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Items: 1 to 20 of 289

1.

Type I interferon protects mice from fatal neurotropic infection with Langat virus by systemic and local antiviral responses.

Weber E, Finsterbusch K, Lindquist R, Nair S, Lienenklaus S, Gekara NO, Janik D, Weiss S, Kalinke U, Överby AK, Kröger A.

J Virol. 2014 Nov;88(21):12202-12. doi: 10.1128/JVI.01215-14. Epub 2014 Aug 13.

2.

Type I Interferon response in olfactory bulb, the site of tick-borne flavivirus accumulation, is primarily regulated by IPS-1.

Kurhade C, Zegenhagen L, Weber E, Nair S, Michaelsen-Preusse K, Spanier J, Gekara NO, Kröger A, Överby AK.

J Neuroinflammation. 2016 Jan 27;13:22. doi: 10.1186/s12974-016-0487-9.

3.

Dual Function of Ccr5 during Langat Virus Encephalitis: Reduction in Neutrophil-Mediated Central Nervous System Inflammation and Increase in T Cell-Mediated Viral Clearance.

Michlmayr D, Bardina SV, Rodriguez CA, Pletnev AG, Lim JK.

J Immunol. 2016 Jun 1;196(11):4622-31. doi: 10.4049/jimmunol.1502452. Epub 2016 Apr 29.

4.

Tick-borne flaviviruses antagonize both IRF-1 and type I IFN signaling to inhibit dendritic cell function.

Robertson SJ, Lubick KJ, Freedman BA, Carmody AB, Best SM.

J Immunol. 2014 Mar 15;192(6):2744-55. doi: 10.4049/jimmunol.1302110. Epub 2014 Feb 14.

5.

Tick-borne flaviviruses: dissecting host immune responses and virus countermeasures.

Robertson SJ, Mitzel DN, Taylor RT, Best SM, Bloom ME.

Immunol Res. 2009;43(1-3):172-86. doi: 10.1007/s12026-008-8065-6.

6.

A tick-borne encephalitis model in infant rats infected with langat virus.

Maffioli C, Grandgirard D, Engler O, Leib SL.

J Neuropathol Exp Neurol. 2014 Dec;73(12):1107-15. doi: 10.1097/NEN.0000000000000131.

PMID:
25383637
7.

Tick-borne encephalitis virus and the immune response of the mammalian host.

Dörrbecker B, Dobler G, Spiegel M, Hufert FT.

Travel Med Infect Dis. 2010 Jul;8(4):213-22. doi: 10.1016/j.tmaid.2010.05.010. Epub 2010 Jun 25. Review.

PMID:
20970724
8.

Tick-borne encephalitis virus delays interferon induction and hides its double-stranded RNA in intracellular membrane vesicles.

Overby AK, Popov VL, Niedrig M, Weber F.

J Virol. 2010 Sep;84(17):8470-83. doi: 10.1128/JVI.00176-10. Epub 2010 Jun 16.

9.

MicroRNA-based control of tick-borne flavivirus neuropathogenesis: Challenges and perspectives.

Teterina NL, Maximova OA, Kenney H, Liu G, Pletnev AG.

Antiviral Res. 2016 Mar;127:57-67. doi: 10.1016/j.antiviral.2016.01.003. Epub 2016 Jan 19.

10.

Tick-borne encephalitis.

Gritsun TS, Lashkevich VA, Gould EA.

Antiviral Res. 2003 Jan;57(1-2):129-46. Review.

PMID:
12615309
11.
12.

Fast type I interferon response protects astrocytes from flavivirus infection and virus-induced cytopathic effects.

Lindqvist R, Mundt F, Gilthorpe JD, Wölfel S, Gekara NO, Kröger A, Överby AK.

J Neuroinflammation. 2016 Oct 24;13(1):277.

13.

Inhibition of interferon-stimulated JAK-STAT signaling by a tick-borne flavivirus and identification of NS5 as an interferon antagonist.

Best SM, Morris KL, Shannon JG, Robertson SJ, Mitzel DN, Park GS, Boer E, Wolfinbarger JB, Bloom ME.

J Virol. 2005 Oct;79(20):12828-39.

14.

The stress granule component TIA-1 binds tick-borne encephalitis virus RNA and is recruited to perinuclear sites of viral replication to inhibit viral translation.

Albornoz A, Carletti T, Corazza G, Marcello A.

J Virol. 2014 Jun;88(12):6611-22. doi: 10.1128/JVI.03736-13. Epub 2014 Apr 2.

15.

Tick-borne encephalitis virus induces chemokine RANTES expression via activation of IRF-3 pathway.

Zhang X, Zheng Z, Liu X, Shu B, Mao P, Bai B, Hu Q, Luo M, Ma X, Cui Z, Wang H.

J Neuroinflammation. 2016 Aug 30;13(1):209. doi: 10.1186/s12974-016-0665-9.

16.

A critical determinant of neurological disease associated with highly pathogenic tick-borne flavivirus in mice.

Yoshii K, Sunden Y, Yokozawa K, Igarashi M, Kariwa H, Holbrook MR, Takashima I.

J Virol. 2014 May;88(10):5406-20. doi: 10.1128/JVI.00421-14. Epub 2014 Feb 26.

17.

Exploring of primate models of tick-borne flaviviruses infection for evaluation of vaccines and drugs efficacy.

Pripuzova NS, Gmyl LV, Romanova LIu, Tereshkina NV, Rogova YV, Terekhina LL, Kozlovskaya LI, Vorovitch MF, Grishina KG, Timofeev AV, Karganova GG.

PLoS One. 2013 Apr 9;8(4):e61094. doi: 10.1371/journal.pone.0061094. Print 2013.

18.

Toll-like receptor 7 suppresses virus replication in neurons but does not affect viral pathogenesis in a mouse model of Langat virus infection.

Baker DG, Woods TA, Butchi NB, Morgan TM, Taylor RT, Sunyakumthorn P, Mukherjee P, Lubick KJ, Best SM, Peterson KE.

J Gen Virol. 2013 Feb;94(Pt 2):336-47. doi: 10.1099/vir.0.043984-0. Epub 2012 Nov 7.

19.

Interferon signaling in Peromyscus leucopus confers a potent and specific restriction to vector-borne flaviviruses.

Izuogu AO, McNally KL, Harris SE, Youseff BH, Presloid JB, Burlak C, Munshi-South J, Best SM, Taylor RT.

PLoS One. 2017 Jun 26;12(6):e0179781. doi: 10.1371/journal.pone.0179781. eCollection 2017.

20.

Confirmed exposure to tick-borne encephalitis virus and probable human cases of tick-borne encephalitis in Central/Northern Anatolia, Turkey.

Ergünay K, Saygan MB, Aydoğan S, Litzba N, Sener B, Lederer S, Niedrig M, Hasçelik G, Us D.

Zoonoses Public Health. 2011 May;58(3):220-7. doi: 10.1111/j.1863-2378.2010.01342.x.

PMID:
20604912

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