Human cytomegalovirus (HCMV) poses a serious public health problem causing morbidity and mortalit... more Human cytomegalovirus (HCMV) poses a serious public health problem causing morbidity and mortality in transplant recipients, immunocompromised patients, and congenitally infected newborns. Considering the recent reports of emergence of Ganciclovir drug resistance, vaccine development is the need of an hour. In the present study, a multi-epitope vaccine was constructed targeting the major hotspot- the pentavalent complex of glycoproteins (H/L/UL128-UL130-UL131) of HCMV, and other important target proteins- gB and pp65. The vaccine designed was composed of series of epitopes belonging to CD4, CD8 and B cells. As an immunobooster, the CpG motifs was linked to the vaccine which severed as an adjuvant. The affinity, stability and flexibility of the vaccine construct with the immune receptor- Toll like receptor -9 (TLR-9) was investigated by molecular docking and molecular dynamics simulations. The in-silico immune simulations of the vaccine sequence were also carried out to determine its ability to stimulate different immune components. Further, an in-silico cloning of the vaccine construct was performed to analyze the feasibility of its expression and translation efficiency in pET-28a (+) vector. The overall results obtained indicated the vaccine to be immunogenic, non-allergic, had high population coverage, high affinity and stability with the immune receptor, had efficient expression in host E. coli and was effective in stimulating different immune cell types like T helper, T cytotoxic, B cells, dendritic cells, macrophages and interleukins. The proposed vaccine construct is expected to be highly efficacious and needs to be carried forward by the vaccinologists to test its efficacy in lab settings.
Epidermolysis Bullosa is a rare genetic disorder that causes skin fragility, trauma induced disso... more Epidermolysis Bullosa is a rare genetic disorder that causes skin fragility, trauma induced dissociations of the skin, and painful wound growth. More than 20 types of genes are involved in causing EB as it is a polygenic disease and each gene is involved in a different subtype of EB. Dystrophic Epidermolysis Bullosa (DEB) is one of the subtypes of EB caused by mutations in the COL7A1 (Collagen Type VII Alpha 1 Chain) gene and it affects people from all racial backgrounds. No drug is available for DEB in the market yet. So, it is the need of the hour to come up with a potential inhibitor that could inhibit the faulty protein of COL7A1 gene. Different exons of COL7A1 have been analyzed and exon no 70 to 75 has been selected which were important for mutational point of view. The mutations in it have been identified and verified using various In-silico tools. The 3D structure of the protein has been retrieved using specific exons which were edited and mutations were introduced in it and...
The comparative genomic analysis of Lactiplantibacillus plantarum YW11 (L. plantarum YW11) isolat... more The comparative genomic analysis of Lactiplantibacillus plantarum YW11 (L. plantarum YW11) isolated from Tibetan kefir involves comparison of the complete genome sequences of the isolated strain with other closely related L. plantarum strains. This type of analysis can be used to identify the genetic diversity among strains and to explore the genetic characteristics of the YW11 strain. The genome of L. plantarum YW11 was found to be composed of a circular single chromosome of 4,597,470 bp with a G + C content of 43.2%. A total of 4,278 open reading frames (ORFs) were identified in the genome and the coding density was found to be 87.8%. A comparative genomic analysis was conducted using two other L. plantarum strains, L. plantarum C11 and L. plantarum LMG21703. Genomic comparison revealed that L. plantarum YW11 shared 72.7 and 75.2% of gene content with L. plantarum C11 and L. plantarum LMG21703, respectively. Most of the genes shared between the three L. plantarum strains were invo...
Serratia marcescens, a Gram-negative bacterium, is one of the known disease-causing pathogens. It... more Serratia marcescens, a Gram-negative bacterium, is one of the known disease-causing pathogens. It is resistant to ampicillin, macrolides, cephalosporins, cefotaxime, and ceftazidime. The only antibiotic that has been proven to be effective against S. marcescens is gentamicin. By causing epigenetic alterations, bacteria can also become resistant to all antibiotics. Many epigenetically related proteins were studied, and four proteins were selected in this regard for epitope evaluation and their subsequent use in the development of a messenger ribonucleic acid (mRNA) vaccine. A series of immune-informatics tools used to build this mRNA vaccine elicited cellular and humoral immunity. Molecular docking between epitopes and alleles of the major histocompatibility complex (MHC) was performed. The vaccine was developed using 37 epitopes, an adjuvant that is a TLR-4 agonist known as resuscitation-promoting factor E (RpfE), subcellular trafficking structures, secretion boosters, and linkers. ...
