Your search keyword '"Dwivedi SB"' showing total 10 results

1. Statistical Correlation between Petrographical and Physico-Mechanical Properties of Kaimur Sandstone

Author

Chaudhary, V, primary, Srivastav, A, additional, Pandey, VHR, additional, Kainthola, Ashutosh, additional, Tiwari, SK, additional, Dwivedi, SB, additional, and Singh, TN, additional

Published

2021

2. A compendium of potential biomarkers of pancreatic cancer.

Author

Harsha HC, Kandasamy K, Ranganathan P, Rani S, Ramabadran S, Gollapudi S, Balakrishnan L, Dwivedi SB, Telikicherla D, Selvan LD, Goel R, Mathivanan S, Marimuthu A, Kashyap M, Vizza RF, Mayer RJ, Decaprio JA, Srivastava S, Hanash SM, and Hruban RH

Published

2009

3. Aedes aegypti Malpighian tubules are immunologically activated following systemic Toll activation.

Author

Sneed SD, Dwivedi SB, DiGate C, Denecke S, and Povelones M

Subjects

Animals, Dogs, Malpighian Tubules metabolism, Malpighian Tubules parasitology, Proteomics, RNA Interference, Aedes physiology, Dirofilaria immitis

Abstract

Background: Canine heartworm is a widespread and potentially fatal mosquito-borne disease caused by infections with the parasitic nematode, Dirofilaria immitis. We have previously shown that systemic activation of the Toll immune pathway via silencing of the negative regulator Cactus in Aedes aegypti blocks parasite development in the Malpighian tubules (MT), the mosquito renal organ. However, it was not established whether the MT were directly responding to Toll activation or were alternatively responding to upregulated proteins or other changes to the hemolymph driven by other tissues. Distinguishing these possibilities is crucial for developing more precise strategies to block D. immitis while potentially avoiding the fitness cost to the mosquito associated with Cactus silencing., Methods: This study defines the transcriptional response of the MT and changes to the hemolymph proteome of Ae. aegypti after systemic Toll activation via intra-thoracic injection of double-stranded Cactus (dsCactus) RNA., Results: Malpighian tubules significantly increased expression of the Toll pathway target genes that significantly overlapped expression changes occurring in whole mosquitoes. A significant overlap between the transcriptional response of the MT and proteins upregulated in the hemolymph was also observed., Conclusions: Our data show that MT are capable of RNA interference-mediated gene silencing and directly respond to dsCactus treatment by upregulating targets of the canonical Toll pathway. Although not definitive, the strong correspondence between the MT transcriptional response and the hemolymph proteomic responses provides evidence that the MT may contribute to mosquito humoral immunity., (© 2022. The Author(s).)

Published

2022

4. Strength and durability performance of geopolymer binder of ambient cured alkali-activated MSW rejected waste and GGBFS mixes.

Author

Shrivas R, Paramkusam BR, and Dwivedi SB

Subjects

Compressive Strength, Dust, Pulse Wave Analysis, Alkalies, Solid Waste

Abstract

Municipal solid waste (MSW) is being generated every day, and its safe disposal is one of the major environmental challenges nowadays. The main focus of this research is to examine the usability of the soil-like inorganic component of MSW, named MSW rejected waste, as a geopolymer binder. In this study, the effect of mutual replacement of MSW rejected waste with ground granulated blast furnace slag (GGBFS) at 10% interval on the synthesis of geopolymer binder with reference to density, alkali concentration, and curing period is studied by conducting compressive strength, permeability, and durability tests. The design of mixes follows, according to their pre-determined compaction parameters, optimum moisture content, and maximum dry density. The curing conditions were found to be significant in affecting the properties of the geopolymer. The effect of acid environment on strength properties of geopolymer mixes has also been studied. The unconfined compressive strength, pulse wave velocity, water absorption, and microstructural analysis have been performed on designed mixes to identify the optimized design of the mixtures. Results showed that the strength increased with the increment of GGBFS percentage and increment of concentration of sodium hydroxide (NaOH) up to 8 M., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

