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Article Abstract
Mutations of the X-linked gene encoding methyl-CpG-binding protein 2 () cause classical forms of Rett syndrome (RTT) in girls. A subset of patients who are recognized to have an overlapping neurological phenotype with RTT but are lacking a mutation in a gene that causes classical or atypical RTT can be described as having a 'Rett-syndrome-like phenotype (RTT-L). Here, we report eight patients from our cohort diagnosed as having RTT-L who carry mutations in genes unrelated to RTT. We annotated the list of genes associated with RTT-L from our patient cohort, considered them in the light of peer-reviewed articles on the genetics of RTT-L, and constructed an integrated protein-protein interaction network (PPIN) consisting of 2871 interactions connecting 2192 neighboring proteins among RTT- and RTT-L-associated genes. Functional enrichment analysis of RTT and RTT-L genes identified a number of intuitive biological processes. We also identified transcription factors (TFs) whose binding sites are common across the set of RTT and RTT-L genes and appear as important regulatory motifs for them. Investigation of the most significant over-represented pathway analysis suggests that HDAC1 and CHD4 likely play a central role in the interactome between RTT and RTT-L genes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10217403 | PMC |
| http://dx.doi.org/10.3390/cells12101437 | DOI Listing |
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Genetic and Protein Network Underlying the Convergence of Rett-Syndrome-like (RTT-L) Phenotype in Neurodevelopmental Disorders.
Cells
May 2023
Neurogenomics Division, Translational Genomics Research Institute (TGen), Phoenix, AZ 85004, USA.
Article Synopsis
- Mutations in the X-linked gene that encodes methyl-CpG-binding protein 2 are known to cause classical Rett syndrome (RTT) primarily in girls, while some patients present a 'Rett-syndrome-like phenotype' (RTT-L) without the typical mutations.
- The study reports on eight patients diagnosed with RTT-L who have mutations in genes not directly linked to classical RTT, and analyzes their genetic data along with insights from existing research to build a comprehensive network of protein interactions involving RTT and RTT-L genes.
- Functional analysis reveals key biological processes associated with these genes, highlighting the roles of specific transcription factors and suggesting that proteins HDAC1 and CHD4 may play crucial roles in the interaction network between RTT
Surface- and voxel-based brain morphologic study in Rett and Rett-like syndrome with MECP2 mutation.
Int J Dev Neurosci
April 2019
Division of Newborn Medicine, Department of Medicine, Boston Children's Hospital, Harvard Medical School, 300 Longwood Avenue, Boston, MA, 02115, USA.
Rett syndrome (RTT) is a rare congenital disorder which in most cases (95%) is caused by methyl-CpG binding protein 2 (MECP2) mutations. RTT is characterized by regression in global development, epilepsy, autistic features, acquired microcephaly, habitual hand clapping, loss of purposeful hand skills, and autonomic dysfunctions. Although the literature has demonstrated decreased volumes of the cerebrum, cerebellum, and the caudate nucleus in RTT patients, surface-based brain morphology including cortical thickness and cortical gyrification analyses are lacking in RTT.
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