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Items: 24

1.

Genome-Wide Transcriptome Analysis of Human Papillomavirus 16-Infected Primary Keratinocytes Reveals Subtle Perturbations Mostly due to E7 Protein Expression.

Bienkowska-Haba M, Luszczek W, Zwolinska K, Scott RS, Sapp M.

J Virol. 2020 Jan 17;94(3). pii: e01360-19. doi: 10.1128/JVI.01360-19. Print 2020 Jan 17.

PMID:
31748387
2.

Detecting episomal or integrated human papillomavirus 16 DNA using an exonuclease V-qPCR-based assay.

Myers JE, Guidry JT, Scott ML, Zwolinska K, Raikhy G, Prasai K, Bienkowska-Haba M, Bodily JM, Sapp MJ, Scott RS.

Virology. 2019 Nov;537:149-156. doi: 10.1016/j.virol.2019.08.021. Epub 2019 Aug 22.

PMID:
31493653
3.

PML nuclear body-residing proteins sequentially associate with HPV genome after infectious nuclear delivery.

Guion L, Bienkowska-Haba M, DiGiuseppe S, Florin L, Sapp M.

PLoS Pathog. 2019 Feb 25;15(2):e1007590. doi: 10.1371/journal.ppat.1007590. eCollection 2019 Feb.

4.

Inhibition of Epstein-Barr Virus Replication in Human Papillomavirus-Immortalized Keratinocytes.

Guidry JT, Myers JE, Bienkowska-Haba M, Songock WK, Ma X, Shi M, Nathan CO, Bodily JM, Sapp MJ, Scott RS.

J Virol. 2019 Jan 4;93(2). pii: e01216-18. doi: 10.1128/JVI.01216-18. Print 2019 Jan 15.

5.

Epstein-Barr virus stably confers an invasive phenotype to epithelial cells through reprogramming of the WNT pathway.

Birdwell CE, Prasai K, Dykes S, Jia Y, Munroe TGC, Bienkowska-Haba M, Scott RS.

Oncotarget. 2018 Jan 2;9(12):10417-10435. doi: 10.18632/oncotarget.23824. eCollection 2018 Feb 13.

6.

A new cell culture model to genetically dissect the complete human papillomavirus life cycle.

Bienkowska-Haba M, Luszczek W, Myers JE, Keiffer TR, DiGiuseppe S, Polk P, Bodily JM, Scott RS, Sapp M.

PLoS Pathog. 2018 Mar 1;14(3):e1006846. doi: 10.1371/journal.ppat.1006846. eCollection 2018 Mar.

7.

Human Papillomavirus Major Capsid Protein L1 Remains Associated with the Incoming Viral Genome throughout the Entry Process.

DiGiuseppe S, Bienkowska-Haba M, Guion LGM, Keiffer TR, Sapp M.

J Virol. 2017 Jul 27;91(16). pii: e00537-17. doi: 10.1128/JVI.00537-17. Print 2017 Aug 15.

8.

Cruising the cellular highways: How human papillomavirus travels from the surface to the nucleus.

DiGiuseppe S, Bienkowska-Haba M, Guion LG, Sapp M.

Virus Res. 2017 Mar 2;231:1-9. doi: 10.1016/j.virusres.2016.10.015. Epub 2016 Oct 29. Review.

9.

Incoming human papillomavirus 16 genome is lost in PML protein-deficient HaCaT keratinocytes.

Bienkowska-Haba M, Luszczek W, Keiffer TR, Guion LGM, DiGiuseppe S, Scott RS, Sapp M.

Cell Microbiol. 2017 May;19(5). doi: 10.1111/cmi.12708. Epub 2017 Jan 23.

10.

Human Papillomavirus Entry: Hiding in a Bubble.

DiGiuseppe S, Bienkowska-Haba M, Sapp M.

J Virol. 2016 Aug 26;90(18):8032-5. doi: 10.1128/JVI.01065-16. Print 2016 Sep 15. Review.

11.

Incoming human papillomavirus type 16 genome resides in a vesicular compartment throughout mitosis.

DiGiuseppe S, Luszczek W, Keiffer TR, Bienkowska-Haba M, Guion LG, Sapp MJ.

Proc Natl Acad Sci U S A. 2016 May 31;113(22):6289-94. doi: 10.1073/pnas.1600638113. Epub 2016 May 17.

12.

