Your search keyword '"Gajendra P. S. Raghava"' showing total 113 results

1. A hybrid method for discovering interferon-gamma inducing peptides in human and mouse

Author

Anjali Dhall, Sumeet Patiyal, and Gajendra P. S. Raghava

Subjects

Interferons-gamma inducing peptide, Machine Learning Technique, Extra Tree, BLAST, Immunotherapy, Vaccine, Medicine, Science

Abstract

Abstract Interferon-gamma (IFN-γ) is a versatile pleiotropic cytokine essential for both innate and adaptive immune responses. It exhibits both pro-inflammatory and anti-inflammatory properties, making it a promising therapeutic candidate for treating various infectious diseases and cancers. We present IFNepitope2, a host-specific technique to annotate IFN-γ inducing peptides, it is an updated version of IFNepitope introduced by Dhanda et al. In this study, dataset used for developing prediction method contain experimentally validated 25,492 and 7983 IFN-γ inducing peptides in human and mouse host, respectively. In initial phase, machine learning techniques have been exploited to develop classification model using wide range of peptide features. Further, to improve machine learning based models or alignment free models, we explore potential of similarity-based technique BLAST. Finally, a hybrid model has been developed that combine best machine learning based model with BLAST. In most of the case, models based on extra tree perform better than other machine learning techniques. In case of peptide features, compositional feature particularly dipeptide composition performs better than one-hot encoding or binary profile. Our best machine learning based models achieved AUROC 0.89 and 0.83 for human and mouse host, respectively. The hybrid model achieved the AUROC 0.90 and 0.85 for human and mouse host, respectively. All models have been evaluated on an independent/validation dataset not used for training or testing these models. Newly developed method performs better than existing method on independent dataset. The major objective of this study is to predict, design and scan IFN-γ inducing peptides, thus server/software have been developed ( https://webs.iiitd.edu.in/raghava/ifnepitope2/ ). This method is also available as standalone at https://github.com/raghavagps/ifnepitope2 and python package index at https://pypi.org/project/ifnepitope2/ .

Published

2024

2. A hybrid approach for predicting transcription factors

Author

Sumeet Patiyal, Palak Tiwari, Mohit Ghai, Aman Dhapola, Anjali Dhall, and Gajendra P. S. Raghava

Subjects

transcription factor, alignment-free methods, alignment-based methods, regulation of transcription, hybrid method, DNA-binding proteins, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Transcription factors are essential DNA-binding proteins that regulate the transcription rate of several genes and control the expression of genes inside a cell. The prediction of transcription factors with high precision is important for understanding biological processes such as cell differentiation, intracellular signaling, and cell-cycle control. In this study, we developed a hybrid method that combines alignment-based and alignment-free methods for predicting transcription factors with higher accuracy. All models have been trained, tested, and evaluated on a large dataset that contains 19,406 transcription factors and 523,560 non-transcription factor protein sequences. To avoid biases in evaluation, the datasets were divided into training and validation/independent datasets, where 80% of the data was used for training, and the remaining 20% was used for external validation. In the case of alignment-free methods, models were developed using machine learning techniques and the composition-based features of a protein. Our best alignment-free model obtained an AUC of 0.97 on an independent dataset. In the case of the alignment-based method, we used BLAST at different cut-offs to predict the transcription factors. Although the alignment-based method demonstrated excellent performance, it was unable to cover all transcription factors due to instances of no hits. To combine the strengths of both methods, we developed a hybrid method that combines alignment-free and alignment-based methods. In the hybrid method, we added the scores of the alignment-free and alignment-based methods and achieved a maximum AUC of 0.99 on the independent dataset. The method proposed in this study performs better than existing methods. We incorporated the best models in the webserver/Python Package Index/standalone package of “TransFacPred” (https://webs.iiitd.edu.in/raghava/transfacpred).

Published

2024

3. A deep learning method for classification of HNSCC and HPV patients using single-cell transcriptomics

Author

Akanksha Jarwal, Anjali Dhall, Akanksha Arora, Sumeet Patiyal, Aman Srivastava, and Gajendra P. S. Raghava

Subjects

HNSCC, gene biomarkers, single cell transcriptomics, machine learning, deep learning, classification models, Biology (General), QH301-705.5

Abstract

BackgroundHead and Neck Squamous Cell Carcinoma (HNSCC) is the seventh most highly prevalent cancer type worldwide. Early detection of HNSCC is one of the important challenges in managing the treatment of the cancer patients. Existing techniques for detecting HNSCC are costly, expensive, and invasive in nature.MethodsIn this study, we aimed to address this issue by developing classification models using machine learning and deep learning techniques, focusing on single-cell transcriptomics to distinguish between HNSCC and normal samples. Furthermore, we built models to classify HNSCC samples into HPV-positive (HPV+) and HPV-negative (HPV−) categories. In this study, we have used GSE181919 dataset, we have extracted 20 primary cancer (HNSCC) samples, and 9 normal tissues samples. The primary cancer samples contained 13 HPV− and 7 HPV+ samples. The models developed in this study have been trained on 80% of the dataset and validated on the remaining 20%. To develop an efficient model, we performed feature selection using mRMR method to shortlist a small number of genes from a plethora of genes. We also performed Gene Ontology (GO) enrichment analysis on the 100 shortlisted genes.ResultsArtificial Neural Network based model trained on 100 genes outperformed the other classifiers with an AUROC of 0.91 for HNSCC classification for the validation set. The same algorithm achieved an AUROC of 0.83 for the classification of HPV+ and HPV− patients on the validation set. In GO enrichment analysis, it was found that most genes were involved in binding and catalytic activities.ConclusionA software package has been developed in Python which allows users to identify HNSCC in patients along with their HPV status. It is available at https://webs.iiitd.edu.in/raghava/hnscpred/.

Published

2024

4. MRSLpred—a hybrid approach for predicting multi-label subcellular localization of mRNA at the genome scale

Author

Shubham Choudhury, Nisha Bajiya, Sumeet Patiyal, and Gajendra P. S. Raghava

Subjects

subcellular localization, multi-label, motif search, messenger RNA, machine learning, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

In the past, several methods have been developed for predicting the single-label subcellular localization of messenger RNA (mRNA). However, only limited methods are designed to predict the multi-label subcellular localization of mRNA. Furthermore, the existing methods are slow and cannot be implemented at a transcriptome scale. In this study, a fast and reliable method has been developed for predicting the multi-label subcellular localization of mRNA that can be implemented at a genome scale. Machine learning-based methods have been developed using mRNA sequence composition, where the XGBoost-based classifier achieved an average area under the receiver operator characteristic (AUROC) of 0.709 (0.668–0.732). In addition to alignment-free methods, we developed alignment-based methods using motif search techniques. Finally, a hybrid technique that combines the XGBoost model and the motif-based approach has been developed, achieving an average AUROC of 0.742 (0.708–0.816). Our method—MRSLpred—outperforms the existing state-of-the-art classifier in terms of performance and computation efficiency. A publicly accessible webserver and a standalone tool have been developed to facilitate researchers (webserver: https://webs.iiitd.edu.in/raghava/mrslpred/).

Published

2024

5. AntiBP3: A Method for Predicting Antibacterial Peptides against Gram-Positive/Negative/Variable Bacteria

Author

Nisha Bajiya, Shubham Choudhury, Anjali Dhall, and Gajendra P. S. Raghava

Subjects

antibacterial peptides, fastText Embeddings, therapeutic peptides, gram-positive/negative/variable bacteria, machine learning, deep learning, Therapeutics. Pharmacology, RM1-950

Abstract

Most of the existing methods developed for predicting antibacterial peptides (ABPs) are mostly designed to target either gram-positive or gram-negative bacteria. In this study, we describe a method that allows us to predict ABPs against gram-positive, gram-negative, and gram-variable bacteria. Firstly, we developed an alignment-based approach using BLAST to identify ABPs and achieved poor sensitivity. Secondly, we employed a motif-based approach to predict ABPs and obtained high precision with low sensitivity. To address the issue of poor sensitivity, we developed alignment-free methods for predicting ABPs using machine/deep learning techniques. In the case of alignment-free methods, we utilized a wide range of peptide features that include different types of composition, binary profiles of terminal residues, and fastText word embedding. In this study, a five-fold cross-validation technique has been used to build machine/deep learning models on training datasets. These models were evaluated on an independent dataset with no common peptide between training and independent datasets. Our machine learning-based model developed using the amino acid binary profile of terminal residues achieved maximum AUC 0.93, 0.98, and 0.94 for gram-positive, gram-negative, and gram-variable bacteria, respectively, on an independent dataset. Our method performs better than existing methods when compared with existing approaches on an independent dataset. A user-friendly web server, standalone package and pip package have been developed to facilitate peptide-based therapeutics.

Published

2024

6. An ensemble method for prediction of phage-based therapy against bacterial infections

Author

Suchet Aggarwal, Anjali Dhall, Sumeet Patiyal, Shubham Choudhury, Akanksha Arora, and Gajendra P. S. Raghava

Subjects

phage-host interaction, taxonomic levels, prediction, ensemble method, bacterial infection, Microbiology, QR1-502

Abstract

Phage therapy is a viable alternative to antibiotics for treating microbial infections, particularly managing drug-resistant strains of bacteria. One of the major challenges in designing phage-based therapy is to identify the most appropriate potential phage candidate to treat bacterial infections. In this study, an attempt has been made to predict phage-host interactions with high accuracy to identify the potential bacteriophage that can be used for treating a bacterial infection. The developed models have been created using a training dataset containing 826 phage- host interactions, and have been evaluated on a validation dataset comprising 1,201 phage-host interactions. Firstly, alignment-based models have been developed using similarity between phage-phage (BLASTPhage), host–host (BLASTHost) and phage-CRISPR (CRISPRPred), where we achieved accuracy between 42.4–66.2% for BLASTPhage, 55–78.4% for BLASTHost, and 43.7–80.2% for CRISPRPred across five taxonomic levels. Secondly, alignment free models have been developed using machine learning techniques. Thirdly, hybrid models have been developed by integrating the alignment-free models and the similarity-scores where we achieved maximum performance of (60.6–93.5%). Finally, an ensemble model has been developed that combines the hybrid and alignment-based models. Our ensemble model achieved highest accuracy of 67.9, 80.6, 85.5, 90, and 93.5% at Genus, Family, Order, Class, and Phylum levels on validation dataset. In order to serve the scientific community, we have also developed a webserver named PhageTB and provided a standalone software package (https://webs.iiitd.edu.in/raghava/phagetb/) for the same.

Published

2023

7. Prediction of celiac disease associated epitopes and motifs in a protein

Author

Ritu Tomer, Sumeet Patiyal, Anjali Dhall, and Gajendra P. S. Raghava

Subjects

celiac disease, gluten immunogenic peptides, HLA-DQ2/DQ8, ensemble method, motif, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionCeliac disease (CD) is an autoimmune gastrointestinal disorder causes immune-mediated enteropathy against gluten. Gluten immunogenic peptides have the potential to trigger immune responses which leads to damage the small intestine. HLA-DQ2/DQ8 are major alleles that bind to epitope/antigenic region of gluten and induce celiac disease. There is a need to identify CD associated epitopes in protein-based foods and therapeutics.MethodsIn this study, computational tools have been developed to predict CD associated epitopes and motifs. Dataset used for training, testing and evaluation contain experimentally validated CD associated and non-CD associate peptides. We perform positional analysis to identify the most significant position of an amino acid residue in the peptide and checked the frequency of HLA alleles. We also compute amino acid composition to develop machine learning based models. We also developed ensemble method that combines motif-based approach and machine learning based models.Results and DiscussionOur analysis support existing hypothesis that proline (P) and glutamine (Q) are highly abundant in CD associated peptides. A model based on density of P&Q in peptides has been developed for predicting CD associated peptides which achieve maximum AUROC 0.98 on independent data. We discovered motifs (e.g., QPF, QPQ, PYP) which occurs specifically in CD associated peptides. We also developed machine learning based models using peptide composition and achieved maximum AUROC 0.99. Finally, we developed ensemble method that combines motif-based approach and machine learning based models. The ensemble model-predict CD associated motifs with 100% accuracy on an independent dataset, not used for training. Finally, the best models and motifs has been integrated in a web server and standalone software package “CDpred”. We hope this server anticipate the scientific community for the prediction, designing and scanning of CD associated peptides as well as CD associated motifs in a protein/peptide sequence (https://webs.iiitd.edu.in/raghava/cdpred/).

