Your search keyword '"Gudimella, Ranganath"' showing total 16 results

1. Genome-Wide Regulatory Network Mapping of miRNA and Transcription Factors in Banana Roots

Author

Gudimella, Ranganath, Singh, Pooja, Mazumdar, Purabi, Wong, Gwo Rong, Lau, Su-Ee, and Harikrishna, Jennifer Ann

Published

2018

2. Expression of microRNAs during female inflorescence development in African oil palm (Elaeis guineensis Jacq.)

Author

Ho, Huili, Gudimella, Ranganath, Ong-Abdullah, Meilina, and Harikrishna, Jennifer Ann

Published

2017

3. Identifying protein biomarkers in predicting disease severity of dengue virus infection using immune-related protein microarray

Author

Soe, Hui Jen, Yong, Yean K., Al-Obaidi, Mazen M. Jamil, Raju, Chandramathi Samudi, Gudimella, Ranganath, Manikam, Rishya, and Sekaran, Shamala Devi

Published

2018

4. Crustin, a WAP domain containing antimicrobial peptide from freshwater prawn Macrobrachium rosenbergii: Immune characterization

Author

Arockiaraj, Jesu, Gnanam, Annie J., Muthukrishnan, Dhanaraj, Gudimella, Ranganath, Milton, James, Singh, Arun, Muthupandian, Saravanan, Kasi, Marimuthu, and Bhassu, Subha

Published

2013

5. CoVigator—A Knowledge Base for Navigating SARS-CoV-2 Genomic Variants.

Author

Bukur, Thomas, Riesgo-Ferreiro, Pablo, Sorn, Patrick, Gudimella, Ranganath, Hausmann, Johannes, Rösler, Thomas, Löwer, Martin, Schrörs, Barbara, and Sahin, Ugur

Subjects

SARS Epidemic, 2002-2003, SARS-CoV-2, KNOWLEDGE base, PIPELINE inspection, COVID-19 pandemic, COVID-19 vaccines

Abstract

Background: The outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) resulted in the global COVID-19 pandemic. The urgency for an effective SARS-CoV-2 vaccine has led to the development of the first series of vaccines at unprecedented speed. The discovery of SARS-CoV-2 spike-glycoprotein mutants, however, and consequentially the potential to escape vaccine-induced protection and increased infectivity, demonstrates the persisting importance of monitoring SARS-CoV-2 mutations to enable early detection and tracking of genomic variants of concern. Results: We developed the CoVigator tool with three components: (1) a knowledge base that collects new SARS-CoV-2 genomic data, processes it and stores its results; (2) a comprehensive variant calling pipeline; (3) an interactive dashboard highlighting the most relevant findings. The knowledge base routinely downloads and processes virus genome assemblies or raw sequencing data from the COVID-19 Data Portal (C19DP) and the European Nucleotide Archive (ENA), respectively. The results of variant calling are visualized through the dashboard in the form of tables and customizable graphs, making it a versatile tool for tracking SARS-CoV-2 variants. We put a special emphasis on the identification of intrahost mutations and make available to the community what is, to the best of our knowledge, the largest dataset on SARS-CoV-2 intrahost mutations. In the spirit of open data, all CoVigator results are available for download. The CoVigator dashboard is accessible via covigator.tron-mainz.de. Conclusions: With increasing demand worldwide in genome surveillance for tracking the spread of SARS-CoV-2, CoVigator will be a valuable resource of an up-to-date list of mutations, which can be incorporated into global efforts. [ABSTRACT FROM AUTHOR]

Published

2023

6. Transcriptome analysis of Streptococcus pneumoniae treated with the designed antimicrobial peptides, DM3

Author

Le, Cheng-Foh, Gudimella, Ranganath, Razali, Rozaimi, Manikam, Rishya, and Sekaran, Shamala Devi

Published

2016

7. Large-scale analysis of SARS-CoV-2 spike-glycoprotein mutants demonstrates the need for continuous screening of virus isolates.

