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  • Duncan W. Wilson, Ph.D.

Duncan W. Wilson, Ph.D.

Duncan W. Wilson

Professor, Department of Developmental & Molecular Biology

Professor, Dominick P. Purpura Department of Neuroscience

Area of Research: Cell biology of neurotropic viruses. Mechanisms of assembly and motor-driven traffic of viruses in neurons and axons. Super-resolution imaging and correlative light and electron microscopy of viruses in fractionated neurons.

Contact Information

718.430.2305duncan.wilson@einsteinmed.org

Albert Einstein College of Medicine
Jack and Pearl Resnick Campus
1300 Morris Park Avenue
Chanin Building, Room 512A
Bronx, NY 10461

Research ProfilesPubMed Portal

More Resources: Department of Developmental Molecular BiologyGo to my LinkedIn page for details about our lab and links to recent publications!Summary of our areas of interest

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Professional Interests

We are interested in the neurotropic herpesviruses, and the mechanisms of viral assembly and motor-driven traffic in neurons and their axons.

 

Selected Recent Publications

 

1.    Barnes J. and Wilson D.W. (2019). Seeking closure: How do herpes viruses recruit the cellular ESCRT apparatus? Journal of Virology 93:e00392-19. https://doi.org/10.1128/JVI.00392-19

 

2.    Diwaker D. and Wilson D.W. (2019). Microtubule-dependent trafficking of alphaherpesviruses in the nervous system: the ins and outs. Viruses 11, 1165.  https://doi.org/10.3390/v11121165

 

3.    Barnes J. and Wilson D.W. (2020). The ESCRT-II subunit Vps25 and the Bro1 domain proteins HD-PTP and BROX are individually dispensable for HSV-1 replication. Journal of Virology94:e01641-19. https://doi.org/10.1128/JVI.01641-19

 

4.    Diwaker D., Murray J., Barnes J., Wolkoff A. and Wilson D.W. (2020). Deletion of the Pseudorabies Virus gE/gI-US9p complex disrupts kinesin KIF1A and KIF5C recruitment during egress, and alters the properties of microtubule-dependent transport in vitro. PLOS Pathogens.  https://doi.org/10.1371/journal.ppat.1008597

 

5.    Ahmad I. and Wilson D.W. (2020). Cytoplasmic envelopment and trafficking of HSV-1. International Journal of Molecular Sciences. 21(17), 5969: https://doi.org/10.3390/ijms21175969

 

 

 

Selected Publications

 A few recent publications

 

1.     Kharkwal H., Shanda Furgiuele S., Smith C.G. and Wilson D.W. (2015). Herpes simplex virus capsid-organelle association in the absence of the large tegument protein UL36p.  J. Virology 89, 11372-11382

 

2.     Kharkwal H., Smith C.G. and Wilson D.W. (2016). Herpes simplex virus capsid localization to ESCRT-VPS4 complexes in the presence and absence of the large tegument protein UL36p. J. Virology 90, 7257-7267

 

3.     Smith C.G., Kharkwal H. and Wilson D.W. (2017). Expression and subcellular localization of the KSHV K15P protein during latency and lytic reactivation in primary effusion lymphoma cells. J. Virology 91, e01370-17

 

4.     Barnes J. and Wilson D.W. (2020). The ESCRT-II subunit Vps25 and the Bro1 domain proteins HD-PTP and BROX are individually dispensable for HSV-1 replication. J. Virology 94, (4) e01641-19

 

5.     Diwaker D., Murray J., Barnes J., Wolkoff A. and Wilson D.W. (2020). Deletion of the Pseudorabies Virus gE/gI-US9p complex disrupts kinesin KIF1A and KIF5C recruitment during egress, and alters the properties of microtubule-dependent transport in vitro. PLOS Pathogens  https://doi.org/10.1371/journal.ppat.1008597

 

 

Reviews 

a.     Barnes J. and Wilson D.W. (2019). Seeking closure: How do herpes viruses recruit the cellular ESCRT apparatus? J. Virology 93:e00392-19. 

b.     Diwaker D. and Wilson D.W. (2019). Microtubule-dependent trafficking of alphaherpesviruses in the nervous system: the ins and outs. Viruses 11, 1165;  https://doi.org/10.3390/v11121165

c.     Ahmad I. and Wilson D.W. (2020). Cytoplasmic envelopment and trafficking of HSV-1. International Journal of Molecular Sciences. 21, 5969; https://doi.org/10.3390/ijms21175969

d.     Wilson D.W. (2021). Motor Skills: Kinesin and dynein recruitment by neurotropic herpesviruses. Viruses. Invited review in preparation.

 

 

 

 

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718.430.2000
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