Elemento Lab

Publications

Found 326 results
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2005
Chan CS, Elemento O, Tavazoie S.  2005.  Revealing posttranscriptional regulatory elements through network-level conservation.. PLoS Comput Biol. 1(7):e69.
2009
Ci W, Polo JM, Cerchietti L, Shaknovich R, Wang L, Yang SNing, Ye K, Farinha P, Horsman DE, Gascoyne RD et al..  2009.  The BCL6 transcriptional program features repression of multiple oncogenes in primary B cells and is deregulated in DLBCL.. Blood. 113(22):5536-48.
Ci W, Polo JM, Cerchietti L, Shaknovich R, Wang L, Yang SNing, Ye K, Farinha P, Horsman DE, Gascoyne RD et al..  2009.  The BCL6 transcriptional program features repression of multiple oncogenes in primary B cells and is deregulated in DLBCL.. Blood. 113(22):5536-48.
Legesse-Miller A, Elemento O, Pfau SJ, Forman JJ, Tavazoie S, Coller HA.  2009.  let-7 Overexpression leads to an increased fraction of cells in G2/M, direct down-regulation of Cdc34, and stabilization of Wee1 kinase in primary fibroblasts.. J Biol Chem. 284(11):6605-9.
2010
Shaknovich R, Geng H, Johnson NA, Tsikitas L, Cerchietti L, Greally JM, Gascoyne RD, Elemento O, Melnick A.  2010.  DNA methylation signatures define molecular subtypes of diffuse large B-cell lymphoma.. Blood. 116(20):e81-9.
Campbell TL, De Silva EK, Olszewski KL, Elemento O, Llinás M.  2010.  Identification and genome-wide prediction of DNA binding specificities for the ApiAP2 family of regulators from the malaria parasite.. PLoS Pathog. 6(10):e1001165.
2011
Shaknovich R, Cerchietti L, Tsikitas L, Kormaksson M, De S, Figueroa ME, Ballon G, Yang SNing, Weinhold N, Reimers M et al..  2011.  DNA methyltransferase 1 and DNA methylation patterning contribute to germinal center B-cell differentiation.. Blood. 118(13):3559-69.
Shaknovich R, Cerchietti L, Tsikitas L, Kormaksson M, De S, Figueroa ME, Ballon G, Yang SNing, Weinhold N, Reimers M et al..  2011.  DNA methyltransferase 1 and DNA methylation patterning contribute to germinal center B-cell differentiation.. Blood. 118(13):3559-69.
2012
Gollamudi S, Johri A, Calingasan NY, Yang L, Elemento O, M Beal F.  2012.  Concordant signaling pathways produced by pesticide exposure in mice correspond to pathways identified in human Parkinson's disease.. PLoS One. 7(5):e36191.
Ginsberg M, James D, Ding B-S, Nolan D, Geng F, Butler JM, Schachterle W, Pulijaal VR, Mathew S, Chasen ST et al..  2012.  Efficient direct reprogramming of mature amniotic cells into endothelial cells by ETS factors and TGFβ suppression.. Cell. 151(3):559-75.
Demichelis F, Setlur SR, Banerjee S, Chakravarty D, Chen JYun Helen, Chen CX, Huang J, Beltran H, Oldridge DA, Kitabayashi N et al..  2012.  Identification of functionally active, low frequency copy number variants at 15q21.3 and 12q21.31 associated with prostate cancer risk.. Proc Natl Acad Sci U S A. 109(17):6686-91.
Demichelis F, Setlur SR, Banerjee S, Chakravarty D, Chen JYun Helen, Chen CX, Huang J, Beltran H, Oldridge DA, Kitabayashi N et al..  2012.  Identification of functionally active, low frequency copy number variants at 15q21.3 and 12q21.31 associated with prostate cancer risk.. Proc Natl Acad Sci U S A. 109(17):6686-91.
Demichelis F, Setlur SR, Banerjee S, Chakravarty D, Chen JYun Helen, Chen CX, Huang J, Beltran H, Oldridge DA, Kitabayashi N et al..  2012.  Identification of functionally active, low frequency copy number variants at 15q21.3 and 12q21.31 associated with prostate cancer risk.. Proc Natl Acad Sci U S A. 109(17):6686-91.
