Project description:In the last decade, Candida krusei has caused multiple outbreaks of candidemia in Neonatal Intensive Care Units (NICUs) in low-and middle-income countries such as Brazil, India, and South Africa. In India, C. krusei ranks as the sixth cause of candidemia in adult ICUs. Additionally, sporadic outbreaks of nosocomial candidemia in the NICUs are widely reported from India. However, the genetic population of C. krusei causing outbreaks remain largely unknown. In the present study, we used whole genome sequencing to examine the genetic structure of C. krusei population causing candidemia spanning a period of five years (2015-20) in a single NICU in Delhi, India. Further, to evaluate the mechanisms of azole antifungal resistance in C. krusei, we compare the transcriptomic profiles of fluconazole susceptible (FLU-S) and resistant (FLU-R) isolates. Transcriptomic assay was performed in logarithmically growing C. krusei clinical isolates 123/P/19 and 1390/P/18 strains. STAR aligner v.2.5.2b was used to sequence the trimmed reads with the specified reference genome of P. kudriavzevii to determine the unique gene hit counts. A total of 178 genes were differentially expressed by at least 1.5-fold in 1390/P/18 as compared to 123/P/19 isolate. Principal component analysis (PCA) of normalized read counts also depicted almost similar transcriptomic profile between the two C. krusei strains with 53 % variance at principal component 1. Out of 178 differentially expressed genes, 72 were up-regulated and 106 were down-regulated in 1390/P/18 strain compared to 123/P/19 strain. Functionally, genes associated with transport (n=10), mitogen activated protein kinase signaling (MAPK; n=8), transcription factors (TF; n=6) and ergosterol biosynthesis (n=3) were expressed differentially.
Project description:To better prepare for future viral outbreaks, scalable and adaptable platforms to study emerging infections are essential. Understanding virus–host interactions, particularly the mechanisms of cell entry, is critical for developing effective therapeutics and vaccines. Current approaches often rely on live virus assays requiring high-containment facilities, limiting speed, scalability, and accessibility. As a proof-of-principle, we developed a novel screening platform—Ceudovitox—using pseudotyped viruses (PVs) bearing the chikungunya virus (CHIKV) envelope protein. These PVs were engineered to express herpes simplex virus-1 thymidine kinase, enabling selective killing of infected cells with ganciclovir. A heterogeneous CRISPR-Cas9 knockout cell pool was then screened using this "killer" PV system, allowing identification of CHIKV entry factors via next-generation sequencing.
Project description:The Kashmiri population is an ethno-linguistic group that resides in the Kashmir Valley in northern India. A longstanding hypothesis is that this population derives ancestry from Jewish and/or Greek sources. There is historical and archaeological evidence of ancient Greek presence in India and Kashmir. Further, some historical accounts suggest ancient Hebrew ancestry as well. To date, it has not been determined whether signatures of Greek or Jewish admixture can be detected in the Kashmiri population. Using genome-wide genotyping and admixture detection methods, we determined there are no significant or substantial signs of Greek or Jewish admixture in modern-day Kashmiris. The ancestry of Kashmiri Tibetans was also determined, which showed signs of admixture with populations from northern India and west Eurasia. These results contribute to our understanding of the existing population structure in northern India and its surrounding geographical areas.
Project description:In this study, we aim to identify common host genes involved in pathogenesis of different Chikungunya virus strains as an attempt to recognize probable antiviral targets. We have compared the host gene regulation after infection of monkey kidney cell line (Vero) with two different wild type CHIKV strains i.e. S 27 (human, ECSA), and DRDE-06 (human, ECSA). Vero cells were mock infected or infected with two Chikungunya virus strains (S 27 and DRDE-06) and harvested at 8hpi and 18hpi. The total RNA was extracted and microarray was done using Agilent protocol.
Project description:A number of inhibitors of chemokine CCL2 and its receptor CCR2 are in development and may find application for treating a range of inflammatory conditions, including autoimmune and viral arthritides. Herein we sought to determine the effect of CCR2 deficiency on arthritis caused by an arthritogenic alphavirus, Chikungunya virus. Chikungunya virus (LR2006-OPY1) was injected subcutaneously into the hind foot of either CCR2 knockout or wild-type control mice (n=4-6). At day 0 and d7 post infection, RNA from the feet was harvested, the RNA was pooled (4-6 feet per time point per mouse strain) and gene expression analysis was performed using Mouse Gene ST arrays (Affymetrix).
Project description:We combined new data with previously published data to characterize admixture patterns of Austroasiatic speaking populations of India in the context of their geographic neighbours across Eurasia
Project description:Chikungunya virus (CHIKV) infection is characterized by alterations in gene expression profile on host cells that consequently lead to an immune response. Here, we used RNA sequencing to analyze the mRNA expression profile in human monocyte-derived macrophages (MDMs) infected with a Colombian clinical isolate of CHIKV at 6 and 24 hpi. analyze the mRNA expression profile in the human monocyte-derived macrophages infected at 6 and 24 hrs with a Colombian clinical isolate of Chikungunya virus.
Project description:In Asia, oral cancer (OC) and oral submucous fibrosis (OSF) constitute major health problems linked to use of betel quid. This work performed CGH genome-wide analysis of OC (12 from India, 12 from Sri Lanka) and OSF (6 from India) cases with normal controls.