Published

2023

8. Sigma70Pred: A highly accurate method for predicting sigma70 promoter in Escherichia coli K-12 strains

Author

Sumeet Patiyal, Nitindeep Singh, Mohd Zartab Ali, Dhawal Singh Pundir, and Gajendra P. S. Raghava

Subjects

sigma70 factor, promoter, machine learning, transcription, prokaryotic genome, Microbiology, QR1-502

Abstract

Sigma70 factor plays a crucial role in prokaryotes and regulates the transcription of most of the housekeeping genes. One of the major challenges is to predict the sigma70 promoter or sigma70 factor binding site with high precision. In this study, we trained and evaluate our models on a dataset consists of 741 sigma70 promoters and 1,400 non-promoters. We have generated a wide range of features around 8,000, which includes Dinucleotide Auto-Correlation, Dinucleotide Cross-Correlation, Dinucleotide Auto Cross-Correlation, Moran Auto-Correlation, Normalized Moreau-Broto Auto-Correlation, Parallel Correlation Pseudo Tri-Nucleotide Composition, etc. Our SVM based model achieved maximum accuracy 97.38% with AUROC 0.99 on training dataset, using 200 most relevant features. In order to check the robustness of the model, we have tested our model on the independent dataset made by using RegulonDB10.8, which included 1,134 sigma70 and 638 non-promoters, and able to achieve accuracy of 90.41% with AUROC of 0.95. Our model successfully predicted constitutive promoters with accuracy of 81.46% on an independent dataset. We have developed a method, Sigma70Pred, which is available as webserver and standalone packages at https://webs.iiitd.edu.in/raghava/sigma70pred/. The services are freely accessible.

Published

2022

9. In-Silico Tool for Predicting, Scanning, and Designing Defensins

Author

Dilraj Kaur, Sumeet Patiyal, Chakit Arora, Ritesh Singh, Gaurav Lodhi, and Gajendra P. S. Raghava

Subjects

innate immunity, defensins, AMPs, computer aided, machine learning, Immunologic diseases. Allergy, RC581-607

Abstract

Defensins are host defense peptides present in nearly all living species, which play a crucial role in innate immunity. These peptides provide protection to the host, either by killing microbes directly or indirectly by activating the immune system. In the era of antibiotic resistance, there is a need to develop a fast and accurate method for predicting defensins. In this study, a systematic attempt has been made to develop models for predicting defensins from available information on defensins. We created a dataset of defensins and non-defensins called the main dataset that contains 1,036 defensins and 1,035 AMPs (antimicrobial peptides, or non-defensins) to understand the difference between defensins and AMPs. Our analysis indicates that certain residues like Cys, Arg, and Tyr are more abundant in defensins in comparison to AMPs. We developed machine learning technique-based models on the main dataset using a wide range of peptide features. Our SVM (support vector machine)-based model discriminates defensins and AMPs with MCC of 0.88 and AUC of 0.98 on the validation set of the main dataset. In addition, we created an alternate dataset that consists of 1,036 defensins and 1,054 non-defensins obtained from Swiss-Prot. Models were also developed on the alternate dataset to predict defensins. Our SVM-based model achieved maximum MCC of 0.96 with AUC of 0.99 on the validation set of the alternate dataset. All models were trained, tested, and validated using standard protocols. Finally, we developed a web-based service “DefPred” to predict defensins, scan defensins in proteins, and design the best defensins from their analogs. The stand-alone software and web server of DefPred are available at https://webs.iiitd.edu.in/raghava/defpred.

Published

2021

10. HumCFS: a database of fragile sites in human chromosomes

Author

Rajesh Kumar, Gandharva Nagpal, Vinod Kumar, Salman Sadullah Usmani, Piyush Agrawal, and Gajendra P. S. Raghava

Subjects

Chromosomal fragile site, Genomic instability, Database, Chemical inducers, Carcinogenesis, miRNA, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Fragile sites are the chromosomal regions that are susceptible to breakage, and their frequency varies among the human population. Based on the frequency of fragile site induction, they are categorized as common and rare fragile sites. Common fragile sites are sensitive to replication stress and often rearranged in cancer. Rare fragile sites are the archetypal trinucleotide repeats. Fragile sites are known to be involved in chromosomal rearrangements in tumors. Human miRNA genes are also present at fragile sites. A better understanding of genes and miRNAs lying in the fragile site regions and their association with disease progression is required. Result HumCFS is a manually curated database of human chromosomal fragile sites. HumCFS provides useful information on fragile sites such as coordinates on the chromosome, cytoband, their chemical inducers and frequency of fragile site (rare or common), genes and miRNAs lying in fragile sites. Protein coding genes in the fragile sites were identified by mapping the coordinates of fragile sites with human genome Ensembl (GRCh38/hg38). Genes present in fragile sites were further mapped to DisGenNET database, to understand their possible link with human diseases. Human miRNAs from miRBase was also mapped on fragile site coordinates. In brief, HumCFS provides useful information about 125 human chromosomal fragile sites and their association with 4921 human protein-coding genes and 917 human miRNA’s. Conclusion User-friendly web-interface of HumCFS and hyper-linking with other resources will help researchers to search for genes, miRNAs efficiently and to intersect the relationship among them. For easy data retrieval and analysis, we have integrated standard web-based tools, such as JBrowse, BLAST etc. Also, the user can download the data in various file formats such as text files, gff3 files and Bed-format files which can be used on UCSC browser. Database URL: http://webs.iiitd.edu.in/raghava/humcfs/

Published

2019

11. APBioNet's annual International Conference on Bioinformatics (InCoB) returns to India in 2018

Author

Shandar Ahmad, Michael M. Gromiha, Gajendra P. S. Raghava, Christian Schönbach, and Shoba Ranganathan

Subjects

InCoB, International conference on bioinformatics, APBioNet, Asia-Pacific bioinformatics network, APbians, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract InCoB, one of the largest annual bioinformatics conferences in the Asia-Pacific region since its launch in 2002, returned to New Delhi, India after 12 years, with a conference attendance of 314 delegates. The 2018 conference had sessions on Big Data and Algorithms, Next Generation Sequencing and Omics Science, Structure, Function and Interactions, Disease and Drug Discovery and Plant and Agricultural Bioinformatics. The conference also featured an industry track as well as panel discussions on Women in Bioinformatics and Democratization vs. Quality control in academic publishing. Asia Pacific Bioinformatics Interaction & Networking Society (APbians) was launched as an APBionet Special Interest Group. Of the 52 oral presentations made, 22 were accepted in supplemental issues of BMC Bioinformatics, BMC Genomics or BMC Medical Genomics and are briefly reviewed here. Next year’s InCoB will be held in Jakarta, Indonesia from September 10–12, 2019.

Published

2019

12. Benchmarking of different molecular docking methods for protein-peptide docking

Author

Piyush Agrawal, Harinder Singh, Hemant Kumar Srivastava, Sandeep Singh, Gaurav Kishore, and Gajendra P. S. Raghava

Subjects

Protein-peptide docking, Benchmark, CAPRI, ZDOCK, FRODOCK, Hex, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background Molecular docking studies on protein-peptide interactions are a challenging and time-consuming task because peptides are generally more flexible than proteins and tend to adopt numerous conformations. There are several benchmarking studies on protein-protein, protein-ligand and nucleic acid-ligand docking interactions. However, a series of docking methods is not rigorously validated for protein-peptide complexes in the literature. Considering the importance and wide application of peptide docking, we describe benchmarking of 6 docking methods on 133 protein-peptide complexes having peptide length between 9 to 15 residues. The performance of docking methods was evaluated using CAPRI parameters like FNAT, I-RMSD, L-RMSD. Result Firstly, we performed blind docking and evaluate the performance of the top docking pose of each method. It was observed that FRODOCK performed better than other methods with average L-RMSD of 12.46 Å. The performance of all methods improved significantly for their best docking pose and achieved highest average L-RMSD of 3.72 Å in case of FRODOCK. Similarly, we performed re-docking and evaluated the performance of the top and best docking pose of each method. We achieved the best performance in case of ZDOCK with average L-RMSD 8.60 Å and 2.88 Å for the top and best docking pose respectively. Methods were also evaluated on 40 protein-peptide complexes used in the previous benchmarking study, where peptide have length up to 5 residues. In case of best docking pose, we achieved the highest average L-RMSD of 4.45 Å and 2.09 Å for the blind docking using FRODOCK and re-docking using AutoDock Vina respectively. Conclusion The study shows that FRODOCK performed best in case of blind docking and ZDOCK in case of re-docking. There is a need to improve the ranking of docking pose generated by different methods, as the present ranking scheme is not satisfactory. To facilitate the scientific community for calculating CAPRI parameters between native and docked complexes, we developed a web-based service named PPDbench (http://webs.iiitd.edu.in/raghava/ppdbench/).

Published

2019

13. Prognostic biomarkers for predicting papillary thyroid carcinoma patients at high risk using nine genes of apoptotic pathway

Author

Chakit Arora, Dilraj Kaur, Leimarembi Devi Naorem, and Gajendra P. S. Raghava

Subjects

Medicine, Science

Abstract

Aberrant expressions of apoptotic genes have been associated with papillary thyroid carcinoma (PTC) in the past, however, their prognostic role and utility as biomarkers remains poorly understood. In this study, we analysed 505 PTC patients by employing Cox-PH regression techniques, prognostic index models and machine learning methods to elucidate the relationship between overall survival (OS) of PTC patients and 165 apoptosis related genes. It was observed that nine genes (ANXA1, TGFBR3, CLU, PSEN1, TNFRSF12A, GPX4, TIMP3, LEF1, BNIP3L) showed significant association with OS of PTC patients. Five out of nine genes were found to be positively correlated with OS of the patients, while the remaining four genes were negatively correlated. These genes were used for developing risk prediction models, which can be utilized to classify patients with a higher risk of death from the patients which have a good prognosis. Our voting-based model achieved highest performance (HR = 41.59, p = 3.36x10-4, C = 0.84, logrank-p = 3.8x10-8). The performance of voting-based model improved significantly when we used the age of patients with prognostic biomarker genes and achieved HR = 57.04 with p = 10−4 (C = 0.88, logrank-p = 1.44x10-9). We also developed classification models that can classify high risk patients (survival ≤ 6 years) and low risk patients (survival > 6 years). Our best model achieved AUROC of 0.92. Further, the expression pattern of the prognostic genes was verified at mRNA level, which showed their differential expression between normal and PTC samples. Also, the immunostaining results from HPA validated these findings. Since these genes can also be used as potential therapeutic targets in PTC, we also identified potential drug molecules which could modulate their expression profile. The study briefly revealed the key prognostic biomarker genes in the apoptotic pathway whose altered expression is associated with PTC progression and aggressiveness. In addition to this, risk assessment models proposed here can help in efficient management of PTC patients.

