Whole exome sequencing coupled with in silico functional analysis identified NID1 as a novel candidate gene causing neuro-psychiatric disorder in a Pakistani family

IF 0.4 4区 综合性期刊 Q4 MULTIDISCIPLINARY SCIENCES
M. Muzammal, S. Ahmad, M.Z. Ali, S. Fatima, S. Abbas, J. Khan, H. Ullah, W. Shah, L. Duan, M.A. Khan
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Abstract

Intellectual disability (ID) is a neuro-developmental condition that affects a person’s cognitive ability and results in a learning defect. It affects 1–3% of the general population; however, the ratio may be expected to be more in a consanguineous population. Herein in the present study, we identified a nuclear family from Dera Ismail Khan City in Pakistan. Whole exome sequencing was performed to map the pathogenic variant. Protein structural modeling and interaction studies were carried out to validate the variant with disease association. Molecular modeling of normal and mutated proteins was performed through I-TASSER and Chimera tools, while docking and interaction analysis was carried out using Cluspro. Clinical analysis of the patient determined mild intellectual disability and gait problem. Candidate gene analysis in this family found a homozygous missense mutation NM_002508:c.C2512T (p.Arg838Cys) in the 12th exon of NID1 gene. Molecular modeling of wild-type and mutant NID1 proteins determined a significant effect on the protein’s secondary and tertiary structure. Hence, based on the exome sequence analysis, NID1 is proposed to be a strong novel candidate ID gene in this family. The genetic mapping of the present family led us to determine a novel candidate gene to be associated with intellectual disability. Linkage of additional ID families with genes would confirm its validity and strengthen our notion. Furthermore, expression studies and pathway analysis will help in exploring the biological mechanism of learning and memory.
通过全外显子组测序和默观功能分析,在一个巴基斯坦家族中发现了导致神经精神障碍的新型候选基因 NID1
智力障碍(ID)是一种影响人的认知能力并导致学习缺陷的神经发育疾病。智力障碍患者占总人口的 1%-3%;但在近亲结婚的人群中,这一比例可能会更高。在本研究中,我们发现了一个来自巴基斯坦德拉伊斯梅尔汗市的核心家庭。我们进行了全外显子测序,以绘制致病变异体的图谱。我们还进行了蛋白质结构建模和相互作用研究,以验证变体与疾病的关联性。通过 I-TASSER 和 Chimera 工具对正常蛋白质和变异蛋白质进行了分子建模,并使用 Cluspro 进行了对接和相互作用分析。通过对患者的临床分析,确定其患有轻度智力障碍和步态问题。该家族的候选基因分析发现,NID1基因第12外显子存在一个同卵错义突变NM_002508:c.C2512T (p.Arg838Cys)。对野生型和突变型 NID1 蛋白的分子建模确定,该蛋白的二级和三级结构受到了显著影响。因此,根据外显子组序列分析,NID1 被认为是该家族中一个强有力的新候选 ID 基因。通过对该家族的基因图谱分析,我们确定了一个与智力障碍相关的新型候选基因。对更多的 ID 家系进行基因关联研究将证实其有效性,并强化我们的观点。此外,表达研究和通路分析将有助于探索学习和记忆的生物学机制。
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
57
审稿时长
>12 weeks
期刊介绍: The Journal of National Science Foundation of Sri Lanka (JNSF) publishes the results of research in Science and Technology. The journal is released four times a year, in March, June, September and December. This journal contains Research Articles, Reviews, Research Communications and Correspondences. Manuscripts submitted to the journal are accepted on the understanding that they will be reviewed prior to acceptance and that they have not been submitted for publication elsewhere.
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