Enterobacter cloacae is mainly responsible for sepsis, urethritis, and respiratory tract infectio... more Enterobacter cloacae is mainly responsible for sepsis, urethritis, and respiratory tract infections. These bacteria may affect the transcription of the host and particularly their immune system by producing changes in their epigenetics. In the present study, four proteins of Enterobacter cloacae were used to predict the epitopes for the construction of an mRNA vaccine against Enterobacter cloacae infections. In order to generate cellular and humoral responses, various immunoinformatic-based approaches were used for developing the vaccine. The molecular docking analysis was performed for predicting the interaction among the chosen epitopes and corresponding MHC alleles. The vaccine was developed by combining epitopes (thirty-three total), which include the adjuvant Toll-like receptor-4 (TLR4). The constructed vaccine was analyzed and predicted to cover 99.2% of the global population. Additionally, in silico immunological modeling of the vaccination was also carried out. When it enter...
: Hypothetical proteins (HPs) are non-predicted sequences that are identified only by open readin... more : Hypothetical proteins (HPs) are non-predicted sequences that are identified only by open reading frames in sequenced genomes, but their protein products remain uncharacterized by any experimental means. The genome of every species consists of HPs that are involved in various cellular processes and signaling pathways. Annotation of HPs is important as they play a key role in disease mechanisms, drug designing, vaccine production, antibiotic production, and host adaptation. In the case of bacteria, 25-50% of the genome comprises HPs, which are involved in metabolic pathways and pathogenesis. The characterization of bacterial HPs helps to identify virulent proteins that are involved in pathogenesis. This can be done using in-silico studies, which provide sequence analogs, physiochemical properties, cellular or subcellular localization, structure and function validation, and protein-protein interactions. The most diverse types of virulent proteins are exotoxins, endotoxins, and adherent virulent factors that are encoded by virulent genes present on the chromosomal DNA of the bacteria. This review evaluates virulent HPs of pathogenic bacteria, such as Staphylococcus aureus, Chlamydia trachomatis, Fusobacterium nucleatum, and Yersinia pestis. The potential of these HPs as a drug target in bacteria-caused infectious diseases, along with the mode of action and treatment approaches, has been discussed.
Human cytomegalovirus (HCMV) poses a serious public health problem causing morbidity and mortalit... more Human cytomegalovirus (HCMV) poses a serious public health problem causing morbidity and mortality in transplant recipients, immunocompromised patients, and congenitally infected newborns. Considering the recent reports of emergence of Ganciclovir drug resistance, vaccine development is the need of an hour. In the present study, a multi-epitope vaccine was constructed targeting the major hotspot- the pentavalent complex of glycoproteins (H/L/UL128-UL130-UL131) of HCMV, and other important target proteins- gB and pp65. The vaccine designed was composed of series of epitopes belonging to CD4, CD8 and B cells. As an immunobooster, the CpG motifs was linked to the vaccine which severed as an adjuvant. The affinity, stability and flexibility of the vaccine construct with the immune receptor- Toll like receptor -9 (TLR-9) was investigated by molecular docking and molecular dynamics simulations. The in-silico immune simulations of the vaccine sequence were also carried out to determine its ability to stimulate different immune components. Further, an in-silico cloning of the vaccine construct was performed to analyze the feasibility of its expression and translation efficiency in pET-28a (+) vector. The overall results obtained indicated the vaccine to be immunogenic, non-allergic, had high population coverage, high affinity and stability with the immune receptor, had efficient expression in host E. coli and was effective in stimulating different immune cell types like T helper, T cytotoxic, B cells, dendritic cells, macrophages and interleukins. The proposed vaccine construct is expected to be highly efficacious and needs to be carried forward by the vaccinologists to test its efficacy in lab settings.
Epidermolysis Bullosa is a rare genetic disorder that causes skin fragility, trauma induced disso... more Epidermolysis Bullosa is a rare genetic disorder that causes skin fragility, trauma induced dissociations of the skin, and painful wound growth. More than 20 types of genes are involved in causing EB as it is a polygenic disease and each gene is involved in a different subtype of EB. Dystrophic Epidermolysis Bullosa (DEB) is one of the subtypes of EB caused by mutations in the COL7A1 (Collagen Type VII Alpha 1 Chain) gene and it affects people from all racial backgrounds. No drug is available for DEB in the market yet. So, it is the need of the hour to come up with a potential inhibitor that could inhibit the faulty protein of COL7A1 gene. Different exons of COL7A1 have been analyzed and exon no 70 to 75 has been selected which were important for mutational point of view. The mutations in it have been identified and verified using various In-silico tools. The 3D structure of the protein has been retrieved using specific exons which were edited and mutations were introduced in it and...
