Literature DB >> 26942288

Monoallelic and Biallelic Variants in EMC1 Identified in Individuals with Global Developmental Delay, Hypotonia, Scoliosis, and Cerebellar Atrophy.

Tamar Harel1, Gozde Yesil2, Yavuz Bayram3, Zeynep Coban-Akdemir3, Wu-Lin Charng3, Ender Karaca3, Ali Al Asmari4, Mohammad K Eldomery3, Jill V Hunter5, Shalini N Jhangiani6, Jill A Rosenfeld7, Davut Pehlivan3, Ayman W El-Hattab8, Mohammed A Saleh4, Charles A LeDuc9, Donna Muzny6, Eric Boerwinkle10, Richard A Gibbs11, Wendy K Chung12, Yaping Yang7, John W Belmont3, James R Lupski13.   

Abstract

The paradigm of a single gene associated with one specific phenotype and mode of inheritance has been repeatedly challenged. Genotype-phenotype correlations can often be traced to different mutation types, localization of the variants in distinct protein domains, or the trigger of or escape from nonsense-mediated decay. Using whole-exome sequencing, we identified homozygous variants in EMC1 that segregated with a phenotype of developmental delay, hypotonia, scoliosis, and cerebellar atrophy in three families. In addition, a de novo heterozygous EMC1 variant was seen in an individual with a similar clinical and MRI imaging phenotype. EMC1 encodes a member of the endoplasmic reticulum (ER)-membrane protein complex (EMC), an evolutionarily conserved complex that has been proposed to have multiple roles in ER-associated degradation, ER-mitochondria tethering, and proper assembly of multi-pass transmembrane proteins. Perturbations of protein folding and organelle crosstalk have been implicated in neurodegenerative processes including cerebellar atrophy. We propose EMC1 as a gene in which either biallelic or monoallelic variants might lead to a syndrome including intellectual disability and preferential degeneration of the cerebellum.
Copyright © 2016 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  EMC1; Whole-exome sequencing; cerebellar atrophy; endoplasmic reticulum (ER)-membrane complex; inter-organellar communication; intracellular transport; mitochondrial membrane; neurodegeneration

Mesh:

Substances:

Year:  2016        PMID: 26942288      PMCID: PMC4800043          DOI: 10.1016/j.ajhg.2016.01.011

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


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