5. Integrating transcriptomic and proteomic data for accurate assembly and annotation of genomes.

Author

Prasad TS, Mohanty AK, Kumar M, Sreenivasamurthy SK, Dey G, Nirujogi RS, Pinto SM, Madugundu AK, Patil AH, Advani J, Manda SS, Gupta MK, Dwivedi SB, Kelkar DS, Hall B, Jiang X, Peery A, Rajagopalan P, Yelamanchi SD, Solanki HS, Raja R, Sathe GJ, Chavan S, Verma R, Patel KM, Jain AP, Syed N, Datta KK, Khan AA, Dammalli M, Jayaram S, Radhakrishnan A, Mitchell CJ, Na CH, Kumar N, Sinnis P, Sharakhov IV, Wang C, Gowda H, Tu Z, Kumar A, and Pandey A

Subjects

Animals, Anopheles genetics, Exons genetics, Gene Expression Profiling, Proteome genetics, Proteomics, Genome genetics, High-Throughput Nucleotide Sequencing methods, Molecular Sequence Annotation, Transcriptome genetics

Abstract

Complementing genome sequence with deep transcriptome and proteome data could enable more accurate assembly and annotation of newly sequenced genomes. Here, we provide a proof-of-concept of an integrated approach for analysis of the genome and proteome of Anopheles stephensi, which is one of the most important vectors of the malaria parasite. To achieve broad coverage of genes, we carried out transcriptome sequencing and deep proteome profiling of multiple anatomically distinct sites. Based on transcriptomic data alone, we identified and corrected 535 events of incomplete genome assembly involving 1196 scaffolds and 868 protein-coding gene models. This proteogenomic approach enabled us to add 365 genes that were missed during genome annotation and identify 917 gene correction events through discovery of 151 novel exons, 297 protein extensions, 231 exon extensions, 192 novel protein start sites, 19 novel translational frames, 28 events of joining of exons, and 76 events of joining of adjacent genes as a single gene. Incorporation of proteomic evidence allowed us to change the designation of more than 87 predicted "noncoding RNAs" to conventional mRNAs coded by protein-coding genes. Importantly, extension of the newly corrected genome assemblies and gene models to 15 other newly assembled Anopheline genomes led to the discovery of a large number of apparent discrepancies in assembly and annotation of these genomes. Our data provide a framework for how future genome sequencing efforts should incorporate transcriptomic and proteomic analysis in combination with simultaneous manual curation to achieve near complete assembly and accurate annotation of genomes., (© 2017 Prasad et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2017

6. Annotation of the zebrafish genome through an integrated transcriptomic and proteomic analysis.

Author

Kelkar DS, Provost E, Chaerkady R, Muthusamy B, Manda SS, Subbannayya T, Selvan LD, Wang CH, Datta KK, Woo S, Dwivedi SB, Renuse S, Getnet D, Huang TC, Kim MS, Pinto SM, Mitchell CJ, Madugundu AK, Kumar P, Sharma J, Advani J, Dey G, Balakrishnan L, Syed N, Nanjappa V, Subbannayya Y, Goel R, Prasad TS, Bafna V, Sirdeshmukh R, Gowda H, Wang C, Leach SD, and Pandey A

Subjects

Amino Acid Sequence, Animals, Base Sequence, Gene Expression Profiling, High-Throughput Nucleotide Sequencing, Mass Spectrometry, Molecular Sequence Annotation, Proteomics, Sequence Analysis, RNA, Genome genetics, Proteome analysis, Proteome genetics, Transcriptome genetics, Zebrafish genetics

