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Hi There! I’m Sanket Mukherjee

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About Me

I am Sanket, a graduate student of the Kusuma School of Biological Sciences at the Indian Institute of Technology (IIT) Delhi. I joined the program in 2022 and was awarded the Prime Minister's Research Fellowship (PMRF) under the direct entry scheme. I work on understanding the pathogenesis and evolution of RNA viruses. I completed an M.Tech degree in Biotechnology from IIT Guwahati and my Bachelor's from Heritage Institute of Technology Kolkata. For more information, scroll through the different sections of this website, and you may reach out to learn more.

Research

Virus adaptation to human host is an interesting aspect of virus evolution, especially in the context of emerging pathogens. CpG depletion is a well-known phenomenon in viruses during adaptation. Various reports have linked overrepresented CpG dinucleotides to restriction of viral replication in the host due to host factors like Zinc-finger antiviral protein (ZAP) for RNA viruses , TLR9 responses and deamination of methylated cytosines for DNA viruses.

 

Hepatitis C virus (HCV) is a bloodborne pathogen that can cause chronic liver disease and hepatocellular carcinoma. The loss of CpGs from virus genomes allows escape from restriction by the host zinc-finger antiviral protein (ZAP). The evolution of HCV in the human host has not been explored in the context of CpG depletion. We analysed 2616 full-length HCV genomes from 1977 to 2021. During the four decades of evolution in humans, we found that HCV genomes have become significantly depleted in (a) CpG numbers, (b) CpG O/E ratios (i.e relative abundance of CpGs), and (c) the number of ZAP-binding motifs.

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Interestingly, our data suggests that the loss of ZAP-binding motifs primarily drives the loss of CpGs in HCV genomes over time; thus suggesting a yet unknown role for ZAP-mediated selection pressures in HCV evolution. The HCV core gene is significantly enriched for the number of CpGs and ZAP-binding motifs. In contrast to the rest of the HCV genome, the loss of CpGs from the core gene does not appear to be driven by ZAP-mediated selection. This work highlights CpG depletion in HCV genomes during their evolution in humans and the role of ZAP-mediated selection in HCV evolution.

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Online Teaching Links

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Kusuma School of Biological Sciences, IIT Delhi, Hauz Khas,  New Delhi, Delhi 110016, India

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