, S, Christie, E L, Cmero, M, Cun, Y, Dawson, K J, Donmez, N, Drews, R M, Eils, R, Fan, Y, Fittall, M, Garsed, D W, Getz, G, Ha, G, Imielinski, M, Jerman, L, Ji, Y, Kleinheinz, K, Lee, J, Lee-Six, H, Livitz, D G, Malikic, S, Markowetz, F, Martincorena, I, Mitchell, T J, Mustonen, V, Oesper, L, Peifer, M, Peto, M, Raphael, B J, Rosebrock, D, Sahinalp, S C, Salcedo, A, Schlesner, M, Schumacher, S, Sengupta, S, Shi, R, Shin, S J, Spiro, O, Stein, L D, Vázquez-García, I, Vembu, S, Wheeler, D A, Yang, T-P, Yao, X, Yuan, K, Zhu, H, Wang, W, Morris, Q D, Spellman, P T, Wedge, D C, Van Loo, P, Spellman, P T & Wedge, D C 2020, ' The evolutionary history of 2,658 cancers ', Nature, vol. 578, no. 7793, pp. 122-128 . https://doi.org/10.1038/s41586-019-1907-7
Cancer develops through a process of somatic evolution1,2. Sequencing data from a single biopsy represent a snapshot of this process that can reveal the timing of specific genomic aberrations and the changing influence of mutational processes3. Here,
Autor:
Salcedo, A., Tarabichi, M., Espiritu, S.M.G., Deshwar, A.G., David, M., Wilson, N.M., Dentro, S., Wintersinger, J.A., Liu, L.Y., Ko, M., Sivanandan, S., Zhang, H., Zhu, K., Ou Yang, T.-H., Chilton, J.M., Buchanan, A., Lalansingh, C.M., P’ng, C., Anghel, C.V., Umar, I., Lo, B., Zou, W., Jha, A., Huang, T., Yang, T.-P., Peifer, M., Sahinalp, C., Malikic, S., Vázquez-García, I., Mustonen, V., Yang, H.-T., Lee, K.-R., Ji, Y., Sengupta, Subhajit, Rudewicz, J., Nikolski, M., Schaeverbeke, Q., Yuan, K., Markowetz, F., Macintyre, G., Cmero, M., Chaudhary, B., Leshchiner, I., Livitz, D., Getz, G., Loher, P., Yu, K., Wang, W., Zhu, H., Simpson, J.T., Stuart, J.M., Anastassiou, D., Guan, Y., Ewing, A.D., Ellrott, K., Wedge, D.C., Morris, Q., Van Loo, P., Boutros, P.C.
Publikováno v:
Nature biotechnology
Salcedo, A, Tarabichi, M, Espiritu, S M G, Deshwar, A G, David, M, Wilson, N M, Dentro, S, Wintersinger, J A, Liu, L Y, Ko, M, Sivanandan, S, Zhang, H, Zhu, K, Ou Yang, T-H, Chilton, J M, Buchanan, A, Lalansingh, C M, P’ng, C, Anghel, C V, Umar, I, Lo, B, Zou, W, Jha, A, Huang, T, Yang, T-P, Peifer, M, Sahinalp, C, Malikic, S, Vázquez-García, I, Mustonen, V, Yang, H-T, Lee, K-R, Ji, Y, Sengupta, S, Rudewicz, J, Nikolski, M, Schaeverbeke, Q, Yuan, K, Markowetz, F, Macintyre, G, Cmero, M, Chaudhary, B, Leshchiner, I, Livitz, D, Getz, G, Loher, P, Yu, K, Wang, W, Zhu, H, Simpson, J T, Stuart, J M, Anastassiou, D, Guan, Y, Ewing, A D, Ellrott, K, Wedge, D C, Morris, Q, Van Loo, P & Boutros, P C 2020, ' A community effort to create standards for evaluating tumor subclonal reconstruction ', Nature biotechnology, vol. 38, pp. 97-107 . https://doi.org/10.1038/s41587-019-0364-z
Nature Biotechnology
Nature Biotechnology, Nature Publishing Group, 2020, 38 (1), pp.97-107. ⟨10.1038/s41587-019-0364-z⟩
Salcedo, A, Tarabichi, M, Espiritu, S M G, Deshwar, A G, David, M, Wilson, N M, Dentro, S, Wintersinger, J A, Liu, L Y, Ko, M, Sivanandan, S, Zhang, H, Zhu, K, Ou Yang, T-H, Chilton, J M, Buchanan, A, Lalansingh, C M, P’ng, C, Anghel, C V, Umar, I, Lo, B, Zou, W, Jha, A, Huang, T, Yang, T-P, Peifer, M, Sahinalp, C, Malikic, S, Vázquez-García, I, Mustonen, V, Yang, H-T, Lee, K-R, Ji, Y, Sengupta, S, Rudewicz, J, Nikolski, M, Schaeverbeke, Q, Yuan, K, Markowetz, F, Macintyre, G, Cmero, M, Chaudhary, B, Leshchiner, I, Livitz, D, Getz, G, Loher, P, Yu, K, Wang, W, Zhu, H, Simpson, J T, Stuart, J M, Anastassiou, D, Guan, Y, Ewing, A D, Ellrott, K, Wedge, D C, Morris, Q, Van Loo, P & Boutros, P C 2020, ' A community effort to create standards for evaluating tumor subclonal reconstruction ', Nature biotechnology, vol. 38, pp. 97-107 . https://doi.org/10.1038/s41587-019-0364-z
Nature Biotechnology
Nature Biotechnology, Nature Publishing Group, 2020, 38 (1), pp.97-107. ⟨10.1038/s41587-019-0364-z⟩
Tumor DNA sequencing data can be interpreted by computational methods that analyse genomic heterogeneity to infer evolutionary dynamics. A growing number of studies have used these approaches to link cancer evolution with clinical progression and res
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.