Author

Schrörs, Barbara, Riesgo-Ferreiro, Pablo, Sorn, Patrick, Gudimella, Ranganath, Bukur, Thomas, Rösler, Thomas, Löwer, Martin, and Sahin, Ugur

Subjects

SARS-CoV-2, COVID-19 pandemic, MUTANT proteins, T cells, MIXED infections

Abstract

Due to the widespread of the COVID-19 pandemic, the SARS-CoV-2 genome is evolving in diverse human populations. Several studies already reported different strains and an increase in the mutation rate. Particularly, mutations in SARS-CoV-2 spike-glycoprotein are of great interest as it mediates infection in human and recently approved mRNA vaccines are designed to induce immune responses against it. We analyzed 1,036,030 SARS-CoV-2 genome assemblies and 30,806 NGS datasets from GISAID and European Nucleotide Archive (ENA) focusing on non-synonymous mutations in the spike protein. Only around 2.5% of the samples contained the wild-type spike protein with no variation from the reference. Among the spike protein mutants, we confirmed a low mutation rate exhibiting less than 10 non-synonymous mutations in 99.6% of the analyzed sequences, but the mean and median number of spike protein mutations per sample increased over time. 5,472 distinct variants were found in total. The majority of the observed variants were recurrent, but only 21 and 14 recurrent variants were found in at least 1% of the mutant genome assemblies and NGS samples, respectively. Further, we found high-confidence subclonal variants in about 2.6% of the NGS data sets with mutant spike protein, which might indicate co-infection with various SARS-CoV-2 strains and/or intra-host evolution. Lastly, some variants might have an effect on antibody binding or T-cell recognition. These findings demonstrate the continuous importance of monitoring SARS-CoV-2 sequences for an early detection of variants that require adaptations in preventive and therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2021

8. Comparative genomic analysis of ten clinical Streptococcus pneumoniae collected from a Malaysian hospital reveal 31 new unique drug-resistant SNPs using whole genome sequencing.

Author

Hassan Mahmood Jindal, Ramanathan, Babu, Cheng Foh Le, Gudimella, Ranganath, Razali, Rozaimi, Manikam, Rishya, and Sekaran, Shamala Devi

Subjects

COMPARATIVE genomics, STREPTOCOCCUS pneumoniae, NUCLEOTIDE sequencing, SINGLE nucleotide polymorphisms, DRUG resistance, MEDICAL care, GENETICS

Abstract

Background: Streptococcus pneumoniae or pneumococcus is a leading cause of morbidity and mortality worldwide, specifically in relation to community-acquired pneumonia. Due to the overuse of antibiotics, S. pneumoniae has developed a high degree of resistance to a wide range of antibacterial drugs. Methods: In this study, whole genome sequencing (WGS) was performed for 10 clinical strains of S. pneumoniae with different levels of sensitivity to standard antibiotics. The main objective was to investigate genetic changes associated with antibiotic resistance in S. pneumoniae. Results: Our results showed that resistant isolates contain a higher number of non-synonymous single nucleotide polymorphisms (SNPs) as compared to susceptible isolates. We were able to identify SNPs that alter a single amino acid in many genes involved in virulence and capsular polysaccharide synthesis. In addition, 90 SNPs were only presented in the resistant isolates, and 31 SNPs were unique and had not been previously reported, suggesting that these unique SNPs could play a key role in altering the level of resistance to different antibiotics. Conclusion: Whole genome sequencing is a powerful tool for comparing the full genome of multiple isolates, especially those closely related, and for analysing the variations found within antibiotic resistance genes that lead to differences in antibiotic sensitivity. We were able to identify specific mutations within virulence genes related to resistant isolates. These findings could provide insights into understanding the role of single nucleotide mutants in conferring drug resistance. [ABSTRACT FROM AUTHOR]

Published

2018

9. Identifying protein biomarkers in predicting disease severity of dengue virus infection using immune-related protein microarray.

Author

Hui Jen Soe, Yong, Yean K., Al-Obaidi, Mazen M. Jamil, Raju, Chandramathi Samudi, Gudimella, Ranganath, Manikam, Rishya, and Sekaran, Shamala Devi

Published

2018

10. Next generation sequencing reveals the antibiotic resistant variants in the genome of Pseudomonas aeruginosa.

Author

Ramanathan, Babu, Jindal, Hassan Mahmood, Le, Cheng Foh, Gudimella, Ranganath, Anwar, Arif, Razali, Rozaimi, Poole-Johnson, Johan, Manikam, Rishya, and Sekaran, Shamala Devi

Subjects

BACTERIAL genetics, GENETIC mutation, SINGLE nucleotide polymorphisms, PSEUDOMONAS aeruginosa infections, DRUG resistance in microorganisms, GENETICS

