Lumpy skin disease virus strategically modulates autophagy to facilitate viral replication in MDBK cells.

Lumpy Skin Disease Virus (LSDV), a Capripoxvirus of significant veterinary and economic importance, has been reported to manipulate host cellular processes, including autophagy, to enhance its replication and persistence. However, the precise mechanisms by which LSDV interacts with autophagy remain unclear. This study investigates the effect of LSDV infection on host autophagic pathways in MDBK cells, focusing on autophagic flux modulation and its implications for viral replication.

Selection and validation of suitable reference gene for qPCR gene expression analysis in lamb testis cells under Sheep pox virus infection.

Virus infection alters host gene expression, therefore ideal and stable reference housekeeping genes are required to normalise the expression of other expressed host genes in quantitative real-time PCR (qRT-PCR). The suitable reference gene may vary in response to different viral infections in different hosts or cells. In the present study, we cultured primary lamb testis cells (LTC) and assessed the expression stability of seven widely used housekeeping genes (B2M, HMBS, HPRT1, HSP-90, POLR2A, 18s_RNA, GAPDH) as reference genes in Sheeppox virus (SPPV) infected and control (uninfected-0h) LTC at 0.

Development of a process for upscaling and production of thermotolerant Peste-des-petits ruminants vaccine.

Vaccination is the most effective means of preventing Peste-des-petits-ruminants (PPR), an important disease of small ruminant population. The thermolabile nature of PPR vaccine poses a major constraint in shipping, storage and its successful application. In view of limited thermotolerance of PPR virus and ongoing global PPR control and eradication program, development of a thermotolerant PPR vaccine was tried using a novel lyophilization protocol and improved thermostabilization.

Construction of infectious cDNA clone derived from a classical swine fever virus field isolate in BAC vector using in vitro overlap extension PCR and recombination.

To develop reverse genetics system of RNA viruses, cloning of full-length viral genome is required which is often challenging due to many steps involved. In this study, we report cloning of full-length cDNA from an Indian field isolate (CSFV/IVRI/VB-131) of classical swine fever virus (CSFV) using in vitro overlap extension PCR and recombination which drastically reduced the number of cloning steps. The genome of CSFV was amplified in six overlapping cDNA fragments, linked by overlap extension PCR and cloned in a bacterial artificial chromosome (BAC) vector using in vitro recombination method to generate full-length cDNA clone.

Molecular characterization of lapinized classical Swine Fever vaccine strain by full-length genome sequencing and analysis.

The complete genome of a lapinized classical swine fever virus (CSFV) vaccine strain was amplified into nine overlapping fragments by RT-PCR, and nucleotide sequences were determined. Complete genome sequence alignment and phylogenetic analysis indicated 92.6-98.

Induction of immune responses and protection in mice against rabies using a self-replicating RNA vaccine encoding rabies virus glycoprotein.

A self-replicating RNA vaccine encoding rabies virus glycoprotein gene was developed utilizing sindbis virus RNA replicon. The in vitro transcribed RNA (Sin-Rab-G RNA) was transfected in mammalian cells and analysed for self-replication and expression of rabies glycoprotein. To generate immune responses against rabies, mice were immunized with 10microg of Sin-Rab-G RNA and immune responses developed were compared with mice immunized with rabies DNA vaccine and commercial cell culture vaccine (Rabipur).

A sindbis virus replicon-based DNA vaccine encoding the rabies virus glycoprotein elicits immune responses and complete protection in mice from lethal challenge.

A sindbis virus replicon-based DNA vaccine encoding rabies virus glycoprotein (G) was developed by subcloning rabies G gene into a sindbis virus replicon-based vaccine vector (pAlpha). The self-amplification of RNA transcripts and translation efficiency of rabies G was analyzed in pAlpha-Rab-G-transfected mammalian cells using RT-PCR, SDS-PAGE and Western blot analysis. The transfected cells also showed induction of apoptosis which is an important event in the enhancement of immune responses.