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Items: 10

1.

The impact of rare variation on gene expression across tissues.

Li X, Kim Y, Tsang EK, Davis JR, Damani FN, Chiang C, Hess GT, Zappala Z, Strober BJ, Scott AJ, Li A, Ganna A, Bassik MC, Merker JD; GTEx Consortium; Laboratory, Data Analysis &Coordinating Center (LDACC)—Analysis Working Group; Statistical Methods groups—Analysis Working Group; Enhancing GTEx (eGTEx) groups; NIH Common Fund; NIH/NCI; NIH/NHGRI; NIH/NIMH; NIH/NIDA; Biospecimen Collection Source Site—NDRI; Biospecimen Collection Source Site—RPCI; Biospecimen Core Resource—VARI; Brain Bank Repository—University of Miami Brain Endowment Bank; Leidos Biomedical—Project Management; ELSI Study; Genome Browser Data Integration &Visualization—EBI; Genome Browser Data Integration &Visualization—UCSC Genomics Institute, University of California Santa Cruz, Hall IM, Battle A, Montgomery SB.

Nature. 2017 Oct 11;550(7675):239-243. doi: 10.1038/nature24267.

2.

The impact of structural variation on human gene expression.

Chiang C, Scott AJ, Davis JR, Tsang EK, Li X, Kim Y, Hadzic T, Damani FN, Ganel L; GTEx Consortium, Montgomery SB, Battle A, Conrad DF, Hall IM.

Nat Genet. 2017 May;49(5):692-699. doi: 10.1038/ng.3834. Epub 2017 Apr 3.

3.

Small RNA Sequencing in Cells and Exosomes Identifies eQTLs and 14q32 as a Region of Active Export.

Tsang EK, Abell NS, Li X, Anaya V, Karczewski KJ, Knowles DA, Sierra RG, Smith KS, Montgomery SB.

G3 (Bethesda). 2017 Jan 5;7(1):31-39. doi: 10.1534/g3.116.036137.

4.

Human genomics. Effect of predicted protein-truncating genetic variants on the human transcriptome.

Rivas MA, Pirinen M, Conrad DF, Lek M, Tsang EK, Karczewski KJ, Maller JB, Kukurba KR, DeLuca DS, Fromer M, Ferreira PG, Smith KS, Zhang R, Zhao F, Banks E, Poplin R, Ruderfer DM, Purcell SM, Tukiainen T, Minikel EV, Stenson PD, Cooper DN, Huang KH, Sullivan TJ, Nedzel J; GTEx Consortium; Geuvadis Consortium, Bustamante CD, Li JB, Daly MJ, Guigo R, Donnelly P, Ardlie K, Sammeth M, Dermitzakis ET, McCarthy MI, Montgomery SB, Lappalainen T, MacArthur DG.

Science. 2015 May 8;348(6235):666-9. doi: 10.1126/science.1261877.

5.

The landscape of genomic imprinting across diverse adult human tissues.

Baran Y, Subramaniam M, Biton A, Tukiainen T, Tsang EK, Rivas MA, Pirinen M, Gutierrez-Arcelus M, Smith KS, Kukurba KR, Zhang R, Eng C, Torgerson DG, Urbanek C; GTEx Consortium, Li JB, Rodriguez-Santana JR, Burchard EG, Seibold MA, MacArthur DG, Montgomery SB, Zaitlen NA, Lappalainen T.

Genome Res. 2015 Jul;25(7):927-36. doi: 10.1101/gr.192278.115. Epub 2015 May 7.

6.

Genetic conflict reflected in tissue-specific maps of genomic imprinting in human and mouse.

Babak T, DeVeale B, Tsang EK, Zhou Y, Li X, Smith KS, Kukurba KR, Zhang R, Li JB, van der Kooy D, Montgomery SB, Fraser HB.

Nat Genet. 2015 May;47(5):544-9. doi: 10.1038/ng.3274. Epub 2015 Apr 13.

7.

Mining TCGA data using Boolean implications.

Sinha S, Tsang EK, Zeng H, Meister M, Dill DL.

PLoS One. 2014 Jul 23;9(7):e102119. doi: 10.1371/journal.pone.0102119. eCollection 2014.

8.

Disparity estimation by pooling evidence from energy neurons.

Tsang EK, Shi BE.

IEEE Trans Neural Netw. 2009 Nov;20(11):1772-82. doi: 10.1109/TNN.2009.2030370. Epub 2009 Sep 29.

PMID:
19789111
9.

Normalization enables robust validation of disparity estimates from neural populations.

Tsang EK, Shi BE.

Neural Comput. 2008 Oct;20(10):2464-90. doi: 10.1162/neco.2008.05-07-532.

PMID:
18386980
10.

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