Abstract

Rapid progress in next generation sequencing and allied computational tools have aided in identification of single nucleotide variants in genomes of several organisms. In the present study, we have investigated single nucleotide polymorphism (SNP) in ten multi-antibiotic resistant Pseudomonas aeruginosa clinical isolates. All the draft genomes were submitted to Rapid Annotations using Subsystems Technology (RAST) web server and the predicted protein sequences were used for comparison. Non-synonymous single nucleotide polymorphism (nsSNP) found in the clinical isolates compared to the reference genome (PAO1), and the comparison of nsSNPs between antibiotic resistant and susceptible clinical isolates revealed insights into the genome variation. These nsSNPs identified in the multi-drug resistant clinical isolates were found to be altering a single amino acid in several antibiotic resistant genes. We found mutations in genes encoding efflux pump systems, cell wall, DNA replication and genes involved in repair mechanism. In addition, nucleotide deletions in the genome and mutations leading to generation of stop codons were also observed in the antibiotic resistant clinical isolates. Next generation sequencing is a powerful tool to compare the whole genomes and analyse the single base pair variations found within the antibiotic resistant genes. We identified specific mutations within antibiotic resistant genes compared to the susceptible strain of the same bacterial species and these findings may provide insights to understand the role of single nucleotide variants in antibiotic resistance. [ABSTRACT FROM AUTHOR]

Published

2017

11. Genome wide profiling in oral squamous cell carcinoma identifies a four genetic marker signature of prognostic significance.

Author

Vincent-Chong, Vui King, Salahshourifar, Iman, Woo, Kar Mun, Anwar, Arif, Razali, Rozaimi, Gudimella, Ranganath, Rahman, Zainal Ariff Abdul, Ismail, Siti Mazlipah, Kallarakkal, Thomas George, Ramanathan, Anand, Wan Mustafa, Wan Mahadzir, Abraham, Mannil Thomas, Tay, Keng Kiong, and Zain, Rosnah Binti

Subjects

SQUAMOUS cell carcinoma, GENETIC markers, PROGNOSIS, CARCINOMA, BIOMARKERS

Abstract

Background: Cancers of the oral cavity are primarily oral squamous cell carcinomas (OSCCs). Many of the OSCCs present at late stages with an exceptionally poor prognosis. A probable limitation in management of patients with OSCC lies in the insufficient knowledge pertaining to the linkage between copy number alterations in OSCC and oral tumourigenesis thereby resulting in an inability to deliver targeted therapy. Objectives: The current study aimed to identify copy number alterations (CNAs) in OSCC using array comparative genomic hybridization (array CGH) and to correlate the CNAs with clinico-pathologic parameters and clinical outcomes. Materials and methods: Using array CGH, genome-wide profiling was performed on 75 OSCCs. Selected genes that were harboured in the frequently amplified and deleted regions were validated using quantitative polymerase chain reaction (qPCR). Thereafter, pathway and network functional analysis were carried out using Ingenuity Pathway Analysis (IPA) software. Results: Multiple chromosomal regions including 3q, 5p, 7p, 8q, 9p, 10p, 11q were frequently amplified, while 3p and 8p chromosomal regions were frequently deleted. These findings were in confirmation with our previous study using ultra-dense array CGH. In addition, amplification of 8q, 11q, 7p and 9p and deletion of 8p chromosomal regions showed a significant correlation with clinico-pathologic parameters such as the size of the tumour, metastatic lymph nodes and pathological staging. Co-amplification of 7p, 8q, 9p and 11q regions that harbored amplified genes namely CCND1, EGFR, TPM2 and LRP12 respectively, when combined, continues to be an independent prognostic factor in OSCC. Conclusion: Amplification of 3q, 5p, 7p, 8q, 9p, 10p, 11q and deletion of 3p and 8p chromosomal regions were recurrent among OSCC patients. Co-alteration of 7p, 8q, 9p and 11q was found to be associated with clinico-pathologic parameters and poor survival. These regions contain genes that play critical roles in tumourigenesis pathways. [ABSTRACT FROM AUTHOR]

Published

2017

12. Deciphering the Draft Genome of Toxoplasma gondii RH Strain.

Author

Lau, Yee-Ling, Lee, Wenn-Chyau, Gudimella, Ranganath, Zhang, GuiPing, Ching, Xiao-Teng, Razali, Rozaimi, Aziz, Farhanah, Anwar, Arif, and Fong, Mun-Yik

Subjects

TOXOPLASMOSIS, TOXOPLASMA gondii, MICROBIAL virulence, NUCLEOTIDE sequencing, POLYMERASE chain reaction, GENETICS

