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Items: 1 to 20 of 93

1.

Ccr4 promotes resolution of the endoplasmic reticulum stress response during host temperature adaptation in Cryptococcus neoformans.

Havel VE, Wool NK, Ayad D, Downey KM, Wilson CF, Larsen P, Djordjevic JT, Panepinto JC.

Eukaryot Cell. 2011 Jul;10(7):895-901. doi: 10.1128/EC.00006-11. Epub 2011 May 20.

2.

The ER stress response and host temperature adaptation in the human fungal pathogen Cryptococcus neoformans.

Glazier VE, Panepinto JC.

Virulence. 2014 Feb 15;5(2):351-6. doi: 10.4161/viru.27187. Epub 2013 Nov 19. Review.

3.

Puf4 regulates both splicing and decay of HXL1 mRNA encoding the unfolded protein response transcription factor in Cryptococcus neoformans.

Glazier VE, Kaur JN, Brown NT, Rivera AA, Panepinto JC.

Eukaryot Cell. 2015 Apr;14(4):385-95. doi: 10.1128/EC.00273-14. Epub 2015 Feb 13.

4.

Uncoupling of mRNA synthesis and degradation impairs adaptation to host temperature in Cryptococcus neoformans.

Bloom AL, Solomons JT, Havel VE, Panepinto JC.

Mol Microbiol. 2013 Jul;89(1):65-83. doi: 10.1111/mmi.12258. Epub 2013 Jun 3.

5.

Essential roles of the Kar2/BiP molecular chaperone downstream of the UPR pathway in Cryptococcus neoformans.

Jung KW, Kang HA, Bahn YS.

PLoS One. 2013;8(3):e58956. doi: 10.1371/journal.pone.0058956. Epub 2013 Mar 6.

6.

The unfolded protein response (UPR) pathway in Cryptococcus.

Cheon SA, Jung KW, Bahn YS, Kang HA.

Virulence. 2014 Feb 15;5(2):341-50. doi: 10.4161/viru.26774. Epub 2013 Oct 18. Review.

7.

The Cryptococcus neoformans Rim101 transcription factor directly regulates genes required for adaptation to the host.

O'Meara TR, Xu W, Selvig KM, O'Meara MJ, Mitchell AP, Alspaugh JA.

Mol Cell Biol. 2014 Feb;34(4):673-84. doi: 10.1128/MCB.01359-13. Epub 2013 Dec 9.

8.

RNA biology and the adaptation of Cryptococcus neoformans to host temperature and stress.

Bloom AL, Panepinto JC.

Wiley Interdiscip Rev RNA. 2014 May-Jun;5(3):393-406. doi: 10.1002/wrna.1219. Epub 2014 Feb 4. Review.

9.

Cryptococcus neoformans histone acetyltransferase Gcn5 regulates fungal adaptation to the host.

O'Meara TR, Hay C, Price MS, Giles S, Alspaugh JA.

Eukaryot Cell. 2010 Aug;9(8):1193-202. doi: 10.1128/EC.00098-10. Epub 2010 Jun 25.

10.

Unique evolution of the UPR pathway with a novel bZIP transcription factor, Hxl1, for controlling pathogenicity of Cryptococcus neoformans.

Cheon SA, Jung KW, Chen YL, Heitman J, Bahn YS, Kang HA.

PLoS Pathog. 2011 Aug;7(8):e1002177. doi: 10.1371/journal.ppat.1002177. Epub 2011 Aug 11.

11.

Unique roles of the unfolded protein response pathway in fungal development and differentiation.

Jung KW, So YS, Bahn YS.

Sci Rep. 2016 Sep 15;6:33413. doi: 10.1038/srep33413.

12.

Elucidation of the calcineurin-Crz1 stress response transcriptional network in the human fungal pathogen Cryptococcus neoformans.

Chow EW, Clancey SA, Billmyre RB, Averette AF, Granek JA, Mieczkowski P, Cardenas ME, Heitman J.

PLoS Genet. 2017 Apr 4;13(4):e1006667. doi: 10.1371/journal.pgen.1006667. eCollection 2017 Apr.

13.

Calcineurin colocalizes with P-bodies and stress granules during thermal stress in Cryptococcus neoformans.

Kozubowski L, Aboobakar EF, Cardenas ME, Heitman J.

Eukaryot Cell. 2011 Nov;10(11):1396-402. doi: 10.1128/EC.05087-11. Epub 2011 Jul 1.

14.

Identification of Cryptococcus neoformans temperature-regulated genes with a genomic-DNA microarray.

Kraus PR, Boily MJ, Giles SS, Stajich JE, Allen A, Cox GM, Dietrich FS, Perfect JR, Heitman J.

Eukaryot Cell. 2004 Oct;3(5):1249-60.

15.

Eca1, a sarcoplasmic/endoplasmic reticulum Ca2+-ATPase, is involved in stress tolerance and virulence in Cryptococcus neoformans.

Fan W, Idnurm A, Breger J, Mylonakis E, Heitman J.

Infect Immun. 2007 Jul;75(7):3394-405. Epub 2007 May 14.

16.

HapX positively and negatively regulates the transcriptional response to iron deprivation in Cryptococcus neoformans.

Jung WH, Saikia S, Hu G, Wang J, Fung CK, D'Souza C, White R, Kronstad JW.

PLoS Pathog. 2010 Nov 24;6(11):e1001209. doi: 10.1371/journal.ppat.1001209.

17.

Unfolded protein response is required for Aspergillus oryzae growth under conditions inducing secretory hydrolytic enzyme production.

Tanaka M, Shintani T, Gomi K.

Fungal Genet Biol. 2015 Dec;85:1-6. doi: 10.1016/j.fgb.2015.10.003. Epub 2015 Oct 21.

PMID:
26496881
18.

Toward an integrated model of capsule regulation in Cryptococcus neoformans.

Haynes BC, Skowyra ML, Spencer SJ, Gish SR, Williams M, Held EP, Brent MR, Doering TL.

PLoS Pathog. 2011 Dec;7(12):e1002411. doi: 10.1371/journal.ppat.1002411. Epub 2011 Dec 8.

19.

HacA-independent functions of the ER stress sensor IreA synergize with the canonical UPR to influence virulence traits in Aspergillus fumigatus.

Feng X, Krishnan K, Richie DL, Aimanianda V, Hartl L, Grahl N, Powers-Fletcher MV, Zhang M, Fuller KK, Nierman WC, Lu LJ, Latgé JP, Woollett L, Newman SL, Cramer RA Jr, Rhodes JC, Askew DS.

PLoS Pathog. 2011 Oct;7(10):e1002330. doi: 10.1371/journal.ppat.1002330. Epub 2011 Oct 20.

20.

Interaction of Cryptococcus neoformans Rim101 and protein kinase A regulates capsule.

O'Meara TR, Norton D, Price MS, Hay C, Clements MF, Nichols CB, Alspaugh JA.

PLoS Pathog. 2010 Feb 19;6(2):e1000776. doi: 10.1371/journal.ppat.1000776.

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