Published

2021

14. Potential Challenges for Coronavirus (SARS-CoV-2) Vaccines Under Trial

Author

Salman Sadullah Usmani and Gajendra P. S. Raghava

Subjects

coronavirus, COVID-19, SARS-CoV-2, vaccine candidates, immunoinformatic, Immunologic diseases. Allergy, RC581-607

Published

2020

15. Computing Skin Cutaneous Melanoma Outcome From the HLA-Alleles and Clinical Characteristics

Author

Anjali Dhall, Sumeet Patiyal, Harpreet Kaur, Sherry Bhalla, Chakit Arora, and Gajendra P. S. Raghava

Subjects

cutaneous melanoma, survival analysis, HLA, superalleles, Hazard ratio, regression, Genetics, QH426-470

Abstract

Human leukocyte antigen (HLA) are essential components of the immune system that stimulate immune cells to provide protection and defense against cancer. Thousands of HLA alleles have been reported in the literature, but only a specific set of HLA alleles are present in an individual. The capability of the immune system to recognize cancer-associated mutations depends on the presence of a particular set of alleles, which elicit an immune response to fight against cancer. Therefore, the occurrence of specific HLA alleles affects the survival outcome of cancer patients. In the current study, prediction models were developed, using 401 cutaneous melanoma patients, to predict the overall survival (OS) of patients using their clinical data and HLA alleles. We observed that the presence of certain favorable superalleles like HLA-B∗55 (HR = 0.15, 95% CI 0.034–0.67), HLA-A∗01 (HR = 0.5, 95% CI 0.3–0.8), is responsible for the improved OS. In contrast, the presence of certain unfavorable superalleles such as HLA-B∗50 (HR = 2.76, 95% CI 1.284–5.941), HLA-DRB1∗12 (HR = 3.44, 95% CI 1.64–7.2) is responsible for the poor survival. We developed prediction models using key 14 HLA superalleles, demographic, and clinical characteristics for predicting high-risk cutaneous melanoma patients and achieved HR = 4.52 (95% CI 3.088–6.609, p-value = 8.01E-15). Eventually, we also provide a web-based service to the community for predicting the risk status in cutaneous melanoma patients (https://webs.iiitd.edu.in/raghava/skcmhrp/).

Published

2020

16. A Hybrid Model for Predicting Pattern Recognition Receptors Using Evolutionary Information

Author

Dilraj Kaur, Chakit Arora, and Gajendra P. S. Raghava

Subjects

pattern recognition receptors, prediction, innate immunity, machine learning, BLAST, toll-like receptors, Immunologic diseases. Allergy, RC581-607

Abstract

This study describes a method developed for predicting pattern recognition receptors (PRRs), which are an integral part of the immune system. The models developed here were trained and evaluated on the largest possible non-redundant PRRs, obtained from PRRDB 2.0, and non-pattern recognition receptors (Non-PRRs), obtained from Swiss-Prot. Firstly, a similarity-based approach using BLAST was used to predict PRRs and got limited success due to a large number of no-hits. Secondly, machine learning-based models were developed using sequence composition and achieved a maximum MCC of 0.63. In addition to this, models were developed using evolutionary information in the form of PSSM composition and achieved maximum MCC value of 0.66. Finally, we developed hybrid models that combined a similarity-based approach using BLAST and machine learning-based models. Our best model, which combined BLAST and PSSM based model, achieved a maximum MCC value of 0.82 with an AUROC value of 0.95, utilizing the potential of both similarity-based search and machine learning techniques. In order to facilitate the scientific community, we also developed a web server “PRRpred” based on the best model developed in this study (http://webs.iiitd.edu.in/raghava/prrpred/).

Published

2020

17. Identification of Platform-Independent Diagnostic Biomarker Panel for Hepatocellular Carcinoma Using Large-Scale Transcriptomics Data

Author

Harpreet Kaur, Anjali Dhall, Rajesh Kumar, and Gajendra P. S. Raghava

Subjects

liver cancer, hepatocellular carcinoma, biomarker, expression, diagnosis, survival, Genetics, QH426-470

Abstract

The high mortality rate of hepatocellular carcinoma (HCC) is primarily due to its late diagnosis. In the past, numerous attempts have been made to design genetic biomarkers for the identification of HCC; unfortunately, most of the studies are based on small datasets obtained from a specific platform or lack reasonable validation performance on the external datasets. In order to identify a universal expression-based diagnostic biomarker panel for HCC that can be applicable across multiple platforms, we have employed large-scale transcriptomic profiling datasets containing a total of 2,316 HCC and 1,665 non-tumorous tissue samples. These samples were obtained from 30 studies generated by mainly four types of profiling techniques (Affymetrix, Illumina, Agilent, and High-throughput sequencing), which are implemented in a wide range of platforms. Firstly, we scrutinized overlapping 26 genes that are differentially expressed in numerous datasets. Subsequently, we identified a panel of three genes (FCN3, CLEC1B, and PRC1) as HCC biomarker using different feature selection techniques. Three-genes-based HCC biomarker identified HCC samples in training/validation datasets with an accuracy between 93 and 98%, Area Under Receiver Operating Characteristic curve (AUROC) in a range of 0.97 to 1.0. A reasonable performance, i.e., AUROC 0.91–0.96 achieved on validation dataset containing peripheral blood mononuclear cells, concurred their non-invasive utility. Furthermore, the prognostic potential of these genes was evaluated on TCGA-LIHC and GSE14520 cohorts using univariate survival analysis. This analysis revealed that these genes are prognostic indicators for various types of the survivals of HCC patients (e.g., Overall Survival, Progression-Free Survival, Disease-Free Survival). These genes significantly stratified high-risk and low-risk HCC patients (p-value

Published

2020

18. SAMbinder: A Web Server for Predicting S-Adenosyl-L-Methionine Binding Residues of a Protein From Its Amino Acid Sequence

Author

Piyush Agrawal, Gaurav Mishra, and Gajendra P. S. Raghava

Subjects

S-adenosine-L-methionine, PSSM profile, in silico prediction, cancer, machine learning technique (MLT), Therapeutics. Pharmacology, RM1-950

Abstract

MotivationS-adenosyl-L-methionine (SAM) is an essential cofactor present in the biological system and plays a key role in many diseases. There is a need to develop a method for predicting SAM binding sites in a protein for designing drugs against SAM associated disease. To the best of our knowledge, there is no method that can predict the binding site of SAM in a given protein sequence.ResultThis manuscript describes a method SAMbinder, developed for predicting SAM interacting residue in a protein from its primary sequence. All models were trained, tested, and evaluated on 145 SAM binding protein chains where no two chains have more than 40% sequence similarity. Firstly, models were developed using different machine learning techniques on a balanced data set containing 2,188 SAM interacting and an equal number of non-interacting residues. Our random forest based model developed using binary profile feature got maximum Matthews Correlation Coefficient (MCC) 0.42 with area under receiver operating characteristics (AUROC) 0.79 on the validation data set. The performance of our models improved significantly from MCC 0.42 to 0.61, when evolutionary information in the form of the position-specific scoring matrix (PSSM) profile is used as a feature. We also developed models on a realistic data set containing 2,188 SAM interacting and 40,029 non-interacting residues and got maximum MCC 0.61 with AUROC of 0.89. In order to evaluate the performance of our models, we used internal as well as external cross-validation technique.Availability and Implementationhttps://webs.iiitd.edu.in/raghava/sambinder/.

Published

2020

19. Computer-aided prediction of antigen presenting cell modulators for designing peptide-based vaccine adjuvants

Author

Gandharva Nagpal, Kumardeep Chaudhary, Piyush Agrawal, and Gajendra P. S. Raghava

Subjects

Immunomodulatory peptide, Antigen presenting cells, A-cell epitopes, Support vector machine, Adjuvants, Medicine

Abstract

Abstract Background Evidences in literature strongly advocate the potential of immunomodulatory peptides for use as vaccine adjuvants. All the mechanisms of vaccine adjuvants ensuing immunostimulatory effects directly or indirectly stimulate antigen presenting cells (APCs). While numerous methods have been developed in the past for predicting B cell and T-cell epitopes; no method is available for predicting the peptides that can modulate the APCs. Methods We named the peptides that can activate APCs as A-cell epitopes and developed methods for their prediction in this study. A dataset of experimentally validated A-cell epitopes was collected and compiled from various resources. To predict A-cell epitopes, we developed support vector machine-based machine learning models using different sequence-based features. Results A hybrid model developed on a combination of sequence-based features (dipeptide composition and motif occurrence), achieved the highest accuracy of 95.71% with Matthews correlation coefficient (MCC) value of 0.91 on the training dataset. We also evaluated the hybrid models on an independent dataset and achieved a comparable accuracy of 95.00% with MCC 0.90. Conclusion The models developed in this study were implemented in a web-based platform VaxinPAD to predict and design immunomodulatory peptides or A-cell epitopes. This web server available at http://webs.iiitd.edu.in/raghava/vaxinpad/ will facilitate researchers in designing peptide-based vaccine adjuvants.

Published

2018

20. CancerPDF: A repository of cancer-associated peptidome found in human biofluids

Author

Sherry Bhalla, Ruchi Verma, Harpreet Kaur, Rajesh Kumar, Salman Sadullah Usmani, Suresh Sharma, and Gajendra P. S. Raghava

Subjects

Medicine, Science

Abstract

Abstract CancerPDF (Cancer Peptidome Database of bioFluids) is a comprehensive database of endogenous peptides detected in the human biofluids. The peptidome patterns reflect the synthesis, processing and degradation of proteins in the tissue environment and therefore can act as a gold mine to probe the peptide-based cancer biomarkers. Although an extensive data on cancer peptidome has been generated in the recent years, lack of a comprehensive resource restrains the facility to query the growing community knowledge. We have developed the cancer peptidome resource named CancerPDF, to collect and compile all the endogenous peptides isolated from human biofluids in various cancer profiling studies. CancerPDF has 14,367 entries with 9,692 unique peptide sequences corresponding to 2,230 unique precursor proteins from 56 high-throughput studies for ~27 cancer conditions. We have provided an interactive interface to query the endogenous peptides along with the primary information such as m/z, precursor protein, the type of cancer and its regulation status in cancer. To add-on, many web-based tools have been incorporated, which comprise of search, browse and similarity identification modules. We consider that the CancerPDF will be an invaluable resource to unwind the potential of peptidome-based cancer biomarkers. The CancerPDF is available at the web address http://crdd.osdd.net/raghava/cancerpdf/ .

Published

2017

21. Docking‐based approach for identification of mutations that disrupt binding between Bcl‐2 and Bax proteins: Inducing apoptosis in cancer cells

Author

Pawan Kumar Raghav, Rajesh Kumar, Vinod Kumar, and Gajendra P. S. Raghava

Subjects

apoptosis, Bax, Bcl‐2, cancer, docking, mutation, Genetics, QH426-470

Abstract

Abstract Background Inducing apoptosis in cancer cells is an important step for the successful treatment of cancer patients. Bcl‐2 is an antiapoptotic protein which determines apoptosis by interacting with proapoptotic members of the Bcl‐2 family. Exome sequencing has identified Bcl‐2 and Bax missense mutations in more than 40 cancer types. However, a little information is available about the functional impact of each Bcl‐2 and Bax mutation on the pathogenesis of cancer. Methods The mutational data from cancer tissues and cell lines were retrieved from the cBioPortal web resource. The 13 mutated Bcl‐2 and wild‐type Bax complexes with experimentally verified binding were identified from previous studies wherein, binding for all complexes was reportedly disrupted except one. Several protein–protein docking methods such as ClusPro, HDOCK, PatchDock, FireDock, InterEVDock2 and several mutation prediction methods such as PolyPhen‐2, SIFT, and OncoKB have been used to predict the effect of mutation to disrupt the binding between Bcl‐2 and Bax. The result obtained was compared with the known experimental data. Results The protein–protein docking method, ClusPro, employed in the present study confirmed that the binding affinity of 11 out of 13 complexes decreases. Similarly, binding affinity computed for all the 10 wild‐type Bcl‐2 and mutated Bax complexes agreed with experimentally verified results. Conclusion Several methods like PolyPhen‐2, SIFT, and OncoKB have been developed to predict cancer‐associated or deleterious mutations, but no method is available to predict apoptosis‐inducing mutations. Thus, in this study, we have examined the mutations in Bcl‐2 and Bax proteins that disrupt their binding, which is crucial for inducing apoptosis to eradicate cancer. This study suggests that protein–protein docking methods can play a significant role in the identification of hotspot mutations in Bcl‐2 or Bax that can disrupt their binding with wild‐type partner to induce apoptosis in cancer cells.

