利用生物信息学分析鉴定特纳综合征(45,X)和克氏综合征(47,XXY)中的常见差异表达基因。
Identification of common differentially expressed genes in Turner (45,X) and Klinefelter (47,XXY) syndromes using bioinformatics analysis.
作者信息
Manotas María Carolina, Calderón Juan Camilo, López-Kleine Liliana, Suárez-Obando Fernando, Moreno Olga M, Rojas Adriana
机构信息
Institute of Human Genetics. Faculty of Medicine, Pontificia Universidad Javeriana, Bogotá, Colombia.
Department of Statistics, Faculty of Science, Universidad Nacional de Colombia, Ciudad Universitaria, Bogotá, Colombia.
出版信息
Mol Genet Genomic Med. 2020 Nov;8(11):e1503. doi: 10.1002/mgg3.1503. Epub 2020 Sep 21.
BACKGROUND
Analysis of patients with chromosomal abnormalities, including Turner syndrome and Klinefelter syndrome, has highlighted the importance of X-linked gene dosage as a contributing factor for disease susceptibility. Escape from X-inactivation and X-linked imprinting can result in transcriptional differences between normal men and women as well as in patients with sex chromosome abnormalities.
OBJECTIVE
To identify differentially expressed genes among patients with Turner (45,X) and Klinefelter (46,XXY) syndrome using bioinformatics analysis.
METHODOLOGY
Two gene expression data sets of Turner (45,X) and Klinefelter syndrome (47,XXY) were obtained from the Gene Omnibus Expression (GEO) database of the National Center for Biotechnology Information (NCBI). Statistical analysis was performed using R Bioconductor libraries. Differentially expressed genes (DEGs) were determined using significance analysis of microarray (SAM). The functional annotation of the DEGs was performed with DAVID v6.8 (The Database for Annotation, Visualization, and Integrated Discovery).
RESULTS
There are no genes over-expressed simultaneously in both diseases. However, when crossing the list of under-expressed genes for 45,X cells and the list of over-expressed genes for 47,XXY cells, there are 16 common genes: SLC25A6, AKAP17A, ASMTL, KDM5C, KDM6A, ATRX, CSF2RA, DHRSX, CD99, ZBED1, EIF1AX, MVB12B, SMC1A, P2RY8, DOCK7, DDX3X, eight of which are involved in the regulation of gene expression by epigenetic mechanisms, regulation of splicing processes and protein synthesis.
CONCLUSION
Of the 16 identified as under-expressed in 45,X cells and over-expressed in 47,XXY cells, 14 are located in X chromosome and 2 in autosomal chromosome; 8 of these genes are involved in the regulation of gene expression: 5 genes are related to epigenetic mechanisms, 2 in regulation of splicing processes, and 1 in the protein synthesis process. Our results are limited by it being the product of a bioinformatic analysis from mRNA isolated from whole blood, this makes necessary further exploration of the relationships between these genes and Turner syndrome and Klinefelter syndrome in the future.
背景
对包括特纳综合征和克兰费尔特综合征在内的染色体异常患者的分析突出了X连锁基因剂量作为疾病易感性促成因素的重要性。逃避X染色体失活和X连锁印记可导致正常男性和女性以及性染色体异常患者之间的转录差异。
目的
使用生物信息学分析来鉴定特纳(45,X)和克兰费尔特(46,XXY)综合征患者中差异表达的基因。
方法
从美国国立生物技术信息中心(NCBI)的基因综合表达(GEO)数据库中获取特纳(45,X)和克兰费尔特综合征(47,XXY)的两个基因表达数据集。使用R生物导体库进行统计分析。使用微阵列显著性分析(SAM)确定差异表达基因(DEG)。使用DAVID v6.8(注释、可视化和综合发现数据库)对DEG进行功能注释。
结果
两种疾病中均无基因同时过度表达。然而,将45,X细胞中低表达基因列表与47,XXY细胞中高表达基因列表交叉时,有16个共同基因:SLC25A6、AKAP17A、ASMTL、KDM5C、KDM6A、ATRX、CSF2RA、DHRSX、CD99、ZBED1、EIF1AX、MVB12B、SMC1A、P2RY8、DOCK7、DDX3X,其中8个基因参与通过表观遗传机制调控基因表达、剪接过程调控和蛋白质合成。
结论
在鉴定出的16个在45,X细胞中低表达而在47,XXY细胞中高表达的基因中,14个位于X染色体,2个位于常染色体;这些基因中有8个参与基因表达调控:5个基因与表观遗传机制相关,2个与剪接过程调控相关,1个与蛋白质合成过程相关。我们的结果受到其为从全血中分离的mRNA进行生物信息学分析产物的限制,这使得未来有必要进一步探索这些基因与特纳综合征和克兰费尔特综合征之间的关系。
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