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Items: 13

1.

mSphere of Influence: the Power of Yeast Genetics Still Going Strong!

Santiago-Tirado FH.

mSphere. 2019 Oct 2;4(5). pii: e00647-19. doi: 10.1128/mSphere.00647-19.

2.

An In Vitro Brain Endothelial Model for Studies of Cryptococcal Transmigration into the Central Nervous System.

Santiago-Tirado FH, Klein RS, Doering TL.

Curr Protoc Microbiol. 2019 Jun;53(1):e78. doi: 10.1002/cpmc.78. Epub 2019 Feb 18.

PMID:
30776307
3.

False friends: Phagocytes as Trojan horses in microbial brain infections.

Santiago-Tirado FH, Doering TL.

PLoS Pathog. 2017 Dec 14;13(12):e1006680. doi: 10.1371/journal.ppat.1006680. eCollection 2017 Dec. Review. No abstract available.

4.

Trojan Horse Transit Contributes to Blood-Brain Barrier Crossing of a Eukaryotic Pathogen.

Santiago-Tirado FH, Onken MD, Cooper JA, Klein RS, Doering TL.

mBio. 2017 Jan 31;8(1). pii: e02183-16. doi: 10.1128/mBio.02183-16.

5.

Computational Analysis Reveals a Key Regulator of Cryptococcal Virulence and Determinant of Host Response.

Gish SR, Maier EJ, Haynes BC, Santiago-Tirado FH, Srikanta DL, Ma CZ, Li LX, Williams M, Crouch EC, Khader SA, Brent MR, Doering TL.

mBio. 2016 Apr 19;7(2):e00313-16. doi: 10.1128/mBio.00313-16.

6.

All about that fat: Lipid modification of proteins in Cryptococcus neoformans.

Santiago-Tirado FH, Doering TL.

J Microbiol. 2016 Mar;54(3):212-22. doi: 10.1007/s12275-016-5626-6. Epub 2016 Feb 27. Review.

7.

A Single Protein S-acyl Transferase Acts through Diverse Substrates to Determine Cryptococcal Morphology, Stress Tolerance, and Pathogenic Outcome.

Santiago-Tirado FH, Peng T, Yang M, Hang HC, Doering TL.

PLoS Pathog. 2015 May 13;11(5):e1004908. doi: 10.1371/journal.ppat.1004908. eCollection 2015 May.

8.

Pbx proteins in Cryptococcus neoformans cell wall remodeling and capsule assembly.

Kumar P, Heiss C, Santiago-Tirado FH, Black I, Azadi P, Doering TL.

Eukaryot Cell. 2014 May;13(5):560-71. doi: 10.1128/EC.00290-13. Epub 2014 Feb 28.

9.

Cryptococcus neoformans: historical curiosity to modern pathogen.

Srikanta D, Santiago-Tirado FH, Doering TL.

Yeast. 2014 Feb;31(2):47-60. doi: 10.1002/yea.2997. Epub 2014 Jan 19. Review.

10.

Yeast formin Bni1p has multiple localization regions that function in polarized growth and spindle orientation.

Liu W, Santiago-Tirado FH, Bretscher A.

Mol Biol Cell. 2012 Feb;23(3):412-22. doi: 10.1091/mbc.E11-07-0631. Epub 2011 Dec 7.

11.

Membrane-trafficking sorting hubs: cooperation between PI4P and small GTPases at the trans-Golgi network.

Santiago-Tirado FH, Bretscher A.

Trends Cell Biol. 2011 Sep;21(9):515-25. doi: 10.1016/j.tcb.2011.05.005. Epub 2011 Jul 19. Review.

12.

PI4P and Rab inputs collaborate in myosin-V-dependent transport of secretory compartments in yeast.

Santiago-Tirado FH, Legesse-Miller A, Schott D, Bretscher A.

Dev Cell. 2011 Jan 18;20(1):47-59. doi: 10.1016/j.devcel.2010.11.006.

13.

Regulated phosphorylation of budding yeast's essential myosin V heavy chain, Myo2p.

Legesse-Miller A, Zhang S, Santiago-Tirado FH, Van Pelt CK, Bretscher A.

Mol Biol Cell. 2006 Apr;17(4):1812-21. Epub 2006 Feb 8.

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