Published

2019

22. A Web Resource for Designing Subunit Vaccine Against Major Pathogenic Species of Bacteria

Author

Gandharva Nagpal, Salman Sadullah Usmani, and Gajendra P. S. Raghava

Subjects

reverse vaccinology, vaccine designing, immunotherapeutic, epitopes, antigen, virulence factor, Immunologic diseases. Allergy, RC581-607

Abstract

Evolution has led to the expansion of survival strategies in pathogens including bacteria and emergence of drug resistant strains proved to be a major global threat. Vaccination is a promising strategy to protect human population. Reverse vaccinology is a more robust vaccine development approach especially with the availability of large-scale sequencing data and rapidly dropping cost of the techniques for acquiring such data from various organisms. The present study implements an immunoinformatic approach for screening the possible antigenic proteins among various pathogenic bacteria to systemically arrive at epitope-based vaccine candidates against 14 pathogenic bacteria. Thousand four hundred and fifty nine virulence factors and Five hundred and forty six products of essential genes were appraised as target proteins to predict potential epitopes with potential to stimulate different arms of the immune system. To address the self-tolerance, self-epitopes were identified by mapping on 1000 human proteome and were removed. Our analysis revealed that 21proteins from 5 bacterial species were found as virulent as well as essential to their survival, proved to be most suitable vaccine target against these species. In addition to the prediction of MHC-II binders, B cell and T cell epitopes as well as adjuvants individually from proteins of all 14 bacterial species, a stringent criteria lead us to identify 252 unique epitopes, which are predicted to be T-cell epitopes, B-cell epitopes, MHC II binders and Vaccine Adjuvants. In order to provide service to scientific community, we developed a web server VacTarBac for designing of vaccines against above species of bacteria. This platform integrates a number of tools that includes visualization tools to present antigenicity/epitopes density on an antigenic sequence. These tools will help users to identify most promiscuous vaccine candidates in a pathogenic antigen. This server VacTarBac is available from URL (http://webs.iiitd.edu.in/raghava/vactarbac/).

Published

2018

23. Prediction of Antimicrobial Potential of a Chemically Modified Peptide From Its Tertiary Structure

Author

Piyush Agrawal and Gajendra P. S. Raghava

Subjects

chemically modified peptides, antimicrobial peptide prediction, machine learning technique, resistance, fingerprints, peptide therapeutics, Microbiology, QR1-502

Abstract

Designing novel antimicrobial peptides is a hot area of research in the field of therapeutics especially after the emergence of resistant strains against the conventional antibiotics. In the past number of in silico methods have been developed for predicting the antimicrobial property of the peptide containing natural residues. This study describes models developed for predicting the antimicrobial property of a chemically modified peptide. Our models have been trained, tested and evaluated on a dataset that contains 948 antimicrobial and 931 non-antimicrobial peptides, containing chemically modified and natural residues. Firstly, the tertiary structure of all peptides has been predicted using software PEPstrMOD. Structure analysis indicates that certain type of modifications enhance the antimicrobial property of peptides. Secondly, a wide range of features was computed from the structure of these peptides using software PaDEL. Finally, models were developed for predicting the antimicrobial potential of chemically modified peptides using a wide range of structural features of these peptides. Our best model based on support vector machine achieve maximum MCC of 0.84 with an accuracy of 91.62% on training dataset and MCC of 0.80 with an accuracy of 89.89% on validation dataset. To assist the scientific community, we have developed a web server called “AntiMPmod” which predicts the antimicrobial property of the chemically modified peptide. The web server is present at the following link (http://webs.iiitd.edu.in/raghava/antimpmod/).

Published

2018

24. Prediction of Antitubercular Peptides From Sequence Information Using Ensemble Classifier and Hybrid Features

Author

Salman Sadullah Usmani, Sherry Bhalla, and Gajendra P. S. Raghava

Subjects

tuberculosis, antitubercular peptides, machine learning, antimycobacterial therapy, Mycobacterium, ensemble classifier, Therapeutics. Pharmacology, RM1-950

Abstract

Tuberculosis is one of the leading cause of death worldwide, particularly due to evolution of drug resistant strains. Antitubercular peptides may provide an alternate approach to combat antibiotic tolerance. Sequence analysis reveals that certain residues (e.g., Lysine, Arginine, Leucine, Tryptophan) are more prevalent in antitubercular peptides. This study describes the models developed for predicting antitubercular peptides by using sequence features of the peptides. We have developed support vector machine based models using different sequence features like amino acid composition, binary profile of terminus residues, dipeptide composition. Our ensemble classifiers that combines models based on amino acid composition and N5C5 binary pattern, achieves highest Acc of 73.20% with 0.80 AUROC on our main dataset. Similarly, the ensemble classifier achieved maximum Acc 75.62% with 0.83 AUROC on secondary dataset. Beside this, hybrid model achieves Acc of 75.87 and 78.54% with 0.83 and 0.86 AUROC on main and secondary dataset, respectively. In order to facilitate scientific community in designing of antitubercular peptides, we implement above models in a user friendly webserver (http://webs.iiitd.edu.in/raghava/antitbpred/).

Published

2018

25. Prediction of Cell-Penetrating Potential of Modified Peptides Containing Natural and Chemically Modified Residues

Author

Vinod Kumar, Piyush Agrawal, Rajesh Kumar, Sherry Bhalla, Salman Sadullah Usmani, Grish C. Varshney, and Gajendra P. S. Raghava

Subjects

modified cell-penetrating peptides, machine learning, Random Forest, SVM, in silico method, chemical descriptors, Microbiology, QR1-502

Abstract

Designing drug delivery vehicles using cell-penetrating peptides is a hot area of research in the field of medicine. In the past, number of in silico methods have been developed for predicting cell-penetrating property of peptides containing natural residues. In this study, first time attempt has been made to predict cell-penetrating property of peptides containing natural and modified residues. The dataset used to develop prediction models, include structure and sequence of 732 chemically modified cell-penetrating peptides and an equal number of non-cell penetrating peptides. We analyzed the structure of both class of peptides and observed that positive charge groups, atoms, and residues are preferred in cell-penetrating peptides. In this study, models were developed to predict cell-penetrating peptides from its tertiary structure using a wide range of descriptors (2D, 3D descriptors, and fingerprints). Random Forest model developed by using PaDEL descriptors (combination of 2D, 3D, and fingerprints) achieved maximum accuracy of 95.10%, MCC of 0.90 and AUROC of 0.99 on the main dataset. The performance of model was also evaluated on validation/independent dataset which achieved AUROC of 0.98. In order to assist the scientific community, we have developed a web server “CellPPDMod” for predicting the cell-penetrating property of modified peptides (http://webs.iiitd.edu.in/raghava/cellppdmod/).

Published

2018

26. In Silico Approach for Prediction of Antifungal Peptides

Author

Piyush Agrawal, Sherry Bhalla, Kumardeep Chaudhary, Rajesh Kumar, Meenu Sharma, and Gajendra P. S. Raghava

Subjects

antimicrobial peptides, antifungal peptides, amino acid composition, support vector machine, motifs, Microbiology, QR1-502

Abstract

This paper describes in silico models developed using a wide range of peptide features for predicting antifungal peptides (AFPs). Our analyses indicate that certain types of residue (e.g., C, G, H, K, R, Y) are more abundant in AFPs. The positional residue preference analysis reveals the prominence of the particular type of residues (e.g., R, V, K) at N-terminus and a certain type of residues (e.g., C, H) at C-terminus. In this study, models have been developed for predicting AFPs using a wide range of peptide features (like residue composition, binary profile, terminal residues). The support vector machine based model developed using compositional features of peptides achieved maximum accuracy of 88.78% on the training dataset and 83.33% on independent or validation dataset. Our model developed using binary patterns of terminal residues of peptides achieved maximum accuracy of 84.88% on training and 84.64% on validation dataset. We benchmark models developed in this study and existing methods on a dataset containing compositionally similar antifungal and non-AFPs. It was observed that binary based model developed in this study preforms better than any model/method. In order to facilitate scientific community, we developed a mobile app, standalone and a user-friendly web server ‘Antifp’ (http://webs.iiitd.edu.in/raghava/antifp).

Published

2018

27. Correction: Hybrid Approach for Predicting Coreceptor Used by HIV-1 from Its V3 Loop Amino Acid Sequence.

Author

Ravi Kumar and Gajendra P. S. Raghava

Subjects

Medicine, Science

Published

2013

28. B3Pred: A Random-Forest-Based Method for Predicting and Designing Blood–Brain Barrier Penetrating Peptides

Author

Vinod Kumar, Sumeet Patiyal, Gajendra P. S. Raghava, Anjali Dhall, and Neelam Sharma

Subjects

machine learning techniques, Computer science, Pharmaceutical Science, A protein, Computational biology, Blood–brain barrier, blood–brain barrier, Article, Random forest, RS1-441, Pharmacy and materia medica, medicine.anatomical_structure, penetrating peptides, Drug delivery, drug delivery, medicine, prediction server

Abstract

The blood–brain barrier is a major obstacle in treating brain-related disorders, as it does not allow the delivery of drugs into the brain. We developed a method for predicting blood–brain barrier penetrating peptides to facilitate drug delivery into the brain. These blood–brain barrier penetrating peptides (B3PPs) can act as therapeutics, as well as drug delivery agents. We trained, tested, and evaluated our models on blood–brain barrier peptides obtained from the B3Pdb database. First, we computed a wide range of peptide features. Then, we selected relevant peptide features. Finally, we developed numerous machine-learning-based models for predicting blood–brain barrier peptides using the selected features. The random-forest-based model performed the best with respect to the top 80 selected features and achieved a maximal 85.08% accuracy with an AUROC of 0.93. We also developed a webserver, B3pred, that implements our best models. It has three major modules that allow users to predict/design B3PPs and scan B3PPs in a protein sequence.

