Congenital heart defects represent a major global health burden, affecting nearly one million newborns annually. Identifying the underlying genetic causes is essential for improved diagnosis, patient Show more
Congenital heart defects represent a major global health burden, affecting nearly one million newborns annually. Identifying the underlying genetic causes is essential for improved diagnosis, patient management, and genetic counseling. We conducted a cytogenetic study integrating conventional karyotyping, fluorescence in situ hybridization (FISH), and chromosomal microarray analysis (CMA 44 K) in 20 Tunisian patients presenting syndromic CHDs and referred to our Genetics Department. CMA identified pathogenic copy number variations in four patients. These included an inherited 11 Mb deletion at 9p24.2 together with a 10 Mb duplication of 20pter; a de novo 1.2 Mb deletion at 15q26.2 with an 11 Mb duplication at 2q36.3; a de novo 113 kb deletion at 17q21.32; and a de novo 48 Mb duplication at 8q22. Several CNVs overlapped known deletion/duplication syndromes, some with previously infrequent cardiac involvement. Genotype-phenotype correlations enabled prioritization of CHD relevant genes including DOCK8, HTR2B, KANSL1, ZFPM2, and TRPS1, whose dosage sensitivity and interactions with cardiac developmental pathways may contribute to the observed phenotypes. This study reinforces the clinical utility of CMA in detecting cryptic chromosomal abnormalities in syndromic CHD. The identified CNVs and gene candidates offer new insights into CHD genetic architecture and support CMA as a first-tier diagnostic tool. These findings highlight the contribution of rare, pathogenic CNVs in syndromic cases and suggest their integration into refined diagnostic and counseling strategies. Further functional studies are necessary to elucidate the roles of these candidates in cardiogenesis. Show less
Apolipoprotein A5 (APOA5) has been linked to metabolic syndrome (MetS) in several populations. In North Africa, only the Tunisian and Moroccan populations were investigated. Our aim is to assess the a Show more
Apolipoprotein A5 (APOA5) has been linked to metabolic syndrome (MetS) in several populations. In North Africa, only the Tunisian and Moroccan populations were investigated. Our aim is to assess the association between APOA5 gene variant (rs662799) and haplotypes with MetS in Tunisian population and to perform a meta-analysis in North Africa. A total of 594 Tunisian participants were genotyped for polymorphism rs662799 using KASPar technology. Two polymorphisms rs3135506 and rs651821 in APOA5 gene genotyped in our previous study, were used in addition to rs662799 to assess the haplotype association with MetS. The genotype of 875 participants was used for the meta-analysis. Statistical analyses were performed with R software. The rs662799 increases the risk of MetS under the dominant (P=0.018) and the additive models (P=0.028) in the Tunisian population. After stratification of the cohort following the sex and the geographic origin, a positive association of rs662799 with MetS was found for participant from the Northern region and for the women group. Only the haplotype AGT showed a significant association with MetS by decreasing the risk of the disease. The meta-analysis reported a significant association of rs662799 and rs3135506 with MetS. Our results showed a significant association between the APOA5 gene variants rs662799 and haplotypes with MetS and its traits in Tunisia. An impact of the sex and the geographic origin on the genotype distribution was highlighted. Our funding emphasizes the role of APOA5 in the development of MetS in North Africa. Show less
APOA5 has been linked to metabolic syndrome (MetS) or its traits in several populations. In North Africa, only the Moroccan population was investigated. Our aim is to assess the association between AP Show more
APOA5 has been linked to metabolic syndrome (MetS) or its traits in several populations. In North Africa, only the Moroccan population was investigated. Our aim is to assess the association between APOA5 gene polymorphisms with the susceptibility to MetS and its components in the Tunisian population. A total of 594 participants from the Tunisian population were genotyped for two polymorphisms rs3135506 and rs651821 located in APOA5 gene using KASPar technology. Statistical analyses were performed using R software. The SNP rs651821 increased the risk of MetS under the dominant model (OR=1.91 [1.17-3.12], P=0.008) whereas the variant rs3135506 was not associated with MetS. After stratification of the cohort following the sex, only the variant rs651821 showed a significant association with MetS among the women group. The influence of the geographic origin of the studied population on the genotype distribution of APOA5 variants showed that the variant rs651821 was significantly associated with MetS only for the Northern population. The association analyses of the variants rs651821 and rs3135506 with different quantitative traits of MetS showed a significant association only between the variant rs3135506 and triglycerides levels. This is the first study reporting the association of APOA5 gene variants with MetS in Tunisia. Our study emphasizes the role of APOA5 variants in the regulation of the triglycerides blood levels. Further studies are needed to confirm the clinical relevance of these associations and to better understand the physiopathology of the MetS. Show less
S M Bahri, W Chia, X Yang · 2001 · Mechanisms of development · Elsevier · added 2026-04-24
Sibling neurons in the embryonic central nervous system (CNS) of Drosophila can adopt distinct states as judged by gene expression and axon projection. In the NB4-2 lineage, two even-skipped (eve)-exp Show more
Sibling neurons in the embryonic central nervous system (CNS) of Drosophila can adopt distinct states as judged by gene expression and axon projection. In the NB4-2 lineage, two even-skipped (eve)-expressing sibling neuronal cells, RP2 and RP2sib, are formed in each hemineuromere. Throughout embryogenesis, only RP2, but not RP2sib, maintains eve expression. In this report, we describe a P-element induced mutation that alters the expression pattern of EVE in RP2 motoneurons in the Drosophila embryonic CNS. The mutation was mapped to a Drosophila homolog of human AF10/AF17 leukemia fusion genes (alf), and therefore named Dalf. Like its human counterparts, Dalf encodes a zinc finger/leucine zipper nuclear protein that is widely expressed in embryonic and larval tissues including neurons and glia. In Dalf mutant embryos, the RP2 motoneuron no longer maintains EVE expression. The effect of the Dalf mutation on EVE expression is RP2-specific and does not affect other characteristics of the RP2 motoneuron. In addition to the embryonic phenotype, Dalf mutant larvae are retarded in their growth and this defect can be rescued by the ectopic expression of a Dalf transgene under the control of a neuronal GAL4 driver. This indicates a requirement for Dalf function in the nervous system for maintaining gene expression and the facilitation of normal growth. Show less