R391 human dominant mutation does not affect TubB4b localization and sensory hair cells structure in zebrafish inner ear and lateral line.

Heterozygous R391 TUBB4B pathogenic variations are responsible for an association of hearing loss and retinal dystrophy in human. With the goal of understanding the functions of TuBB4b and the pathogenic role of R391 variations, we characterized tubB4B in zebrafish and identified the gene regulatory elements necessary and sufficient for expression of TubB4b as in endogenous tissues. Using knock-out and transgenic approaches, we determined that R391 mutations impair neither localization of TubB4B within sensory hair cells (SHC) nor their structure, but induced to a small decrease in SHC number from anterior crista.

High frequency of hotspot mutation in PTPN11 gene among Moroccan patients with Noonan syndrome.

Noonan syndrome (NS; OMIM 163950) is an autosomal dominant RASopathy with variable clinical expression and genetic heterogeneity. Clinical manifestations include characteristic facial features, short stature, and cardiac anomalies. Variants in protein-tyrosine phosphatase, non-receptor-type 11 (PTPN11), encoding SHP-2, account for about half of NS patients, SOS1 in approximately 13%, RAF1 in 10%, and RIT1 each in 9%.

Clinical description and mutational profile of a Moroccan series of patients with Rubinstein Taybi syndrome.

Background: Rubinstein-Taybi syndrome (RSTS; OMIM 180849) is a rare autosomal dominant developmental disorder with an estimated prevalence of one case per 125,000 live births. RSTS is characterized by typical face, broad thumbs and halluces, short stature, and intellectual disability. Facial dysmorphy is characteristic with microcephaly, low frontal hairline, arched eyebrows, long eyelashes, convex profile of nose, narrow palate, and micrognathia.

Application of next generation sequencing in genetic counseling a case of a couple at risk of cystinosis.

Background: In Morocco, consanguinity rate is very high; which lead to an increase in the birth prevalence of infants with autosomal recessive disorders. Previously, it was difficult to diagnose rare autosomal recessive diseases. Next Generation Sequencing (NGS) techniques have considerably improved clinical diagnostics.

Exome sequencing revealed a novel homozygous METTL23 gene mutation leading to familial mild intellectual disability with dysmorphic features.

Background: Genetic factors represent a considerable part of the etiologies of intellectual disability; however, the identification of causal genetic anomaly has long been complicated by the great clinical and genetic heterogeneity of this type of disease. With advances in next-generation sequencing technologies and functional studies, the identification of genes involved in intellectual development has led to more accurate diagnostics and better understanding of the underlying biological pathways.

Case Report: We report on the case of two Moroccan siblings presenting mild intellectual disability with minimal dysmorphic features in which whole exome sequencing analysis revealed homozygous mutation in the METTL23 gene.