Published

2021

29. NAGbinder: An approach for identifying N‐acetylglucosamine interacting residues of a protein from its primary sequence

Author

Rajesh Kumar, Gajendra P. S. Raghava, Gaurav Mishra, Sumeet Patiyal, Anjali Dhall, Piyush Agrawal, and Vinod Kumar

Subjects

Models, Molecular, Support Vector Machine, Binary number, Binary profile, Biochemistry, Acetylglucosamine, 03 medical and health sciences, Sequence Analysis, Protein, Amino Acid Sequence, Databases, Protein, Molecular Biology, 030304 developmental biology, Mathematics, 0303 health sciences, Sequence, Receiver operating characteristic, Tools for Protein Science, 030302 biochemistry & molecular biology, Computational Biology, Proteins, computer.file_format, Protein Data Bank, Matthews correlation coefficient, Random forest, NAG, Data set, N‐acetylglucosamine, PSSM profile, Primary sequence, Machine learning techniques, computer, Algorithm

Abstract

N‐acetylglucosamine (NAG) belongs to the eight essential saccharides that are required to maintain the optimal health and precise functioning of systems ranging from bacteria to human. In the present study, we have developed a method, NAGbinder, which predicts the NAG‐interacting residues in a protein from its primary sequence information. We extracted 231 NAG‐interacting nonredundant protein chains from Protein Data Bank, where no two sequences share more than 40% sequence identity. All prediction models were trained, validated, and evaluated on these 231 protein chains. At first, prediction models were developed on balanced data consisting of 1,335 NAG‐interacting and noninteracting residues, using various window size. The model developed by implementing Random Forest using binary profiles as the main principle for identifying NAG‐interacting residue with window size 9, performed best among other models. It achieved highest Matthews Correlation Coefficient (MCC) of 0.31 and 0.25, and Area Under Receiver Operating Curve (AUROC) of 0.73 and 0.70 on training and validation data set, respectively. We also developed prediction models on realistic data set (1,335 NAG‐interacting and 47,198 noninteracting residues) using the same principle, where the model achieved MCC of 0.26 and 0.27, and AUROC of 0.70 and 0.71, on training and validation data set, respectively. The success of our method can be appraised by the fact that, if a sequence of 1,000 amino acids is analyzed with our approach, 10 residues will be predicted as NAG‐interacting, out of which five are correct. Best models were incorporated in the standalone version and in the webserver available at https://webs.iiitd.edu.in/raghava/nagbinder/

Published

2019

30. APBioNet's annual International Conference on Bioinformatics (InCoB) returns to India in 2018

Author

Gajendra P. S. Raghava, Christian Schönbach, Shoba Ranganathan, M. Michael Gromiha, and Shandar Ahmad

Subjects

lcsh:QH426-470, lcsh:Biotechnology, Big data, Biology, Bioinformatics, InCoB, 03 medical and health sciences, 0302 clinical medicine, Asia pacific, lcsh:TP248.13-248.65, Genetics, Humans, Democratization, 030304 developmental biology, International conference on bioinformatics, Asia-Pacific bioinformatics network, Introduction, 0303 health sciences, Genome, Human, business.industry, APBioNet, APbians, Attendance, Computational Biology, High-Throughput Nucleotide Sequencing, Congresses as Topic, Special Interest Group, lcsh:Genetics, Publishing, 030220 oncology & carcinogenesis, New delhi, business, Algorithms, Software, Biotechnology

Abstract

InCoB, one of the largest annual bioinformatics conferences in the Asia-Pacific region since its launch in 2002, returned to New Delhi, India after 12 years, with a conference attendance of 314 delegates. The 2018 conference had sessions on Big Data and Algorithms, Next Generation Sequencing and Omics Science, Structure, Function and Interactions, Disease and Drug Discovery and Plant and Agricultural Bioinformatics. The conference also featured an industry track as well as panel discussions on Women in Bioinformatics and Democratization vs. Quality control in academic publishing. Asia Pacific Bioinformatics Interaction & Networking Society (APbians) was launched as an APBionet Special Interest Group. Of the 52 oral presentations made, 22 were accepted in supplemental issues of BMC Bioinformatics, BMC Genomics or BMC Medical Genomics and are briefly reviewed here. Next year’s InCoB will be held in Jakarta, Indonesia from September 10–12, 2019.

Published

2019

31. Computer-aided prediction and design of IL-6 inducing peptides: IL-6 plays a crucial role in COVID-19

Author

Neelam Sharma, Salman Sadullah Usmani, Gajendra P. S. Raghava, Anjali Dhall, and Sumeet Patiyal

Subjects

Interleukin 6 (IL-6), AcademicSubjects/SCI01060, Coronavirus disease 2019 (COVID-19), Computer science, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Datasets as Topic, Computational biology, Epitope, Machine Learning, 03 medical and health sciences, 0302 clinical medicine, Immune system, Humans, Computer Simulation, Databases, Protein, Interleukin 6, Molecular Biology, 030304 developmental biology, 0303 health sciences, biology, Interleukin-6, SARS-CoV-2, COVID-19, Random forest, computer-aided prediction, pro-inflammatory cytokine, 030220 oncology & carcinogenesis, biology.protein, Computer-aided, Problem Solving Protocol, Immune reaction, Peptides, Information Systems

Abstract

Interleukin 6 (IL-6) is a pro-inflammatory cytokine that stimulates acute phase responses, hematopoiesis and specific immune reactions. Recently, it was found that the IL-6 plays a vital role in the progression of COVID-19, which is responsible for the high mortality rate. In order to facilitate the scientific community to fight against COVID-19, we have developed a method for predicting IL-6 inducing peptides/epitopes. The models were trained and tested on experimentally validated 365 IL-6 inducing and 2991 non-inducing peptides extracted from the immune epitope database. Initially, 9149 features of each peptide were computed using Pfeature, which were reduced to 186 features using the SVC-L1 technique. These features were ranked based on their classification ability, and the top 10 features were used for developing prediction models. A wide range of machine learning techniques has been deployed to develop models. Random Forest-based model achieves a maximum AUROC of 0.84 and 0.83 on training and independent validation dataset, respectively. We have also identified IL-6 inducing peptides in different proteins of SARS-CoV-2, using our best models to design vaccine against COVID-19. A web server named as IL-6Pred and a standalone package has been developed for predicting, designing and screening of IL-6 inducing peptides (https://webs.iiitd.edu.in/raghava/il6pred/).

Published

2020

32. Potential Challenges for Coronavirus (SARS-CoV-2) Vaccines Under Trial

Author

Gajendra P. S. Raghava and Salman Sadullah Usmani

Subjects

lcsh:Immunologic diseases. Allergy, Opinion, 2019-20 coronavirus outbreak, COVID-19 Vaccines, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Pneumonia, Viral, Immunology, coronavirus, medicine.disease_cause, vaccine candidates, Betacoronavirus, Animals, Humans, Medicine, Immunology and Allergy, Pandemics, Coronavirus, Clinical Trials as Topic, immunoinformatic, SARS-CoV-2, business.industry, Viral Vaccine, COVID-19, Viral Vaccines, Virology, Severe acute respiratory syndrome coronavirus, Coronavirus Infections, lcsh:RC581-607, business

Published

2020

33. Risk prediction in cutaneous melanoma patients from their clinico-pathological features: superiority of clinical data over gene expression data

Author

Dilraj Kaur, Gajendra P. S. Raghava, Anjali Lathwal, and Chakit Arora

Subjects

0301 basic medicine, Oncology, medicine.medical_specialty, Bioinformatics, Cancer research, Article, Breslow Thickness, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Genetics, lcsh:Social sciences (General), lcsh:Science (General), Melanoma, Survival analysis, Skin, Cancer, Multidisciplinary, business.industry, Hazard ratio, medicine.disease, Prognosis, Risk prediction, 030104 developmental biology, Cutaneous melanoma, Clinico pathological, lcsh:H1-99, business, Risk assessment, 030217 neurology & neurosurgery, lcsh:Q1-390

Abstract

Risk assessment in cutaneous melanoma (CM) patients is one of the major challenges in the effective treatment of CM patients. Traditionally, clinico-pathological features such as Breslow thickness, American Joint Committee on Cancer (AJCC) tumor staging, etc. are utilized for this purpose. However, due to advancements in technology, most of the upcoming risk prediction methods are gene-expression profile (GEP) based. In this study, we have tried to develop new GEP and clinico-pathological features-based biomarkers and assessed their prognostic strength in contrast to existing prognostic methods. We developed risk prediction models using the expression of the genes associated with different cancer-related pathways and got a maximum hazard ratio (HR) of 2.52 with p-value ~10−8 for the apoptotic pathway. Another model, based on combination of apoptotic and notch pathway genes boosted the HR to 2.57. Next, we developed models based on individual clinical features and got a maximum HR of 2.45 with p-value ~10−6 for Breslow thickness. We also developed models using the best features of clinical as well as gene-expression data and obtained a maximum HR of 3.19 with p-value ~10−9. Finally, we developed a new ensemble method using clinical variables only and got a maximum HR of 6.40 with p-value ~10−15. Based on this method, a web-based service and an android application named ‘CMcrpred’ is available at (https://webs.iiitd.edu.in/raghava/cmcrpred/) and Google Play Store respectively to facilitate scientific community. This study reveals that our new ensemble method based on only clinico-pathological features overperforms methods based on GEP based profiles as well as currently used AJCC staging. It also highlights the need to explore the full potential of clinical variables for prognostication of cancer patients., Bioinformatics; Cancer research; Genetics; Oncology; Cancer; Prognosis; Melanoma; Survival analysis; Skin; Risk prediction.

Published

2020

34. A Method for Predicting Hemolytic Potency of Chemically Modified Peptides From Its Structure

Author

Vinod Kumar, Sumeet Patiyal, Gajendra P. S. Raghava, Piyush Agrawal, and Rajesh Kumar

Subjects

0301 basic medicine, Chemical descriptors, Computer science, 3d descriptors, 03 medical and health sciences, 0302 clinical medicine, Feature (machine learning), Methods, Potency, Pharmacology (medical), Pharmacology, modified hemolytic peptides, business.industry, HemoPImod, lcsh:RM1-950, Pattern recognition, fingerprints, chemical descriptors, Random forest, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, ComputingMethodologies_PATTERNRECOGNITION, machine learning, 030220 oncology & carcinogenesis, Artificial intelligence, business, random forest

Abstract

In the present study, a systematic effort has been made to predict the hemolytic potency of chemically modified peptides. All models have been trained, tested, and evaluated on a dataset that contains 583 modified hemolytic peptides and a balanced number of non-hemolytic peptides. Machine learning techniques have been used to build the classification models using an immense range of peptide features that include 2D, 3D descriptors, fingerprints, atom, and diatom compositions. Random Forest based model developed using fingerprints as an input feature achieved maximum accuracy of 78.33% with AUC of 0.86 on the main dataset and accuracy of 78.29% with AUC of 0.85 on the validation dataset. Models developed in this study have been incorporated in a web server “HemoPImod” to facilitate the scientific community (http://webs.iiitd.edu.in/raghava/hemopimod/).

Published

2020

35. Expression based biomarkers and models to classify early and late-stage samples of Papillary Thyroid Carcinoma

Author

Suresh K Sharma, Gajendra P. S. Raghava, Rishemjit Kaur, Sherry Bhalla, and Harpreet Kaur

Subjects

0301 basic medicine, Oncology, Biochemistry, Lung and Intrathoracic Tumors, Machine Learning, 0302 clinical medicine, Mathematical and Statistical Techniques, Thymic Tumors, Basic Cancer Research, Medicine and Health Sciences, Endocrine Tumors, Thyroid cancer, Thyroid, Multidisciplinary, medicine.diagnostic_test, Applied Mathematics, Simulation and Modeling, Statistics, Genomics, Gene Expression Regulation, Neoplastic, medicine.anatomical_structure, Fine-needle aspiration, Thyroid Cancer, Papillary, 030220 oncology & carcinogenesis, Area Under Curve, Physical Sciences, Medicine, Anatomy, F1 score, Algorithms, Research Article, Thyroid nodules, medicine.medical_specialty, Computer and Information Sciences, Science, Endocrine System, Biology, Research and Analysis Methods, Carcinomas, Thyroid carcinoma, 03 medical and health sciences, Machine Learning Algorithms, Open Reading Frames, Cancer Genomics, Genomic Medicine, Diagnostic Medicine, Artificial Intelligence, Internal medicine, Biopsy, medicine, Cancer Detection and Diagnosis, Genetics, Biomarkers, Tumor, Humans, RNA, Messenger, Thyroid Neoplasms, Statistical Methods, Neoplasm Staging, Internet, Receiver operating characteristic, Cancers and Neoplasms, Biology and Life Sciences, medicine.disease, 030104 developmental biology, ROC Curve, Thyroid Carcinomas, Mathematics, Biomarkers, Forecasting

Abstract

IntroductionRecently, the rise in the incidences of thyroid cancer worldwide renders it to be the sixth most common cancer among women. Commonly, Fine Needle Aspiration biopsy predominantly facilitates the diagnosis of the nature of thyroid nodules. However, it is inconsiderable in determining the tumor's state, i.e., benign or malignant. This study aims to identify the key RNA transcripts that can segregate the early and late-stage samples of Thyroid Carcinoma (THCA) using RNA expression profiles.Materials and methodsIn this study, we used the THCA RNA-Seq dataset of The Cancer Genome Atlas, consisting of 500 cancer and 58 normal (adjacent non-tumorous) samples obtained from the Genomics Data Commons (GDC) data portal. This dataset was dissected to identify key RNA expression features using various feature selection techniques. Subsequently, samples were classified based on selected features employing different machine learning algorithms.ResultsSingle gene ranking based on the Area Under the Receiver Operating Characteristics (AUROC) curve identified the DCN transcript that can classify the early-stage samples from late-stage samples with 0.66 AUROC. To further improve the performance, we identified a panel of 36 RNA transcripts that achieved F1 score of 0.75 with 0.73 AUROC (95% CI: 0.62-0.84) on the validation dataset. Moreover, prediction models based on 18-features from this panel correctly predicted 75% of the samples of the external validation dataset. In addition, the multiclass model classified normal, early, and late-stage samples with AUROC of 0.95 (95% CI: 0.84-1), 0.76 (95% CI: 0.66-0.85) and 0.72 (95% CI: 0.61-0.83) on the validation dataset. Besides, a five protein-coding transcripts panel was also recognized, which segregated cancer and normal samples in the validation dataset with F1 score of 0.97 and 0.99 AUROC (95% CI: 0.91-1).ConclusionWe identified 36 important RNA transcripts whose expression segregated early and late-stage samples with reasonable accuracy. The models and dataset used in this study are available from the webserver CancerTSP (http://webs.iiitd.edu.in/raghava/cancertsp/).

