Your search keyword '"Rabail Zehra Raza"' showing total 13 results

1. Evolutionary relevance of single nucleotide variants within the forebrain exclusive human accelerated enhancer regions

Author

Hizran Khatoon, Rabail Zehra Raza, Shoaib Saleem, Fatima Batool, Saba Arshad, Muhammad Abrar, Shahid Ali, Irfan Hussain, Neil H. Shubin, and Amir Ali Abbasi

Subjects

Evolution, Enhancers, Human accelerated regions, Forebrain, Archaic hominins, TFBS, Cytology, QH573-671

Abstract

Abstract Background Human accelerated regions (HARs) are short conserved genomic sequences that have acquired significantly more nucleotide substitutions than expected in the human lineage after divergence from chimpanzees. The fast evolution of HARs may reflect their roles in the origin of human-specific traits. A recent study has reported positively-selected single nucleotide variants (SNVs) within brain-exclusive human accelerated enhancers (BE-HAEs) hs1210 (forebrain), hs563 (hindbrain) and hs304 (midbrain/forebrain). By including data from archaic hominins, these SNVs were shown to be Homo sapiens-specific, residing within transcriptional factors binding sites (TFBSs) for SOX2 (hs1210), RUNX1/3 (hs563), and FOS/JUND (hs304). Although these findings suggest that the predicted modifications in TFBSs may have some role in present-day brain structure, work is required to verify the extent to which these changes translate into functional variation. Results To start to fill this gap, we investigate the SOX2 SNV, with both forebrain expression and strong signal of positive selection in humans. We demonstrate that the HMG box of SOX2 binds in vitro with Homo sapiens-specific derived A-allele and ancestral T-allele carrying DNA sites in BE-HAE hs1210. Molecular docking and simulation analysis indicated highly favourable binding of HMG box with derived A-allele containing DNA site when compared to site carrying ancestral T-allele. Conclusion These results suggest that adoptive changes in TF affinity within BE-HAE hs1210 and other HAR enhancers in the evolutionary history of Homo sapiens might have brought about changes in gene expression patterns and have functional consequences on forebrain formation and evolution. Methods The present study employ electrophoretic mobility shift assays (EMSA) and molecular docking and molecular dynamics simulations approaches.

Published

2023

2. The Binding Occupancy of Pro-Hypertrophic Transcription Factors among Cardiac Developmental Enhancers

Author

Rabail Zehra Raza, Irfan Hussain, Fatima Akhtar, and Sara Mumtaz

Subjects

cardiac hypertrophy, enhancers, gene regulation, transcription factors., Science

Abstract

Objective: To check which of the eight pro-hypertrophic transcription factors bind in abundance to a set of 140 functionally confirmed cardiac enhancers aiming to identify potential therapeutic targets for delaying the onset of cardiac hypertrophy. Study Design: Bioinformatics, in-Silico Study. Place and Duration of Study: The study was conducted at the Department of Biological Sciences, National University of Medical Sciences (NUMS), Rawalpindi, Pakistan, from January 2022 to December 2022. Methods: For experimentally verified human and mouse noncoding regions with gene enhancer activity measured in transgenic mice, VISTA Enhancer Browser was used to obtain 140 cardiac-specific functionally confirmed enhancers. Among these enhancers, transcription factor binding sites were computationally mapped to assess transcription factor occupancy. The binding sites for all eight transcription factors were screened in the collective set of 140 cardiac enhancers via an in-house script. Results: In this study, among a small set of eight pro-hypertrophic transcription factors, occupancy of transcription factor HAND (Heart- And Neural Crest Derivatives-Expressed Protein) was found to be maximum in the collected pool of functionally confirmed cardiac enhancers. Conclusion: The transcription factor HAND was found to have maximum binding occupancy among a set of experimentally confirmed cardiac enhancers. How to cite this: Raza RZ, Hussain I, Akhtar F, Mumtaz S. The Binding Occupancy of Pro-Hypertrophic Transcription Factors among Cardiac Developmental Enhancers. Life and Science. 2024; 5(1): 22-26. doi: http://doi.org/10.37185/LnS.1.1.464