Abstract

Accurate annotation of protein-coding genes is one of the primary tasks upon the completion of whole genome sequencing of any organism. In this study, we used an integrated transcriptomic and proteomic strategy to validate and improve the existing zebrafish genome annotation. We undertook high-resolution mass-spectrometry-based proteomic profiling of 10 adult organs, whole adult fish body, and two developmental stages of zebrafish (SAT line), in addition to transcriptomic profiling of six organs. More than 7,000 proteins were identified from proteomic analyses, and ∼ 69,000 high-confidence transcripts were assembled from the RNA sequencing data. Approximately 15% of the transcripts mapped to intergenic regions, the majority of which are likely long non-coding RNAs. These high-quality transcriptomic and proteomic data were used to manually reannotate the zebrafish genome. We report the identification of 157 novel protein-coding genes. In addition, our data led to modification of existing gene structures including novel exons, changes in exon coordinates, changes in frame of translation, translation in annotated UTRs, and joining of genes. Finally, we discovered four instances of genome assembly errors that were supported by both proteomic and transcriptomic data. Our study shows how an integrative analysis of the transcriptome and the proteome can extend our understanding of even well-annotated genomes., (© 2014 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2014

7. Brain proteomics of Anopheles gambiae.

Author

Dwivedi SB, Muthusamy B, Kumar P, Kim MS, Nirujogi RS, Getnet D, Ahiakonu P, De G, Nair B, Gowda H, Prasad TS, Kumar N, Pandey A, and Okulate M

Subjects

Alternative Splicing, Animals, Anopheles genetics, Computational Biology, Female, Genomics, Insect Proteins genetics, Insect Proteins metabolism, Male, Mass Spectrometry, Open Reading Frames, Peptides, Protein Biosynthesis, Proteome, Reading Frames, Reproducibility of Results, Untranslated Regions, Anopheles metabolism, Brain metabolism, Proteomics methods

Abstract

Anopheles gambiae has a well-adapted system for host localization, feeding, and mating behavior, which are all governed by neuronal processes in the brain. However, there are no published reports characterizing the brain proteome to elucidate neuronal signaling mechanisms in the vector. To this end, a large-scale mapping of the brain proteome of An. gambiae was carried out using high resolution tandem mass spectrometry, revealing a repertoire of >1800 proteins, of which 15% could not be assigned any function. A large proportion of the identified proteins were predicted to be involved in diverse biological processes including metabolism, transport, protein synthesis, and olfaction. This study also led to the identification of 10 GPCR classes of proteins, which could govern sensory pathways in mosquitoes. Proteins involved in metabolic and neural processes, chromatin modeling, and synaptic vesicle transport associated with neuronal transmission were predominantly expressed in the brain. Proteogenomic analysis expanded our findings with the identification of 15 novel genes and 71 cases of gene refinements, a subset of which were validated by RT-PCR and sequencing. Overall, our study offers valuable insights into the brain physiology of the vector that could possibly open avenues for intervention strategies for malaria in the future.

Published

2014

8. A proteogenomic analysis of Anopheles gambiae using high-resolution Fourier transform mass spectrometry.

Author

Chaerkady R, Kelkar DS, Muthusamy B, Kandasamy K, Dwivedi SB, Sahasrabuddhe NA, Kim MS, Renuse S, Pinto SM, Sharma R, Pawar H, Sekhar NR, Mohanty AK, Getnet D, Yang Y, Zhong J, Dash AP, MacCallum RM, Delanghe B, Mlambo G, Kumar A, Keshava Prasad TS, Okulate M, Kumar N, and Pandey A

Subjects

Alternative Splicing, Animals, Chromosome Mapping, Codon, Initiator, Exons, Genes, Insect, Genomics, Introns, Mass Spectrometry, Molecular Sequence Annotation, Molecular Sequence Data, Open Reading Frames, Peptides genetics, Proteomics, RNA Splice Sites, Reproducibility of Results, Untranslated Regions genetics, Anopheles genetics, Anopheles metabolism