Published

2020

36. CancerPDF: A repository of cancer-associated peptidome found in human biofluids

Author

Rajesh Kumar, Sherry Bhalla, Ruchi Verma, Suresh Kumar Sharma, Salman Sadullah Usmani, Harpreet Kaur, and Gajendra P. S. Raghava

Subjects

0301 basic medicine, Internet, Multidisciplinary, Proteome, Science, Biology, Bioinformatics, Article, Body Fluids, Search Engine, 03 medical and health sciences, 030104 developmental biology, Neoplasms, Extensive data, Humans, Medicine, Cancer biomarkers, Amino Acid Sequence, Databases, Protein, Peptides

Abstract

CancerPDF (Cancer Peptidome Database of bioFluids) is a comprehensive database of endogenous peptides detected in the human biofluids. The peptidome patterns reflect the synthesis, processing and degradation of proteins in the tissue environment and therefore can act as a gold mine to probe the peptide-based cancer biomarkers. Although an extensive data on cancer peptidome has been generated in the recent years, lack of a comprehensive resource restrains the facility to query the growing community knowledge. We have developed the cancer peptidome resource named CancerPDF, to collect and compile all the endogenous peptides isolated from human biofluids in various cancer profiling studies. CancerPDF has 14,367 entries with 9,692 unique peptide sequences corresponding to 2,230 unique precursor proteins from 56 high-throughput studies for ~27 cancer conditions. We have provided an interactive interface to query the endogenous peptides along with the primary information such as m/z, precursor protein, the type of cancer and its regulation status in cancer. To add-on, many web-based tools have been incorporated, which comprise of search, browse and similarity identification modules. We consider that the CancerPDF will be an invaluable resource to unwind the potential of peptidome-based cancer biomarkers. The CancerPDF is available at the web address http://crdd.osdd.net/raghava/cancerpdf/.

Published

2017

37. A Hybrid Model for Predicting Pattern Recognition Receptors using Evolutionary Information

Author

Dilraj Kaur, Chakit Arora, and Gajendra P. S. Raghava

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Web server, Computer science, Immunology, Value (computer science), computer.software_genre, Machine learning, Models, Biological, Machine Learning, 03 medical and health sciences, 0302 clinical medicine, Immune system, Similarity (network science), Sequence Analysis, Protein, Immunology and Allergy, Amino Acid Sequence, Evolutionary information, BLAST, Databases, Protein, innate immunity, Original Research, Sequence, business.industry, pattern recognition receptors, Pattern recognition receptor, prediction, 030104 developmental biology, toll-like receptors, Receptors, Pattern Recognition, Artificial intelligence, lcsh:RC581-607, business, computer, Hybrid model, 030215 immunology

Abstract

1.AbstractThis study describes a method developed for predicting pattern recognition receptors (PRRs), which are an integral part of the immune system. The models developed here were trained and evaluated on the largest possible non-redundant PRRs, and non-pattern recognition receptors (Non-PRRs) obtained from PRRDB 2.0. Firstly, a similarity-based approach using BLAST was used to predict PRRs and got limited success due to a large number of no-hits. Secondly, machine learning-based models were developed using sequence composition and achieved a maximum MCC of 0.63. In addition to this, models were developed using evolutionary information in the form of PSSM composition and achieved maximum MCC value of 0.66. Finally, we developed hybrid models that combined a similarity-based approach using BLAST and machine learning-based models. Our best model, which combined BLAST and PSSM based model, achieved a maximum MCC value of 0.82 with an AUROC value of 0.95, utilizing the potential of both similarity-based search and machine learning techniques. In order to facilitate the scientific community, we also developed a web server “PRRpred” based on the best model developed in this study (http://webs.iiitd.edu.in/raghava/prrpred/).

Published

2019

38. GPSRdocker: A Docker-based Resource for Genomics, Proteomics and Systems biology

Author

Rajesh Kumar, Akshara Pande, Sumeet Patiyal, Sherry Bhalla, Dilraj Kaur, Salman Sadullah Usmani, Neelam Sharma, Piyush Agrawal, Shipra Jain, Gajendra P. S. Raghava, Anjali Dhall, Vinod Kumar, and Harpreet Kaur

Subjects

business.industry, Computer science, Cloud computing, Python (programming language), computer.software_genre, Software, Scripting language, Container (abstract data type), The Internet, Perl, Web service, business, Software engineering, computer, computer.programming_language

Abstract

BackgroundIn past number of web-based resources has been developed in the field of Bioinformatics. These resources are heavily used by scientific community to provide solution for challenges faced by experimental researchers particularly in the field of biomedical sciences. There are number of challenges in utilizing full potential of these services that includes internet speed, limits on computing power, and security of data. In order to enhance utilities of these web-based assets, we developed a docker-based container that integrates large number resources available in literature.ResultsThis paper describes GPSRdocker a docker-based container developed for providing wide-range of computational tools in the field of bioinformatics particularly in genomics, proteomics and system biology. Majority of tools integrated in GPSRdocker are based on web services developed at Raghava’s group in last two decades. Broadly, these tools can be categorized in three categories; i) general scripts, ii) supporting software and iii) major standalone software. In order to facilitate students or developers working in the field of bioinformatics, we developed general scripts in Perl and Python. These general-purpose scripts serve as building block for any bioinformatics tools like computing features/descriptors of a protein. Supporting software packages includes SCIKIT, WEKA, SVMlight, and PSI-BLAST; these software packages allow one to develop/implement bioinformatics software. Major Standalone software is core of this container which allows predicting function/class of biomolecules. These tools can be classified broadly in following categories; protein annotation, epitope-based vaccines, prediction of interaction and drug discovery.ConclusionA docker-based container has been developed which can be easily run on any operating system as well as it can be directly ported on cloud. Scripts can be run to build pipelines for addressing problems at system level like prediction of vaccine candidate for a pathogen. GPSRdocker including manual is available free for academic use from https://webs.iiitd.edu.in/gpsrdocker.

Published

2019

39. Prediction and Analysis of Skin Cancer Progression using Genomics Profiles of Patients

Author

Harpreet Kaur, Sherry Bhalla, Anjali Dhall, and Gajendra P. S. Raghava

Subjects

Oncology, medicine.medical_specialty, Skin Neoplasms, lcsh:Medicine, Computational biology, Biology, medicine.disease_cause, Article, Metastasis, Internal medicine, microRNA, Databases, Genetic, medicine, Humans, RNA, Messenger, RNA, Neoplasm, lcsh:Science, Survival rate, Melanoma, Epigenomics, Internet, Multidisciplinary, Receiver operating characteristic, Gene Expression Profiling, lcsh:R, medicine.disease, Primary tumor, Neoplasm Proteins, Data processing, MicroRNAs, Cutaneous melanoma, Disease Progression, lcsh:Q, Female, Skin cancer, Carcinogenesis

Abstract

Metastatic state of the Skin Cutaneous Melanoma (SKCM) has led to high mortality rate worldwide. Previously, various studies have revealed the association of the metastatic melanoma with the diminished survival rate in comparison to primary tumors. Thus, prediction of melanoma at primary tumor state is crucial to employ optimal therapeutic strategy for prolonged survival of patients. The RNA, miRNA and methylation data of The Cancer Genome Atlas (TCGA) cohort of SKCM is comprehensively analysed to recognize key genomic features that can categorize various states of metastatic tumors from primary tumors with high precision. Subsequently, various prediction models were developed using filtered genomic features implementing various machine learning techniques to classify these primary tumors from metastatic tumors. The SVC model (with class weight and RBF kernel) developed using 17 mRNA features achieved maximum MCC 0.73 with sensitivity, specificity and accuracy 89.19%, 90.48% and 89.47% respectively on independent validation dataset. Our study reveals that gene expression based features performs better than features obtained from miRNA profiling and epigenomic profiling. Our analysis shows that the expression of genesC7, MMP3, KRT14, KRT17, MASP1, and miRNA hsa-mir-205 and hsa-mir-203a are among the key genomic features that may substantially contribute to the oncogenesis of melanoma even on the basis of simple expression threshold. The major prediction models and analysis modules to predict metastatic and primary tumor samples of SKCM are available from a webserver, CancerSPP (http://webs.iiitd.edu.in/raghava/cancerspp/).

Published

2019

40. In Silico Analysis of Gene Expression Change Associated with Copy Number of Enhancers in Pancreatic Adenocarcinoma

Author

Gandharva Nagpal, Vinod Kumar, Gajendra P. S. Raghava, Rajesh Kumar, and Sumeet Patiyal

Subjects

DNA Copy Number Variations, super enhancer, In silico, pancreatic cancer, Gene regulatory network, Computational biology, Biology, survival, Catalysis, Article, Inorganic Chemistry, lcsh:Chemistry, Super-enhancer, Pancreatic cancer, Gene expression, medicine, Biomarkers, Tumor, Humans, Gene Regulatory Networks, Copy-number variation, Physical and Theoretical Chemistry, Enhancer, Molecular Biology, Gene, lcsh:QH301-705.5, Spectroscopy, Proportional Hazards Models, adenocarcinoma, Gene Expression Profiling, Organic Chemistry, copy number variation, Computational Biology, General Medicine, functional enrichment analysis, medicine.disease, Prognosis, Computer Science Applications, Gene Expression Regulation, Neoplastic, Pancreatic Neoplasms, Enhancer Elements, Genetic, lcsh:Biology (General), lcsh:QD1-999, differential expressed genes, enhancer, regulatory elements, Transcriptome

Abstract

Understanding the gene regulatory network governing cancer initiation and progression is necessary, although it remains largely unexplored. Enhancer elements represent the center of this regulatory circuit. The study aims to identify the gene expression change driven by copy number variation in enhancer elements of pancreatic adenocarcinoma (PAAD). The pancreatic tissue specific enhancer and target gene data were taken from EnhancerAtlas. The gene expression and copy number data were taken from The Cancer Genome Atlas (TCGA). Differentially expressed genes (DEGs) and copy number variations (CNVs) were identified between matched tumor-normal samples of PAAD. Significant CNVs were matched onto enhancer coordinates by using genomic intersection functionality from BEDTools. By combining the gene expression and CNV data, we identified 169 genes whose expression shows a positive correlation with the CNV of enhancers. We further identified 16 genes which are regulated by a super enhancer and 15 genes which have high prognostic potential (Z-score &gt, 1.96). Cox proportional hazard analysis of these genes indicates that these are better predictors of survival. Taken together, our integrative analytical approach identifies enhancer CNV-driven gene expression change in PAAD, which could lead to better understanding of PAAD pathogenesis and to the design of enhancer-based cancer treatment strategies.