Published

2024

3. An Evolutionary Insight Into the Heterogeneous Severity Pattern of the SARS-CoV-2 Infection

Author

Rabail Zehra Raza and Sumra Wajid Abbasi

Subjects

COVID-19, host genetic factors, natural selection, population genomics, SNP variants, Genetics, QH426-470

Abstract

The ongoing pandemic of COVID-19 has elaborated an idiosyncratic pattern of SARS-CoV-2-induced symptoms in the human host. Some populations have succumbed to the SARS-CoV-2 infection in large numbers during this pandemic, whereas others have shown a resilient side by manifesting only milder or no symptoms at all. This observation has relayed the onus of the heterogeneous pattern of SARS-CoV-2-induced critical illness among different populations to the host genetic factors. Here, the evolutionary route was explored and three genetic loci, i.e., rs10735079, rs2109069, and rs2236757, associated with COVID-19 were analyzed. Among the three, the risk allele A at genetic locus rs2236757 residing in the IFNAR2 gene was observed to have undergone recent positive selection in the African population.

Published

2022

4. In-silico Evaluation of Novel Honokiol Derivatives against Breast Cancer Target Protein LKB1

Author

Izzah Shahid, Muhammad Shoaib, Rabail Zehra Raza, Muhammad Jahangir, Sumra Wajid Abbasi, Areej Riasat, Ansa Akbar, and Samina Mehnaz

Subjects

Pharmacology, Cancer Research, Molecular Medicine

Abstract

Background: Breast cancer is characterized by uncontrolled cell growth in the breast tissue and is a leading cause of death globally. Cytotoxic effects and reduced efficacy of currently used therapeutics insist to look for new chemo-preventive strategies against breast cancer. LKB1 gene has recently been categorized as a tumor suppressor gene where its inactivation can cause sporadic carcinomas in various tissues. Mutations in the highly conserved LKB1 catalytic domain lead to the loss of function and subsequently elevated expression of pluripotency factors in breast cancer. Objectives: The utilization of drug-likeness filters and molecular simulation has helped evaluate the pharmacological activity and binding abilities of selected drug candidates to the target proteins in many cancer studies. Methods: The current in silico study provides a pharmacoinformatic approach to decipher the potential of novel honokiol derivatives as therapeutic agents against breast cancer. AutoDock Vina was used for molecular docking of the molecules. A 100 nano second (ns) molecular dynamics simulation of the lowest energy posture of 3'-formylhonokiol- LKB1, resulting from docking studies, was carried out using the AMBER 18. Results: Among the three honokiol derivatives, ligand-protein binding energy of 3' formylhonokiol with LKB1 protein was found to be the highest via molecular docking. Moreover, the stability and compactness inferred for 3'- formylhonokiol with LKB1 are suggestive of 3' formylhonokiol being an effective activator of LKB1 via simulation studies. Conclusion: It was further established that 3'- formylhonokiol displays an excellent profile of distribution, metabolism, and absorption, indicating it is an anticipated future drug candidate.

Published

2023

5. 3D Printed Biomaterials and their Scaffolds for Biomedical Engineering

Author

Rabail Zehra Raza, Arun Kumar Jaiswal, Muhammad Faheem, Sandeep Tiwari, Raees Khan, Siomar de Castro Soares, Asmat Ullah Khan, Vasco Azevedo, and Syed Babar Jamal

Abstract

Over the past decade, three-dimensional printing (3DP) has gained popularity among the public and the scientific community in a variety of disciplines, including engineering, medicine, manufacturing arts, and, more recently, education. The advantage of this technology is that it is capable of designing and printing almost any object shape using various materials such as ceramics, polymers, metals and bio.inks. This has further favored the use of this technology for biomedical applications in both clinical and research settings. In biomedicine, there has been a remarkable development of a variety of biomaterials, which in turn has accelerated the significant role of this technology as synthetic scaffolds in various forms such as scaffolds, constructs or matrices. In this chapter, we would like to review the trailblazing literature on the application of 3DP technology in biomedical engineering. This chapter focuses on various 3DP techniques and biomaterials for tissue engineering applications (TE). 3DP technology has a variety of applications in biomedicine and TE (B- TE). Customized structures for B- TE applications using 3DP have several advantages, e.g., they are easy to fabricate and are inexpensive. On the other hand, conventional technologies, which are costly, time-consuming, and labor intensive, are generally not compatible with 3DP. Therefore, the capabilities of 3DP, which is a novel fabrication technology, need to be explored for many other potential applications. Here, we provide a comprehensive overview of the different types of 3DP technologies and how they can potentially be used.

