Chromosome 9p terminal deletion in nine Egyptian patients and narrowing of the critical region for trigonocephaly

Chromosome 9p terminal deletion in nine Egyptian patients and narrowing of the critical region for trigonocephaly

Background This study aimed to delineate the clinical phenotype of patients with 9p deletions, pinpoint the chromosomal breakpoints, and identify the critical region for trigonocephaly, which is a frequent finding in 9p terminal deletion. Methods We investigated a cohort of nine patients with chromo...

Full description

Saved in:
Bibliographic Details
Published in:Molecular genetics & genomic medicine 2021-11, Vol.9 (11), p.e1829-n/a
Main Authors: Mohamed, Amal M., Kamel, Alaa K., Eid, Maha M., Eid, Ola M., Mekkawy, Mona, Hussein, Shymaa H., Zaki, Maha S., Esmail, Samira, Afifi, Hanan H., El‐Kamah, Ghada Y., Otaify, Ghada A., El‐Awady, Heba Ahmed, Elaidy, Aya, Essa, Mahmoud Y., El‐Ruby, Mona, Ashaat, Engy A., Hammad, Saida A., Mazen, Inas, Abdel‐Salam, Ghada M. H., Aglan, Mona, Temtamy, Samia
Format: Article
Language:eng
Subjects:
9p deletion
ambiguous genitalia
Anomalies
Artificial chromosomes
Autism
Bacterial artificial chromosomes
brain anomalies
Breakpoints
Chromosome 9
Chromosome deletion
Chromosomes
Clitoris
Constipation
Coronary vessels
Fingers & toes
Gene deletion
Genes
Genitalia
Hernias
Hypotonia
Intellectual disabilities
Original
Patients
Phenotypes
Scoliosis
trigonocephaly
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Background This study aimed to delineate the clinical phenotype of patients with 9p deletions, pinpoint the chromosomal breakpoints, and identify the critical region for trigonocephaly, which is a frequent finding in 9p terminal deletion. Methods We investigated a cohort of nine patients with chromosome 9p terminal deletions who all displayed developmental delay, intellectual disability, hypotonia, and dysmorphic features. Of them, eight had trigonocephaly, seven had brain anomalies, seven had autistic manifestations, seven had fair hair, and six had a congenital heart defect (CHD). Results Karyotyping revealed 9p terminal deletion in all patients, and patients 8 and 9 had additional duplication of other chromosomal segments. We used six bacterial artificial chromosome (BAC) clones that could identify the breakpoints at 17–20 Mb from the 9p terminus. Array CGH identified the precise extent of the deletion in six patients; the deleted regions ranged from 16 to 18.8 Mb in four patients, patient 8 had an 11.58 Mb deletion and patient 9 had a 2.3 Mb deletion. Conclusion The gene deletion in the 9p24 region was insufficient to cause ambiguous genitalia because six of the nine patients had normal genitalia. We suggest that the critical region for trigonocephaly lies between 11,575 and 11,587 Mb from the chromosome 9p terminus. To the best of our knowledge, this is the minimal critical region reported for trigonocephaly in 9p deletion syndrome, and it warrants further delineation. Nine patients with chromosome 9p terminal deletion presented with developmental delay, intellectual disability, and dysmorphic features. We concluded that the deletion of the genes in the 9p24 region are not sufficient to cause ambiguous genitalia as six out of our nine patients had normal genitalia. Based on our study we suggested that the critical region for trigonocephaly may lies within 11.8 kb in 9p23 cytoband.
ISSN:2324-9269
2324-9269