Published

2019

41. SAPdb: A database of nanostructures formed by self-assembly of short peptides

Author

Deepika Mathur, Harpreet Kaur, Anjali Dhall, Neelam Sharma, and Gajendra P. S. Raghava

Subjects

chemistry.chemical_classification, Materials science, Nanostructure, chemistry, Drug delivery, Nanobiotechnology, Nanotechnology, Peptide, Self-assembly, Tripeptide, Peptide sequence, Nanomaterials

Abstract

BackgroundNanostructures generated by self-assembly of peptides yield nanomaterial that has many therapeutic applications, including drug delivery and biomedical engineering, due to their low cytotoxicity and higher uptake by targeted cells owing to their high affinity and specificity towards cell surface receptors. Despite the promising implications of this rapidly expanding field, there is no dedicated resource to study peptide nanostructures.ResultThis study endeavours to create a dedicated repository of short peptides, which may prove to be the best models to study ordered nanostructures formed by peptide self-assembly. SAPdb has a repertoire of 1,049 entries of experimentally validated nanostructures formed by the self-assembling of small peptides. It includes 701 entries are of dipeptides, 328 entries belong to tripeptides, and 20 entries of single amino acid with some conjugated partners. Each entry encompasses comprehensive information about the peptide such as chemical modifications in the peptide sequences, the type of nanostructure formed, and experimental conditions like pH, temperature, and solvent required for the self-assembly of the peptide, etc. Further, our analysis has shown that the occurrence of aromatic amino acids favours the formation of self-assembling nanostructures, as indicated by a large number of entries in SAPdb contain aromatics amino acids. Besides, we have observed that these peptides form different nanostructures under different experimental conditions. SAPdb provides this comprehensive information in a hassle-free tabulated manner at a glance. User-friendly browsing, searching, and analysis modules are integrated for easy retrieval and comparison of data and examination of properties. We anticipate SAPdb to be a valuable repository for researchers engaged in the burgeoning arena of nanobiotechnology.AvailabilityThe database can be accessed on the web at https://webs.iiitd.edu.in/raghava/sapdb.

Published

2019

42. Computing wide range of protein/peptide features from their sequence and structure

Author

Rajesh Kumar, Akshara Pande, Chakit Arora, Gajendra P. S. Raghava, Piyush Agrawal, Neelam Sharma, Anjali Dhall, Gaurav Mishra, Salman Sadullah Usmani, Anjali Lathwal, Kumar, Sumeet Patiyal, Shipra Jain, Harpreet Kaur, and Dilraj Kaur

Subjects

chemistry.chemical_classification, Dipeptide, Computer science, A protein, Peptide, Complete protein, Computational biology, Tripeptide, Ligand (biochemistry), Amino acid, chemistry.chemical_compound, chemistry, Posttranslational modification, DNA

Abstract

MotivationIn last three decades, a wide range of protein descriptors/features have been discovered to annotate a protein with high precision. A wide range of features have been integrated in numerous software packages (e.g., PROFEAT, PyBioMed, iFeature, protr, Rcpi, propy) to predict function of a protein. These features are not suitable to predict function of a protein at residue level such as prediction of ligand binding residues, DNA interacting residues, post translational modification etc.ResultsIn order to facilitate scientific community, we have developed a software package that computes more than 50,000 features, important for predicting function of a protein and its residues. It has five major modules for computing; composition-based features, binary profiles, evolutionary information, structure-based features and patterns. The composition-based module allows user to compute; i) simple compositions like amino acid, dipeptide, tripeptide; ii) Properties based compositions; iii) Repeats and distribution of amino acids; iv) Shannon entropy to measure the low complexity regions; iv) Miscellaneous compositions like pseudo amino acid, autocorrelation, conjoint triad, quasi-sequence order. Binary profile of amino acid sequences provides complete information including order of residues or type of residues; specifically, suitable to predict function of a protein at residue level. Pfeature allows one to compute evolutionary information-based features in form of PSSM profile generated using PSIBLAST. Structure based module allows computing structure-based features, specifically suitable to annotate chemically modified peptides/proteins. Pfeature also allows generating overlapping patterns and feature from whole protein or its parts (e.g., N-terminal, C-terminal). In summary, Pfeature comprises of almost all features used till now, for predicting function of a protein/peptide including its residues.AvailabilityIt is available in form of a web server, named as Pfeature (https://webs.iiitd.edu.in/raghava/pfeature/), as well as python library and standalone package (https://github.com/raghavagps/Pfeature) suitable for Windows, Ubuntu, Fedora, MacOS and Centos based operating system.

Published

2019

43. NeuroPIpred: a tool to predict, design and scan insect neuropeptides

Author

Archana Singh, Piyush Agrawal, Gajendra P. S. Raghava, Sumit Kumar, and Indrakant K. Singh

Subjects

0301 basic medicine, Preference analysis, Support Vector Machine, In silico, lcsh:Medicine, Computational biology, Article, 03 medical and health sciences, 0302 clinical medicine, Sequence Analysis, Protein, Animals, Humans, Amino Acid Sequence, lcsh:Science, Databases, Protein, Mathematics, Multidisciplinary, lcsh:R, Neuropeptides, Support vector machine, Dipeptide composition, 030104 developmental biology, Amino acid composition, lcsh:Q, 030217 neurology & neurosurgery, Software

Abstract

Insect neuropeptides and their associated receptors have been one of the potential targets for the pest control. The present study describes in silico models developed using natural and modified insect neuropeptides for predicting and designing new neuropeptides. Amino acid composition analysis revealed the preference of residues C, D, E, F, G, N, S, and Y in insect neuropeptides The positional residue preference analysis show that in natural neuropeptides residues like A, N, F, D, P, S, and I are preferred at N terminus and residues like L, R, P, F, N, and G are preferred at C terminus. Prediction models were developed using input features like amino acid and dipeptide composition, binary profiles and implementing different machine learning techniques. Dipeptide composition based SVM model performed best among all the models. In case of NeuroPIpred_DS1, model achieved an accuracy of 86.50% accuracy and 0.73 MCC on training dataset and 83.71% accuracy and 0.67 MCC on validation dataset whereas in case of NeuroPIpred_DS2, model achieved 97.47% accuracy and 0.95 MCC on training dataset and 97.93% accuracy and 0.96 MCC on validation dataset. In order to assist researchers, we created standalone and user friendly web server NeuroPIpred, available at (https://webs.iiitd.edu.in/raghava/neuropipred.)

Published

2019

44. Peptide Secondary Structure Prediction using Evolutionary Information

Author

Gajendra P. S. Raghava, Harinder Singh, and Sandeep Singh

Subjects

chemistry.chemical_classification, chemistry, Small peptide, Peptide, Evolutionary information, Computational biology, Protein secondary structure prediction, Protein secondary structure, Mathematics

Abstract

BACKGROUNDIn the past, large numbers of methods have been developed for predicting secondary structure of proteins. Best of author’s knowledge no method has been specifically developed for predicting secondary structure of peptides. We analyzed secondary structure of peptides and proteins; it was observed that same peptide in protein adopt different secondary structures. Considering the wide application of peptides in therapeutic market, we made attempt to develop a method called PEP2D for predicting secondary structure of peptides.RESULTSIn this study, 3107 unique peptides have been used to train, test and evaluate peptide secondary structure prediction models. It was observed that regular secondary structure content (e.g., helix, beta-sheet) increased with length of peptides. Firstly, models based on various machine-learning techniques have been developed using binary profile of peptides and achieved maximum overall accuracy (Q3) 79.5%. The performance of models further improved from 79.5% to 83.5% using evolutionary information in the form of PSSM profile. We also evaluate performance of protein secondary structure prediction method PSIPRED on our dataset and achieved maximum accuracy 76.9%; particularly poor (Q3 71.4%) for small peptides having length less than 10 residues. Overall, PEP2D has better prediction of beta-sheets (Q3 74%) and coil region (Q3 87%) of peptides as compare to PSIPRED (Q3 54.4% for beta-sheet and Q3 77.9% for coil). We also measure performance of PSIPRED and PEP2D in terms of segment overlap (SOV); achieved 69.3 and 76.7 respectively.CONCLUSIONOur observations indicate that there is a need of developing separate method for predicting secondary structure of peptides. It was also observed that models based on PSSM profile perform poor on small peptides in comparison to long peptides. Based on our study, we developed method for predicting secondary structure of peptides. In order to provide service to user, a webserver/standalone has been developed (https://webs.iiitd.edu.in/raghava/pep2d/).

Published

2019

45. Prediction of Antitubercular Peptides From Sequence Information Using Ensemble Classifier and Hybrid Features

Author

Sherry Bhalla, Gajendra P. S. Raghava, and Salman Sadullah Usmani

Subjects

0301 basic medicine, Pharmacology, Computer science, Sequence analysis, antimycobacterial therapy, lcsh:RM1-950, Computational biology, Binary pattern, ensemble classifier, Mycobacterium, drug discovery, Support vector machine, 03 medical and health sciences, Dipeptide composition, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, machine learning, Amino acid composition, tuberculosis, antitubercular peptides, Pharmacology (medical), Hybrid model, Classifier (UML), Original Research

Abstract

Tuberculosis is one of the leading cause of death worldwide, particularly due to evolution of drug resistant strains. Antitubercular peptides may provide an alternate approach to combat antibiotic tolerance. Sequence analysis reveals that certain residues (e.g., Lysine, Arginine, Leucine, Tryptophan) are more prevalent in antitubercular peptides. This study describes the models developed for predicting antitubercular peptides by using sequence features of the peptides. We have developed support vector machine based models using different sequence features like amino acid composition, binary profile of terminus residues, dipeptide composition. Our ensemble classifiers that combines models based on amino acid composition and N5C5 binary pattern, achieves highest Acc of 73.20% with 0.80 AUROC on our main dataset. Similarly, the ensemble classifier achieved maximum Acc 75.62% with 0.83 AUROC on secondary dataset. Beside this, hybrid model achieves Acc of 75.87 and 78.54% with 0.83 and 0.86 AUROC on main and secondary dataset, respectively. In order to facilitate scientific community in designing of antitubercular peptides, we implement above models in a user friendly webserver (http://webs.iiitd.edu.in/raghava/antitbpred/).

