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4. Author Correction: Retrospective evaluation of whole exome and genome mutation calls in 746 cancer samples

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Bailey M. H., Meyerson W. U., Dursi L. J., Wang L. -B., Dong G., Liang W. -W., Weerasinghe A., Li S., Li Y., Kelso S., Akbani R., Anur P., Buchanan A., Chiotti K., Covington K., Creason A., Ding L., Ellrott K., Fan Y., Foltz S., Getz G., Hale W., Haussler D., Hess J. M., Hutter C. M., Kandoth C., Kasaian K., Kasapi M., Larson D., Leshchiner I., Letaw J., Ma S., McLellan M. D., Men Y., Mills G. B., Niu B., Peto M., Radenbaugh A., Reynolds S. M., Saksena G., Sofia H., Stewart C., Struck A. J., Stuart J. M., Wang W., Weinstein J. N., Wheeler D. A., Wong C. K., Xi L., Ye K., Bieg M., Boutros P. C., Buchhalter I., Butler A. P., Chen K., Chong Z., Drechsel O., Jonathan Dursi L., Eils R., Espiritu S. M. G., Fulton R. S., Gao S., Gelpi J. L., Gerstein M. B., Gonzalez S., Gut I. G., Hach F., Heinold M. C., Hinton J., Hu T., Huang V., Huang Y., Hutter B., Jones D. R., Jung J., Jager N., Kim H. -L., Kleinheinz K., Kumar S., Kumar Y., Lalansingh C. M., Letunic I., Livitz D., Ma E. Z., Maruvka Y. E., Mashl R. J., Menzies A., Milovanovic A., Nielsen M. M., Ossowski S., Paramasivam N., Pedersen J. S., Perry M. D., Puiggros M., Raine K. M., Rheinbay E., Royo R., Sahinalp S. C., Sarrafi I., Schlesner M., Simpson J. T., Stebbings L., Stobbe M. D., Teague J. W., Tiao G., Torrents D., Wala J. A., Wang J., Waszak S. M., Weischenfeldt J., Wendl M. C., Werner J., Wu Z., Xue H., Yakneen S., Yamaguchi T. N., Yellapantula V. D., Yung C. K., Zhang J., Aaltonen L. A., Abascal F., Abeshouse A., Aburatani H., Adams D. J., Agrawal N., Ahn K. S., Ahn S. -M., Aikata H., Akdemir K. C., Al-Ahmadie H., Al-Sedairy S. T., Al-Shahrour F., Alawi M., Albert M., Aldape K., Alexandrov L. B., Ally A., Alsop K., Alvarez E. G., Amary F., Amin S. B., Aminou B., Ammerpohl O., Anderson M. J., Ang Y., Antonello D., Aparicio S., Appelbaum E. L., Arai Y., Aretz A., Arihiro K., Ariizumi S. -I., Armenia J., Arnould L., Asa S., Assenov Y., Atwal G., Aukema S., Auman J. T., Aure M. R., Awadalla P., Aymerich M., Bader G. D., Baez-Ortega A., Bailey P. J., Balasundaram M., Balu S., Bandopadhayay P., Banks R. E., Barbi S., Barbour A. P., Barenboim J., Barnholtz-Sloan J., Barr H., Barrera E., Bartlett J., Bartolome J., Bassi C., Bathe O. F., Baumhoer D., Bavi P., Baylin S. B., Bazant W., Beardsmore D., Beck T. A., Behjati S., Behren A., Bell C., Beltran S., Benz C., Berchuck A., Bergmann A. K., Bergstrom E. N., Berman B. P., Berney D. M., Bernhart S. H., Beroukhim R., Berrios M., Bersani S., Bertl J., Betancourt M., Bhandari V., Bhosle S. G., Biankin A. V., Bigner D., Binder H., Birney E., Birrer M., Biswas N. K., Bjerkehagen B., Bodenheimer T., Boice L., Bonizzato G., De Bono J. S., Boot A., Bootwalla M. S., Borg A., Borkhardt A., Boroevich K. A., Borozan I., Borst C., Bosenberg M., Bosio M., Boultwood J., Bourque G., Bova G. S., Bowen D. T., Bowlby R., Bowtell D. D. L., Boyault S., Boyce R., Boyd J., Brazma A., Brennan P., Brewer D. S., Brinkman A. B., Bristow R. G., Broaddus R. R., Brock J. E., Brock M., Broeks A., Brooks A. N., Brooks D., Brors B., Brunak S., Bruxner T. J. C., Bruzos A. L., Buchholz C., Bullman S., Burke H., Burkhardt B., Burns K. H., Busanovich J., Bustamante C. D., Butte A. J., Byrne N. J., Borresen-Dale A. -L., Caesar-Johnson S. J., Cafferkey A., Cahill D., Calabrese C., Caldas C., Calvo F., Camacho N., Campbell P. J., Campo E., Cantu C., Cao S., Carey T. E., Carlevaro-Fita J., Carlsen R., Cataldo I., Cazzola M., Cebon J., Cerfolio R., Chadwick D. E., Chakravarty D., Chalmers D., Chan C. W. Y., Chan K., Chan-Seng-Yue M., Chandan V. S., Chang D. K., Chanock S. J., Chantrill L. A., Chateigner A., Chatterjee N., Chayama K., Chen H. -W., Chen J., Chen Y., Chen Z., Cherniack A. D., Chien J., Chiew Y. -E., Chin S. -F., Cho J., Cho S., Choi J. K., Choi W., Chomienne C., Choo S. P., Chou A., Christ A. N., Christie E. L., Chuah E., Cibulskis C., Cibulskis K., Cingarlini S., Clapham P., Claviez A., Cleary S., Cloonan N., Cmero M., Collins C. C., Connor A. A., Cooke S. L., Cooper C. S., Cope L., Corbo V., Cordes M. G., Cordner S. M., Cortes-Ciriano I., Cowin P. A., Craft B., Craft D., Creighton C. J., Cun Y., Curley E., Cutcutache I., Czajka K., Czerniak B., Dagg R. A., Danilova L., Davi M. V., Davidson N. R., Davies H., Davis I. J., Davis-Dusenbery B. N., Dawson K. J., De La Vega F. M., De Paoli-Iseppi R., Defreitas T., Dei Tos A. P., Delaneau O., Demchok J. A., Demeulemeester J., Demidov G. M., Demircioglu D., Dennis N. M., Denroche R. E., Dentro S. C., Desai N., Deshpande V., Deshwar A. G., Desmedt C., Deu-Pons J., Dhalla N., Dhani N. C., Dhingra P., Dhir R., DiBiase A., Diamanti K., Ding S., Dinh H. Q., Dirix L., Doddapaneni H. V., Donmez N., Dow M. T., Drapkin R., Drews R. M., Serge S., Dudderidge T., Dueso-Barroso A., Dunford A. J., Dunn M., Duthie F. R., Dutton-Regester K., Eagles J., Easton D. F., Edmonds S., Edwards P. A., Edwards S. E., Eeles R. A., Ehinger A., Eils J., El-Naggar A., Eldridge M., Erkek S., Escaramis G., Estivill X., Etemadmoghadam D., Eyfjord J. E., Faltas B. M., Fan D., Faquin W. C., Farcas C., Fassan M., Fatima A., Favero F., Fayzullaev N., Felau I., Fereday S., Ferguson M. L., Ferretti V., Feuerbach L., Field M. A., Fink J. L., Finocchiaro G., Fisher C., Fittall M. W., Fitzgerald A., Fitzgerald R. C., Flanagan A. M., Fleshner N. E., Flicek P., Foekens J. A., Fong K. M., Fonseca N. A., Foster C. S., Fox N. S., Fraser M., Frazer S., Frenkel-Morgenstern M., Friedman W., Frigola J., Fronick C. C., Fujimoto A., Fujita M., Fukayama M., Fulton L. A., Furuta M., Futreal P. A., Fullgrabe A., Gabriel S. B., Gallinger S., Gambacorti Passerini C., Gao J., Garraway L., Garred O., Garrison E., Garsed D. W., Gehlenborg N., George J., Gerhard D. S., Gerhauser C., Gershenwald J. E., Gerstung M., Ghori M., Ghossein R., Giama N. H., Gibbs R. A., Gill A. J., Gill P., Giri D. D., Glodzik D., Gnanapragasam V. J., Goebler M. E., Goldman M. J., Gomez C., Gonzalez-Perez A., Gordenin D. A., Gossage J., Gotoh K., Govindan R., Grabau D., Graham J. S., Grant R. C., Green A. R., Green E., Greger L., Grehan N., Grimaldi S., Grimmond S. M., Grossman R. L., Grundhoff A., Gundem G., Guo Q., Gupta M., Gupta S., Gut M., Goke J., Ha G., Haake A., Haan D., Haas S., Haase K., Haber J. E., Habermann N., Haider S., Hama N., Hamdy F. C., Hamilton A., Hamilton M. P., Han L., Hanna G. B., Hansmann M., Haradhvala N. J., Harismendy O., Harliwong I., Harmanci A. O., Harrington E., Hasegawa T., Hawkins S., Hayami S., Hayashi S., Hayes D. N., Hayes S. J., Hayward N. K., Hazell S., He Y., Heath A. P., Heath S. C., Hedley D., Hegde A. M., Heiman D. I., Heins Z., Heisler L. E., Hellstrom-Lindberg E., Helmy M., Heo S. G., Hepperla A. J., Heredia-Genestar J. M., Herrmann C., Hersey P., Hilmarsdottir H., Hirano S., Hiraoka N., Hoadley K. A., Hobolth A., Hodzic E., Hoell J. I., Hoffmann S., Hofmann O., Holbrook A., Holik A. Z., Hollingsworth M. A., Holmes O., Holt R. A., Hong C., Hong E. P., Hong J. H., Hooijer G. K., Hornshoj H., Hosoda F., Hou Y., Hovestadt V., Howat W., Hoyle A. P., Hruban R. H., Hu J., Hua X., Huang K. -L., Huang M., Huang M. N., Huber W., Hudson T. J., Hummel M., Hung J. A., Huntsman D., Hupp T. R., Huse J., Huska M. R., Hubschmann D., Iacobuzio-Donahue C. A., Imbusch C. D., Imielinski M., Imoto S., Isaacs W. B., Isaev K., Ishikawa S., Iskar M., Islam S. M. A., Ittmann M., Ivkovic S., Izarzugaza J. M. G., Jacquemier J., Jakrot V., Jamieson N. B., Jang G. H., Jang S. J., Jayaseelan J. C., Jayasinghe R., Jefferys S. R., Jegalian K., Jennings J. L., Jeon S. -H., Jerman L., Ji Y., Jiao W., Johansson P. A., Johns A. L., Johns J., Johnson R., Johnson T. A., Jolly C., Joly Y., Jonasson J. G., Jones C. D., Jones D. T. W., Jones N., Jones S. J. M., Jonkers J., Ju Y. S., Juhl H., Juul M., Juul R. I., Juul S., Kabbe R., Kahles A., Kahraman A., Kaiser V. B., Kakavand H., Kalimuthu S., von Kalle C., Kang K. J., Karaszi K., Karlan B., Karlic R., Karsch D., Kassahn K. S., Katai H., Kato M., Katoh H., Kawakami Y., Kay J. D., Kazakoff S. H., Kazanov M. D., Keays M., Kebebew E., Kefford R. F., Kellis M., Kench J. G., Kennedy C. J., Kerssemakers J. N. A., Khoo D., Khoo V., Khuntikeo N., Khurana E., Kilpinen H., Kim H. K., Kim H. -Y., Kim H., Kim J., Kim J. K., Kim Y., King T. A., Klapper W., Klimczak L. J., Knappskog S., Kneba M., Knoppers B. M., Koh Y., Jan Komorowski, Komura D., Komura M., Kong G., Kool M., Korbel J. O., Korchina V., Korshunov A., Koscher M., Koster R., Kote-Jarai Z., Koures A., Kovacevic M., Kremeyer B., Kretzmer H., Kreuz M., Krishnamurthy S., Kube D., Kumar K., Kumar P., Kundra R., Kubler K., Kuppers R., Lagergren J., Lai P. H., Laird P. W., Lakhani S. R., Lalonde E., Lamaze F. C., Lambert A., Lander E., Landgraf P., Landoni L., Langerod A., Lanzos A., Larsimont D., Larsson E., Lathrop M., Lau L. M. S., Lawerenz C., Lawlor R. T., Lawrence M. S., Lazar A. J., Le X., Lee D., Lee E. A., Lee H. J., Lee J. J. -K., Lee J. -Y., Lee J., Lee M. T. M., Lee-Six H., Lehmann K. -V., Lehrach H., Lenze D., Leonard C. R., Leongamornlert D. A., Letourneau L., Levine D. A., Lewis L., Ley T., Li C., Li C. H., Li H. I., Li J., Li L., Li X., Liang H., Liang S. -B., Lichter P., Lin P., Lin Z., Linehan W. M., Lingjaerde O. C., Liu D., Liu E. M., Liu F. -F., Liu F., Liu J., Liu X., Livingstone J., Livni N., Lochovsky L., Loeffler M., Long G. V., Lopez-Guillermo A., Lou S., Louis D. N., Lovat L. B., Lu Y., Lu Y. -J., Luchini C., Lungu I., Luo X., Luxton H. J., Lynch A. G., Lype L., Lopez C., Lopez-Otin C., Ma Y., MacGrogan G., MacRae S., Macintyre G., Madsen T., Maejima K., Mafficini A., Maglinte D. T., Maitra A., Majumder P. P., Malcovati L., Malikic S., Malleo G., Mann G. J., Mantovani-Loffler L., Marchal K., Marchegiani G., Mardis E. R., Margolin A. A., Marin M. G., Markowetz F., Markowski J., Marks J., Marques-Bonet T., Marra M. A., Marsden L., Martens J. W. M., Martin S., Martin-Subero J. I., Martincorena I., Martinez-Fundichely A., Massie C. E., Matthew T. J., Matthews L., Mayer E., Mayes S., Mayo M., Mbabaali F., McCune K., McDermott U., McGillivray P. D., McPherson J. D., McPherson J. R., McPherson T. A., Meier S. R., Meng A., Meng S., Merrett N. D., Merson S., Meyerson M., Mieczkowski P. A., Mihaiescu G. L., Mijalkovic S., Mijalkovic-Lazic A. M., Mikkelsen T., Milella M., Mileshkin L., Miller C. A., Miller D. K., Miller J. K., Minner S., Miotto M., Arnau G. M., Mirabello L., Mitchell C., Mitchell T. J., Miyano S., Miyoshi N., Mizuno S., Molnar-Gabor F., Moore M. J., Moore R. A., Morganella S., Morris Q. D., Morrison C., Mose L. E., Moser C. D., Muinos F., Mularoni L., Mungall A. J., Mungall K., Musgrove E. A., Mustonen V., Mutch D., Muyas F., Muzny D. M., Munoz A., Myers J., Myklebost O., Moller P., Nagae G., Nagrial A. M., Nahal-Bose H. K., Nakagama H., Nakagawa H., Nakamura H., Nakamura T., Nakano K., Nandi T., Nangalia J., Nastic M., Navarro A., Navarro F. C. P., Neal D. E., Nettekoven G., Newell F., Newhouse S. J., Newton Y., Ng A. W. T., Ng A., Nicholson J., Nicol D., Nie Y., Nielsen G. P., Nik-Zainal S., Noble M. S., Nones K., Northcott P. A., Notta F., O'Connor B. D., O'Donnell P., O'Donovan M., O'Meara S., O'Neill B. P., O'Neill J. R., Ocana D., Ochoa A., Oesper L., Ogden C., Ohdan H., Ohi K., Ohno-Machado L., Oien K. A., Ojesina A. I., Ojima H., Okusaka T., Omberg L., Ong C. K., Ott G., Ouellette B. F. F., P'ng C., Paczkowska M., Paiella S., Pairojkul C., Pajic M., Pan-Hammarstrom Q., Papaemmanuil E., Papatheodorou I., Park J. W., Park J. -W., Park K., Park P. J., Parker J. S., Parsons S. L., Pass H., Pasternack D., Pastore A., Patch A. -M., Pauporte I., Pea A., Pearson J. V., Pedamallu C. S., Pederzoli P., Peifer M., Pennell N. A., Perou C. M., Petersen G. M., Petrelli N., Petryszak R., Pfister S. M., Phillips M., Pich O., Pickett H. A., Pihl T. D., Pillay N., Pinder S., Pinese M., Pinho A. V., Pitkanen E., Pivot X., Pineiro-Yanez E., Planko L., Plass C., Polak P., Pons T., Popescu I., Potapova O., Prasad A., Preston S. R., Prinz M., Pritchard A. L., Prokopec S. D., Provenzano E., Puente X. S., Puig S., Pulido-Tamayo S., Pupo G. M., Purdie C. A., Quinn M. C., Rabionet R., Rader J. S., Radlwimmer B., Radovic P., Raeder B., Ramakrishna M., Ramakrishnan K., Ramalingam S., Raphael B. J., Rathmell W. K., Rausch T., Reifenberger G., Reimand J., Reis-Filho J., Reuter V., Reyes-Salazar I., Reyna M. A., Riazalhosseini Y., Richardson A. L., Richter J., Ringel M., Ringner M., Rino Y., Rippe K., Roach J., Roberts L. R., Roberts N. D., Roberts S. A., Robertson A. G., Robertson A. J., Rodriguez J. B., Rodriguez-Martin B., Rodriguez-Gonzalez F. G., Roehrl M. H. A., Rohde M., Rokutan H., Romieu G., Rooman I., Roques T., Rosebrock D., Rosenberg M., Rosenstiel P. C., Rosenwald A., Rowe E. W., Rozen S. G., Rubanova Y., Rubin M. A., Rubio-Perez C., Rudneva V. A., Rusev B. C., Ruzzenente A., Ratsch G., Sabarinathan R., Sabelnykova V. Y., Sadeghi S., Saini N., Saito-Adachi M., Salcedo A., Salgado R., Salichos L., Sallari R., Saller C., Salvia R., Sam M., Samra J. S., Sanchez-Vega F., Sander C., Sanders G., Sarin R., Sasaki-Oku A., Sauer T., Sauter G., Saw R. P. M., Scardoni M., Scarlett C. J., Scarpa A., Scelo G., Schadendorf D., Schein J. E., Schilhabel M. B., Schlomm T., Schmidt H. K., Schramm S. -J., Schreiber S., Schultz N., Schumacher S. E., Schwarz R. F., Scolyer R. A., Scott D., Scully R., Seethala R., Segre A. V., Selander I., Semple C. A., Senbabaoglu Y., Sengupta S., Sereni E., Serra S., Sgroi D. C., Shackleton M., Shah N. C., Shahabi S., Shang C. A., Shang P., Shapira O., Shelton T., Shen C., Shen H., Shepherd R., Shi R., Shi Y., Shiah Y. -J., Shibata T., Shih J., Shimizu E., Shimizu K., Shin S. J., Shiraishi Y., Shmaya T., Shmulevich I., Shorser S. I., Short C., Shrestha R., Shringarpure S. S., Shriver C., Shuai S., Sidiropoulos N., Siebert R., Sieuwerts A. M., Sieverling L., Signoretti S., Sikora K. O., Simbolo M., Simon R., Simons J. V., Singer S., Sinnott-Armstrong N., Sipahimalani P., Skelly T. J., Smid M., Smith J., Smith-McCune K., Socci N. D., Sofia H. J., Soloway M. G., Song L., Sood A. K., Sothi S., Sotiriou C., Soulette C. M., Span P. N., Spellman P. T., Sperandio N., Spillane A. J., Spiro O., Spring J., Staaf J., Stadler P. F., Staib P., Stark S. G., Stefansson O. A., Stegle O., Stein L. D., Stenhouse A., Stilgenbauer S., Stratton M. R., Stretch J. R., Stunnenberg H. G., Su H., Su X., Sun R. X., Sungalee S., Susak H., Suzuki A., Sweep F., Szczepanowski M., Sultmann H., Yugawa T., Tam A., Tamborero D., Tan B. K. T., Tan D., Tan P., Tanaka H., Taniguchi H., Tanskanen T. J., Tarabichi M., Tarnuzzer R., Tarpey P., Taschuk M. L., Tatsuno K., Tavare S., Taylor D. F., Taylor-Weiner A., Teh B. T., Tembe V., Temes J., Thai K., Thayer S. P., Thiessen N., Thomas G., Thomas S., Thompson A., Thompson A. M., Thompson J. F., Thompson R. H., Thorne H., Thorne L. B., Thorogood A., Tijanic N., Timms L. E., Tirabosco R., Tojo M., Tommasi S., Toon C. W., Toprak U. H., Tortora G., Tost J., Totoki Y., Townend D., Traficante N., Treilleux I., Trotta J. -R., Trumper L. H. P., Tsao M., Tsunoda T., Tubio J. M. C., Tucker O., Turkington R., Turner D. J., Tutt A., Ueno M., Ueno N. T., Umbricht C., Umer H. M., Underwood T. J., Urban L., Urushidate T., Ushiku T., Uuskula-Reimand L., Valencia A., Van Den Berg D. J., Van Laere S., Van Loo P., Van Meir E. G., Van den Eynden G. G., Van der Kwast T., Vasudev N., Vazquez M., Vedururu R., Veluvolu U., Vembu S., Verbeke L. P. C., Vermeulen P., Verrill C., Viari A., Vicente D., Vicentini C., Raghavan K. V., Viksna J., Vilain R. E., Villasante I., Vincent-Salomon A., Visakorpi T., Voet D., Vyas P., Vazquez-Garcia I., Waddell N. M., Waddell N., Wadelius C., Wadi L., Wagener R., Wang L., Wang Q., Wang Y., Wang Z., Waring P. M., Warnatz H. -J., Warrell J., Warren A. Y., Wedge D. C., Weichenhan D., Weinberger P., Weisenberger D. J., Welch I., Whalley J. P., Whitaker H. C., Wigle D., Wilkerson M. D., Williams A., Wilmott J. S., Wilson G. W., Wilson J. M., Wilson R. K., Winterhoff B., Wintersinger J. A., Wiznerowicz M., Wolf S., Wong B. H., Wong T., Wong W., Woo Y., Wood S., Wouters B. G., Wright A. J., Wright D. W., Wright M. H., Wu C. -L., Wu D. -Y., Wu G., Wu J., Wu K., Wu Y., Xia T., Xiang Q., Xiao X., Xing R., Xiong H., Xu Q., Xu Y., Yachida S., Yamaguchi R., Yamamoto M., Yamamoto S., Yamaue H., Yang F., Yang H., Yang J. Y., Yang L., Yang S., Yang T. -P., Yang Y., Yao X., Yaspo M. -L., Yates L., Yau C., Ye C., Yoon C. J., Yoon S. -S., Yousif F., Yu J., Yu K., Yu W., Yu Y., Yuan K., Yuan Y., Yuen D., Zaikova O., Zamora J., Zapatka M., Zenklusen J. C., Zenz T., Zeps N., Zhang C. -Z., Zhang F., Zhang H., Zhang X., Zhang Y., Zhang Z., Zhao Z., Zheng L., Zheng X., Zhou W., Zhou Y., Bin Zhu, Zhu H., Zhu J., Zhu S., Zou L., Zou X., deFazio A., van As N., van Deurzen C. H. M., van de Vijver M. J., van't Veer L., von Mering C., Bailey, M, Meyerson, W, Dursi, L, Wang, L, Dong, G, Liang, W, Weerasinghe, A, Li, S, Li, Y, Kelso, S, Akbani, R, Anur, P, Buchanan, A, Chiotti, K, Covington, K, Creason, A, Ding, L, Ellrott, K, Fan, Y, Foltz, S, Getz, G, Hale, W, Haussler, D, Hess, J, Hutter, C, Kandoth, C, Kasaian, K, Kasapi, M, Larson, D, Leshchiner, I, Letaw, J, Ma, S, Mclellan, M, Men, Y, Mills, G, Niu, B, Peto, M, Radenbaugh, A, Reynolds, S, Saksena, G, Sofia, H, Stewart, C, Struck, A, Stuart, J, Wang, W, Weinstein, J, Wheeler, D, Wong, C, Xi, L, Ye, K, Bieg, M, Boutros, P, Buchhalter, I, Butler, A, Chen, K, Chong, Z, Drechsel, O, Jonathan Dursi, L, Eils, R, Espiritu, S, Fulton, R, Gao, S, Gelpi, J, Gerstein, M, Gonzalez, S, Gut, I, Hach, F, Heinold, M, Hinton, J, Hu, T, Huang, V, Huang, Y, Hutter, B, Jones, D, Jung, J, Jager, N, Kim, H, Kleinheinz, K, Kumar, S, Kumar, Y, Lalansingh, C, Letunic, I, Livitz, D, Ma, E, Maruvka, Y, Mashl, R, Menzies, A, Milovanovic, A, Nielsen, M, Ossowski, S, Paramasivam, N, Pedersen, J, Perry, M, Puiggros, M, Raine, K, Rheinbay, E, Royo, R, Sahinalp, S, Sarrafi, I, Schlesner, M, Simpson, J, Stebbings, L, Stobbe, M, Teague, J, Tiao, G, Torrents, D, Wala, J, Wang, J, Waszak, S, Weischenfeldt, J, Wendl, M, Werner, J, Wu, Z, Xue, H, Yakneen, S, Yamaguchi, T, Yellapantula, V, Yung, C, Zhang, J, Aaltonen, L, Abascal, F, Abeshouse, A, Aburatani, H, Adams, D, Agrawal, N, Ahn, K, Ahn, S, Aikata, H, Akdemir, K, Al-Ahmadie, H, Al-Sedairy, S, Al-Shahrour, F, Alawi, M, Albert, M, Aldape, K, Alexandrov, L, Ally, A, Alsop, K, Alvarez, E, Amary, F, Amin, S, Aminou, B, Ammerpohl, O, Anderson, M, Ang, Y, Antonello, D, Aparicio, S, Appelbaum, E, Arai, Y, Aretz, A, Arihiro, K, Ariizumi, S, Armenia, J, Arnould, L, Asa, S, Assenov, Y, Atwal, G, Aukema, S, Auman, J, Aure, M, Awadalla, P, Aymerich, M, Bader, G, Baez-Ortega, A, Bailey, P, Balasundaram, M, Balu, S, Bandopadhayay, P, Banks, R, Barbi, S, Barbour, A, Barenboim, J, Barnholtz-Sloan, J, 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Y, Yuen, D, Zaikova, O, Zamora, J, Zapatka, M, Zenklusen, J, Zenz, T, Zeps, N, Zhang, C, Zhang, F, Zhang, H, Zhang, X, Zhang, Y, Zhang, Z, Zhao, Z, Zheng, L, Zheng, X, Zhou, W, Zhou, Y, Bin, Z, Zhu, H, Zhu, J, Zhu, S, Zou, L, Zou, X, Defazio, A, van As, N, van Deurzen, C, van de Vijver, M, van't Veer, L, von Mering, C, University of Zurich, Gerstein, Mark B, Ding, Li, and Faculty of Economic and Social Sciences and Solvay Business School