Published

2022

6. Molecular signatures of selection on the human GLI3 associated central nervous system specific enhancers

Author

Muhammad Abrar, Shahid Ali, Rabail Zehra Raza, Amir Ali Abbasi, and Irfan Hussain

Subjects

Central Nervous System, 0106 biological sciences, 0301 basic medicine, animal structures, Lineage (genetic), Neurogenesis, Nerve Tissue Proteins, Computational biology, Biology, 010603 evolutionary biology, 01 natural sciences, Evolution, Molecular, 03 medical and health sciences, Zinc Finger Protein Gli3, Molecular evolution, GLI3, Genetics, Humans, Selection, Genetic, Enhancer, Transcription factor, Hedgehog, Regulation of gene expression, body regions, DNA binding site, Enhancer Elements, Genetic, 030104 developmental biology, embryonic structures, Developmental Biology

Abstract

The zinc finger-containing transcription factor Gli3 is a key mediator of Hedgehog (Hh) signaling pathway. In vertebrates, Gli3 has widespread expression pattern during early embryonic development. Along the anteroposterior axes of the central nervous system (CNS), dorsoventral neural pattern elaboration is achieved through Hh mediated spatio-temporal deployment of Gli3 transcripts. Previously, we and others uncovered a set of enhancers that mediate many of the known aspects of Gli3 expression during neurogenesis. However, the potential role of Gli3 associated enhancers in trait evolution has not yet received any significant attention. Here, we investigate the evolutionary patterns of Gli3 associated CNS-specific enhancers that have been reported so far. A subset of these enhancers has undergone an accelerated rate of molecular evolution in the human lineage in comparison to other primates/mammals. These fast-evolving enhancers have acquired human-specific changes in transcription factor binding sites (TFBSs). These human-unique changes within subset of Gli3 associated CNS-specific enhancers were further validated as single nucleotide polymorphisms through 1000 Genome Project Phase 3 data. This work not only infers the molecular evolutionary patterns of Gli3 associated enhancers but also provides clues for putative genetic basis of the population-specificity of gene expression regulation.

Published

2021

7. Docking, Molecular Dynamic Simulation and ADMET Analysis of Novel Honokiol Derivatives against Breast Cancer Target Protein LKB1

Author

Izzah Shahid, Rabail Zehra Raza, Ansa Akbar, Sumra Wajid Abbasi, and Samina Mehnaz

Abstract

Breast cancer is characterized by an uncontrolled cell growth in the breast tissue and is a leading cause of death globally. Cytotoxic effects and reduced efficacy of currently used therapeutics insist to look for new chemo-preventive strategies against breast cancer. LKB1 gene has recently been categorized as a tumor suppressor gene where it’s inactivation can cause sporadic carcinomas in various tissues, including the breast. Mutations in the highly conserved LKB1 catalytic domain leads to the loss of function and subsequently elevated expression of pluripotency factors in breast cancer. The utilization of drug-likeness filters and molecular simulation has helped evaluate the pharmacological activity and binding abilities of selected drug candidates against the target proteins in many cancer studies. The current in silico study provides a pharmacoinformatic approach to decipher the potential of novel honokiol derivatives as therapeutic agents against breast cancer through binding of target LKB1 protein. Among the three honokiol derivatives, ligand-protein binding energy of 3' formylhonokiol with LKB1 protein was found to be the highest via molecular docking. Moreover, stability and compactness inferred for 3' formylhonokiol with LKB1 is suggestive of 3' formylhonokiol being an effective activator of LKB1 via simulation studies. It was further established that 3' formylhonokiol displays an excellent profile of distribution, metabolism, and absorption, indicating it as an anticipated future drug candidate.