Topography of the Human Papillomavirus Minor Capsid Protein L2 during Vesicular Trafficking of Infectious Entry.

DiGiuseppe S, Keiffer TR, Bienkowska-Haba M, Luszczek W, Guion LG, Müller M, Sapp M.

J Virol. 2015 Oct;89(20):10442-52. doi: 10.1128/JVI.01588-15. Epub 2015 Aug 5.

13.

Human papillomavirus species-specific interaction with the basement membrane-resident non-heparan sulfate receptor.

Richards KF, Mukherjee S, Bienkowska-Haba M, Pang J, Sapp M.

Viruses. 2014 Dec 5;6(12):4856-79. doi: 10.3390/v6124856.

14.

The nuclear retention signal of HPV16 L2 protein is essential for incoming viral genome to transverse the trans-Golgi network.

DiGiuseppe S, Bienkowska-Haba M, Hilbig L, Sapp M.

Virology. 2014 Jun;458-459:93-105. doi: 10.1016/j.virol.2014.04.024. Epub 2014 May 8.

15.

Multiple heparan sulfate binding site engagements are required for the infectious entry of human papillomavirus type 16.

Richards KF, Bienkowska-Haba M, Dasgupta J, Chen XS, Sapp M.

J Virol. 2013 Nov;87(21):11426-37. doi: 10.1128/JVI.01721-13. Epub 2013 Aug 21.

16.

Cyclophilins facilitate dissociation of the human papillomavirus type 16 capsid protein L1 from the L2/DNA complex following virus entry.

Bienkowska-Haba M, Williams C, Kim SM, Garcea RL, Sapp M.

J Virol. 2012 Sep;86(18):9875-87. doi: 10.1128/JVI.00980-12. Epub 2012 Jul 3.

17.

The cytoskeleton in papillomavirus infection.

Bienkowska-Haba M, Sapp M.

Viruses. 2011 Mar;3(3):260-71. doi: 10.3390/v3030260. Epub 2011 Mar 10. Review.

18.

Structural basis of oligosaccharide receptor recognition by human papillomavirus.

Dasgupta J, Bienkowska-Haba M, Ortega ME, Patel HD, Bodevin S, Spillmann D, Bishop B, Sapp M, Chen XS.

J Biol Chem. 2011 Jan 28;286(4):2617-24. doi: 10.1074/jbc.M110.160184. Epub 2010 Nov 29.

19.

Viral entry mechanisms: human papillomavirus and a long journey from extracellular matrix to the nucleus.

Sapp M, Bienkowska-Haba M.

FEBS J. 2009 Dec;276(24):7206-16. doi: 10.1111/j.1742-4658.2009.07400.x. Review.

20.

Target cell cyclophilins facilitate human papillomavirus type 16 infection.

Bienkowska-Haba M, Patel HD, Sapp M.

PLoS Pathog. 2009 Jul;5(7):e1000524. doi: 10.1371/journal.ppat.1000524. Epub 2009 Jul 24.

21.

Nitric oxide production by pulmonary leukocytes from induced sputum in patients with asthma and its effect on epithelial cell viability.

Bieńkowska-Haba M, Liebhart J, Cembrzyńska-Nowak M.

Arch Immunol Ther Exp (Warsz). 2006 May-Jun;54(3):201-7. Epub 2006 May 31.

PMID:
16736106
22.

[Nitric oxide produced by pulmonary leukocytes in bronchial asthma].

Bieńkowska-Haba M.

Postepy Hig Med Dosw (Online). 2005;59:584-601. Review. Polish.

23.

The overproduction of nitric oxide associated with neutrophilic predominance is relevant to airway mycotic infections in asthmatics undergoing prolonged glucocorticoid treatment.

Cembrzyńska-Nowak M, Liebhart J, Bieńkowska-Haba M, Liebhart E, Kulczak A, Siemieniec I, Dobek R, Dor A, Barg W, Panaszek B.

Cell Mol Biol Lett. 2005;10(4):677-87.

24.

Comparison of leukocyte populations from bronchoalveolar lavage and induced sputum in the evaluation of cellular composition and nitric oxide production in patients with bronchial asthma.

Bieńkowska-Haba M, Cembrzyńska-Nowak M, Liebhart J, Dobek R, Liebhart E, Siemieniec I, Panaszek B, Obojski A, Małolepszy J.

Arch Immunol Ther Exp (Warsz). 2002;50(1):75-82.

PMID:
11916312

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