Your search keyword '"Jing Yuan Guan"' showing total 3 results

1. A novel nonsense variant of the AGXT identified in a Chinese family: special variant research in the Chinese reference genome

Author

Chang Bao Xu, Xu Dong Zhou, Hong En Xu, Yong Li Zhao, Xing Hua Zhao, Dan Hua Liu, Yong An Tian, Xin Xin Hu, Jing Yuan Guan, Jian Cheng Guo, Wen Xue Tang, and Xia Xue

Subjects

Primary hyperoxaluria type1, AGXT, Local genome reference, Whole-exome sequencing, case report, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Primary hyperoxaluria(PH)is a rare autosomal recessive genetic disease that contains three subtypes (PH1, PH2 and PH3). Approximately 80% of PH patients has been reported as subtype PH1, this subtype of PH has been related to a higher risk of renal failure at any age. Several genetic studies indicate that the variants in gene AGXT are responsible for the occurrence of PH1. However, the population heterogeneity of the variants in AGXT makes the genetic diagnosis of PH1 more challenging as it is hard to locate each specific variant. It is valuable to have a complete spectrum of AGXT variants from different population for early diagnosis and clinical treatments of PH1. Case presentation In this study, We performed high-throughput sequencing and genetic analysis of a 6-year-old male PH1 patient from a Chinese family. Two variants (c.346G > A: p.Gly116Arg; c.864G > A: p.Trp288X) of the gene AGXT were identified. We found a nonsense variant (c.864G > A: p.Trp288X) that comes from the proband’s mother and has never been reported previously. The other missense variant (c.346G > A: p.Gly116Arg) was inherited from his father and has been found previously in a domain of aminotransferase, which plays an important role in the function of AGT protein. Furthermore, we searched 110 pathogenic variants of AGXT that have been reported worldwide in healthy local Chinese population, none of these pathogenic variants was detected in the local genomes. Conclusions Our research provides an important diagnosis basis for PH1 on the genetic level by updating the genotype of PH1 and also develops a better understanding of the variants in AGXT by broadening the variation database of AGXT according to the Chinese reference genome.

Published

2021

2. Clinical characteristics and outcomes of patients hospitalized with heart failure with preserved ejection fraction and low NT-proBNP levels.

Author

Yu-Yi Chen, Lin Liang, Peng-Chao Tian, Jia-Yu Feng, Li-Yan Huang, Bo-Ping Huang, Xue-Mei Zhao, Yi-Hang Wu, Jing Wang, Jing-Yuan Guan, Xin-Qing Li, Jian Zhang, and Yu-Hui Zhang

Published

2023

3. A novel nonsense variant of the AGXT identified in a Chinese family: special variant research in the Chinese reference genome

Author

Hongen Xu, Xia Xue, Yong An Tian, Dan Hua Liu, Jian Cheng Guo, Chang Bao Xu, Yong Li Zhao, Xin Xin Hu, Jing Yuan Guan, Xing Hua Zhao, Xu Dong Zhou, and Wenxue Tang

Subjects

Male, 0301 basic medicine, Proband, China, medicine.medical_specialty, Population, 030232 urology & nephrology, Case Report, Whole-exome sequencing, case report, lcsh:RC870-923, Genetic analysis, Genome, 03 medical and health sciences, 0302 clinical medicine, Asian People, Internal medicine, Genotype, medicine, Humans, Missense mutation, AGXT, Child, education, Gene, Transaminases, Genetics, education.field_of_study, business.industry, Primary hyperoxaluria type1, Local genome reference, lcsh:Diseases of the genitourinary system. Urology, Pedigree, 030104 developmental biology, Codon, Nonsense, Nephrology, Hyperoxaluria, Primary, business, Reference genome

Abstract

Background Primary hyperoxaluria(PH)is a rare autosomal recessive genetic disease that contains three subtypes (PH1, PH2 and PH3). Approximately 80% of PH patients has been reported as subtype PH1, this subtype of PH has been related to a higher risk of renal failure at any age. Several genetic studies indicate that the variants in gene AGXT are responsible for the occurrence of PH1. However, the population heterogeneity of the variants in AGXT makes the genetic diagnosis of PH1 more challenging as it is hard to locate each specific variant. It is valuable to have a complete spectrum of AGXT variants from different population for early diagnosis and clinical treatments of PH1. Case presentation In this study, We performed high-throughput sequencing and genetic analysis of a 6-year-old male PH1 patient from a Chinese family. Two variants (c.346G > A: p.Gly116Arg; c.864G > A: p.Trp288X) of the gene AGXT were identified. We found a nonsense variant (c.864G > A: p.Trp288X) that comes from the proband’s mother and has never been reported previously. The other missense variant (c.346G > A: p.Gly116Arg) was inherited from his father and has been found previously in a domain of aminotransferase, which plays an important role in the function of AGT protein. Furthermore, we searched 110 pathogenic variants of AGXT that have been reported worldwide in healthy local Chinese population, none of these pathogenic variants was detected in the local genomes. Conclusions Our research provides an important diagnosis basis for PH1 on the genetic level by updating the genotype of PH1 and also develops a better understanding of the variants in AGXT by broadening the variation database of AGXT according to the Chinese reference genome.

Published

2021