Published

2022

8. Pan-Genome-Assisted Computational Design of a Multi-Epitopes-Based Vaccine Candidate against Helicobacter cinaedi

Author

Saba Ismail, Noorah Alsowayeh, Hyder Wajid Abbasi, Aqel Albutti, Muhammad Tahir ul Qamar, Sajjad Ahmad, Rabail Zehra Raza, Khulah Sadia, and Sumra Wajid Abbasi

Subjects

Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Helicobacter cinaedi, pan-genome, vaccine candidates, epitopes, multi-epitopes’ vaccine, docking, molecular dynamics simulation

Abstract

Helicobacter cinaedi is a Gram-negative bacterium from the family Helicobacteraceae and genus Helicobacter. The pathogen is a causative agent of gastroenteritis, cellulitis, and bacteremia. The increasing antibiotic resistance pattern of the pathogen prompts the efforts to develop a vaccine to prevent dissemination of the bacteria and stop the spread of antibiotic resistance (AR) determinants. Herein, a pan-genome analysis of the pathogen strains was performed to shed light on its core genome and its exploration for potential vaccine targets. In total, four vaccine candidates (TonB dependent receptor, flagellar hook protein FlgE, Hcp family type VI secretion system effector, flagellar motor protein MotB) were identified as promising vaccine candidates and subsequently subjected to an epitopes’ mapping phase. These vaccine candidates are part of the pathogen core genome: they are essential, localized at the pathogen surface, and are antigenic. Immunoinformatics was further applied on the selected vaccine proteins to predict potential antigenic, non-allergic, non-toxic, virulent, and DRB*0101 epitopes. The selected epitopes were then fused using linkers to structure a multi-epitopes’ vaccine construct. Molecular docking simulations were conducted to determine a designed vaccine binding stability with TLR5 innate immune receptor. Further, binding free energy by MMGB/PBSA and WaterSwap was employed to examine atomic level interaction energies. The designed vaccine also stimulated strong humoral and cellular immune responses as well as interferon and cytokines’ production. In a nutshell, the designed vaccine is promising in terms of immune responses’ stimulation and could be an ideal candidate for experimental analysis due to favorable physicochemical properties.

Published

2022

9. Mildly Infected and Presumed Asymptomatic Carriers of SARS-CoV-2; Implications in Spread and Control of COVID-19

Author

Rabail Zehra Raza, Raees Khan, Shumaila Naz, Syed Babar Jamal, Sumra Wajid Abbasi, and Fawad Muhammad

Subjects

business.industry, Transmission (medicine), Disease, medicine.disease, Asymptomatic, law.invention, Clinical trial, law, Quarantine, Pandemic, Immunology, medicine, Middle East respiratory syndrome, medicine.symptom, business, Asymptomatic carrier

Abstract

The death toll and the total number of infected individuals due to the ongoing pandemic of SARS-CoV-2 infection have exceeded that of Severe Acute Respiratory Syndrome (SARS) and Middle East Respiratory Syndrome (MERS) as the disease has raged around the world. So far the global efforts to tackle COVID-19 include the launch of Sputnik V vaccine by Russia, 42 vaccines presently undergoing clinical trials on humans and around 92 vaccines under preclinical active investigation in animals. Majority of the SARS-CoV-2 infected individuals have been reported to show mild symptoms whereas a considerable number show no symptoms at all. SARS-CoV-2 is believed to spread from infected individuals who are asymptomatic in addition to the symptomatic individuals. In this review we discussed how the mildly infected and asymptomatic individuals raise serious concerns and complicate the processes of screening, detection, quarantine, tracking and treatmentthatareinpracticetopreventthetransmissionofthe COVID-19.

