Susceptible chiasmate configurations of chromosome 21 predispose to non–disjunction in both maternal meiosis I and meiosis II NE Lamb, SB Freeman, A Savage-Austin, D Pettay, L Taft, J Hersey, Y Gu, ... Nature genetics 14 (4), 400-405, 1996 | 462 | 1996 |
Characterization of susceptible chiasma configurations that increase the risk for maternal nondisjunction of chromosome 21 NE Lamb, E Feingold, A Savage, D Avramopoulos, S Freeman, Y Gu, ... Human molecular genetics 6 (9), 1391-1399, 1997 | 278 | 1997 |
Recombination rate and reproductive success in humans A Kong, J Barnard, DF Gudbjartsson, G Thorleifsson, G Jonsdottir, ... Nature genetics 36 (11), 1203-1206, 2004 | 225 | 2004 |
Effect of meiotic recombination on the production of aneuploid gametes in humans NE Lamb, SL Sherman, TJ Hassold Cytogenetic and genome research 111 (3-4), 250-255, 2005 | 222 | 2005 |
Genomic diagnosis for children with intellectual disability and/or developmental delay KM Bowling, ML Thompson, MD Amaral, CR Finnila, SM Hiatt, KL Engel, ... Genome medicine 9, 1-11, 2017 | 221 | 2017 |
Association between maternal age and meiotic recombination for trisomy 21 NE Lamb, K Yu, J Shaffer, E Feingold, SL Sherman The American Journal of Human Genetics 76 (1), 91-99, 2005 | 192 | 2005 |
Risk factors for nondisjunction of trisomy 21 SL Sherman, SB Freeman, EG Allen, NE Lamb Cytogenetic and genome research 111 (3-4), 273-280, 2005 | 188 | 2005 |
Clinical sequencing exploratory research consortium: accelerating evidence-based practice of genomic medicine RC Green, KAB Goddard, GP Jarvik, LM Amendola, PS Appelbaum, ... The American Journal of Human Genetics 98 (6), 1051-1066, 2016 | 167 | 2016 |
What does it mean to be genomically literate?: National Human Genome Research Institute meeting report B Hurle, T Citrin, JF Jenkins, KA Kaphingst, N Lamb, JE Roseman, ... Genetics in Medicine 15 (8), 658-663, 2013 | 139 | 2013 |
SARS-CoV-2 (COVID-19) structural and evolutionary dynamicome: insights into functional evolution and human genomics R Gupta, J Charron, CL Stenger, J Painter, H Steward, TW Cook, W Faber, ... Journal of Biological Chemistry 295 (33), 11742-11753, 2020 | 54 | 2020 |
Relationship of recombination patterns and maternal age among non-disjoined chromosomes 21 SL Sherman, NE Lamb, E Feingold Biochemical Society Transactions 34 (4), 578-580, 2006 | 53 | 2006 |
Nondisjunction—a view from ringside NE Lamb, TJ Hassold New England Journal of Medicine 351 (19), 1931-1934, 2004 | 49 | 2004 |
Systematic reanalysis of genomic data improves quality of variant interpretation SM Hiatt, MD Amaral, KM Bowling, CR Finnila, ML Thompson, DE Gray, ... Clinical genetics 94 (1), 174-178, 2018 | 41 | 2018 |
Estimating meiotic exchange patterns from recombination data: an application to humans NE Lamb, E Feingold, SL Sherman Genetics 146 (3), 1011-1017, 1997 | 31 | 1997 |
Methods for genetic linkage analysis using trisomies. E Feingold, NE Lamb, SL Sherman American journal of human genetics 56 (2), 475, 1995 | 25 | 1995 |
Obligate short-arm exchange in de novo Robertsonian translocation formation influences placement of crossovers in chromosome 21 nondisjunction SA Berend, SL Page, W Atkinson, C McCaskill, NE Lamb, SL Sherman, ... The American Journal of Human Genetics 72 (2), 488-495, 2003 | 20 | 2003 |
Non-disjunction of chromosome 21: evidence for initiation of all maternal errors during meiosis I NE Lamb, SB Freeman, A Savage-Austin, D Pettay, L Taft, J Hersey, Y Gu, ... Nature Genet 14, 400-405, 1996 | 12 | 1996 |
“Touching Triton”: Building Student Understanding of Complex Disease Risk M Loftin, K East, A Hott, N Lamb The American biology teacher 78 (1), 15-21, 2016 | 10 | 2016 |
Genomic, transcriptomic, and protein landscape profile of CFTR and cystic fibrosis M Sanders, JMJ Lawlor, X Li, JN Schuen, SL Millard, X Zhang, L Buck, ... Human genetics 140, 423-439, 2021 | 9 | 2021 |
Statistical models for trisomic phenotypes. NE Lamb, E Feingold, SL Sherman American journal of human genetics 58 (1), 201, 1996 | 8 | 1996 |