Species specific identification of the Neofabraea pathogen complex associated with pome fruits using PCR and multiplex DNA amplification

Tara D. GARIÉPY; C. André LÉVESQUE; Sharon N. de JONG; James E. RAHE

doi:10.1017/S0953756203007810

Abstract

Five species of pathogenic fungi belong to Neofabraea. One of these, N. krawtzewii (syn. N. populi), is responsible for bark lesions on poplar (Populus) trees. The other four species cause post-harvest bull's eye rot of pome fruits, and at least two of these also cause bark cankers on pome fruit trees. Morphological variation among these species is slight, and overlap in geographic range sometimes occurs. As a consequence, identification based on conventional criteria can be tenuous. PCR primers with putative species specificity were developed following genetic analysis of the β-tubulin gene for isolates of each of the five species of Neofabraea. PCR conditions required to achieve specificity of the primer sets were determined, and a multiplex PCR protocol was developed to optimize their diagnostic utility on apple fruits. A protocol with higher annealing temperatures in the initial PCR cycles followed by lower temperatures in later cycles gave complete species-specificity when the primer sets were used individually and in multiplex, resulting in successful detection of the pathogens from axenic culture and infected apple fruits.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Henriquez, Jose L. Sugar, David and Spotts, Robert A. 2004. Etiology of Bull's Eye Rot of Pear Caused by Neofabraea spp. in Oregon, Washington, and California. Plant Disease, Vol. 88, Issue. 10, p. 1134.

Sholberg, Peter O'Gorman, Dan Bedford, Karen and Lévesque, C. André 2005. Development of a DNA Macroarray for Detection and Monitoring of Economically Important Apple Diseases. Plant Disease, Vol. 89, Issue. 11, p. 1143.

Sholberg, P.L. Harlton, C. Haag, P. Lévesque, C.A. O’Gorman, D. and Seifert, K. 2005. Benzimidazole and diphenylamine sensitivity and identity of Penicillium spp. that cause postharvest blue mold of apples using β-tubulin gene sequences. Postharvest Biology and Technology, Vol. 36, Issue. 1, p. 41.

Gariepy, T. D. Rahe, J. E. Lévesque, C. A. Spotts, R. A. Sugar, D. L. and Henriquez, J. L. 2005. Neofabraeaspecies associated with bull's-eye rot and cankers of apple and pear in the Pacific Northwest. Canadian Journal of Plant Pathology, Vol. 27, Issue. 1, p. 118.

Gariepy, Tara D. Kuhlmann, Ulrich Haye, Tim Gillott, Cedric and Erlandson, Martin 2005. A single-step multiplex PCR assay for the detection of EuropeanPeristenusspp., parasitoids ofLygusspp.. Biocontrol Science and Technology, Vol. 15, Issue. 5, p. 481.

Catal, M. Jordan, S. A. Butterworth, S. C. and Schilder, A. M. C. 2007. Detection ofEutypa lataandEutypella vitisin Grapevine by Nested Multiplex Polymerase Chain Reaction. Phytopathology®, Vol. 97, Issue. 6, p. 737.

Robideau, G. P. Caruso, F. L. Oudemans, P. V. McManus, P. S. Renaud, M. A. Auclair, M. E. Bilodeau, G. J. Yee, D. Désaulniers, N. L. DeVerna, J. W. and Lévesque, C. A. 2008. Detection of cranberry fruit rot fungi using DNA array hybridization. Canadian Journal of Plant Pathology, Vol. 30, Issue. 2, p. 226.

Spotts, Robert A. Seifert, Keith A. Wallis, Kelly M. Sugar, David Xiao, Chang Lin Serdani, Maryna and Henriquez, Jose L. 2009. Description of Cryptosporiopsis kienholzii and species profiles of Neofabraea in major pome fruit growing districts in the Pacific Northwest USA. Mycological Research, Vol. 113, Issue. 11, p. 1301.

Antunes, Maria Dulce C. and Cavaco, Ana Margarida 2010. The use of essential oils for postharvest decay control. A review.. Flavour and Fragrance Journal, Vol. 25, Issue. 5, p. 351.