Published

2018

46. HumCFS: A database of fragile sites in human chromosomes

Author

Rajesh Kumar, Gajendra P. S. Raghava, Salman Sadullah Usmani, Gandharva Nagpal, Vinod Kumar, and Piyush Agrawal

Subjects

Genomic instability, 0106 biological sciences, Genome instability, lcsh:QH426-470, Carcinogenesis, lcsh:Biotechnology, Population, Genome browser, Chemical inducers, Biology, computer.software_genre, 01 natural sciences, Genome, MiRBase, Database, 03 medical and health sciences, lcsh:TP248.13-248.65, Databases, Genetic, Genetics, Chromosomes, Human, Humans, Ensembl, Genetic Predisposition to Disease, education, Gene, miRNA, 030304 developmental biology, 0303 health sciences, education.field_of_study, Genome, Human, Chromosome Fragile Sites, Chromosomal fragile site, Nucleic acid sequence, Replication stress, Chromosome, DNA elements, lcsh:Genetics, Human genome, DNA microarray, computer, 010606 plant biology & botany, Biotechnology

Abstract

Background Fragile sites are the chromosomal regions that are susceptible to breakage, and their frequency varies among the human population. Based on the frequency of fragile site induction, they are categorized as common and rare fragile sites. Common fragile sites are sensitive to replication stress and often rearranged in cancer. Rare fragile sites are the archetypal trinucleotide repeats. Fragile sites are known to be involved in chromosomal rearrangements in tumors. Human miRNA genes are also present at fragile sites. A better understanding of genes and miRNAs lying in the fragile site regions and their association with disease progression is required. Result HumCFS is a manually curated database of human chromosomal fragile sites. HumCFS provides useful information on fragile sites such as coordinates on the chromosome, cytoband, their chemical inducers and frequency of fragile site (rare or common), genes and miRNAs lying in fragile sites. Protein coding genes in the fragile sites were identified by mapping the coordinates of fragile sites with human genome Ensembl (GRCh38/hg38). Genes present in fragile sites were further mapped to DisGenNET database, to understand their possible link with human diseases. Human miRNAs from miRBase was also mapped on fragile site coordinates. In brief, HumCFS provides useful information about 125 human chromosomal fragile sites and their association with 4921 human protein-coding genes and 917 human miRNA’s. Conclusion User-friendly web-interface of HumCFS and hyper-linking with other resources will help researchers to search for genes, miRNAs efficiently and to intersect the relationship among them. For easy data retrieval and analysis, we have integrated standard web-based tools, such as JBrowse, BLAST etc. Also, the user can download the data in various file formats such as text files, gff3 files and Bed-format files which can be used on UCSC browser. Database URL: http://webs.iiitd.edu.in/raghava/humcfs/ Electronic supplementary material The online version of this article (10.1186/s12864-018-5330-5) contains supplementary material, which is available to authorized users.

Published

2017

47. In silico analysis to identify vaccine candidates common to multiple serotypes of Shigella and evaluation of their immunogenicity

Author

Hifzur Rahman Ansari, Gajendra P. S. Raghava, Sapna Pahil, and Neelam Taneja

Subjects

0301 basic medicine, Serotype, Bacterial Diseases, Physiology, Antibody Response, lcsh:Medicine, medicine.disease_cause, Pathology and Laboratory Medicine, Biochemistry, Epitopes, Mice, Shigella Vaccines, Immune Physiology, Medicine and Health Sciences, Shigella, Enzyme-Linked Immunoassays, Databases, Protein, lcsh:Science, Immune Response, Heat-Shock Proteins, Mice, Inbred BALB C, Vaccines, Innate Immune System, Multidisciplinary, Immune System Proteins, Bacterial Gastroenteritis, Immunogenicity, Antibodies, Bacterial, Gastroenteritis, Bacterial Pathogens, Infectious Diseases, Shigellosis, Medical Microbiology, Cytokines, Pathogens, Research Article, Neglected Tropical Diseases, Infectious Disease Control, Hypothetical protein, Immunology, Enzyme-Linked Immunosorbent Assay, Gastroenterology and Hepatology, Biology, Serogroup, Research and Analysis Methods, Microbiology, Antibodies, 03 medical and health sciences, Interferon-gamma, Shigella flexneri, Antigen, Immunity, medicine, Animals, Antigens, Immunoassays, Microbial Pathogens, Dysentery, Bacillary, Bacteria, Tumor Necrosis Factor-alpha, lcsh:R, Organisms, Biology and Life Sciences, Proteins, Molecular Development, medicine.disease, biology.organism_classification, Tropical Diseases, Virology, Immunoglobulin A, 030104 developmental biology, Immunoglobulin G, Immune System, Immunologic Techniques, lcsh:Q, Peptides, Developmental Biology

Abstract

Shigellosis or bacillary dysentery is an important cause of diarrhea, with the majority of the cases occurring in developing countries. Considering the high disease burden, increasing antibiotic resistance, serotype-specific immunity and the post-infectious sequelae associated with shigellosis, there is a pressing need of an effective vaccine against multiple serotypes of the pathogen. In the present study, we used bio-informatics approach to identify antigens shared among multiple serotypes of Shigella spp. This approach led to the identification of many immunogenic peptides. The five most promising peptides based on MHC binding efficiency were a putative lipoprotein (EL PGI I), a putative heat shock protein (EL PGI II), Spa32 (EL PGI III), IcsB (EL PGI IV) and a hypothetical protein (EL PGI V). These peptides were synthesized and the immunogenicity was evaluated in BALB/c mice by ELISA and cytokine assays. The putative heat shock protein (HSP) and the hypothetical protein elicited good humoral response, whereas putative lipoprotein, Spa32 and IcsB elicited good T-cell response as revealed by increased IFN-γ and TNF-α cytokine levels. The patient sera from confirmed cases of shigellosis were also evaluated for the presence of peptide specific antibodies with significant IgG and IgA antibodies against the HSP and the hypothetical protein, bestowing them as potential future vaccine candidates. The antigens reported in this study are novel and have not been tested as vaccine candidates against Shigella. This study offers time and cost-effective way of identifying unprecedented immunogenic antigens to be used as potential vaccine candidates. Moreover, this approach should easily be extendable to find new potential vaccine candidates for other pathogenic bacteria.

Published

2017

48. A Platform for Designing Genome-Based Personalized Immunotherapy or Vaccine against Cancer

Author

Sudheer Gupta, Gajendra P. S. Raghava, Shailesh Kumar, Sandeep Kumar Dhanda, Rajesh Kumar, Kumardeep Chaudhary, Manika Sehgal, and Gandharva Nagpal

Subjects

0301 basic medicine, Computer science, Proteomes, medicine.medical_treatment, lcsh:Medicine, medicine.disease_cause, Genome, Biochemistry, Epitope, Database and Informatics Methods, Epitopes, Neoplasms, Basic Cancer Research, Medicine and Health Sciences, Public and Occupational Health, Precision Medicine, lcsh:Science, Mutation, Vaccines, Multidisciplinary, Insertion Mutation, Genomics, Genomic Databases, Vaccination and Immunization, Gene Expression Regulation, Neoplastic, Oncology, Proteome, Immunotherapy, Cancer Prevention, Research Article, Immunology, Computational biology, Human leukocyte antigen, Research and Analysis Methods, Cancer Vaccines, 03 medical and health sciences, Cancer Genomics, Genomic Medicine, medicine, Mutation database, Genetics, Humans, Computer Simulation, Internet, Genome, Human, lcsh:R, Cancer, Biology and Life Sciences, Proteins, Computational Biology, Precision medicine, medicine.disease, Genome Analysis, 030104 developmental biology, Biological Databases, Cancer cell, Mutation Databases, lcsh:Q, Human genome, Preventive Medicine, Peptides

Abstract

Due to advancement in sequencing technology, genomes of thousands of cancer tissues or cell-lines have been sequenced. Identification of cancer-specific epitopes or neoepitopes from cancer genomes is one of the major challenges in the field of immunotherapy or vaccine development. This paper describes a platform Cancertope, developed for designing genome-based immunotherapy or vaccine against a cancer cell. Broadly, the integrated resources on this platform are apportioned into three precise sections. First section explains a cancer-specific database of neoepitopes generated from genome of 905 cancer cell lines. This database harbors wide range of epitopes (e.g., B-cell, CD8+ T-cell, HLA class I, HLA class II) against 60 cancer-specific vaccine antigens. Second section describes a partially personalized module developed for predicting potential neoepitopes against a user-specific cancer genome. Finally, we describe a fully personalized module developed for identification of neoepitopes from genomes of cancerous and healthy cells of a cancer-patient. In order to assist the scientific community, wide range of tools are incorporated in this platform that includes screening of epitopes against human reference proteome (http://www.imtech.res.in/raghava/cancertope/).

Published

2016

49. Topical Delivery of Protein and Peptide Using Novel Cell Penetrating Peptide IMT-P8

Author

Ankur Gautam, Samir K. Nath, Priyanka Priyanka, Garima Mittal, Manisha Kumari, Gursimran Bedi, Jesse S. Samuel, Jagpreet S. Nanda, Neeraj Khatri, and Gajendra P. S. Raghava

Subjects

Male, 0301 basic medicine, Administration, Topical, Recombinant Fusion Proteins, media_common.quotation_subject, Green Fluorescent Proteins, Cell-Penetrating Peptides, 02 engineering and technology, Article, Permeability, 03 medical and health sciences, Drug Delivery Systems, In vivo, Cell Line, Tumor, Stratum corneum, medicine, Animals, Humans, cardiovascular diseases, Internalization, Transdermal, media_common, Mice, Inbred BALB C, Multidisciplinary, Cell Death, integumentary system, Epidermis (botany), Chemistry, Biological Transport, musculoskeletal system, 021001 nanoscience & nanotechnology, Hair follicle, Mitochondria, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Drug delivery, Immunology, cardiovascular system, Cell-penetrating peptide, Intercellular Signaling Peptides and Proteins, Epidermis, Peptides, 0210 nano-technology, Hair Follicle, HeLa Cells

Abstract

Skin, being the largest organ of the body, is an important site for drug administration. However, most of the drugs have poor permeability and thus drug delivery through the skin is very challenging. In this study, we examined the transdermal delivery capability of IMT-P8, a novel cell-penetrating peptide. We generated IMT-P8-GFP and IMT-P8-KLA fusion constructs and evaluated their internalization into mouse skin after topical application. Our results demonstrate that IMT-P8 is capable of transporting green fluorescent protein (GFP) and proapoptotic peptide, KLA into the skin and also in different cell lines. Interestingly, uptake of IMT-P8-GFP was considerably higher than TAT-GFP in HeLa cells. After internalization, IMT-P8-KLA got localized to the mitochondria and caused significant cell death in HeLa cells signifying an intact biological activity. Further in vivo skin penetration experiments revealed that after topical application, IMT-P8 penetrated the stratum corneum, entered into the viable epidermis and accumulated inside the hair follicles. In addition, both IMT-P8-KLA and IMT-P8-GFP internalized into the hair follicles and dermal tissue of the skin following topical application. These results suggested that IMT-P8 could be a potential candidate to be used as a topical delivery vehicle for various cosmetic and skin disease applications.

Published

2016

50. A web-based resource for designing therapeutics against Ebola Virus

Author

Sudheer Gupta, Sandeep Kumar Dhanda, Kumardeep Chaudhary, Samir K. Brahmachari, and Gajendra P. S. Raghava

Subjects

0301 basic medicine, Computational biology, Genome, Viral, Biology, medicine.disease_cause, Genome, Epitope, Article, Transcriptome, 03 medical and health sciences, Epitopes, User-Computer Interface, 0302 clinical medicine, Antigen, medicine, Human proteome project, Humans, 030212 general & internal medicine, 1000 Genomes Project, RNA, Small Interfering, Ebolavirus, Internet, Multidisciplinary, Ebola virus, Histocompatibility Antigens Class I, Histocompatibility Antigens Class II, Computational Biology, Hemorrhagic Fever, Ebola, Virology, 030104 developmental biology, Vaccines, Subunit, Peptides

Abstract

In this study, we describe a web-based resource, developed for assisting the scientific community in designing an effective therapeutics against the Ebola virus. Firstly, we predicted and identified experimentally validated epitopes in each of the antigens/proteins of the five known ebolaviruses. Secondly, we generated all the possible overlapping 9mer peptides from the proteins of ebolaviruses. Thirdly, conserved peptides across all the five ebolaviruses (four human pathogenic species) with no identical sequence in the human proteome, based on 1000 Genomes project, were identified. Finally, we identified peptide or epitope-based vaccine candidates that could activate both the B- and T-cell arms of the immune system. In addition, we also identified efficacious siRNAs against the mRNA transcriptome (absent in human transcriptome) of all the five ebolaviruses. It was observed that three species can potentially be targeted by a single siRNA (19mer) and 75 siRNAs can potentially target at least two species. A web server, EbolaVCR, has been developed that incorporates all the above information and useful computational tools (http://crdd.osdd.net/oscadd/ebola/).

Published

2016