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Title	Claps	Level	Year	L/Y
Exome sequencing of 457 autism families recruited online provides evidence for novel ASD genes 230 auth. P. Feliciano, Xueya Zhou, Irina Astrovskaya, Tychele N. Turner, Tianyun Wang, Leo Brueggeman, Rebecca A. Barnard, Alexander Hsieh, L. Snyder, D. Muzny, A. Sabo, R. Gibbs, E. Eichler, B. O’Roak, J. Michaelson, ... N. Volfovsky, Yufeng Shen, W. Chung, L. Abbeduto, John Acampado, Andrea J. Ace, C. Albright, M. Alessandri, D. Amaral, Alpha Amatya, R. Annett, Ivette Arriaga, Ethan Bahl, A. Balasubramanian, Nicole Bardett, Rebecca A. Barnard, Asif Bashar, A. Beaudet, Landon Beeson, R. Bernier, E. Berry-Kravis, Stephanie Booker, S. Brewster, Elizabeth Brooks, Martin E. Butler, E. Butter, Kristen Callahan, Alexies Camba, S. Carpenter, N. Carriero, Lindsey A. Cartner, A. S. Chatha, Wubin Chin, W. Chung, R. Clark, Cheryl Cohen, E. Courchesne, J. Cubells, M. Currin, A. Daniels, L. DeMarco, M. Dennis, G. Dichter, Yan Ding, H. Dinh, Ryan N. Doan, H. Doddapaneni, S. Eldred, C. Eng, C. Erickson, A. Esler, A. Fatemi, P. Feliciano, Gregory J. Fischer, Ian Fisk, E. Fombonne, Emily A. Fox, S. Francis, S. Friedman, Swami Ganesan, M. Garrett, V. Gazestani, Madeleine R. Geisheker, J. Gerdts, D. Geschwind, R. Goin-Kochel, Anthony J.Griswold, Luke P Grosvenor, Angela J. Gruber, A. Gulsrud, Jaclyn A. Gunderson, Anibal Gutierrez, Melissa N. Hale, Monica Haley, Jacob B. Hall, Kira E. Hamer, B. Han, Nathan Hanna, Christina M. Harkins, Nina Harris, Brenda Hauf, Caitlin Hayes, S. Hepburn, Lynn M. Herbert, Michelle Heyman, Brittani A. Hilscher, S. Horner, Jianhong Hu, L. Huang-Storms, H. Hutter, Dalia Istephanous, Suma Jacob, William Jensen, Mark Jones, Michelle Jordy, A. Juárez, S. Kanne, Hannah E. Kaplan, M. Kent, A. Kitaygorodsky, T. Koomar, V. Korchina, Anthony D. Krentz, H. Schneider, Elena Lamarche, R. Landa, A. Lash, J. K. Law, Noah Lawson, Kevin Layman, Holly Lechniak, Sandy Lee, S. Lee, D. Coury, C. Martin, Hai Li, Deana D. Li, Natasha Lillie, Xiuping Liu, C. Lord, Malcolm D. Mallardi, Patricia Manning, Julie Manoharan, Richard A Marini, Gabriela Marzano, Andrew Mason, Emily T. Matthews, J. McCracken, Alexander P. McKenzie, Z. Momin, M. Morrier, S. Murali, D. Muzny, V. J. Myers, J. Neely, C. Nessner, Amy G. Nicholson, Kaela O’Brien, Eirene O’Connor, Cesar Ochoa-Lubinoff, Jessica Orobio, O. Ousley, Lillian D. Pacheco, J. Pandey, Anna Marie Paolicelli, Katherine Pawlowski, K. Pierce, J. Piven, S. Plate, M. Popp, T. Pramparo, Lisa M. Prock, Hongjian Qi, Shanping Qiu, A. Rachubinski, Kshitij Rajbhandari, Rishiraj Rana, R. Remington, C. Rice, Chris Rigby, B. E. Robertson, K. Roeder, C. Rosenberg, Nicole M. Russo‐Ponsaran, E. Ruzzo, M. Sahin, A. Salomatov, Sophia Sandhu, S. Santangelo, Dustin E Sarver, Jessica F. Scherr, R. Schultz, K. Schweers, Swapnil Shah, T. Shaikh, Amanda D. Shocklee, Andrea R Simon, Laura Simon, Vini Singh, Steven A. Skinner, Christopher J Smith, Kaitlin Smith, L. Snyder, L. Soorya, Aubrie Soucy, Alexandra N. Stephens, Colleen M. Stock, J. Sutcliffe, J. Sutcliffe, A. Swanson, Maira Tafolla, N. Takahashi, C. Thomas, T. Thomas, Samantha Thompson, Jennifer Tjernagel, Bonnie Van Metre, J. Veenstra-VanderWeele, Brianna M. Vernoia, Jermel Wallace, Corrie H. Walston, Jiayao Wang, Z. Warren, Lucy Wasserburg, L. C. White, Sabrina White, Ericka L. Wodka, Simon X. Xu, Wha S. Yang, Meredith Yinger, T. Yu, Lan Zang, Hana Zaydens, Haicang Zhang, Haoquan Zhao Autism spectrum disorder (ASD) is a genetically heterogeneous condition, caused by a combination of rare de novo and inherited variants as well as common variants in at least several hundred genes. However, significantly larger sample sizes are need… Autism spectrum disorder (ASD) is a genetically heterogeneous condition, caused by a combination of rare de novo and inherited variants as well as common variants in at least several hundred genes. However, significantly larger sample sizes are needed to identify the complete set of genetic risk factors. We conducted a pilot study for SPARK (SPARKForAutism.org) of 457 families with ASD, all consented online. Whole exome sequencing (WES) and genotyping data were generated for each family using DNA from saliva. We identified variants in genes and loci that are clinically recognized causes or significant contributors to ASD in 10.4% of families without previous genetic findings. Additionally, we identified variants that are possibly associated with autism in an additional 3.4% of families. A meta-analysis using the TADA framework at a false discovery rate (FDR) of 0.2 provides statistical support for 34 ASD risk genes with at least one damaging variant identified in SPARK. Nine of these genes (BRSK2, DPP6, EGR3, FEZF2, ITSN1, KDM1B, NR4A2, PAX5 and RALGAPB) are newly emerging genes in autism, of which BRSK2 has the strongest statistical support as a risk gene for autism (TADA q-value = 0.0015). Future studies leveraging the thousands of individuals with ASD that have enrolled in SPARK are likely to further clarify the genetic risk factors associated with ASD as well as allow accelerate autism research that incorporates genetic etiology.	6	4	2019