Demichelis F, Setlur SR, Banerjee S, Chakravarty D, Chen JYun Helen, Chen CX, Huang J, Beltran H, Oldridge DA, Kitabayashi N et al..  2012.  Identification of functionally active, low frequency copy number variants at 15q21.3 and 12q21.31 associated with prostate cancer risk.. Proc Natl Acad Sci U S A. 109(17):6686-91.
Geng H, Brennan S, Milne TA, Chen W-Y, Li Y, Hurtz C, Kweon S-M, Zickl L, Shojaee S, Neuberg D et al..  2012.  Integrative epigenomic analysis identifies biomarkers and therapeutic targets in adult B-acute lymphoblastic leukemia.. Cancer Discov. 2(11):1004-23.
Keutgen XM, Filicori F, Crowley MJ, Wang Y, Scognamiglio T, Hoda R, Buitrago D, Cooper D, Zeiger MA, Zarnegar R et al..  2012.  A panel of four miRNAs accurately differentiates malignant from benign indeterminate thyroid lesions on fine needle aspiration.. Clin Cancer Res. 18(7):2032-8.
Keutgen XM, Filicori F, Crowley MJ, Wang Y, Scognamiglio T, Hoda R, Buitrago D, Cooper D, Zeiger MA, Zarnegar R et al..  2012.  A panel of four miRNAs accurately differentiates malignant from benign indeterminate thyroid lesions on fine needle aspiration.. Clin Cancer Res. 18(7):2032-8.
2013
De S, Shaknovich R, Riester M, Elemento O, Geng H, Kormaksson M, Jiang Y, Woolcock B, Johnson N, Polo JM et al..  2013.  Aberration in DNA methylation in B-cell lymphomas has a complex origin and increases with disease severity.. PLoS Genet. 9(1):e1003137.
Kumar R, DiMenna L, Schrode N, Liu T-C, Franck P, Muñoz-Descalzo S, Hadjantonakis A-K, Zarrin AA, Chaudhuri J, Elemento O et al..  2013.  AID stabilizes stem-cell phenotype by removing epigenetic memory of pluripotency genes.. Nature. 500(7460):89-92.
Chang S-H, Lu Y-C, Li X, Hsieh W-Y, Xiong Y, Ghosh M, Evans T, Elemento O, Hla T.  2013.  Antagonistic function of the RNA-binding protein HuR and miR-200b in post-transcriptional regulation of vascular endothelial growth factor-A expression and angiogenesis.. J Biol Chem. 288(7):4908-21.
Lin P-C, Chiu Y-L, Banerjee S, Park K, Mosquera JMiguel, Giannopoulou E, Alves P, Tewari AK, Gerstein MB, Beltran H et al..  2013.  Epigenetic repression of miR-31 disrupts androgen receptor homeostasis and contributes to prostate cancer progression.. Cancer Res. 73(3):1232-44.
Béguelin W, Popovic R, Teater M, Jiang Y, Bunting KL, Rosen M, Shen H, Yang SNing, Wang L, Ezponda T et al..  2013.  EZH2 is required for germinal center formation and somatic EZH2 mutations promote lymphoid transformation.. Cancer Cell. 23(5):677-92.
Béguelin W, Popovic R, Teater M, Jiang Y, Bunting KL, Rosen M, Shen H, Yang SNing, Wang L, Ezponda T et al..  2013.  EZH2 is required for germinal center formation and somatic EZH2 mutations promote lymphoid transformation.. Cancer Cell. 23(5):677-92.
Béguelin W, Popovic R, Teater M, Jiang Y, Bunting KL, Rosen M, Shen H, Yang SNing, Wang L, Ezponda T et al..  2013.  EZH2 is required for germinal center formation and somatic EZH2 mutations promote lymphoid transformation.. Cancer Cell. 23(5):677-92.
Bödör C, Grossmann V, Popov N, Okosun J, O'Riain C, Tan K, Marzec J, Araf S, Wang J, Lee AM et al..  2013.  EZH2 mutations are frequent and represent an early event in follicular lymphoma.. Blood. 122(18):3165-8.