K zobrazení výsledku je třeba se přihlásit.
Low cost, portable, fast multiparameter data acquisition system for organic transistor odour sensors
Autor:
Das, A., Dost, R., Richardson, T.H., Grell, M., Wedge, D.C., Kell, D.B., Morrison, J.J., Turner, M.L.
Publikováno v:
In Sensors & Actuators: B. Chemical 2009 137(2):586-591
Autor:
Ketola, K., Kaljunen, H., Taavitsainen, S., Kaarijärvi, R., Järvelä, E., Rodriguez Martin, B., Haase, K., Woodcock, D.J., Tubio, J., Wedge, D.C., Nykter, M., Bova, G.S.
Publikováno v:
Ketola, K, Kaljunen, H, Taavitsainen, S, Kaarijärvi, R, Järvelä, E, Rodriguez Martin, B, Haase, K, Woodcock, D J, Tubio, J, Wedge, D C, Nykter, M & Bova, G S 2021, ' Subclone eradication analysis identifies targets for enhanced cancer therapy and reveals L1 retrotransposition as a dynamic source of cancer heterogeneity ', Cancer Research . https://doi.org/10.1158/0008-5472.CAN-21-0371
Treatment-eradicated cancer subclones have been reported in leukemia and have recently been detected in solid tumors. Here we introduce Differential Subclone Eradication and Resistance (DSER) analysis, a method developed to identify molecular targets
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=pmid_dedup__::484db0fbb8cc03e2fc901dec4cda4810
https://trepo.tuni.fi/handle/10024/135173
https://trepo.tuni.fi/handle/10024/135173
Autor:
Rodriguez-Martin, B., Alvarez, E.G., Baez-Ortega, A., Zamora, J., Supek, F., Demeulemeester, J., Santamarina, M., Ju, Y.S., Temes, J., Garcia-Souto, D., Detering, H., Li, Y., Rodriguez-Castro, J., Dueso-Barroso, A., Bruzos, A.L., Dentro, S.C., Blanco, M.G., Contino, G., Ardeljan, D., Tojo, M., Roberts, N.D., Zumalave, S., Edwards, P.A., Weischenfeldt, J., Puiggròs, M., Chong, Z., Chen, K., Lee, E.A., Wala, J.A., Raine, K., Butler, A., Waszak, S.M., Navarro, F.C.P., Schumacher, S.E., Monlong, J., Maura, F., Bolli, N., Bourque, G., Gerstein, M., Park, P.J., Wedge, D.C., Beroukhim, R., Torrents, D., Korbel, J.O., Martincorena, I., Fitzgerald, R.C., Van Loo, P., Kazazian, H.H., Burns, K.H., Akdemir, K.C., Boutros, P.C., Bowtell, D.D.L., Brors, B., Campbell, P.J., Chan, K., Cortés-Ciriano, I., Dunford, A.J., Estivill, X., Etemadmoghadam, D., Feuerbach, L., Fink, J.L., Frenkel-Morgenstern, M., Garsed, D.W., Gordenin, D.A., Haan, D., Haber, J.E., Hess, J.M., Hutter, B., Imielinski, M., Jones, D.T.W., Kazanov, M.D., Klimczak, L.J., Koh, Y., Kumar, K., Lee, J.J.-K., Lynch, A.G., Macintyre, G., Markowetz, F., Martinez-Fundichely, A., Meyerson, M., Miyano, S., Nakagawa, H., Ossowski, S., Pearson, J.V., Rippe, K., Roberts, S.A., Scully, R., Shackleton, M., Sidiropoulos, N., Sieverling, L., Stewart, C., Tubio, J.M.C., Villasante, I., Waddell, N., Yang, L., Yao, X., Yoon, S.-S., Zhang, C.-Z.