Published

2020

10. Database Resources of the National Genomics Data Center in 2020

Author

Mengwei Li, Yu Zheng, Na Yuan, Yan Lu, Yaping Guo, Amir Ali Abbasi, Yiheng Teng, Jin-Pu Jin, Li Lan, Hui Li, Mengyu Pan, Xiangfeng Wang, Ge Gao, Xia Li, Junwen Zhu, Runsheng Chen, Zhang Zhang, Jinyue Wang, Guoping Zhao, Shaofeng Lin, Jian Sang, Ruifang Cao, Jiaqi Zhou, Yu Xue, Hao Zhang, Hongwei Guo, Yunchao Ling, Shuang Zhai, Lili Zhang, Yixue Li, Partners, Jingfa Xiao, Ming Chen, Hao Luo, An-Yuan Guo, Qing Zhou, Bixia Tang, Di Peng, Yiwei Niu, Sisi Zhang, Zhewen Zhang, Junwei Zhu, Mingyuan Sun, Wanshan Ning, Xu Chen, Chao Zhang, Meiye Jiang, Meili Chen, Nashaiman Pervaiz, Lili Hao, Zhou Huang, Xin Li, Huma Shireen, Lei Yu, Xiaonan Liu, Cuiping Li, Hui Hu, Guoliang Wang, Dong Zou, Xin Zhang, Yongbiao Xue, Xiyuan Li, Jingyao Zeng, Fatima Batool, Yang Zhang, Hailong Kang, Feng Tian, Peifeng Ji, Xueyi Teng, Liang Sun, Qianghui Zhu, Guoqing Zhang, Zhonghuang Wang, Wenming Zhao, Wan Liu, Fangqing Zhao, Shuhui Song, Jiabao Cao, Chunhui Yuan, Zheng Gong, Huanxin Chen, Yiming Bao, Feng Gao, Liyun Yuan, Shunmin He, Dongmei Tian, Qiheng Qian, Pei Wang, Yun Xiao, Zhaohua Li, Xinli Xia, Lin Liu, Lan Yao, Yingke Ma, Xianhui Sun, Quan Kang, Hua Xue, Qiang Du, Yiran Tu, Yadong Zhang, Rujiao Li, Menghua Li, Tingting Chen, Zhilin Ning, Qiong Zhang, Shuangsang Fang, Lianhe Zhao, Shuo Shi, Tongtong Zhu, Chuan-Yun Li, Qing Tang, Xiaoyang Zhi, Xiaomin Chen, Jun Yan, Hongen Kang, Yajing Hao, Xufei Teng, Chenwei Wang, Yi Zhang, Jiajia Wang, Qianpeng Li, Wanying Wu, Yuansheng Zhang, Cui Ying, Yanyan Li, Lina Ma, Fei Yang, Zhuang Xiong, Rabail Zehra Raza, Yong E Zhang, Yang Gao, Chen Li, Hans-Peter Klenk, Ying Shi, Zhennan Wang, Lili Dong, Zhenglin Du, Mingming Lu, Shuhua Xu, Yang Wu, Song Wu, Houling Wang, Yi Zhao, Yubin Sun, Qinghua Cui, Chen Ruan, Yunfei Shang, Guangyi Niu, Xiangshang Li, Xinxin Zhang, Qianwen Gao, Jincheng Guo, Qi Wang, Peng Zhang, Zhonghai Li, Yanqing Wang, Zhao Jiang, Hao Yuan, Zhao Li, Daqing Lv, Haokui Zhou, Ya-Ru Miao, and Guangya Duan

Subjects

Big data, Genomics, Cloud computing, Web Browser, Biology, computer.software_genre, 03 medical and health sciences, 0302 clinical medicine, Data Warehousing, Databases, Genetic, Genetics, Database Issue, Humans, Data hub, 030304 developmental biology, 0303 health sciences, Database, Genome, Human, business.industry, Suite, Computational Biology, Academia (organization), Data center, Web service, business, computer, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

The National Genomics Data Center (NGDC) provides a suite of database resources to support worldwide research activities in both academia and industry. With the rapid advancements in higher-throughput and lower-cost sequencing technologies and accordingly the huge volume of multi-omics data generated at exponential scales and rates, NGDC is continually expanding, updating and enriching its core database resources through big data integration and value-added curation. In the past year, efforts for update have been mainly devoted to BioProject, BioSample, GSA, GWH, GVM, NONCODE, LncBook, EWAS Atlas and IC4R. Newly released resources include three human genome databases (PGG.SNV, PGG.Han and CGVD), eLMSG, EWAS Data Hub, GWAS Atlas, iSheep and PADS Arsenal. In addition, four web services, namely, eGPS Cloud, BIG Search, BIG Submission and BIG SSO, have been significantly improved and enhanced. All of these resources along with their services are publicly accessible at https://bigd.big.ac.cn.

