£Û1£ÝCakir Asli£¬Isik Gonul Ipek£¬Uluoglu Omer.A comprehensive morphological study for basal-like breast carcinomas with comparison to nonbasal-like carcinomas£ÛJ£Ý.Diagn Pathol£¬2012£¨7£©£º145.
£Û2£ÝSHAO ZM.Interpretation of the basic points of the guidelines and specifications for breast cancer diagnosis and treatment in chinese anti-cancer association£ÛJ£Ý.Chinese Journal of Practical Surgery£¬2011£¬31(10)£º915-917.£ÛÉÛÖ¾Ãô.¡¶Öйú¿¹°©Ð»áÈéÏÙ°©ÕïÖÎÖ¸ÄÏÓë¹æ·¶¡·»ù±¾Òªµã½â¶Á£ÛJ£Ý.ÖйúʵÓÃÍâ¿ÆÔÓÖ¾£¬2011£¬31(10)£º915-917.£Ý
£Û3£Ýÿðþ‰Cahin Sevin¢“£¬Iÿðþ‰Dlk G¢‰n¨¹l ¦Ppek£¬¢saklr Asll£¬et al.Clinicopathological significance of the proliferation markers Ki67£¬RacGAP1£¬and topoisomerase 2 alpha in breast cancer£ÛJ£Ý.Int J Surg Pathol£¬2016£¬24(7)£º607-613.
£Û4£ÝTour¨¦ A£¬Dorseuil O£¬Morin L£¬et al.MgcRacGAP£¬a new human GTPase-activating protein for Rac and Cdc42 similar to Drosophila rotundRacGAP gene product£¬is expressed in male germ cells£ÛJ£Ý.J Biol Chem£¬1998£¬273(11)£º6019-6023.
£Û5£ÝMilde-Langosch Karin£¬Karn Thomas£¬M¨¹ller Volkmar£¬et al.Validity of the proliferation markers Ki67£¬TOP2A£¬and RacGAP1 in molecular subgroups of breast cancer£ÛJ£Ý.Breast Cancer Res Treat£¬2013£¬137(1)£º57-67.
£Û6£ÝWang Chuanjiang£¬Wang Wenxia£¬Liu Yujuan£¬et al.Rac GTPase activating protein 1 promotes the oncogenic progression of epithelial ovarian cancer£ÛJ£Ý.Cancer Sci£¬2018£¬109(1)£º83-94.
£Û7£ÝWang Suk Mei£¬Ooi London Lucien£¬Hui Kam M.Upregulation of Rac GTPase-activating protein 1 is significantly associated with the early recurrence of human hepatocellular carcinoma£ÛJ£Ý.Clin Cancer Res£¬2011£¬17(18)£º6040-6051.
£Û8£ÝPliarchopoulou K£¬Kalogeras KT£¬Kronenwett R£¬et al.Prognostic significance of RACGAP1 mRNA expression in high-risk early breast cancer£ºA study in primary tumors of breast cancer patients participating in a randomized Hellenic Cooperative Oncology Group trial£ÛJ£Ý.Cancer Chemother Pharmacol£¬2013£¬71(1)£º245-255.
£Û9£ÝTorre Lindsey A£¬Bray Freddie£¬Siegel Rebecca L£¬et al.Global cancer statistics£¬2012£ÛJ£Ý.CA Cancer J Clin£¬2015£¬65(2)£º87-108.
£Û10£ÝLawson Campbell D£¬Fan Cheng£¬Mitin Natalia£¬et al.Rho GTPase transcriptome analysis reveals oncogenic roles for rho gtpase-activating proteins in basal-like breast cancers£ÛJ£Ý.Cancer Res£¬2016£¬76(13)£º3826-3837.
£Û11£ÝHanahan D£¬Weinberg RA.The hallmarks of cancer£ÛJ£Ý.Cell£¬2000£¬100(1)£º57-70.
£Û12£ÝLambin Philippe£¬Rios-Velazquez Emmanuel£¬Leijenaar Ralph£¬et al.Radiomics£ºExtracting more information from medical images using advanced feature analysis£ÛJ£Ý.Eur J Cancer£¬2012£¬48(4)£º441-446.
£Û13£ÝAerts Hugo JWL£¬Velazquez Emmanuel Rios£¬Leijenaar Ralph TH£¬et al.Decoding tumour phenotype by noninvasive imaging using a quantitative radiomics approach£ÛJ£Ý.Nat Commun£¬2014£¨5£©£º4006.
£Û14£ÝGUO Y£¬ZHOU SC£¬YU JH£¬et al.Advanced researches and future challenges of radiomics£ÛJ£Ý.Oncoradiology£¬2017£¬26(02)£º81-90.£Û¹ùÒÖÜÊÀ³ç£¬Óà½õ»ª£¬µÈ.Ó°Ïñ×éѧµÄÇ°ÑØÑо¿ÓëδÀ´ÌôÕ½£ÛJ£Ý.Ö×ÁöÓ°Ïñѧ£¬2017£¬26(02)£º81-90.£Ý
£Û15£ÝLambin Philippe£¬Leijenaar Ralph TH£¬Deist Timo M£¬et al.RadiomicsThe bridge between medical imaging and personalized medicine£ÛJ£Ý.Nat Rev Clin Oncol£¬2017£¬14(12)£º749-762.
£Û16£ÝHU YC£¬ZHANG X£¬CUI GB.Advances in the application of radiomics in lung cancer£ÛJ£Ý.Radiol Practice£¬2017£¬32(12)£º1239-1241.£ÛºúÓñ´¨£¬ÕÅÐÀ£¬´Þ¹â±ò.Ó°Ïñ×éѧÔڷΰ©ÖеÄÓ¦ÓÃÑо¿½øÕ¹£ÛJ£Ý.·ÅÉäѧʵ¼ù£¬2017£¬32(12)£º1239-1241.£Ý
£Û17£ÝHirose K£¬Kawashima T£¬Iwamoto I£¬et al.MgcRacGAP is involved in cytokinesis through associating with mitotic spindle and midbody£ÛJ£Ý.J Biol Chem£¬2001£¬276(8)£º5821-5828.
£Û18£ÝNiiya Fumihiko£¬Xie Xiaozhen£¬Lee Kyung S£¬et al.Inhibition of cyclin-dependent kinase 1 induces cytokinesis without chromosome segregation in an ECT2 and MgcRacGAP-dependent manner£ÛJ£Ý.J Biol Chem£¬2005£¬280(43)£º36502-36509.
£Û19£ÝKawashima Toshiyuki£¬Bao Ying Chun£¬Minoshima Yukinori£¬et al.A Rac GTPase-activating protein£¬MgcRacGAP£¬is a nuclear localizing signal-containing nuclear chaperone in the activation of STAT transcription factors£ÛJ£Ý.Mol Cell Biol£¬2009£¬29(7)£º1796-1813.