Subjects
Science, MEDLINE, Medizin, General Physics and Astronomy, Pain, 610 Medicine & health, 1600 General Chemistry, Computational biology, Biology, 10 kHz spinal cord stimulation, Genome, responders, MC3 Working Group, General Biochemistry, Genetics and Molecular Biology, whole exome sequencing, Machine Learning, 1300 General Biochemistry, Genetics and Molecular Biology, PCAWG novel somatic mutation calling methods working group, medicine, cancer, Genome mutation, Exome, Exome sequencing, Whole genome sequencing, whole genome sequencing, Multidisciplinary, Published Erratum, Cancer, PCAWG Consortium, General Chemistry, medicine.disease, 3100 General Physics and Astronomy, oncology, 10032 Clinic for Oncology and Hematology, Prediction
Abstract

Weitere Nicht-UDE-Autoren sind nicht genannt. Originalpublikation: 10.1038/s41467-020-18151-y. CA extern The original version of this Article omitted from the author list the 9th author Yize Li, who is from the ‘The McDonnell Genome Institute at Washington University, St. Louis, MO 63108, USA and Department of Medicine, Division of Oncology, Washington University School of Medicine, St. Louis, MO 63108, USA’. This has been corrected in both the PDF and HTML versions of the Article. © 2020, The Author(s).

Published
2020

5. Sex differences in oncogenic mutational processes

Author

Li C. H., Prokopec S. D., Sun R. X., Yousif F., Schmitz N., Al-Shahrour F., Atwal G., Bailey P. J., Biankin A. V., Boutros P. C., Campbell P. J., Chang D. K., Cooke S. L., Deshpande V., Faltas B. M., Faquin W. C., Garraway L., Getz G., Grimmond S. M., Haider S., Hoadley K. A., Jiao W., Kaiser V. B., Karlic R., Kato M., Kubler K., Lazar A. J., Louis D. N., Margolin A., Martin S., Nahal-Bose H. K., Nielsen G. P., Nik-Zainal S., Omberg L., P'ng C., Perry M. D., Polak P., Rheinbay E., Rubin M. A., Semple C. A., Sgroi D. C., Shibata T., Siebert R., Smith J., Stein L. D., Stobbe M. D., Thai K., Wright D. W., Wu C. -L., Yuan K., Zhang J., Aaltonen L. A., Abascal F., Abeshouse A., Aburatani H., Adams D. J., Agrawal N., Ahn K. S., Ahn S. -M., Aikata H., Akbani R., Akdemir K. C., Al-Ahmadie H., Al-Sedairy S. T., Alawi M., Albert M., Aldape K., Alexandrov L. B., Ally A., Alsop K., Alvarez E. G., Amary F., Amin S. B., Aminou B., Ammerpohl O., Anderson M. J., Ang Y., Antonello D., Anur P., Aparicio S., Appelbaum E. L., Arai Y., Aretz A., Arihiro K., Ariizumi S. -I., Armenia J., Arnould L., Asa S., Assenov Y., Aukema S., Auman J. T., Aure M. R., Awadalla P., Aymerich M., Bader G. D., Baez-Ortega A., Bailey M. H., Balasundaram M., Balu S., Bandopadhayay P., Banks R. E., Barbi S., Barbour A. P., Barenboim J., Barnholtz-Sloan J., Barr H., Barrera E., Bartlett J., Bartolome J., Bassi C., Bathe O. F., Baumhoer D., Bavi P., Baylin S. B., Bazant W., Beardsmore D., Beck T. A., Behjati S., Behren A., Niu B., Bell C., Beltran S., Benz C., Berchuck A., Bergmann A. K., Bergstrom E. N., Berman B. P., Berney D. M., Bernhart S. H., Beroukhim R., Berrios M., Bersani S., Bertl J., Betancourt M., Bhandari V., Bhosle S. G., Bieg M., Bigner D., Binder H., Birney E., Birrer M., Biswas N. K., Bjerkehagen B., Bodenheimer T., Boice L., Bonizzato G., De Bono J. S., Boot A., Bootwalla M. S., Borg A., Borkhardt A., Boroevich K. A., Borozan I., Borst C., Bosenberg M., Bosio M., Boultwood J., Bourque G., Bova G. S., Bowen D. T., Bowlby R., Bowtell D. D. L., Boyault S., Boyce R., Boyd J., Brazma A., Brennan P., Brewer D. S., Brinkman A. B., Bristow R. G., Broaddus R. R., Brock J. E., Brock M., Broeks A., Brooks A. N., Brooks D., Brors B., Brunak S., Bruxner T. J. C., Bruzos A. L., Buchanan A., Buchhalter I., Buchholz C., Bullman S., Burke H., Burkhardt B., Burns K. H., Busanovich J., Bustamante C. D., Butler A. P., Butte A. J., Byrne N. J., Borresen-Dale A. -L., Caesar-Johnson S. J., Cafferkey A., Cahill D., Calabrese C., Caldas C., Calvo F., Camacho N., Campo E., Cantu C., Cao S., Carey T. E., Carlevaro-Fita J., Carlsen R., Cataldo I., Cazzola M., Cebon J., Cerfolio R., Chadwick D. E., Chakravarty D., Chalmers D., Chan C. W. Y., Chan K., Chan-Seng-Yue M., Chandan V. S., Chanock S. J., Chantrill L. A., Chateigner A., Chatterjee N., Chayama K., Chen H. -W., Chen J., Chen K., Chen Y., Chen Z., Cherniack A. D., Chien J., Chiew Y. -E., Chin S. -F., Cho J., Cho S., Choi J. K., Choi W., Chomienne C., Chong Z., Choo S. P., Chou A., Christ A. N., Christie E. L., Chuah E., Cibulskis C., Cibulskis K., Cingarlini S., Clapham P., Claviez A., Cleary S., Cloonan N., Cmero M., Collins C. C., Connor A. A., Cooper C. S., Cope L., Corbo V., Cordes M. G., Cordner S. M., Cortes-Ciriano I., Covington K., Cowin P. A., Craft B., Craft D., Creighton C. J., Cun Y., Curley E., Cutcutache I., Czajka K., Czerniak B., Dagg R. A., Danilova L., Davi M. V., Davidson N. R., Davies H., Davis I. J., Davis-Dusenbery B. N., Dawson K. J., De La Vega F. M., De Paoli-Iseppi R., Defreitas T., Dei Tos A. P., Delaneau O., Demchok J. A., Demeulemeester J., Demidov G. M., Demircioglu D., Dennis N. M., Denroche R. E., Dentro S. C., Desai N., Deshwar A. G., Desmedt C., Deu-Pons J., Dhalla N., Dhani N. C., Dhingra P., Dhir R., DiBiase A., Diamanti K., Ding L., Ding S., Dinh H. Q., Dirix L., Doddapaneni H. V., Donmez N., Dow M. T., Drapkin R., Drechsel O., Drews R. M., Serge S., Dudderidge T., Dueso-Barroso A., Dunford A. J., Dunn M., Dursi L. J., Duthie F. R., Dutton-Regester K., Eagles J., Easton D. F., Edmonds S., Edwards P. A., Edwards S. E., Eeles R. A., Ehinger A., Eils J., Eils R., El-Naggar A., Eldridge M., Ellrott K., Erkek S., Escaramis G., Espiritu S. M. G., Estivill X., Etemadmoghadam D., Eyfjord J. E., Fan D., Fan Y., Farcas C., Fassan M., Fatima A., Favero F., Fayzullaev N., Felau I., Fereday S., Ferguson M. L., Ferretti V., Feuerbach L., Field M. A., Fink J. L., Finocchiaro G., Fisher C., Fittall M. W., Fitzgerald A., Fitzgerald R. C., Flanagan A. M., Fleshner N. E., Flicek P., Foekens J. A., Fong K. M., Fonseca N. A., Foster C. S., Fox N. S., Fraser M., Frazer S., Frenkel-Morgenstern M., Friedman W., Frigola J., Fronick C. C., Fujimoto A., Fujita M., Fukayama M., Fulton L. A., Fulton R. S., Furuta M., Futreal P. A., Fullgrabe A., Gabriel S. B., Gallinger S., Gambacorti Passerini C., Gao J., Gao S., Garred O., Garrison E., Garsed D. W., Gehlenborg N., Gelpi J. L. L., George J., Gerhard D. S., Gerhauser C., Gershenwald J. E., Gerstein M., Gerstung M., Ghori M., Ghossein R., Giama N. H., Gibbs R. A., Gill A. J., Gill P., Giri D. D., Glodzik D., Gnanapragasam V. J., Goebler M. E., Goldman M. J., Gomez C., Gonzalez S., Gonzalez-Perez A., Gordenin D. A., Gossage J., Gotoh K., Govindan R., Grabau D., Graham J. S., Grant R. C., Green A. R., Green E., Greger L., Grehan N., Grimaldi S., Grossman R. L., Grundhoff A., Gundem G., Guo Q., Gupta M., Gupta S., Gut I. G., Gut M., Goke J., Ha G., Haake A., Haan D., Haas S., Haase K., Haber J. E., Habermann N., Hach F., Hama N., Hamdy F. C., Hamilton A., Hamilton M. P., Han L., Hanna G. B., Hansmann M., Haradhvala N. J., Harismendy O., Harliwong I., Harmanci A. O., Harrington E., Hasegawa T., Haussler D., Hawkins S., Hayami S., Hayashi S., Hayes D. N., Hayes S. J., Hayward N. K., Hazell S., He Y., Heath A. P., Heath S. C., Hedley D., Hegde A. M., Heiman D. I., Heinold M. C., Heins Z., Heisler L. E., Hellstrom-Lindberg E., Helmy M., Heo S. G., Hepperla A. J., Heredia-Genestar J. M., Herrmann C., Hersey P., Hess J. M., Hilmarsdottir H., Hinton J., Hirano S., Hiraoka N., Hobolth A., Hodzic E., Hoell J. I., Hoffmann S., Hofmann O., Holbrook A., Holik A. Z., Hollingsworth M. A., Holmes O., Holt R. A., Hong C., Hong E. P., Hong J. H., Hooijer G. K., Hornshoj H., Hosoda F., Hou Y., Hovestadt V., Howat W., Hoyle A. P., Hruban R. H., Hu J., Hu T., Hua X., Huang K. -L., Huang M., Huang M. N., Huang V., Huang Y., Huber W., Hudson T. J., Hummel M., Hung J. A., Huntsman D., Hupp T. R., Huse J., Huska M. R., Hutter B., Hutter C. M., Hubschmann D., Iacobuzio-Donahue C. A., Imbusch C. D., Imielinski M., Imoto S., Isaacs W. B., Isaev K., Ishikawa S., Iskar M., Islam S. M. A., Ittmann M., Ivkovic S., Izarzugaza J. M. G., Jacquemier J., Jakrot V., Jamieson N. B., Jang G. H., Jang S. J., Jayaseelan J. C., Jayasinghe R., Jefferys S. R., Jegalian K., Jennings J. L., Jeon S. -H., Jerman L., Ji Y., Johansson P. A., Johns A. L., Johns J., Johnson R., Johnson T. A., Jolly C., Joly Y., Jonasson J. G., Jones C. D., Jones D. R., Jones D. T. W., Jones N., Jones S. J. M., Jonkers J., Ju Y. S., Juhl H., Jung J., Juul M., Juul R. I., Juul S., Jager N., Kabbe R., Kahles A., Kahraman A., Kakavand H., Kalimuthu S., von Kalle C., Kang K. J., Karaszi K., Karlan B., Karsch D., Kasaian K., Kassahn K. S., Katai H., Katoh H., Kawakami Y., Kay J. D., Kazakoff S. H., Kazanov M. D., Keays M., Kebebew E., Kefford R. F., Kellis M., Kench J. G., Kennedy C. J., Kerssemakers J. N. A., Khoo D., Khoo V., Khuntikeo N., Khurana E., Kilpinen H., Kim H. K., Kim H. -L., Kim H. -Y., Kim H., Kim J., Kim J. K., Kim Y., King T. A., Klapper W., Kleinheinz K., Klimczak L. J., Knappskog S., Kneba M., Knoppers B. M., Koh Y., Komorowski J., Komura D., Komura M., Kong G., Kool M., Korbel J. O., Korchina V., Korshunov A., Koscher M., Koster R., Kote-Jarai Z., Koures A., Kovacevic M., Kremeyer B., Kretzmer H., Kreuz M., Krishnamurthy S., Kube D., Kumar K., Kumar P., Kumar S., Kumar Y., Kundra R., Kuppers R., Lagergren J., Lai P. H., Laird P. W., Lakhani S. R., Lalansingh C. M., Lalonde E., Lamaze F. C., Lambert A., Lander E., Landgraf P., Landoni L., Langerod A., Lanzos A., Larsimont D., Larsson E., Lathrop M., Lau L. M. S., Lawerenz C., Lawlor R. T., Lawrence M. S., Le X., Lee D., Lee E. A., Lee H. J., Lee J. J. -K., Lee J. -Y., Lee J., Lee M. T. M., Lee-Six H., Lehmann K. -V., Lehrach H., Lenze D., Leonard C. R., Leongamornlert D. A., Leshchiner I., Letourneau L., Letunic I., Levine D. A., Lewis L., Ley T., Li C., Li H. I., Li J., Li L., Li S., Li X., Li Y., Liang H., Liang S. -B., Lichter P., Lin P., Lin Z., Linehan W. M., Lingjaerde O. C., Liu D., Liu E. M., Liu F. -F., Liu F., Liu J., Liu X., Livingstone J., Livitz D., Livni N., Lochovsky L., Loeffler M., Long G. V., Lopez-Guillermo A., Lou S., Lovat L. B., Lu Y., Lu Y. -J., Luchini C., Lungu I., Luo X., Luxton H. J., Lynch A. G., Lype L., Lopez C., Lopez-Otin C., Ma E. Z., Ma Y., MacGrogan G., MacRae S., Macintyre G., Madsen T., Maejima K., Mafficini A., Maglinte D. T., Maitra A., Majumder P. P., Malcovati L., Malikic S., Malleo G., Mann G. J., Mantovani-Loffler L., Marchal K., Marchegiani G., Mardis E. R., Margolin A. A., Marin M. G., Markowetz F., Markowski J., Marks J., Marques-Bonet T., Marra M. A., Marsden L., Martens J. W. M., Martin-Subero J. I., Martincorena I., Martinez-Fundichely A., Maruvka Y. E., Mashl R. J., Massie C. E., Matthew T. J., Matthews L., Mayer E., Mayes S., Mayo M., Mbabaali F., McCune K., McDermott U., McGillivray P. D., McLellan M. D., McPherson J. D., McPherson J. R., McPherson T. A., Meier S. R., Meng A., Meng S., Menzies A., Merrett N. D., Merson S., Meyerson M., Meyerson W., Mieczkowski P. A., Mihaiescu G. L., Mijalkovic S., Mijalkovic-Lazic A. M., Mikkelsen T., Milella M., Mileshkin L., Miller C. A., Miller D. K., Miller J. K., Mills G. B., Milovanovic A., Minner S., Miotto M., Arnau G. M., Mirabello L., Mitchell C., Mitchell T. J., Miyano S., Miyoshi N., Mizuno S., Molnar-Gabor F., Moore M. J., Moore R. A., Morganella S., Morris Q. D., Morrison C., Mose L. E., Moser C. D., Muinos F., Mularoni L., Mungall A. J., Mungall K., Musgrove E. A., Mustonen V., Mutch D., Muyas F., Muzny D. M., Munoz A., Myers J., Myklebost O., Moller P., Nagae G., Nagrial A. M., Nakagama H., Nakagawa H., Nakamura H., Nakamura T., Nakano K., Nandi T., Nangalia J., Nastic M., Navarro A., Navarro F. C. P., Neal D. E., Nettekoven G., Newell F., Newhouse S. J., Newton Y., Ng A. W. T., Ng A., Nicholson J., Nicol D., Nie Y., Nielsen M. M., Noble M. S., Nones K., Northcott P. A., Notta F., O'Connor B. D., O'Donnell P., O'Donovan M., O'Meara S., O'Neill B. P., O'Neill J. R., Ocana D., Ochoa A., Oesper L., Ogden C., Ohdan H., Ohi K., Ohno-Machado L., Oien K. A., Ojesina A. I., Ojima H., Okusaka T., Ong C. K., Ossowski S., Ott G., Ouellette B. F. F., Paczkowska M., Paiella S., Pairojkul C., Pajic M., Pan-Hammarstrom Q., Papaemmanuil E., Papatheodorou I., Paramasivam N., Park J. W., Park J. -W., Park K., Park P. J., Parker J. S., Parsons S. L., Pass H., Pasternack D., Pastore A., Patch A. -M., Pauporte I., Pea A., Pearson J. V., Pedamallu C. S., Pedersen J. S., Pederzoli P., Peifer M., Pennell N. A., Perou C. M., Petersen G. M., Peto M., Petrelli N., Petryszak R., Pfister S. M., Phillips M., Pich O., Pickett H. A., Pihl T. D., Pillay N., Pinder S., Pinese M., Pinho A. V., Pitkanen E., Pivot X., Pineiro-Yanez E., Planko L., Plass C., Pons T., Popescu I., Potapova O., Prasad A., Preston S. R., Prinz M., Pritchard A. L., Provenzano E., Puente X. S., Puig S., Puiggros M., Pulido-Tamayo S., Pupo G. M., Purdie C. A., Quinn M. C., Rabionet R., Rader J. S., Radlwimmer B., Radovic P., Raeder B., Raine K. M., Ramakrishna M., Ramakrishnan K., Ramalingam S., Raphael B. J., Rathmell W. K., Rausch T., Reifenberger G., Reimand J., Reis-Filho J., Reuter V., Reyes-Salazar I., Reyna M. A., Reynolds S. M., Riazalhosseini Y., Richardson A. L., Richter J., Ringel M., Ringner M., Rino Y., Rippe K., Roach J., Roberts L. R., Roberts N. D., Roberts S. A., Robertson A. G., Robertson A. J., Rodriguez J. B., Rodriguez-Martin B., Rodriguez-Gonzalez F. G., Roehrl M. H. A., Rohde M., Rokutan H., Romieu G., Rooman I., Roques T., Rosebrock D., Rosenberg M., Rosenstiel P. C., Rosenwald A., Rowe E. W., Royo R., Rozen S. G., Rubanova Y., Rubio-Perez C., Rudneva V. A., Rusev B. C., Ruzzenente A., Ratsch G., Sabarinathan R., Sabelnykova V. Y., Sadeghi S., Sahinalp S. C., Saini N., Saito-Adachi M., Saksena G., Salcedo A., Salgado R., Salichos L., Sallari R., Saller C., Salvia R., Sam M., Samra J. S., Sanchez-Vega F., Sander C., Sanders G., Sarin R., Sarrafi I., Sasaki-Oku A., Sauer T., Sauter G., Saw R. P. M., Scardoni M., Scarlett C. J., Scarpa A., Scelo G., Schadendorf D., Schein J. E., Schilhabel M. B., Schlesner M., Schlomm T., Schmidt H. K., Schramm S. -J., Schreiber S., Schultz N., Schumacher S. E., Schwarz R. F., Scolyer R. A., Scott D., Scully R., Seethala R., Segre A. V., Selander I., Senbabaoglu Y., Sengupta S., Sereni E., Serra S., Shackleton M., Shah N. C., Shahabi S., Shang C. A., Shang P., Shapira O., Shelton T., Shen C., Shen H., Shepherd R., Shi R., Shi Y., Shiah Y. -J., Shih J., Shimizu E., Shimizu K., Shin S. J., Shiraishi Y., Shmaya T., Shmulevich I., Shorser S. I., Short C., Shrestha R., Shringarpure S. S., Shriver C., Shuai S., Sidiropoulos N., Sieuwerts A. M., Sieverling L., Signoretti S., Sikora K. O., Simbolo M., Simon R., Simons J. V., Simpson J. T., Simpson P. T., Singer S., Sinnott-Armstrong N., Sipahimalani P., Skelly T. J., Smid M., Smith-McCune K., Socci N. D., Sofia H. J., Soloway M. G., Song L., Sood A. K., Sothi S., Sotiriou C., Soulette C. M., Span P. N., Spellman P. T., Sperandio N., Spillane A. J., Spiro O., Spring J., Staaf J., Stadler P. F., Staib P., Stark S. G., Stebbings L., Stefansson O. A., Stegle O., Stenhouse A., Stewart C., Stilgenbauer S., Stratton M. R., Stretch J. R., Struck A. J., Stuart J. M., Stunnenberg H. G., Su H., Su X., Sungalee S., Susak H., Suzuki A., Sweep F., Szczepanowski M., Sultmann H., Yugawa T., Tam A., Tamborero D., Tan B. K. T., Tan D., Tan P., Tanaka H., Taniguchi H., Tanskanen T. J., Tarabichi M., Tarnuzzer R., Tarpey P., Taschuk M. L., Tatsuno K., Tavare S., Taylor D. F., Taylor-Weiner A., Teague J. W., Teh B. T., Tembe V., Temes J., Thayer S. P., Thiessen N., Thomas G., Thomas S., Thompson A., Thompson A. M., Thompson J. F., Thompson R. H., Thorne H., Thorne L. B., Thorogood A., Tiao G., Tijanic N., Timms L. E., Tirabosco R., Tojo M., Tommasi S., Toon C. W., Toprak U. H., Torrents D., Tortora G., Tost J., Totoki Y., Townend D., Traficante N., Treilleux I., Trotta J. -R., Trumper L. H. P., Tsao M., Tsunoda T., Tubio J. M. C., Tucker O., Turkington R., Turner D. J., Tutt A., Ueno M., Ueno N. T., Umbricht C., Umer H. M., Underwood T. J., Urban L., Urushidate T., Ushiku T., Uuskula-Reimand L., Valencia A., Van Den Berg D. J., Van Laere S., Van Loo P., Van Meir E. G., Van den Eynden G. G., Van der Kwast T., Vasudev N., Vazquez M., Vedururu R., Veluvolu U., Vembu S., Verbeke L. P. C., Vermeulen P., Verrill C., Viari A., Vicente D., Vicentini C., Raghavan K. V., Viksna J., Vilain R. E., Villasante I., Vincent-Salomon A., Visakorpi T., Voet D., Vyas P., Vazquez-Garcia I., Waddell N. M., Waddell N., Wadelius C., Wadi L., Wagener R., Wala J. A., Wang J., Wang L., Wang Q., Wang W., Wang Y., Wang Z., Waring P. M., Warnatz H. -J., Warrell J., Warren A. Y., Waszak S. M., Wedge D. C., Weichenhan D., Weinberger P., Weinstein J. N., Weischenfeldt J., Weisenberger D. J., Welch I., Wendl M. C., Werner J., Whalley J. P., Wheeler D. A., Whitaker H. C., Wigle D., Wilkerson M. D., Williams A., Wilmott J. S., Wilson G. W., Wilson J. M., Wilson R. K., Winterhoff B., Wintersinger J. A., Wiznerowicz M., Wolf S., Wong B. H., Wong T., Wong W., Woo Y., Wood S., Wouters B. G., Wright A. J., Wright M. H., Wu D. -Y., Wu G., Wu J., Wu K., Wu Y., Wu Z., Xi L., Xia T., Xiang Q., Xiao X., Xing R., Xiong H., Xu Q., Xu Y., Xue H., Yachida S., Yakneen S., Yamaguchi R., Yamaguchi T. N., Yamamoto M., Yamamoto S., Yamaue H., Yang F., Yang H., Yang J. Y., Yang L., Yang S., Yang T. -P., Yang Y., Yao X., Yaspo M. -L., Yates L., Yau C., Ye C., Ye K., Yellapantula V. D., Yoon C. J., Yoon S. -S., Yu J., Yu K., Yu W., Yu Y., Yuan Y., Yuen D., Yung C. K., Zaikova O., Zamora J., Zapatka M., Zenklusen J. C., Zenz T., Zeps N., Zhang C. -Z., Zhang F., Zhang H., Zhang X., Zhang Y., Zhang Z., Zhao Z., Zheng L., Zheng X., Zhou W., Zhou Y., Zhu B., Zhu H., Zhu J., Zhu S., Zou L., Zou X., deFazio A., van As N., van Deurzen C. H. M., van de Vijver M. J., Veer L., von Mering C., Lauri Antti Aaltonen / Principal Investigator, Genome-Scale Biology (GSB) Research Program, Department of Medical and Clinical Genetics, Organismal and Evolutionary Biology Research Programme, Helsinki Institute for Information Technology, Institute of Biotechnology, Bioinformatics, Department of Computer Science, Faculty of Medicine, HUS Helsinki and Uusimaa Hospital District, University of St Andrews. Sir James Mackenzie Institute for Early Diagnosis, University of St Andrews. Cellular Medicine Division, University of St Andrews. Statistics, University of St Andrews. School of Medicine, Heilbrigðisvísindasvið (HÍ), School of Health Sciences (UI), Háskóli Íslands, University of Iceland, Li, C, Prokopec, S, Sun, R, Yousif, F, Schmitz, N, Al-Shahrour, F, Atwal, G, Bailey, P, Biankin, A, Boutros, P, Campbell, P, Chang, D, Cooke, S, Deshpande, V, Faltas, B, Faquin, W, Garraway, L, Getz, G, Grimmond, S, Haider, S, Hoadley, K, Jiao, W, Kaiser, V, Karlic, R, Kato, M, Kubler, K, Lazar, A, Louis, D, Margolin, A, Martin, S, Nahal-Bose, H, Nielsen, G, Nik-Zainal, S, Omberg, L, P'Ng, C, Perry, M, Polak, P, Rheinbay, E, Rubin, M, Semple, C, Sgroi, D, Shibata, T, Siebert, R, Smith, J, Stein, L, Stobbe, M, Thai, K, Wright, D, Wu, C, Yuan, K, Zhang, J, Aaltonen, L, Abascal, F, Abeshouse, A, Aburatani, H, Adams, D, Agrawal, N, Ahn, K, Ahn, S, Aikata, H, Akbani, R, Akdemir, K, Al-Ahmadie, H, Al-Sedairy, S, Alawi, M, Albert, M, Aldape, K, Alexandrov, L, Ally, A, Alsop, K, Alvarez, E, Amary, F, Amin, S, Aminou, B, Ammerpohl, O, Anderson, M, Ang, Y, Antonello, D, Anur, P, Aparicio, S, Appelbaum, E, Arai, Y, Aretz, A, Arihiro, K, Ariizumi, S, Armenia, J, Arnould, L, Asa, S, Assenov, Y, Aukema, S, Auman, J, Aure, M, Awadalla, P, Aymerich, M, Bader, G, Baez-Ortega, A, Bailey, M, Balasundaram, M, Balu, S, Bandopadhayay, P, Banks, R, Barbi, S, Barbour, A, Barenboim, J, Barnholtz-Sloan, J, Barr, H, Barrera, E, Bartlett, J, Bartolome, J, Bassi, C, Bathe, O, Baumhoer, D, Bavi, P, Baylin, S, Bazant, W, Beardsmore, D, Beck, T, Behjati, S, Behren, A, Niu, B, Bell, C, Beltran, S, Benz, C, Berchuck, A, Bergmann, A, Bergstrom, E, Berman, B, Berney, D, Bernhart, S, Beroukhim, R, Berrios, M, Bersani, S, Bertl, J, Betancourt, M, Bhandari, V, Bhosle, S, Bieg, M, Bigner, D, Binder, H, Birney, E, Birrer, M, Biswas, N, Bjerkehagen, B, Bodenheimer, T, Boice, L, Bonizzato, G, De Bono, J, Boot, A, Bootwalla, M, Borg, A, Borkhardt, A, Boroevich, K, Borozan, I, Borst, C, Bosenberg, M, Bosio, M, Boultwood, J, Bourque, G, Bova, G, Bowen, D, Bowlby, R, Bowtell, D, Boyault, S, Boyce, R, Boyd, J, Brazma, A, Brennan, P, Brewer, D, Brinkman, A, Bristow, R, Broaddus, R, Brock, J, Brock, M, Broeks, A, Brooks, A, Brooks, D, Brors, B, Brunak, S, Bruxner, T, Bruzos, A, Buchanan, A, Buchhalter, I, Buchholz, C, Bullman, S, Burke, H, Burkhardt, B, Burns, K, Busanovich, J, Bustamante, C, Butler, A, Butte, A, Byrne, N, Borresen-Dale, A, Caesar-Johnson, S, Cafferkey, A, Cahill, D, Calabrese, C, Caldas, C, Calvo, F, Camacho, N, Campo, E, Cantu, C, Cao, S, Carey, T, Carlevaro-Fita, J, Carlsen, R, Cataldo, I, Cazzola, M, Cebon, J, Cerfolio, R, Chadwick, D, Chakravarty, D, Chalmers, D, Chan, C, Chan, K, Chan-Seng-Yue, M, Chandan, V, Chanock, S, Chantrill, L, Chateigner, A, Chatterjee, N, Chayama, K, Chen, H, Chen, J, Chen, K, Chen, Y, Chen, Z, Cherniack, A, Chien, J, Chiew, Y, Chin, S, Cho, J, Cho, S, Choi, J, Choi, W, Chomienne, C, Chong, Z, Choo, S, Chou, A, Christ, A, Christie, E, Chuah, E, Cibulskis, C, Cibulskis, K, Cingarlini, S, Clapham, P, Claviez, A, Cleary, S, 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Papaemmanuil, E, Papatheodorou, I, Paramasivam, N, Park, J, Park, K, Park, P, Parker, J, Parsons, S, Pass, H, Pasternack, D, Pastore, A, Patch, A, Pauporte, I, Pea, A, Pearson, J, Pedamallu, C, Pedersen, J, Pederzoli, P, Peifer, M, Pennell, N, Perou, C, Petersen, G, Peto, M, Petrelli, N, Petryszak, R, Pfister, S, Phillips, M, Pich, O, Pickett, H, Pihl, T, Pillay, N, Pinder, S, Pinese, M, Pinho, A, Pitkanen, E, Pivot, X, Pineiro-Yanez, E, Planko, L, Plass, C, Pons, T, Popescu, I, Potapova, O, Prasad, A, Preston, S, Prinz, M, Pritchard, A, Provenzano, E, Puente, X, Puig, S, Puiggros, M, Pulido-Tamayo, S, Pupo, G, Purdie, C, Quinn, M, Rabionet, R, Rader, J, Radlwimmer, B, Radovic, P, Raeder, B, Raine, K, Ramakrishna, M, Ramakrishnan, K, Ramalingam, S, Raphael, B, Rathmell, W, Rausch, T, Reifenberger, G, Reimand, J, Reis-Filho, J, Reuter, V, Reyes-Salazar, I, Reyna, M, Reynolds, S, Riazalhosseini, Y, Richardson, A, Richter, J, Ringel, M, Ringner, M, Rino, Y, Rippe, K, Roach, J, Roberts, L, 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C, Zhang, F, Zhang, H, Zhang, X, Zhang, Y, Zhang, Z, Zhao, Z, Zheng, L, Zheng, X, Zhou, W, Zhou, Y, Zhu, B, Zhu, H, Zhu, J, Zhu, S, Zou, L, Zou, X, Defazio, A, van As, N, van Deurzen, C, van de Vijver, M, Veer, L, von Mering, C, Natural Sciences and Engineering Research Council of Canada, Canadian Institutes of Health Research, Genome Canada, Canada Foundation for Innovation, National Institutes of Health (US), National Cancer Institute (US), Pathology, CCA - Cancer biology and immunology, Graduate School, Laboratory Genetic Metabolic Diseases, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, CCA -Cancer Center Amsterdam, Li, Constance H. [0000-0002-5487-7225], Prokopec, Stephenie D. [0000-0001-7936-8577], Boutros, Paul C. [0000-0003-0553-7520], Apollo - University of Cambridge Repository, Tampere University, BioMediTech, TAYS Cancer Centre, Basic (bio-) Medical Sciences, Li, Constance H [0000-0002-5487-7225], Prokopec, Stephenie D [0000-0001-7936-8577], Boutros, Paul C [0000-0003-0553-7520], and Medical Oncology

Subjects
sex differences, Male, Colorectal cancer, Kynferði, 02 engineering and technology, 0302 clinical medicine, DISPARITIES, Epidemiology of cancer, Cancer genomics, lcsh:Science, Càncer, Cancer genetics, Genome informatics, Cancer genomics, Oncogenes, Cancer genetics, Exome, Cancer, 0303 health sciences, Mutation, Neoplasms -- genetics, 1184 Genetics, developmental biology, physiology, Neoplasms/genetics, 3. Good health, 030220 oncology & carcinogenesis, Medical genetics, 0210 nano-technology, Human, Sex characteristics, medicine.medical_specialty, Science, Genomic Instability, General Biochemistry, Genetics and Molecular Biology, RC0254, Càncer -- Epidemiologia, Open Reading Frames, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Chromosomal Instability, Sex differences, Genetics, Humans, beta Catenin -- genetics, Sex organ, SIGNATURES, 45, RC0254 Neoplasms. Tumors. Oncology (including Cancer), Oncogenes, medicine.disease, 692/4028/67/69, Cancérologie, Genòmica, Logistic Models, 030104 developmental biology, lcsh:Q, PCAWG Tumour Subtypes and Clinical Translation, Human genome, 119, 0301 basic medicine, Medizin, General Physics and Astronomy, medicine.disease_cause, Bioinformatics, Genome informatics, Genome, Neoplasms, 38/23, Medicine and Health Sciences, Body Size, beta Catenin, Sex Characteristics, 318 Medical biotechnology, Women's cancers Radboud Institute for Molecular Life Sciences [Radboudumc 17], Multidisciplinary, article, 3rd-DAS, 021001 nanoscience & nanotechnology, humanities, Women's cancers Radboud Institute for Health Sciences [Radboudumc 17], Causality, oncology, 1181 Ecology, evolutionary biology, SURVIVAL, 631/114/2785, Female, Càncer -- Tractament, Oncogenes -- genetics, beta Catenin/genetics, 3122 Cancers, 610 Medicine & health, QH426 Genetics, Biology, Cancer epidemiology, Rare Diseases, 631/67/68, Krabbameinsrannsóknir, medicine, ddc:610, Gene, QH426, 030304 developmental biology, Krabbamein, Oncogenes/genetics, Genome, Human, Sex organs, Human Genome, PCAWG Consortium, General Chemistry, GENE, Good Health and Well Being, Estudis de gènere, oncogenic mutational processes, 692/4028/67/395, Diferències entre sexes, Gender studies, 3111 Biomedicine
Abstract

Publisher's version (útgefin grein), Sex differences have been observed in multiple facets of cancer epidemiology, treatment and biology, and in most cancers outside the sex organs. Efforts to link these clinical differences to specific molecular features have focused on somatic mutations within the coding regions of the genome. Here we report a pan-cancer analysis of sex differences in whole genomes of 1983 tumours of 28 subtypes as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium. We both confirm the results of exome studies, and also uncover previously undescribed sex differences. These include sex-biases in coding and non-coding cancer drivers, mutation prevalence and strikingly, in mutational signatures related to underlying mutational processes. These results underline the pervasiveness of molecular sex differences and strengthen the call for increased consideration of sex in molecular cancer research., We thank all the members of the Boutros lab for insightful discussions. This study was conducted with the support of the Ontario Institute for Cancer Research to P.C.B. through funding provided by the Government of Ontario. This work was supported by the Discovery Frontiers: Advancing Big Data Science in Genomics Research program, which is jointly funded by the Natural Sciences and Engineering Research Council (NSERC) of Canada, the Canadian Institutes of Health Research (CIHR), Genome Canada and the Canada Foundation for Innovation (CFI). P.C.B. was supported by a Terry Fox Research Institute New Investigator Award and a CIHR New Investigator Award. This work was supported by an NSERC Discovery grant and by Canadian Institutes of Health Research, grant #SVB-145586, to P.C.B. This work was supported by the NIH/NCI under award number P30CA016042 and an operating grant from the National Cancer Institute Early Detection Research Network (1U01CA214194-01). We acknowledge the contributions of the many clinical networks across ICGC and TCGA who provided samples and data to the PCAWG Consortium, and the contributions of the Technical Working Group and the Germline Working Group of the PCAWG Consortium for collation, realignment and harmonised variant calling of the cancer genomes used in this study. We thank the patients and their families for their participation in the individual ICGC and TCGA projects.

Published
2020

11. Decision Analysis And Screening For Down's Syndrome [with Reply]

Author

Murray, David, Tennison, Barry, Spencer, Kevin, Reynolds, T. M., Wald, Nicholas J., Kennard, Anne, Watt, Hilary, Haddow, James E., Palomaki, Glenn E., Knight, George J., Canick, Jacob A., Fletcher, J., Hicks, N. R., Kay, J. D. S., and Boyd, P. A.

Published
1995

12. Dynamics Intrinsic to Cystic Fibrosis Transmembrane Conductance Regulator Function and Stability

Author

Forman-Kay, J. D., Kota, P., Chong, P. A., and Dokholyan, N. V.

Abstract

The cystic fibrosis transmembrane conductance regulator (CFTR) requires dynamic fluctuations between states in its gating cycle for proper channel function, including changes in the interactions between the nucleotide-binding domains (NBDs) and between the intracellular domain (ICD) coupling helices and NBDs. Such motions are also linked with fluctuating phosphorylation-dependent binding of CFTR’s disordered regulatory (R) region to the NBDs and partners. Folding of CFTR is highly inefficient, with the marginally stable NBD1 sampling excited states or folding intermediates that are aggregation-prone. The severe CF–causing F508del mutation exacerbates the folding inefficiency of CFTR and leads to impaired channel regulation and function, partly as a result of perturbed NBD1–ICD interactions and enhanced sampling of these NBD1 excited states. Increased knowledge of the dynamics within CFTR will expand our understanding of the regulated channel gating of the protein as well as of the F508del defects in folding and function.

Published
2013
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13. N-acetyl-L-aspartyl-L-glutamate peptidase-like 2 is overexpressed in cancer and promotes a pro-migratory and pro-metastatic phenotype

Author

Whitaker, H C, primary, Shiong, L L, additional, Kay, J D, additional, Grönberg, H, additional, Warren, A Y, additional, Seipel, A, additional, Wiklund, F, additional, Thomas, B, additional, Wiklund, P, additional, Miller, J L, additional, Menon, S, additional, Ramos-Montoya, A, additional, Vowler, S L, additional, Massie, C, additional, Egevad, L, additional, and Neal, D E, additional

Published
2013
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16. scAAV-mediated gene transfer of interleukin-1-receptor antagonist to synovium and articular cartilage in large mammalian joints

Author

Watson, R S, primary, Broome, T A, additional, Levings, P P, additional, Rice, B L, additional, Kay, J D, additional, Smith, A D, additional, Gouze, E, additional, Gouze, J-N, additional, Dacanay, E A, additional, Hauswirth, W W, additional, Nickerson, D M, additional, Dark, M J, additional, Colahan, P T, additional, and Ghivizzani, S C, additional

Published
2012
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19. Authors' reply

Author

Fletcher, J, primary, Hicks, N R, additional, Kay, J D S, additional, and Boyd, P A, additional

Published
1995
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26. Mean and breath‐by‐breath pattern of breathing in man during steady‐state exercise.

Author

Kay, J D, Petersen, E S, and Vejby-Christensen, H

Abstract

1. The breathing pattern, that is the relation between tidal volume (VT) and the inspiratory (TI) and expiratory (TE) durations, has been studied for individual breaths (forty in each steady state). 2. Five healthy subjects were studied in steady‐state exercise on a bicycle ergometer breathing air; three of them were also studied in hypercapnia, at rest and during exercise, and two of them also during exercise on a treadmill. 3. Tidal volume and respiratory frequency both increased with work load. The increase in frequency was largely due to a progressive decrease in TE; TI also decreased. 4. At any constant level of respiratory drive (constant work load or chemical load) VT was positively correlated with both TI and TE in more than 95% of cases. 5. A simple model of the respiratory cycle which fits both the observed mean and breath‐by‐breath patterns and which involves no new assumptions is presented.

Published
1975
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27. Breathing in man during steady‐state exercise on the bicycle at two pedalling frequencies, and during treadmill walking.

Author

Kay, J D, Petersen, E S, and Vejby-Christensen, H

Abstract

1. The breathing pattern, that is the changes in tidal volume (VT), and in inspiratory (TI) and expiratory (TE) durations, has been studied as ventilation increases in exercise. 2. Five healthy subjects were studied in steady‐state exercise on a bicycle ergometer, breathing air, at two speeds of pedalling and at six different loads. The pattern was recorded for single breaths. Two of the subjects were also studied while walking on a treadmill with four combinations of speed and gradient. 3. In bicycle exercise, as the CO2 output increased mean VT increased, and mean TI and TE decreased, the absolute decrease in TI being small. The pedalling speed did not affect these relationships. 4. Individual breath durations showed no tendency to group around multiples of the period of rotation of the pedals. 5. In treadmill exercise, no clear influence of stride rate on respiratory rate could be found. The pattern was similar to that found in bicycle exercise. Again no grouping could be found. 6. No evidence of an effect of frequency of limb movement on breathing pattern in submaximal exercise has been found. The selection of breathing pattern seems to be unrelated to the nature of the stimulus but closely geared to the metabolic needs of the body.

Published
1975
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28. Validation of a method for measuring the short-term rate of urea synthesis after an amino acid load

Author

Kay, J. D. S., Seakins, J. W. T., Geiseler, D., and Hjelm, M.

Abstract

1. The response of the plasma concentration of urea to the oral and intravenous administration of alanine was studied in healthy adult humans. 2. The instantaneous rate of urea synthesis was calculated by using a model-dependent procedure. The errors in this procedure were calculated and it was shown that analytical precision and sampling frequency, and the estimates of the distribution volume and elimination fluxes, were adequate to determine the synthesis parameters. 3. A direct test of the compartmental model was made by the intravenous injection of exogenous urea. The one-compartment model with first-order elimination gave a good fit to the experimental results at times greater than 8 min after the injection. 4. Both oral and intravenous loads of alanine had dose-dependent effects on the rate of urea synthesis. There was no evidence of a limit to the maximum possible rate of urea synthesis in these experiments and the values obtained were similar to published results for different stimuli and methods of measurement. 5. The rate of synthesis increased more rapidly after intravenous loads and subjective side-effects were less severe. The intravenous administration of alanine appears to be a suitable stimulus for urea synthesis.

Published
1986
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29. Determination of the Rate of Urea Synthesis from Serial Measurements of Plasma Urea Concentration after an Alanine Load: Theoretical and Methodological Aspects

Author

Geiseler, D., Kay, J. D. S., Oberholzer, V. G., Seakins, J. W. T., and Hjelm, M.

Abstract

1. A method is described by which the rate of synthesis of urea can be calculated from the change of plasma concentration of urea after an alanine load. 2. The results can be expressed in terms of f, the maximum increase in the rate of urea synthesis, and t, the time at which urea synthesis reaches its maximum. 3. These parameters are calculated by an algebraic curve-fitting technique which is suitable for a desk computer. 4. The method removes the need for isotopic analysis and urine collections. 5. The effect of various errors and experimental conditions on the calculated synthesis parameters is investigated.

Published
1985
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30. Serum S-100 protein concentration after cardiac surgery: a randomized trial of arterial line filtration.

Author

Taggart, D P, Bhattacharya, K, Meston, N, Standing, S J, Kay, J D, Pillai, R, Johnssson, P, and Westaby, S

Abstract

Embolization of gaseous and particulate matter is incriminated in the neuropsychological morbidity of CPB and can be reduced by membrane oxygenators and arterial line filtration. It is not known if the use of arterial line filtration in conjunction with membrane oxygenators might have an additive effect in reducing cerebral injury.

Published
1997
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31. Effect of partial ornithine carbamoyltransferase deficiency on urea synthesis and related biochemical events

Author

Kay, J. D. S., Oberholzer, V. G., Seakins, J. W. T., and Hjelm, M.

Abstract

1. The biochemical response to an intravenous alanine load of 0.25 g/kg was studied in nine adult female relatives of children with ornithine carbamoyltransferase deficiency. Six were classified as affected by partial deficiency and three as unaffected. 2. The plasma ammonium concentration showed no change after the alanine load in the unaffected group, but marked increases occurred in all but one of the affected group. The maximum rate of urea synthesis after the alanine load was decreased by 37% (P = 0.02) and delayed by 43% (P = 0.02) in the affected group. 3. In the affected group a low rate of urea synthesis was associated with high urinary orotate excretion, high maximum plasma ammonium concentration and delay in the time taken to reach the maximum rate of urea synthesis (Kendall concordance W = 0.55, P < 0.05). 4. The effects of a higher dose of alanine and of oral protein were compared. The alanine load of 0.25 g of alanine/kg body weight was shown to provide an adequate stimulus to urea synthesis with a more rapid return of ammonium concentration to the pre-load level than with the protein load. 5. The implication of these results in determining the distribution of flux control of urea synthesis, the discrepancy between them and predicted results and the necessary modifications to quantitative simulations are discussed.

Published
1987
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37. Targeting Intrinsically Disordered Transcription Factors: Changing the Paradigm.

Author

Tsafou K, Tiwari PB, Forman-Kay JD, Metallo SJ, and Toretsky JA

Subjects
Biophysical Phenomena, Drug Design, Humans, Protein Conformation, Protein Folding, Small Molecule Libraries pharmacology, Transcription Factors chemistry, Transcription Factors metabolism
Abstract

Increased understanding of intrinsically disordered proteins (IDPs) and protein regions has revolutionized our view of the relationship between protein structure and function. Data now support that IDPs can be functional in the absence of a single, fixed, three-dimensional structure. Due to their dynamic morphology, IDPs have the ability to display a range of kinetics and affinity depending on what the system requires, as well as the potential for large-scale association. Although several studies have shed light on the functional properties of IDPs, the class of intrinsically disordered transcription factors (TFs) is still poorly characterized biophysically due to their combination of ordered and disordered sequences. In addition, TF modulation by small molecules has long been considered a difficult or even impossible task, limiting functional probe development. However, with evolving technology, it is becoming possible to characterize TF structure-function relationships in unprecedented detail and explore avenues not available or not considered in the past. Here we provide an introduction to the biophysical properties of intrinsically disordered TFs and we discuss recent computational and experimental efforts toward understanding the role of intrinsically disordered TFs in biology and disease. We describe a series of successful TF targeting strategies that have overcome the perception of the "undruggability" of TFs, providing new leads on drug development methodologies. Lastly, we discuss future challenges and opportunities to enhance our understanding of the structure-function relationship of intrinsically disordered TFs., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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38. Iatrogenic copper deficiency following information and drugs obtained over the Internet.

Author

Lang TF, Glynne-Jones R, Blake S, Taylor A, and Kay JD

Subjects
Female, Humans, Iatrogenic Disease, Middle Aged, Copper deficiency, Internet, Molybdenum adverse effects, Self Care adverse effects
Abstract

We report the case of a 56-year-old woman with a 7-year history of metastatic cancer who presented with severe copper deficiency following self-treatment with the copper-chelating agent tetrathiomolybdate. This compound was used with the aim of inhibiting tumour angiogenesis and was obtained from the USA by placing an order on the internet. The patient exhibited severe neutropenia as her serum copper concentration fell from 19.8 micromol/L to 3.3 micromol/L and her caeruloplasmin concentration from 35 mg/dL to 4 mg/dL.

Published
2004
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39. Multidimensional NMR methods for protein structure determination.

Author

Kanelis V, Forman-Kay JD, and Kay LE

Subjects
Models, Chemical, Models, Molecular, Protein Conformation, Spectrum Analysis instrumentation, Spectrum Analysis methods, Magnetic Resonance Spectroscopy instrumentation, Magnetic Resonance Spectroscopy methods, Proteins chemistry
Abstract

Structural studies of proteins are critical for understanding biological processes at the molecular level. Nuclear magnetic resonance (NMR) spectroscopy is a powerful technique for obtaining structural and dynamic information on proteins and protein-ligand complexes. In the present review, methodologies for NMR structure determination of proteins and macromolecular complexes are described. In addition, a number of recent advances that reduce the molecular weight limitations previously imposed on NMR studies of biomolecules are discussed, highlighting applications of these technologies to protein systems studied in our laboratories.

Published
2001
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40. Slow dynamics in folded and unfolded states of an SH3 domain.

Author

Tollinger M, Skrynnikov NR, Mulder FA, Forman-Kay JD, and Kay LE

Subjects
Animals, Drosophila, Kinetics, Mathematical Computing, Models, Chemical, Nitrogen Isotopes, Nuclear Magnetic Resonance, Biomolecular methods, Protein Folding, Protein Structure, Tertiary, Drosophila Proteins, Insect Proteins chemistry, src Homology Domains
Abstract

(15)N relaxation dispersion experiments were applied to the isolated N-terminal SH3 domain of the Drosophila protein drk (drkN SH3) to study microsecond to second time scale exchange processes. The drkN SH3 domain exists in equilibrium between folded (F(exch)) and unfolded (U(exch)) states under nondenaturing conditions in a ratio of 2:1 at 20 degrees C, with an average exchange rate constant, k(ex), of 2.2 s(-1) (slow exchange on the NMR chemical shift time scale). Consequently a discrete set of resonances is observed for each state in NMR spectra. Within the U(exch) ensemble there is a contiguous stretch of residues undergoing conformational exchange on a micros/ms time scale, likely due to local, non-native hydrophobic collapse. For these residues both the F(exch) <--> U(exch) conformational exchange process and the micros/ms exchange event within the U(exch) state contribute to the (15)N line width and can be analyzed using CPMG-based (15)N relaxation dispersion measurements. The contribution of both processes to the apparent relaxation rate can be deconvoluted numerically by combining the experimental (15)N relaxation dispersion data with results from an (15)N longitudinal relaxation experiment that accurately quantifies exchange rates in slow exchanging systems (Farrow, N. A.; Zhang, O.; Forman-Kay, J. D.; Kay, L. E. J. Biomol. NMR 1994, 4, 727-734). A simple, generally applicable analytical expression for the dependence of the effective transverse relaxation rate constant on the pulse spacing in CPMG experiments has been derived for a two-state exchange process in the slow exchange limit, which can be used to fit the experimental data on the global folding/unfolding transition. The results illustrate that relaxation dispersion experiments provide an extremely sensitive tool to probe conformational exchange processes in unfolded states and to obtain information on the free energy landscape of such systems.

Published
2001
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41. Congestive heart failure in pediatric patients.

Author

Kay JD, Colan SD, and Graham TP Jr

Subjects
Adolescent, Adrenergic beta-Antagonists therapeutic use, Adult, Age Factors, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Child, Child, Preschool, Clinical Trials as Topic methods, Clinical Trials as Topic standards, Digoxin therapeutic use, Diuretics therapeutic use, Ethics, Medical, Female, Heart Defects, Congenital complications, Heart Failure etiology, Humans, Infant, Male, Patient Selection, Heart Failure diagnosis, Heart Failure drug therapy, Pediatrics
Published
2001
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42. Structural characterization of proteins with an attached ATCUN motif by paramagnetic relaxation enhancement NMR spectroscopy.

Author

Donaldson LW, Skrynnikov NR, Choy WY, Muhandiram DR, Sarkar B, Forman-Kay JD, and Kay LE

Subjects
Amino Acid Motifs, Binding Sites, Humans, Nuclear Magnetic Resonance, Biomolecular, Protein Conformation, Thermodynamics, Ubiquitin metabolism, Copper chemistry, Ubiquitin chemistry
Abstract

The use of a short, three-residue Cu(2+)-binding sequence, the ATCUN motif, is presented as an approach for extracting long-range distance restraints from relaxation enhancement NMR spectroscopy. The ATCUN motif is prepended to the N-termini of proteins and binds Cu(2+) with a very high affinity. Relaxation rates of amide protons in ATCUN-tagged protein in the presence and absence of Cu(2+) can be converted into distance restraints and used for structure refinement by using a new routine, PMAG, that has been written for the structure calculation program CNS. The utility of the approach is demonstrated with an application to ATCUN-tagged ubiquitin. Excellent agreement between measured relaxation rates and those calculated on the basis of the X-ray structure of the protein have been obtained.