Publikováno v:
Nature Genetics
Nature Genetics, 52, 306-319
Rodriguez-Martin, B, Alvarez, E G, Baez-Ortega, A, Zamora, J, Supek, F, Demeulemeester, J, Santamarina, M, Ju, Y S, Temes, J, Garcia-Souto, D, Detering, H, Li, Y, Rodriguez-Castro, J, Dueso-Barroso, A, Bruzos, A L, Dentro, S C, Blanco, M G, Contino, G, Ardeljan, D, Tojo, M, Roberts, N D, Zumalave, S, Edwards, P A, Weischenfeldt, J, Puiggròs, M, Chong, Z, Chen, K, Lee, E A, Wala, J A, Raine, K, Butler, A, Waszak, S M, Navarro, F C P, Schumacher, S E, Monlong, J, Maura, F, Bolli, N, Bourque, G, Gerstein, M, Park, P J, Wedge, D C, Beroukhim, R, Torrents, D, Korbel, J O, Martincorena, I, Fitzgerald, R C, Van Loo, P, Kazazian, H H, Burns, K H, Akdemir, K C, Alvarez, E G, Baez-Ortega, A, Beroukhim, R, Boutros, P C, Bowtell, D D L, Brors, B, Burns, K H, Campbell, P J, Chan, K, Chen, K, Cortés-Ciriano, I, Dueso-Barroso, A, Dunford, A J, Edwards, P A, Estivill, X, Etemadmoghadam, D, Feuerbach, L, Fink, J L, Frenkel-Morgenstern, M, Garsed, D W, Gerstein, M, Gordenin, D A, Haan, D, Haber, J E, Hess, J M, Hutter, B, Imielinski, M, Jones, D T W, Ju, Y S, Kazanov, M D, Klimczak, L J, Koh, Y, Korbel, J O, Kumar, K, Lee, E A, Lee, JJ-K, Li, Y, Lynch, A G, Macintyre, G, Markowetz, F, Martincorena, I, Martinez-Fundichely, A, Meyerson, M, Miyano, S, Nakagawa, H, Navarro, F C P, Ossowski, S, Park, P J, Pearson, J V, Puiggròs, M, Rippe, K, Roberts, N D, Roberts, S A, Rodriguez-Martin, B, Schumacher, S E, Scully, R, Shackleton, M, Sidiropoulos, N, Sieverling, L, Stewart, C, Torrents, D, Tubio, J M C, Villasante, I, Waddell, N, Wala, J A, Weischenfeldt, J, Yang, L, Yao, X, Yoon, S-S, Zamora, J, Zhang, C-Z, Campbell, P J & Tubio, J M C 2020, ' Pan-cancer analysis of whole genomes identifies driver rearrangements promoted by LINE-1 retrotransposition ', Nature Genetics, vol. 52, no. 3, pp. 306-319 . https://doi.org/10.1038/s41588-019-0562-0
Rodriguez-Martin, B, Alvarez, E G, Baez-Ortega, A, Zamora, J, Supek, F, Demeulemeester, J, Santamarina, M, Ju, Y S, Temes, J, Garcia-Souto, D, Detering, H, Li, Y, Rodriguez-Castro, J, Dueso-Barroso, A, Bruzos, A L, Dentro, S C, Blanco, M G, Contino, G, Ardeljan, D, Tojo, M, Roberts, N D, Zumalave, S, Edwards, P A W, Weischenfeldt, J, Puiggròs, M, Chong, Z, Chen, K, Lee, E A, Wala, J A, Raine, K, Butler, A, Waszak, S M, Navarro, F C P, Schumacher, S E, Monlong, J, Maura, F, Bolli, N, Bourque, G, Gerstein, M, Park, P J, Wedge, D C, Beroukhim, R, Torrents, D, Korbel, J O, Martincorena, I, Fitzgerald, R C, Van Loo, P, Kazazian, H H, Sidiropoulos, N, Weischenfeldt, J, PCAWG Structural Variation Working Group & PCAWG Consortium 2020, ' Pan-cancer analysis of whole genomes identifies driver rearrangements promoted by LINE-1 retrotransposition ', Nature Genetics, vol. 52, no. 3, pp. 306-319 . https://doi.org/10.1038/s41588-019-0562-0
Nature Genetics, 52, 3, pp. 306-319
Nature Genetics, 52, 306-319
