High resolution non-invasive detection of a fetal microdeletion using the GCREM algorithm

Autor: Suveyda Yeniterzi, Mary K. Dunkel, David G. Peters, Patricia Shaw, Tianjiao Chu, W. Allen Hogge, Aleksandar Rajkovic, Kimberly Bunce
Rok vydání: 2014
Předmět:
Zdroj: Prenatal Diagnosis. 34:469-477
ISSN: 0197-3851
DOI: 10.1002/pd.4331
Popis: Background/Objective The non-invasive prenatal detection of fetal microdeletions becomes increasingly challenging as the size of the mutation decreases, with current practical lower limits in the range of a few megabases. Our goals were to explore the lower limits of microdeletion size detection via non-invasive prenatal tests using Minimally Invasive Karyotyping (MINK) and introduce/evaluate a novel statistical approach we recently developed called the GC Content Random Effect Model (GCREM). Methods Maternal plasma was obtained from a pregnancy affected by a 4.2-Mb fetal microdeletion and three normal controls. Plasma DNA was subjected to capture an 8-Mb sequence spanning the breakpoint region and sequence. Data were analyzed with our published method, MINK, and a new method called GCREM. Results The 8-Mb capture segment was divided into either 38 or 76 non-overlapping regions of 200 and 100 Kb, respectively. At 200 Kb resolution, using GCREM (but not MINK), we obtained significant adjusted p-values for all 20 regions overlapping the deleted sequence, and non-significant p-values for all 18 reference regions. At 100 Kb resolution, GCREM identified significant adjusted p-values for all but one 100-Kb region located inside the deleted region. Conclusion Targeted sequencing and GCREM analysis may enable cost effective detection of fetal microdeletions and microduplications at high resolution. © 2014 John Wiley & Sons, Ltd.
Databáze: OpenAIRE