Published

2019

11. Community Curation and Expert Curation of Human Long Noncoding RNAs with LncRNAWiki and LncBook

Author

Huma Shireen, Jiabao Cao, Fatima Batool, Yiming Bao, Dong Zou, Zhao Li, Lina Ma, Rabail Zehra Raza, Amir Ali Abbasi, Lin Liu, Zhang Zhang, and Nashaiman Pervaiz

Subjects

Community-Based Participatory Research, 0303 health sciences, Computer science, 030305 genetics & heredity, Disease Association, Molecular Sequence Annotation, General Medicine, Computational biology, computer.software_genre, Long non-coding RNA, 03 medical and health sciences, Functional annotation, Humans, Functional significance, RNA, Long Noncoding, Databases, Nucleic Acid, computer, Data Management, 030304 developmental biology, Data integration

Abstract

In recent years, the number of human long noncoding RNAs (lncRNAs) that have been identified has increased exponentially. However, these lncRNAs are poorly annotated compared to protein-coding genes, posing great challenges for a better understanding of their functional significance and elucidating their complex functioning molecular mechanisms. Here we employ both community and expert curation to yield a comprehensive collection of human lncRNAs and their annotations. Specifically, LncRNAWiki (http://lncrna.big.ac.cn/index.php/Main_Page) uses a wiki-based community curation model, thus showing great promise in dealing with the flood of biological knowledge, while LncBook (http://bigd.big.ac.cn/lncbook) is an expert curation-based database that provides a complement to LncRNAWiki. LncBook features a comprehensive collection of human lncRNAs and a systematic curation of lncRNAs by multi-omics data integration, functional annotation, and disease association. These protocols provide step-by-step instructions on how to browse and search a specific lncRNA and how to obtain a range of related information including expression, methylation, variation, function, and disease association. © 2019 by John Wiley & Sons, Inc.

Published

2019

12. Selection trends on nasal-associated SNP variants across human populations

Author

Yiming Bao, Lina Ma, Rabail Zehra Raza, Amir Ali Abbasi, and Zhang Zhang

Subjects

0301 basic medicine, Extended haplotype, Positive selection, Haplotype, Single-nucleotide polymorphism, Biology, 03 medical and health sciences, Human nose, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Evolutionary biology, 030220 oncology & carcinogenesis, otorhinolaryngologic diseases, Genetics, medicine, SNP, 1000 Genomes Project, Genetics (clinical), Selection (genetic algorithm)

Abstract

The human nose has a diversified morphology among different geographical distributions and serves as a natural conditioning system for the inhaled air. Several studies have put forth statistically sound observations of the presence of large-bulbous noses in hot and humid Africa and narrower-aquiline noses in cold and dry Europe. These diverse nasal shapes have been termed as local adaptations to a region's climate. Over the past couple of decades, several GWA studies have linked potential loci with several diseases and morphological traits including the human nasal forms. In this study, highly significant SNPs associated with eight nasal morphological traits from previously reported GWA studies were collected. SNP data was obtained from the 1000 Genomes Project Phase III. By employing tests such as extended haplotype homozygosity (EHH), haplotype bifurcation diagrams and Fst measure, a subset of 6 nasal-associated SNPs were found to be significantly differentiated among the human sub-populations indicating that positive selection has acted on human nasal-associated loci.

Published

2021

13. Computational Methods in Road towards Drug Discovery against SARS-CoV2

Author

Adnan Haider, Syed Babar Jamal, Raees Khan, Sumra Wajid Abbasi, Shumaila Naz, and Rabail Zehra Raza

Subjects

0301 basic medicine, Coronavirus disease 2019 (COVID-19), Computer science, Drug discovery, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), fungi, Scopus, 030226 pharmacology & pharmacy, Data science, body regions, 03 medical and health sciences, Drug repositioning, 030104 developmental biology, 0302 clinical medicine, Drug development, skin and connective tissue diseases

Abstract

SARS-CoV2 has affected millions of people around the globe with hundreds of mortalities. The emergence of SARS-COV2 is very recent, and there is no potential drug or vaccine available. In this review, we have compiled the most frequently used computational methods in drug discovery, target proteins of SARS-CoV2 as well as implementation of computational methods. Most recent literature on SARS-CoV2 has been compiled from various journal search engines including Google Scholar, Academia, PubMed, Scopus, Research Gate, and the Web of Science. The keywords chosen for the searches were COVID-19, Corona Virus, SARS-CoV2, drug development and future directions. This review has far reaching implications to both the public health and pharmaceutical industries for potential novel drug development against SARS-CoV2.

Published

2020