Your search keyword '"Pittman, Maureen"' showing total 3 results

1. Abstract 11332: Integration of Protein Interactome Networks with Congenital Heart Disease Variants Reveals Candidate Disease Genes

Author

Teran, Barbara Gonzalez, Pittman, Maureen, Thomas, Reuben, Felix, Franco, Richmond-Buccola, Desmond, Choudhary, Krishna, Moroni, Elisabetta, Giorgio, Colombo, Padmanabhan, Arun, Costa, Mauro, Huang, Yu, Alexanian, Michael, Lee, Clara, Cole, Bonie, Samse-Knapp, Kaitlen, McGregor, Michael, Gifford, Casey, Huttenhain, Ruth, Gelb, Bruce, Conklin, Bruce, Black, Brian L, Bruneau, Benoit, Krogan, Nevan, Pollard, Katherine, and Srivastava, Deepak

Subjects

Biotechnology, Cardiovascular, Stem Cell Research, Stem Cell Research - Embryonic - Human, Heart Disease, Genetics, Congenital Structural Anomalies, Pediatric, Human Genome, 2.1 Biological and endogenous factors, Aetiology, Good Health and Well Being, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Public Health and Health Services, Cardiovascular System & Hematology

Abstract

Congenital heart disease (CHD) is present in 1% of live births, yet despite large-scale genomic sequencing efforts, identification of causal mutations remains a challenge. We hypothesized that genetic determinants for CHDs may lie in the protein interactomes of GATA4 and TBX5, two transcription factors whose mutation cause CHDs. Defining the GATA4 or TBX5 interactomes in human cardiac progenitors via affinity purification-mass spectrometry and integrating the results with genetic data from the Pediatric Cardiac Genomic Consortium revealed an enrichment of de novo variants associated with CHD. A consolidative score that prioritized interactome members based on variant, gene, and proband features identified likely CHD-causing genes, including the epigenetic reader GLYR1. GLYR1 and GATA4 widely co-occupied and co-activated cardiac developmental genes, and the GLYR1 missense variant identified disrupted interaction with GATA4 and impaired transcriptional co-regulation in cardiomyocyte differentiation in vitro and cardiogenesis in vivo. This integrative proteomic and genetic approach provides a framework for prioritizing and interrogating the contribution of genetic variants in disease.

Published

2021

2. Abstract 11332: Integration of Protein Interactome Networks with Congenital Heart Disease Variants Reveals Candidate Disease Genes

Author

Gonzalez Teran, Barbara, primary, Pittman, Maureen, additional, Thomas, Reuben, additional, Felix, Franco, additional, Richmond-Buccola, Desmond, additional, Choudhary, Krishna, additional, Moroni, Elisabetta, additional, Giorgio, Colombo, additional, Padmanabhan, Arun, additional, Costa, Mauro, additional, Huang, Yu, additional, Alexanian, Michael, additional, Lee, Clara, additional, Cole, Bonie, additional, Samse-Knapp, Kaitlen, additional, McGregor, Michael, additional, Gifford, Casey, additional, Huttenhain, Ruth, additional, Gelb, Bruce, additional, Conklin, Bruce, additional, Black, Brian L, additional, Bruneau, Benoit, additional, Krogan, Nevan, additional, Pollard, Katherine, additional, and Srivastava, Deepak, additional

Published

2021

3. Abstract 11789: Genetic Determinants of Interventricular Septal Anatomy and Risk of Congenital Heart Disease

Author

Yu, Mengyao, primary, Harper, Andrew, additional, Aguirre, Matthew, additional, Pittman, Maureen, additional, Tcheandjieu, Catherine, additional, Amgalan, Dulguun, additional, Grace, Christopher, additional, Goel, Anuj, additional, Farrall, Martin, additional, Xiao, Ke, additional, Engreitz, Jesse, additional, Pollard, Katherine, additional, Watkins, Hugh C, additional, and Priest, James R, additional

Published

2021