Biomedical Engineering Reference
In-Depth Information
Harry, J.B., J.L. Song, C.N. Lyons and T.C. White. 2002. Transcription initiation
of genes associated with azole resistance in Candida albicans.
Med. Mycol
.
40:
73-81.
Hida, N., M. Awais, M. Takeuchi, N. Ueno, M. Tashiro, C. Takagi, T. Singh, M.
Hayashi, Y. Ohmiya and T. Ozawa. 2009. High-sensitivity real-time imaging
of dual protein-protein interactions in living subjects using multicolor
luciferases.
PLoS. One
.
4:
e5868.
Hube, B. 2004. From commensal to pathogen: Stage- and tissue-specifi c gene
expression of Candida albicans.
Curr. Opin. Microbiol
.
7:
336-341.
Hutchens, M. and G.D. Luker. 2007. Applications of bioluminescence imaging to
the study of infectious diseases.
Cell. Microbiol
.
9:
2315-2322.
Justice, S.S., D.A. Hunstad, L. Cegelski and S.J. Hultgren. 2008. Morphological
plasticity as a bacterial survival strategy.
Nat. Rev. Microbiol
.
6:
162-168.
Kadurugamuwa, J.L., K. Modi, O. Coquoz, B. Rice, S. Smith, P.R. Contag and T.
Purchio. 2005. Reduction of astrogliosis by early treatment of pneumococcal
meningitis measured by simultaneous imaging,
in vivo
, of the pathogen and
host response.
Infect. Immun
.
73:
7836-7843.
Kain, S.R. and S. Ganguly. 2001. Overview of genetic reporter systems.
Curr.
Protoc. Mol. Biol
. Chapter 9: Unit 9.
Lamb, D.C., D.E. Kelly, W.H. Schunck, A.Z. Shyadehi, M. Akhtar, D.J. Lowe,
B.C. Baldwin and S.L. Kelly. 1997. The mutation T315A in
Candida albicans
sterol 14alpha- demethylase causes reduced enzyme activity and fl uconazole
resistance through reduced affi nity.
J. Biol. Chem
.
272:
5682-5688.
Leuker, C.E. and J.F. Ernst. 1994. Toxicity of a heterologous leucyl-tRNA
(anticodon CAG) in the pathogen
Candida albicans
:
in vivo
evidence for non-
standard decoding of CUG codons.
Mol. Gen. Genet
.
245:
212-217.
Lorenz, M.C., J.A. Bender and G.R. Fink. 2004. Transcriptional response of
Candida
albicans
upon internalization by macrophages.
Eukaryot. Cell
.
3:
1076-1087.
Luker, K.E. and G.D. Luker. 2008. Applications of bioluminescence imaging to
antiviral research and therapy: Multiple luciferase enzymes and quantitation.
Antiviral Res
.
78:
179-187.
Maeda, Y., H. Ueda, T. Hara, J. Kazami, G. Kawano, E. Suzuki and T. Nagamune.
1996. Expression of a bifunctional chimeric protein A-Vargula hilgendorfi i
luciferase in mammalian cells.
Biotechniques
.
20:
116-121.
McMurry, L. and J.W. Hastings. 1972. Circadian rhythms: mechanism of luciferase
activity changes in Gonyaulax.
Biol. Bull
.
143:
196-206.
Miyazato, A., K. Nakamura, N. Yamamoto, H.M. Mora-Montes, M. Tanaka, Y. Abe,
D. Tanno, K. Inden, X. Gang, K. Ishii, K. Takeda, S. Akira, S. Saijo, Y. Iwakura,
Y. Adachi, N. Ohno, K. Mitsutake, N.A. Gow, M. Kaku and K. Kawakami.
2009. Toll-like receptor 9-dependent activation of myeloid dendritic
cells by Deoxynucleic acids from Candida albicans.
Infect. Immun
.
77:
3056-
3064.
Moreno-Ruiz, E., G. Ortu, P.W. de Groot, F. Cottier, C. Loussert, M.C. Prevost, K.C.
de, F.M. Klis, S. Goyard and C. d'Enfert. 2009. The GPI-modifi ed proteins
Pga59 and Pga62 of Candida albicans are required for cell wall integrity.
Microbiol
.
155:
2004-2020.