The comparative genomic analysis of Lactiplantibacillus plantarum YW11 (L. plantarum YW11) isolat... more The comparative genomic analysis of Lactiplantibacillus plantarum YW11 (L. plantarum YW11) isolated from Tibetan kefir involves comparison of the complete genome sequences of the isolated strain with other closely related L. plantarum strains. This type of analysis can be used to identify the genetic diversity among strains and to explore the genetic characteristics of the YW11 strain. The genome of L. plantarum YW11 was found to be composed of a circular single chromosome of 4,597,470 bp with a G + C content of 43.2%. A total of 4,278 open reading frames (ORFs) were identified in the genome and the coding density was found to be 87.8%. A comparative genomic analysis was conducted using two other L. plantarum strains, L. plantarum C11 and L. plantarum LMG21703. Genomic comparison revealed that L. plantarum YW11 shared 72.7 and 75.2% of gene content with L. plantarum C11 and L. plantarum LMG21703, respectively. Most of the genes shared between the three L. plantarum strains were invo...
Serratia marcescens, a Gram-negative bacterium, is one of the known disease-causing pathogens. It... more Serratia marcescens, a Gram-negative bacterium, is one of the known disease-causing pathogens. It is resistant to ampicillin, macrolides, cephalosporins, cefotaxime, and ceftazidime. The only antibiotic that has been proven to be effective against S. marcescens is gentamicin. By causing epigenetic alterations, bacteria can also become resistant to all antibiotics. Many epigenetically related proteins were studied, and four proteins were selected in this regard for epitope evaluation and their subsequent use in the development of a messenger ribonucleic acid (mRNA) vaccine. A series of immune-informatics tools used to build this mRNA vaccine elicited cellular and humoral immunity. Molecular docking between epitopes and alleles of the major histocompatibility complex (MHC) was performed. The vaccine was developed using 37 epitopes, an adjuvant that is a TLR-4 agonist known as resuscitation-promoting factor E (RpfE), subcellular trafficking structures, secretion boosters, and linkers. ...
Enterobacter cloacae is mainly responsible for sepsis, urethritis, and respiratory tract infectio... more Enterobacter cloacae is mainly responsible for sepsis, urethritis, and respiratory tract infections. These bacteria may affect the transcription of the host and particularly their immune system by producing changes in their epigenetics. In the present study, four proteins of Enterobacter cloacae were used to predict the epitopes for the construction of an mRNA vaccine against Enterobacter cloacae infections. In order to generate cellular and humoral responses, various immunoinformatic-based approaches were used for developing the vaccine. The molecular docking analysis was performed for predicting the interaction among the chosen epitopes and corresponding MHC alleles. The vaccine was developed by combining epitopes (thirty-three total), which include the adjuvant Toll-like receptor-4 (TLR4). The constructed vaccine was analyzed and predicted to cover 99.2% of the global population. Additionally, in silico immunological modeling of the vaccination was also carried out. When it enter...
: Hypothetical proteins (HPs) are non-predicted sequences that are identified only by open readin... more : Hypothetical proteins (HPs) are non-predicted sequences that are identified only by open reading frames in sequenced genomes, but their protein products remain uncharacterized by any experimental means. The genome of every species consists of HPs that are involved in various cellular processes and signaling pathways. Annotation of HPs is important as they play a key role in disease mechanisms, drug designing, vaccine production, antibiotic production, and host adaptation. In the case of bacteria, 25-50% of the genome comprises HPs, which are involved in metabolic pathways and pathogenesis. The characterization of bacterial HPs helps to identify virulent proteins that are involved in pathogenesis. This can be done using in-silico studies, which provide sequence analogs, physiochemical properties, cellular or subcellular localization, structure and function validation, and protein-protein interactions. The most diverse types of virulent proteins are exotoxins, endotoxins, and adherent virulent factors that are encoded by virulent genes present on the chromosomal DNA of the bacteria. This review evaluates virulent HPs of pathogenic bacteria, such as Staphylococcus aureus, Chlamydia trachomatis, Fusobacterium nucleatum, and Yersinia pestis. The potential of these HPs as a drug target in bacteria-caused infectious diseases, along with the mode of action and treatment approaches, has been discussed.
Uploads
Papers by khizra jabeen