Abstract

Anopheles gambiae is a major mosquito vector responsible for malaria transmission, whose genome sequence was reported in 2002. Genome annotation is a continuing effort, and many of the approximately 13,000 genes listed in VectorBase for Anopheles gambiae are predictions that have still not been validated by any other method. To identify protein-coding genes of An. gambiae based on its genomic sequence, we carried out a deep proteomic analysis using high-resolution Fourier transform mass spectrometry for both precursor and fragment ions. Based on peptide evidence, we were able to support or correct more than 6000 gene annotations including 80 novel gene structures and about 500 translational start sites. An additional validation by RT-PCR and cDNA sequencing was successfully performed for 105 selected genes. Our proteogenomic analysis led to the identification of 2682 genome search-specific peptides. Numerous cases of encoded proteins were documented in regions annotated as intergenic, introns, or untranslated regions. Using a database created to contain potential splice sites, we also identified 35 novel splice junctions. This is a first report to annotate the An. gambiae genome using high-accuracy mass spectrometry data as a complementary technology for genome annotation.

Published

2011

9. A comprehensive curated resource for follicle stimulating hormone signaling.

Author

Telikicherla D, Ambekar A, Palapetta SM, Dwivedi SB, Raju R, Sharma J, Prasad TsK, Ramachandra Y, Mohan SS, Maharudraiah J, Mukherjee S, and Pandey A

Abstract

Background: Follicle stimulating hormone (FSH) is an important hormone responsible for growth, maturation and function of the human reproductive system. FSH regulates the synthesis of steroid hormones such as estrogen and progesterone, proliferation and maturation of follicles in the ovary and spermatogenesis in the testes. FSH is a glycoprotein heterodimer that binds and acts through the FSH receptor, a G-protein coupled receptor. Although online pathway repositories provide information about G-protein coupled receptor mediated signal transduction, the signaling events initiated specifically by FSH are not cataloged in any public database in a detailed fashion., Findings: We performed comprehensive curation of the published literature to identify the components of FSH signaling pathway and the molecular interactions that occur upon FSH receptor activation. Our effort yielded 64 reactions comprising 35 enzyme-substrate reactions, 11 molecular association events, 11 activation events and 7 protein translocation events that occur in response to FSH receptor activation. We also cataloged 265 genes, which were differentially expressed upon FSH stimulation in normal human reproductive tissues., Conclusions: We anticipate that the information provided in this resource will provide better insights into the physiological role of FSH in reproductive biology, its signaling mediators and aid in further research in this area. The curated FSH pathway data is freely available through NetPath (http://www.netpath.org), a pathway resource developed previously by our group.

Published

2011

10. Identifying targets of miR-143 using a SILAC-based proteomic approach.

Author

Yang Y, Chaerkady R, Kandasamy K, Huang TC, Selvan LD, Dwivedi SB, Kent OA, Mendell JT, and Pandey A

Subjects

Luciferases genetics, Protein Biosynthesis, RNA, Messenger genetics, Tandem Mass Spectrometry, MicroRNAs genetics, Proteomics

Abstract

Although the targets of most miRNAs have not been experimentally identified, microRNAs (miRNAs) have begun to be extensively characterized in physiological, developmental and disease-related contexts in recent years. Thus far, mainly computational approaches have been employed to predict potential targets for the large majority of miRNAs. Although miRNAs exert a major influence on the efficiency of translation of their targets in animals, most studies describing experimental identification of miRNA target genes are based on detection of altered mRNA levels. miR-143 is a miRNA involved in tumorigenesis in multiple types of cancer, smooth muscle cell fate and adipocyte differentiation. Only a few miR-143 targets are experimentally verified, so we employed a SILAC-based quantitative proteomic strategy to systematically identify potential targets of miR-143. In total, we identified >1200 proteins from MiaPaCa2 pancreatic cancer cells, of which 93 proteins were downregulated >2-fold in miR-143 mimic transfected cells as compared to controls. Validation of 34 of these candidate targets in luciferase assays showed that 10 of them were likely direct targets of miR-143. Importantly, we also carried out gene expression profiling of the same cells and observed that the majority of the candidate targets identified by proteomics did not show a concomitant decrease in mRNA levels confirming that miRNAs affect the expression of most targets through translational inhibition. Our study clearly demonstrates that quantitative proteomic approaches are important and necessary for identifying miRNA targets.

Published

2010