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Items: 1 to 20 of 48

1.

Epstein-Barr virus immortalization of human B-cells leads to stabilization of hypoxia-induced factor 1 alpha, congruent with the Warburg effect.

Darekar S, Georgiou K, Yurchenko M, Yenamandra SP, Chachami G, Simos G, Klein G, Kashuba E.

PLoS One. 2012;7(7):e42072. doi: 10.1371/journal.pone.0042072. Epub 2012 Jul 27.

2.

Direct and indirect regulation of cytokine and cell cycle proteins by EBNA-2 during Epstein-Barr virus infection.

Spender LC, Cornish GH, Rowland B, Kempkes B, Farrell PJ.

J Virol. 2001 Apr;75(8):3537-46.

3.
4.

c-Myc and Rel/NF-kappaB are the two master transcriptional systems activated in the latency III program of Epstein-Barr virus-immortalized B cells.

Faumont N, Durand-Panteix S, Schlee M, Grömminger S, Schuhmacher M, Hölzel M, Laux G, Mailhammer R, Rosenwald A, Staudt LM, Bornkamm GW, Feuillard J.

J Virol. 2009 May;83(10):5014-27. doi: 10.1128/JVI.02264-08. Epub 2009 Mar 4.

6.

Epstein-Barr virus-encoded EBNA-5 binds to Epstein-Barr virus-induced Fte1/S3a protein.

Kashuba E, Yurchenko M, Szirak K, Stahl J, Klein G, Szekely L.

Exp Cell Res. 2005 Feb 1;303(1):47-55.

PMID:
15572026
8.

Latent membrane protein 1 of Epstein-Barr virus plays an important role in the serum starvation resistance of Epstein-Barr virus-immortalized B lymphocytes.

Park CH, Kim HR, Kim J, Jang SH, Lee KY, Chung GH, Jang YS.

J Cell Biochem. 2004 Mar 1;91(4):777-85.

PMID:
14991769
9.

Immortalizing genes of Epstein-Barr virus.

Middleton T, Gahn TA, Martin JM, Sugden B.

Adv Virus Res. 1991;40:19-55. Review.

PMID:
1659776
10.

Interleukin 15-mediated induction of cytotoxic effector cells capable of eliminating Epstein-Barr virus-transformed/immortalized lymphocytes in culture.

Sharif-Askari E, Fawaz LM, Tran P, Ahmad A, Menezes J.

J Natl Cancer Inst. 2001 Nov 21;93(22):1724-32.

PMID:
11717333
11.

C-terminal region of EBNA-2 determines the superior transforming ability of type 1 Epstein-Barr virus by enhanced gene regulation of LMP-1 and CXCR7.

Cancian L, Bosshard R, Lucchesi W, Karstegl CE, Farrell PJ.

PLoS Pathog. 2011 Jul;7(7):e1002164. doi: 10.1371/journal.ppat.1002164. Epub 2011 Jul 28.

12.
13.

Nuclear receptors and their role in Epstein -- Barr virus induced B cell transformation.

Yenamandra SP, Klein G, Kashuba E.

Exp Oncol. 2009 Jun;31(2):67-73. Review.

PMID:
19550394
14.

Regulation and dysregulation of Epstein-Barr virus latency: implications for the development of autoimmune diseases.

Niller HH, Wolf H, Minarovits J.

Autoimmunity. 2008 May;41(4):298-328. doi: 10.1080/08916930802024772. Review.

PMID:
18432410
15.
16.

Differential gene expression patterns of EBV infected EBNA-3A positive and negative human B lymphocytes.

Hertle ML, Popp C, Petermann S, Maier S, Kremmer E, Lang R, Mages J, Kempkes B.

PLoS Pathog. 2009 Jul;5(7):e1000506. doi: 10.1371/journal.ppat.1000506. Epub 2009 Jul 3.

17.

Expression profile of nuclear receptors upon Epstein -- Barr virus induced B cell transformation.

Yenamandra SP, Lundin A, Arulampalam V, Yurchenko M, Pettersson S, Klein G, Kashuba E.

Exp Oncol. 2009 Jun;31(2):92-6.

PMID:
19550398
18.

Epstein-Barr Virus EBNA-2 gene expression enhances lymphotoxin production by B lymphocytes.

McClain K, Estrov Z, Raju U, Kelley PK, Aggarwal BB.

Methods. 1997 Jan;11(1):83-7.

PMID:
8990093
19.

Identification of tumor necrosis factor signaling-related proteins during Epstein-Barr virus-induced B cell transformation.

Jeon JP, Kim JW, Park B, Nam HY, Shim SM, Lee MH, Han BG.

Acta Virol. 2008;52(3):151-9.

PMID:
18999889
20.

[Studies on transforming functions of Epstein-Barr virus-specific proteins].

Kinoshita T.

Hokkaido Igaku Zasshi. 1990 Jul;65(4):362-75. Japanese.

PMID:
2172130

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