Abstract

Toxoplasmosis is a widespread parasitic infection by Toxoplasma gondii, a parasite with at least three distinct clonal lineages. This article reports the whole genome sequencing and de novo assembly of T. gondii RH (type I representative strain), as well as genome-wide comparison across major T. gondii lineages. Genomic DNA was extracted from tachyzoites of T. gondii RH strain and its identity was verified by PCR and LAMP. Subsequently, whole genome sequencing was performed, followed by sequence filtering, genome assembly, gene annotation assignments, clustering of gene orthologs and phylogenetic tree construction. Genome comparison was done with the already archived genomes of T. gondii. From this study, the genome size of T. gondii RH strain was found to be 69.35Mb, with a mean GC content of 52%. The genome shares high similarity to the archived genomes of T. gondii GT1, ME49 and VEG strains. Nevertheless, 111 genes were found to be unique to T. gondii RH strain. Importantly, unique genes annotated to functions that are potentially critical for T. gondii virulence were found, which may explain the unique phenotypes of this particular strain. This report complements the genomic archive of T. gondii. Data obtained from this study contribute to better understanding of T. gondii and serve as a reference for future studies on this parasite. [ABSTRACT FROM AUTHOR]

Published

2016

13. Augmentation of Autoantibodies by Helicobacter pylori in Parkinson’s Disease Patients May Be Linked to Greater Severity.

Author

Suwarnalata, Gunasekaran, Tan, Ai Huey, Isa, Hidayah, Gudimella, Ranganath, Anwar, Arif, Loke, Mun Fai, Mahadeva, Sanjiv, Lim, Shen-Yang, and Vadivelu, Jamuna

Subjects

PARKINSON'S disease, AUTOANTIBODIES, HELICOBACTER pylori infections, SEVERITY of illness index, NEURODEGENERATION, GASTRIC mucosa

Abstract

Parkinson's disease (PD) is the second most common chronic and progressive neurodegenerative disorder. Its etiology remains elusive and at present only symptomatic treatments exists. Helicobacter pylori chronically colonizes the gastric mucosa of more than half of the global human population. Interestingly, H. pylori positivity has been found to be associated with greater of PD motor severity. In order to investigate the underlying cause of this association, the Sengenics Immunome protein array, which enables simultaneous screening for autoantibodies against 1636 human proteins, was used to screen the serum of 30 H. pylori-seropositive PD patients (case) and 30 age- and gender-matched H. pylori-seronegative PD patients (control) in this study. In total, 13 significant autoantibodies were identified and ranked, with 8 up-regulated and 5 down-regulated in the case group. Among autoantibodies found to be elevated in H. pylori-seropositive PD were included antibodies that recognize Nuclear factor I subtype A (NFIA), Platelet-derived growth factor B (PDGFB) and Eukaryotic translation initiation factor 4A3 (eIFA3). The presence of elevated autoantibodies against proteins essential for normal neurological functions suggest that immunomodulatory properties of H. pylori may explain the association between H. pylori positivity and greater PD motor severity. [ABSTRACT FROM AUTHOR]

Published

2016

14. Transcripts and MicroRNAs Responding to Salt Stress in Musa acuminata Colla (AAA Group) cv. Berangan Roots.

Author

Lee, Wan Sin, Gudimella, Ranganath, Wong, Gwo Rong, Tammi, Martti Tapani, Khalid, Norzulaani, and Harikrishna, Jennifer Ann

Subjects

*GENETIC transcription, *MICRORNA, *BANANA varieties, *EFFECT of salts on plants, *PLANT roots, *GENE expression in plants

Abstract

Physiological responses to stress are controlled by expression of a large number of genes, many of which are regulated by microRNAs. Since most banana cultivars are salt-sensitive, improved understanding of genetic regulation of salt induced stress responses in banana can support future crop management and improvement in the face of increasing soil salinity related to irrigation and climate change. In this study we focused on determining miRNA and their targets that respond to NaCl exposure and used transcriptome sequencing of RNA and small RNA from control and NaCl-treated banana roots to assemble a cultivar-specific reference transcriptome and identify orthologous and Musa-specific miRNA responding to salinity. We observed that, banana roots responded to salinity stress with changes in expression for a large number of genes (9.5% of 31,390 expressed unigenes) and reduction in levels of many miRNA, including several novel miRNA and banana-specific miRNA-target pairs. Banana roots expressed a unique set of orthologous and Musa-specific miRNAs of which 59 respond to salt stress in a dose-dependent manner. Gene expression patterns of miRNA compared with those of their predicted mRNA targets indicated that a majority of the differentially expressed miRNAs were down-regulated in response to increased salinity, allowing increased expression of targets involved in diverse biological processes including stress signaling, stress defence, transport, cellular homeostasis, metabolism and other stress-related functions. This study may contribute to the understanding of gene regulation and abiotic stress response of roots and the high-throughput sequencing data sets generated may serve as important resources related to salt tolerance traits for functional genomic studies and genetic improvement in banana. [ABSTRACT FROM AUTHOR]

Published

2015

15. “A draft Musa balbisiana genome sequence for molecular genetics in polyploid, inter- and intra-specific Musa hybrids”.

