A report on genetic analysis for 3 cases of glutaric academia type Ⅰ
10.13602/j.cnki.jcls.2019.02.04
- VernacularTitle:3例戊二酸血症Ⅰ型患者遗传学分析
- Author:
Guanglai FAN
1
,
2
,
3
;
Yuqi YANG
4
;
Bin YU
4
;
Wei ZHU
1
Author Information
1. School of Medicine, Jiangsu University
2. Blood Transfusion Department, Huai&rsquo
3. an Maternity and Child Health Care Hospital
4. Central Laboratory, Changzhou Maternity and Child Health Care Hospital affiliated to Nanjing Medical University
- Publication Type:Journal Article
- Keywords:
glutaric academia type I;
next generation sequencing;
GCDH gene;
organic acid metabolism
- From:
Chinese Journal of Clinical Laboratory Science
2019;37(2):97-100
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To verify the diagnosis of highly suspected glutaric academia type I for the cases found in neonatal screening and conduct related genetic analysis. Methods: In this research the clinical data of the children with glutaric academia type I were collected, and the diagnostic panels of inherited metabolism diseases with gene capture high-throughput sequencing technology were applied to perform genetic diagnosis in suspected cases. Sanger sequencing technology was also used to verify the genes of the members in this family. In addition, we searched a large number of relevant literatures for genetic analysis.
Methods:In this research the clinical data of the children with glutaric academia type I were collected, and the diagnostic panels of inherited metabolism diseases with gene capture high-throughput sequencing technology were applied to perform genetic diagnosis in suspected cases. Sanger sequencing technology was also used to verify the genes of the members in this family. In addition, we searched a large number of relevant literatures for genetic analysis.
Results:All the 3 cases were found to have complex heterozygous mutation sites of GCDH gene by gene sequencing technology. The mutation sites were c.109_110delCA and c.416C>G in the first case, c.892G>A and c.261_506-433delinsATA in the second case and c.1235C>A and c.1244-2A>C in the last case. Among them, c.261_506-433delinsATA and c.109_110delCA should be completely newly identified and never reported in literatures. All the mutation sites were verified to be inherited from their parents.
Conclusion:Next-generation sequencing technology can contribute to confirming the diagnosis of glutaric academia type I and provide reliable evidence for appropriate treatment and genetic counseling of this disease.
- Full text:范广来 主编审阅稿 20181160.docx
