Biology Reference
In-Depth Information
Acknowledgments
This work was supported by the University of Córdoba (AGR-
0164: Agroforestry and Plant Biochemistry and Proteomics
Research Group), the Regional Government of Andalusia (Junta
de Andalucía), Universidad Nacional de Colombia (Bogotá), and
COLCIENCIAS (Colombia).
References
1. Fukui Y, Tanaka Y, Kusumi T et al (2003) A
rationale for the shift in colour towards blue in
transgenic carnation fl owers expressing the fl a-
vonoid 3
′
,5
′
-hydroxylase gene. Phytochemistry
63:15-23
2. Tanase K, Onozaki T, Satoh S et al (2008)
Differential expression levels of ethylene bio-
synthetic pathway genes during senescence of
long-lived carnation cultivars. Postharvest Biol
Technol 47:210-217
3. Thurston G, Regan S, Rampitsch C et al
(2005) Proteomic and phosphoproteomic
approaches to understand plant-pathogen
interactions. Physiol Mol Plant P 66:3-11
4. Palomares-Rius J, Castillo P, Navas-Cortés J
et al (2011) A proteomic study of in-root
interactions between chickpea pathogens: the
root-knot nematode
Meloidogyne artiellia
and
the soil-borne fungus
Fusarium oxysporum
f.
sp
. ciceris
race 5. J Proteomics 74:2034-2051
5. Quirino BF, Candido ES, Campos PF et al (2010)
Proteomic approaches to study plant-pathogen
interactions. Phytochemistry 71:351-362
6. Wang W, Tai F, Chen S (2008) Optimizing
protein extraction from plant tissues for
enhanced proteomics analysis. J Sep Sci 31:
2032-2039
7. Maldonado AM, Echevarría-Zomeño S, Jean-
Baptiste S et al (2008) Evaluation of three dif-
ferent protocols of protein extraction for
Arabidopsis thaliana
leaf proteome analysis by
two-dimensional electrophoresis. J Proteomics
71:461-472
8. Lopez MF, Berggren K et al (2000) A compari-
son of silver stain and SYPRO Ruby Protein Gel
Stain with respect to protein detection in two-
dimensional gels and identifi cation by peptide
mass profi ling. Electrophoresis 20:3673-3683
9. Wise RP, Moscou MJ, Bogdanove AJ et al
(2007) Transcript profi ling in host-pathogen
interactions. Annu Rev Phytopathol 45:
329-369
10. Abd-Elsalam KA, Aly I, Abdel-Satar MA et al
(2003) PCR identifi cation of
Fusarium
genus
based on nuclear ribosomal-DNA sequence
data. Afr J Biotechol 2:82-85
11. Chiocchetti A, Bernardo I, Daboussi MJ et al
(2009) Detection of
Fusarium oxysporum
f. sp.
dianthi
in carnation tissue by PCR amplifi ca-
tion of transposon insertions. Phytopathology
89:1169-1175
12. Ramagli LS, Rodriguez LV (1985)
Quantitation of microgram amounts of pro-
tein in two-dimensional polyacrylamide gel
electrophoresis sample buffer. Electrophoresis
6:559-563
13. Gonzalez-Fernandez R, Prats E, Jorrin-Novo J
(2010) Proteomics of plant pathogenic
fungi. J Biomed Biotechnol 2010:932527.
doi:
10.1155/2010/932527
14. Gonzalez-Fernandez R, Jorrin-Novo JV
(2012) Contribution of proteomics to the
study of plant pathogenic fungi. J Proteome
Res 11:3-16
15. Higuera BL, de Montes GV (1996)
Contribution of HPLC to the study of the
defence mechanisms acting in carnation
(
Dianthus caryophyllus
L.) roots on infection
with
Fusarium oxysporum
f. sp.
dianthi
. J High
Resolut Chromatogr 19:706-708
16. Valledor L, Jorrin-Novo J (2011) Back to the
basics: Maximizing the information obtained
by quantitative two dimensional gel electro-
phoresis analyses by an appropriate experimen-
tal design and statistical analyses. J Proteomics
74:1-18
