Artigos Recomendados
Alemu, K. Real-Time PCR and Its Application in Plant Disease Diagnostics. Advances in Life Science and Technology. v. 27(Online), 2014.
Borges, A.; Tsai, S.M.; Caldas, D.G.G. Validation of reference genes for RT-qPCR normalization in common bean during biotic and abiotic stresses. Plant Cell Reports. v. 31, p. 827-838. 2012.
Johnson, g.; Nolan, T.; Bustin, S.A. Real-Time Quantitative PCR, Pathogen Detection and MIQE. Wilks, M. (ed.). PCR Detection of Microbial Pathogens: Second Edition, Methods in Molecular Biology. v. 943, p. 1-16, 2013.
LEÃES, F.L.; VELHO, R.V.; Caldas, D.G.G.; RITTER, A.C.; Tsai, S.M.; BRANDELLI, A. Expression of essential genes for biosynthesis of antimicrobial peptides of Bacillus is modulated by inactivated cells of target microorganisms. Research in Microbiology. v. 167, p. 83-89, 2016.
Luchi, N.; Capretti. P.Pinzani, P.;Orlando, C.;Pazzagli, M. Real-time PCR detection of Biscogniauxia mediterranea in symptomless oak tissue. Lett Appl Microbiol. v. 41, p. 61-8, 2005.
Luchi, N.; Capretti, P.; Pazzagli, M.; Pinzani, P. Powerful qPCR assays for the early detection of latent invaders: interdisciplinary approaches in clinical cancer research and plant pathology. Appl Microbiol Biotechnol. v. 100, p.5189–5204, 2016.
LUSHIA, W.; HEIST, P. Antibiotic resistant bacteria in fuel ethanol fermentations. Ethanol Producer Magazine. Grand Forks, p. 80-82, 2005.
MIRMAJLESSI, S.M.; LOIT, E.; MÄND, M.; MANSOURIPOUR, S.M. Real-Time PCR Applied to Study on Plant Pathogens: Potential Applications in Diagnosis – a Review. Plant Protect. Sci. v. 51, p. 177–190, 2015.
Obi, C.N. Brewery Contaminants, Challenges and Remedies - A Review. Nigerian Journal of Microbiology. v. 31, p. 3926-3940, 2017.
PFAFFL, M.W.; HORGAN, G.W.; DEMPFLE, L. Relative expression software tool (REST) for group-wise comparison and statistical analysis of relative expression results in real-time PCR. Nucleic Acids Research. v. 30, e36, 2002.
RAMAKERS, C.; RUIJTER, J.M.; DEPREZ, R.H.; MOORMAN, A.F. Assumption-free analysis of quantitative real-time polymerase chain reaction (PCR) data. Neuroscience Letters. v. 13, p. 62-66, 2003.
RECCHIA, G.H.*; CALDAS, D.G.G.*; BERALDO, A.L.A.; SILVA, M.J.; Tsai, S.M. Transcriptional analysis of drought induced genes in roots of a tolerant genotype of common bean (Phaseolus vulgaris L.). International Journal of Molecular Sciences. v. 14, p. 7155-7179, 2013.
Smith, C.J.; Osborn, A.M. Advantages and limitations of quantitative PCR (Q-PCR)-based approaches in microbial ecology. FEMS Microbiol Ecol. v. 67, p. 6–20, 2009.
Velho, R.V.; Caldas, D.G.G.; Medina, L.F.C.; Tsai, S.M.; Brandelli, A. Real-time PCR investigation on the expression of sboA and ituD genes in Bacillus spp. Letters in Applied Microbiology. v. 52, p. 660-666, 2011.