Rodriguez-Martin, B, Alvarez, E G, Baez-Ortega, A, Zamora, J, Supek, F, Demeulemeester, J, Santamarina, M, Ju, Y S, Temes, J, Garcia-Souto, D, Detering, H, Li, Y, Rodriguez-Castro, J, Dueso-Barroso, A, Bruzos, A L, Dentro, S C, Blanco, M G, Contino, G, Ardeljan, D, Tojo, M, Roberts, N D, Zumalave, S, Edwards, P A, Weischenfeldt, J, Puiggròs, M, Chong, Z, Chen, K, Lee, E A, Wala, J A, Raine, K, Butler, A, Waszak, S M, Navarro, F C P, Schumacher, S E, Monlong, J, Maura, F, Bolli, N, Bourque, G, Gerstein, M, Park, P J, Wedge, D C, Beroukhim, R, Torrents, D, Korbel, J O, Martincorena, I, Fitzgerald, R C, Van Loo, P, Kazazian, H H, Burns, K H, Akdemir, K C, Alvarez, E G, Baez-Ortega, A, Beroukhim, R, Boutros, P C, Bowtell, D D L, Brors, B, Burns, K H, Campbell, P J, Chan, K, Chen, K, Cortés-Ciriano, I, Dueso-Barroso, A, Dunford, A J, Edwards, P A, Estivill, X, Etemadmoghadam, D, Feuerbach, L, Fink, J L, Frenkel-Morgenstern, M, Garsed, D W, Gerstein, M, Gordenin, D A, Haan, D, Haber, J E, Hess, J M, Hutter, B, Imielinski, M, Jones, D T W, Ju, Y S, Kazanov, M D, Klimczak, L J, Koh, Y, Korbel, J O, Kumar, K, Lee, E A, Lee, JJ-K, Li, Y, Lynch, A G, Macintyre, G, Markowetz, F, Martincorena, I, Martinez-Fundichely, A, Meyerson, M, Miyano, S, Nakagawa, H, Navarro, F C P, Ossowski, S, Park, P J, Pearson, J V, Puiggròs, M, Rippe, K, Roberts, N D, Roberts, S A, Rodriguez-Martin, B, Schumacher, S E, Scully, R, Shackleton, M, Sidiropoulos, N, Sieverling, L, Stewart, C, Torrents, D, Tubio, J M C, Villasante, I, Waddell, N, Wala, J A, Weischenfeldt, J, Yang, L, Yao, X, Yoon, S-S, Zamora, J, Zhang, C-Z, Campbell, P J & Tubio, J M C 2020, ' Pan-cancer analysis of whole genomes identifies driver rearrangements promoted by LINE-1 retrotransposition ', Nature Genetics, vol. 52, no. 3, pp. 306-319 . https://doi.org/10.1038/s41588-019-0562-0
Rodriguez-Martin, B, Alvarez, E G, Baez-Ortega, A, Zamora, J, Supek, F, Demeulemeester, J, Santamarina, M, Ju, Y S, Temes, J, Garcia-Souto, D, Detering, H, Li, Y, Rodriguez-Castro, J, Dueso-Barroso, A, Bruzos, A L, Dentro, S C, Blanco, M G, Contino, G, Ardeljan, D, Tojo, M, Roberts, N D, Zumalave, S, Edwards, P A W, Weischenfeldt, J, Puiggròs, M, Chong, Z, Chen, K, Lee, E A, Wala, J A, Raine, K, Butler, A, Waszak, S M, Navarro, F C P, Schumacher, S E, Monlong, J, Maura, F, Bolli, N, Bourque, G, Gerstein, M, Park, P J, Wedge, D C, Beroukhim, R, Torrents, D, Korbel, J O, Martincorena, I, Fitzgerald, R C, Van Loo, P, Kazazian, H H, Sidiropoulos, N, Weischenfeldt, J, PCAWG Structural Variation Working Group & PCAWG Consortium 2020, ' Pan-cancer analysis of whole genomes identifies driver rearrangements promoted by LINE-1 retrotransposition ', Nature Genetics, vol. 52, no. 3, pp. 306-319 . https://doi.org/10.1038/s41588-019-0562-0
Nature Genetics, 52, 3, pp. 306-319
About half of all cancers have somatic integrations of retrotransposons. Here, to characterize their role in oncogenesis, we analyzed the patterns and mechanisms of somatic retrotransposition in 2,954 cancer genomes from 38 histological cancer subtyp
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::0a1bee2c01b8278d49bbe8813c2939cf
https://lirias.kuleuven.be/handle/123456789/651107
https://lirias.kuleuven.be/handle/123456789/651107