Author

Davey, Mark W., Gudimella, Ranganath, Harikrishna, Jennifer Ann, Sin, Lee Wan, Khalid, Norzulaani, and Keulemans, Johan

Abstract

Background: Modern banana cultivars are primarily interspecific triploid hybrids of two species, Musa acuminata and Musa balbisiana, which respectively contribute the A- and B-genomes. The M. balbisiana genome has been associated with improved vigour and tolerance to biotic and abiotic stresses and is thus a target for Musa breeding programs. However, while a reference M. acuminata genome has recently been released (Nature 488:213–217, 2012), little sequence data is available for the corresponding B-genome. To address these problems we carried out Next Generation gDNA sequencing of the wild diploid M. balbisiana variety ‘Pisang Klutuk Wulung’ (PKW). Our strategy was to align PKW gDNA reads against the published A-genome and to extract the mapped consensus sequences for subsequent rounds of evaluation and gene annotation. Results: The resulting B-genome is 79% the size of the A-genome, and contains 36,638 predicted functional gene sequences which is nearly identical to the 36,542 of the A-genome. There is substantial sequence divergence from the A-genome at a frequency of 1 homozygous SNP per 23.1 bp, and a high degree of heterozygosity corresponding to one heterozygous SNP per 55.9 bp. Using expressed small RNA data, a similar number of microRNA sequences were predicted in both A- and B-genomes, but additional novel miRNAs were detected, including some that are unique to each genome. The usefulness of this B-genome sequence was evaluated by mapping RNA-seq data from a set of triploid AAA and AAB hybrids simultaneously to both genomes. Results for the plantains demonstrated the expected 2:1 distribution of reads across the A- and B-genomes, but for the AAA genomes, results show they contain regions of significant homology to the B-genome supporting proposals that there has been a history of interspecific recombination between homeologous A and B chromosomes in Musa hybrids. Conclusions: We have generated and annotated a draft reference Musa B-genome and demonstrate that this can be used for molecular genetic mapping of gene transcripts and small RNA expression data from several allopolyploid banana cultivars. This draft therefore represents a valuable resource to support the study of metabolism in inter- and intraspecific triploid Musa hybrids and to help direct breeding programs. [ABSTRACT FROM AUTHOR]

Published

2013

16. Molecular Characterization and Comparative Sequence Analysis of Defense-Related Gene, Oryza rufipogon Receptor-Like Protein Kinase 1.

Author

Yee-Song Law, Gudimella, Ranganath, Beng-Kah Song, Ratnam, Wickneswari, and Harikrishna, Jennifer Ann

Subjects

*MOLECULAR genetics, *RED rice, *PROTEIN kinases, *NUCLEOTIDE sequence, *PLANT defenses, *COMPARATIVE studies, *LEUCINE, RICE genetics

Abstract

Many of the plant leucine rich repeat receptor-like kinases (LRR-RLKs) have been found to regulate signaling during plant defense processes. In this study, we selected and sequenced an LRR-RLK gene, designated as Oryza rufipogon receptor-like protein kinase 1 (OrufRPK1), located within yield QTL yld1.1 from the wild rice Oryza rufipogon (accession IRGC105491). A 2055 bp coding region and two exons were identified. Southern blotting determined OrufRPK1 to be a single copy gene. Sequence comparison with cultivated rice orthologs (OsI219RPK1, OsI9311RPK1 and OsJNipponRPK1, respectively derived from O. sativa ssp. indica cv. MR219, O. sativa ssp. indica cv. 9311 and O. sativa ssp. japonica cv. Nipponbare) revealed the presence of 12 single nucleotide polymorphisms (SNPs) with five non-synonymous substitutions, and 23 insertion/deletion sites. The biological role of the OrufRPK1 as a defense related LRR-RLK is proposed on the basis of cDNA sequence characterization, domain subfamily classification, structural prediction of extra cellular domains, cluster analysis and comparative gene expression. [ABSTRACT FROM AUTHOR]

Published

2012