Baylor Genetics Featured in Pediatric Neurology Journal for Combined Genome Sequencing and RNA Analysis

Combined Genome Sequencing and RNA Analysis Reveals and Characterizes a Deep Intronic Variant in IGHMBP2 in a Patient With Spinal Muscular Atrophy With Respiratory Distress Type 1

Bodle EE, Zhu W, Velez-Bartolomei F, Tesi-Rocha A, Liu P, Bernstein JA.

Published: January 1, 2021

Abstract

Background
Pathogenic variants in the IGHMBP2 gene cause recessive spinal motor neuropathies of variable phenotype, including a predominantly distal motor impairment of Charcot-Marie-Tooth type 2S and the more severe condition of spinal muscular atrophy with respiratory distress type 1 in which infantile respiratory failure predominates.
Methods
We describe the first reported case of spinal muscular atrophy with respiratory distress type 1 caused by a novel deep intronic variant in IGHMBP2 (NM_002180c.712-610A>G).
Results
The variant was detected by whole genome sequencing. Reverse transcription-polymerase chain reaction and complementary DNA sequencing were used to characterize the impact of the novel variant.
Conclusions
This report illustrates the utility in clinical practice of genome sequencing and RNA analysis, compared with exome sequencing alone.

Pediatric Neurology (2021) 

Click here to read the article. 

For more information on the products and/or services mentioned…

Previous Post
Baylor Genetics Featured in ScienceDirect for Study on Parental Mosaicism for CNV Deletions
Next Post
Genetics in Medicine Features Baylor Genetics for Assessing The Scale of Low-level Parental Mosaicism in Exome Sequencing (ES) Databases