Soto-Alvear, Sylvana Lolas, Mauricio Rosales, Inés M. Chávez, Eduardo R. and Latorre, Bernardo A. 2013. Characterization of the Bull's Eye Rot of Apple in Chile. Plant Disease, Vol. 97, Issue. 4, p. 485.

Michalecka, M. Bryk, H. Poniatowska, A. Seliga, P. and Puławska, J. 2016. Identification and characterization ofNeofabraeafungi causing bull’s eye rot on apple in Poland. Acta Horticulturae, p. 183.

Ghasemkhani, Marjan Holefors, Anna Marttila, Salla Dalman, Kerstin Zborowska, Anna Rur, Mira Rees-George, Jonathan Nybom, Hilde Everett, Kerry R. Scheper, Reiny W. A. and Garkava-Gustavsson, Larisa 2016. Real-time PCR for detection and quantification, and histological characterization of Neonectria ditissima in apple trees. Trees, Vol. 30, Issue. 4, p. 1111.

Michalecka, M. Bryk, H. Poniatowska, A. and Puławska, J. 2016. Identification of Neofabraea species causing bull's eye rot of apple in Poland and their direct detection in apple fruit using multiplex PCR. Plant Pathology, Vol. 65, Issue. 4, p. 643.

Pešicová, K. Kolařík, M. Hortová, B. and Novotný, D. 2017. Diversity and identification of Neofabraea species causing bull’s eye rot in the Czech Republic. European Journal of Plant Pathology, Vol. 147, Issue. 3, p. 683.

Aguilar, C. G. Mazzola, M. and Xiao, C. L. 2017. Timing of Apple Fruit Infection by Neofabraea perennans and Neofabraea kienholzii in Relation to Bull’s-eye Rot Development in Stored Apple Fruit. Plant Disease, Vol. 101, Issue. 5, p. 800.

Wijesinghe, Ruchire Eranga Lee, Seung-Yeol Ravichandran, Naresh Kumar Shirazi, Muhammad Faizan Kim, Pilun Jung, Hee-Young Jeon, Mansik and Kim, Jeehyun 2018. Biophotonic approach for the characterization of initial bitter-rot progression on apple specimens using optical coherence tomography assessments. Scientific Reports, Vol. 8, Issue. 1,

Aguilar, C. G. Mazzola, M. and Xiao, C. L. 2018. Control of Bull’s-Eye Rot of Apple Caused by Neofabraea perennans and Neofabraea kienholzii Using Pre- and Postharvest Fungicides. Plant Disease, Vol. 102, Issue. 5, p. 905.

Lin, Huijiao Jiang, Xiang Yi, Jianping Wang, Xinguo Zuo, Ranling Jiang, Zide Wang, Weifang and Zhou, Erxun 2018. Molecular identification ofNeofabraeaspecies associated with bull’s-eye rot on apple using rolling-circle amplification of partialEF-1αsequence. Canadian Journal of Microbiology, Vol. 64, Issue. 1, p. 57.

Aguilar, Christian G. Mazzola, Mark and Xiao, Chang-Lin 2019. Timing of Perennial Canker Development in Apple Trees Caused by Neofabraea perennans and Neofabraea kienholzii. Plant Disease, Vol. 103, Issue. 3, p. 555.

Grammen, Amelie Wenneker, M. Van Campenhout, J. Pham, K. T. K. Van Hemelrijck, W. Bylemans, D. Geeraerd, A. and Keulemans, W. 2019. Identification and pathogenicity assessment of Colletotrichum isolates causing bitter rot of apple fruit in Belgium. European Journal of Plant Pathology, Vol. 153, Issue. 1, p. 47.

Download full list

Article contents

Species specific identification of the Neofabraea pathogen complex associated with pome fruits using PCR and multiplex DNA amplification

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Species specific identification of the Neofabraea pathogen complex associated with pome fruits using PCR and multiplex DNA amplification

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests