Construction and validation of an immunoediting-based optimized neoantigen load (ioTNL) model to predict the response and prognosis of immune checkpoint therapy in various cancers.
Spatially interacting phosphorylation sites and mutations in cancer.
Nature Communications
Huang, Kuan-Lin KL; Scott, Adam D AD; Zhou, Daniel Cui DC; Wang, Liang-Bo LB; Weerasinghe, Amila A; Elmas, Abdulkadir A; Liu, Ruiyang R; Wu, Yige Y; Wendl, Michael C MC; Wyczalkowski, Matthew A MA; Baral, Jessika J; Sengupta, Sohini S; Lai, Chin-Wen CW; Ruggles, Kelly K; Payne, Samuel H SH; Raphael, Benjamin B; Fenyö, David D; Chen, Ken K; Mills, Gordon G; Ding, Li L
Somatic POLE exonuclease domain mutations are early events in sporadic endometrial and colorectal carcinogenesis, determining driver mutational landscape, clonal neoantigen burden and immune response.
The Journal Of Pathology
Temko, Daniel D; Van Gool, Inge C IC; Rayner, Emily E; Glaire, Mark M; Makino, Seiko S; Brown, Matthew M; Chegwidden, Laura L; Palles, Claire C; Depreeuw, Jeroen J; Beggs, Andrew A; Stathopoulou, Chaido C; Mason, John J; Baker, Ann-Marie AM; Williams, Marc M; Cerundolo, Vincenzo V; Rei, Margarida M; Taylor, Jenny C JC; Schuh, Anna A; Ahmed, Ahmed A; Amant, Frédéric F; Lambrechts, Diether D; Smit, Vincent Thbm VT; Bosse, Tjalling T; Graham, Trevor A TA; Church, David N DN; Tomlinson, Ian I
Publication Date: 2018-07
Variant appearance in text: PIK3R1: 1123G>T; G375W