Published
2001
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44. Pediatric hypertension.

Author

Kay JD, Sinaiko AR, and Daniels SR

Subjects
Adolescent, Child, Child, Preschool, Clinical Trials as Topic, Diagnosis, Differential, Endpoint Determination, Female, Humans, Infant, Infant, Newborn, Male, Pediatrics, Reference Values, Antihypertensive Agents therapeutic use, Child Welfare, Hypertension complications, Hypertension physiopathology, Hypertension therapy
Published
2001
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45. Calculation of ensembles of structures representing the unfolded state of an SH3 domain.

Author

Choy WY and Forman-Kay JD

Subjects
Animals, Binding Sites, Computer Simulation, Diffusion, Fluorescence, Kinetics, Magnetic Resonance Spectroscopy, Models, Molecular, Protein Denaturation, Protein Structure, Secondary, Software, Solvents, Thermodynamics, Tryptophan metabolism, Drosophila chemistry, Drosophila Proteins, Insect Proteins chemistry, Protein Folding, src Homology Domains
Abstract

The N-terminal SH3 domain of drk (drkN SH3 domain) exists in equilibrium between a folded (F(exch)) and an unfolded (U(exch)) form under non-denaturing conditions. In order to further our previous descriptions of the U(exch) state, we have developed a protocol for calculating ensembles of structures, based on experimental spectroscopic data, which broadly represent the unfolded state. A large number of unfolding trajectories were generated, starting from the folded state structure of the protein, in order to provide a reasonable sampling of the conformational space accessible to this sequence. Unfolded state ensembles have been "calculated" using a newly developed program ENSEMBLE, which optimizes the population weights assigned to each structure based on experimental properties of the U(exch) state. Pseudo-energy terms for nuclear Overhauser effects, J-coupling constants, (13)C chemical shifts, translational diffusion coefficients and tryptophan ring burial based on NMR and fluorescence data have been implemented. The population weight assignment procedure was performed for different starting ensembles. Small numbers of structures (<60) dominate the final ensembles compared to the total number in the starting ensembles, suggesting that the drkN SH3 domain U(exch) state can be described by a limited number of lower-energy conformations. The calculated U(exch) state ensembles are much more compact than a "random coil" chain, with significant native-like residual structure observed. In particular, a sizable population of conformers having the n-src loop and distal beta-hairpin structures exist in the calculated U(exch) state ensembles, and Trp36 is involved in a large number of interactions, both native and non-native., (Copyright 2001 Academic Press.)

Published
2001
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46. Solution structure of a Nedd4 WW domain-ENaC peptide complex.

Author

Kanelis V, Rotin D, and Forman-Kay JD

Subjects
Amino Acid Motifs, Amino Acid Sequence, Animals, Binding Sites, Endosomal Sorting Complexes Required for Transport, Epithelial Sodium Channels, Models, Molecular, Molecular Sequence Data, Nedd4 Ubiquitin Protein Ligases, Nuclear Magnetic Resonance, Biomolecular, Peptide Fragments chemistry, Peptide Fragments metabolism, Protein Binding, Protein Structure, Tertiary, Protein Subunits, Rats, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins metabolism, Sequence Alignment, Solutions, Calcium-Binding Proteins chemistry, Calcium-Binding Proteins metabolism, Ligases chemistry, Ligases metabolism, Sodium Channels chemistry, Sodium Channels metabolism, Ubiquitin-Protein Ligases
Abstract

Nedd4 is a ubiquitin protein ligase composed of a C2 domain, three (or four) WW domains and a ubiquitin ligase Hect domain. Nedd4 was demonstrated to bind the epithelial sodium channel (alphabetagammaENaC), by association of its WW domains with PY motifs (XPPXY) present in each ENaC subunit, and to regulate the cell surface stability of the channel. The PY motif of betaENaC is deleted or mutated in Liddle syndrome, a hereditary form of hypertension caused by elevated ENaC activity. Here we report the solution structure of the third WW domain of Nedd4 complexed to the PY motif-containing region of betaENaC (TLPIPGTPPPNYDSL, referred to as betaP2). A polyproline type II helical conformation is adopted by the PPPN sequence. Unexpectedly, the C-terminal sequence YDSL forms a helical turn and both the tyrosine and the C-terminal leucine contact the WW domain. This is unlike other proline-rich peptides complexed to WW domains, which bind in an extended conformation and lack molecular interactions with residues C-terminal to the tyrosine or the structurally equivalent residue in non-PY motif WW domain targets. The Nedd4 WW domain-ENaC betaP2 peptide structure expands our understanding of the mechanisms involved in WW domain-ligand recognition and the molecular basis of Liddle syndrome.

Published
2001
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47. Dramatic stabilization of an SH3 domain by a single substitution: roles of the folded and unfolded states.

Author

Mok YK, Elisseeva EL, Davidson AR, and Forman-Kay JD

Subjects
Animals, Circular Dichroism, Drosophila melanogaster genetics, Fluorescence, Guanidine pharmacology, Insect Proteins genetics, Kinetics, Magnetic Resonance Spectroscopy, Models, Molecular, Mutation genetics, Protein Denaturation drug effects, Protein Structure, Secondary drug effects, Static Electricity, Temperature, Thermodynamics, Ultraviolet Rays, Amino Acid Substitution genetics, Drosophila Proteins, Drosophila melanogaster chemistry, Insect Proteins chemistry, Insect Proteins metabolism, Protein Folding, src Homology Domains drug effects
Abstract

The N-terminal SH3 domain of the Drosophila drk protein (drkN SH3) exists in equilibrium between folded and unfolded states under non-denaturing buffer conditions. In order to examine the origins of this instability, we have made mutations in the domain and characterized the thermodynamics and kinetics of folding. Results of substitutions of negatively charged residues to neutral amino acid residues suggest that the large electrostatic potential of the domain does not play a dominant role in the instability of the domain. Sequence alignment of a large number of SH3 domains reveals that the drkN SH3 domain has a threonine (T22) at a position corresponding to an otherwise highly conserved glycine residue in the diverging beta-turn connecting the beta3 and beta4 strands. Mutation of T22 to glycine results in significant stabilization of the drkN SH3 domain by 2.5 kcal/mole. To further characterize the basis for the stabilization of the T22 mutant relative to wild-type, we made additional mutant proteins with substitutions of residue T22. A strong correlation is seen between protein stability or folding rate and propensity for native beta-turn structure at this position. Correlation of folding rates with AGADIR predictions of non-native helical structure in the diverging turn region, along with our previous NMR evidence for non-native structure in this region of the unfolded state of the drkN SH3 domain, suggests that the free energy of the unfolded state also plays a role in stability. This result highlights the importance of both folded and unfolded states for understanding protein stability., (Copyright 2001 Academic Press.)

Published
2001
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48. Communicating with clinicians.

Author

Kay JD

Subjects
Clinical Laboratory Information Systems, Decision Support Systems, Clinical, Humans, Internet, Online Systems, Telecommunications, Time Factors, Communication, Laboratories, Physicians
Published
2001
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49. Global folds of proteins with low densities of NOEs using residual dipolar couplings: application to the 370-residue maltodextrin-binding protein.

Author

Mueller GA, Choy WY, Yang D, Forman-Kay JD, Venters RA, and Kay LE

Subjects
Amino Acid Motifs, Computer Simulation, Crystallography, X-Ray, Cyclodextrins chemistry, Cyclodextrins metabolism, Hydrogen Bonding, Models, Molecular, Molecular Sequence Data, Molecular Weight, Periplasmic Binding Proteins, Protein Conformation, Protons, Sensitivity and Specificity, Software, Solutions, Bacterial Proteins chemistry, Bacterial Proteins metabolism, Carrier Proteins chemistry, Carrier Proteins metabolism, Escherichia coli Proteins, Nuclear Magnetic Resonance, Biomolecular methods, Protein Folding, beta-Cyclodextrins
Abstract

The global fold of maltose-binding protein in complex with the substrate beta-cyclodextrin was determined by solution NMR methods. The two-domain protein is comprised of a single polypeptide chain of 370 residues, with a molecular mass of 42 kDa. Distance information in the form of H(N)-H(N), H(N)-CH(3) and CH(3)-CH(3) NOEs was recorded on (15)N, (2)H and (15)N, (13)C, (2)H-labeled proteins with methyl protonation in Val, Leu, and Ile (C(delta1) only) residues. Distances to methyl protons, critical for the structure determination, comprised 77 % of the long-range restraints. Initial structures were calculated on the basis of 1943 NOEs, 48 hydrogen bond and 555 dihedral angle restraints. A global pair-wise backbone rmsd of 5.5 A was obtained for these initial structures with rmsd values for the N and C domains of 2.4 and 3.8 A, respectively. Direct refinement against one-bond (1)H(N)-(15)N, (13)C(alpha)-(13)CO, (15)N-(13)CO, two-bond (1)H(N)-(13)CO and three-bond (1)H(N)-(13)C(alpha) dipolar couplings resulted in structures with large numbers of dipolar restraint violations. As an alternative to direct refinement against measured dipolar couplings we have developed an approach where discrete orientations are calculated for each peptide plane on the basis of the dipolar couplings described above. The orientation which best matches that in initial NMR structures calculated from NOE and dihedral angle restraints exclusively is used to refine further the structures using a new module written for CNS. Modeling studies from four different proteins with diverse structural motifs establishes the utility of the methodology. When applied to experimental data recorded on MBP the precision of the family of structures generated improves from 5.5 to 2.2 A, while the rmsd with respect to the X-ray structure (1dmb) is reduced from 5.1 to 3.3 A., (Copyright 2000 Academic Press.)

Published
2000
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50. Multiple modes of peptide recognition by the PTB domain of the cell fate determinant Numb.

Author

Zwahlen C, Li SC, Kay LE, Pawson T, and Forman-Kay JD

Subjects
Amino Acid Sequence, Animals, Binding Sites, Drosophila Proteins, In Vitro Techniques, Juvenile Hormones genetics, Macromolecular Substances, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Peptides metabolism, Phosphotyrosine metabolism, Protein Binding, Protein Conformation, Protein Serine-Threonine Kinases chemistry, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases metabolism, Protein Structure, Tertiary, Juvenile Hormones chemistry, Juvenile Hormones metabolism
Abstract

The phosphotyrosine-binding (PTB) domain of the cell fate determinant Numb is involved in the formation of multiple protein complexes in vivo and can bind a diverse array of peptide sequences in vitro. To investigate the structural basis for the promiscuous nature of this protein module, we have determined its solution structure by NMR in a complex with a peptide containing an NMSF sequence derived from the Numb-associated kinase (Nak). The Nak peptide was found to adopt a significantly different structure from that of a GPpY sequence-containing peptide previously determined. In contrast to the helical turn adopted by the GPpY peptide, the Nak peptide forms a beta-turn at the NMSF site followed by another turn near the C-terminus. The Numb PTB domain appears to recognize peptides that differ in both primary and secondary structures by engaging various amounts of the binding surface of the protein. Our results suggest a mechanism through which a single PTB domain might interact with multiple distinct target proteins to control a complex biological process such as asymmetric cell division.

Published
2000
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