Molecular Phylogeny of the Plant Pathogenic Genus Botrytis and the Evolution of Host Specificity

Abstract: The cosmopolitan genus Botrytis contains 22 recognized species and one hybrid. The current classification is largely based on morphological characters and, to a minor extent, on physiology and host range. In this study, a classification of the genus was constructed based on DNA sequence data of three nuclear protein-coding genes (RPB2, G3PDH, and HSP60) and compared with the traditional classification. Sexual reproduction and the host range, important fitness traits, were traced in the tree and used for the id… Show more

“…tulipae is the only Botrytis species able to infect tulip (Staats et al, 2005) and to abundantly produce sporulating gray mycelium on infected tissue (Yohalem et al, 2003). The mitotically produced spores, macroconidia, can be transported long distances by wind (Agrios, 2005;Webster and Weber, 2007).…”

“…The ability of B. tulipae to infect living host plants may result from a combination of at least 4 factors: (1) possession of pathogenic factors (e.g., toxins and cell-wall degrading enzymes) that confer the ability to kill and invade plant tissue; (2) the ability to avoid or counteract plant resistance mechanisms; (3) the ability to survive outside host-plant tissue under less favorable conditions (e.g., low humidity and UV irradiation); and (4) the ability to reproduce and disperse (Staats et al, 2005).…”

Chemical Composition of Celandine (<i>Chelidonium majus</i> L.) Extract and its Effects on <i>Botrytis tulipae</i> (Lib.) Lind Fungus and the Tulip

“…tulipae is the only Botrytis species able to infect tulip (Staats et al, 2005) and to abundantly produce sporulating gray mycelium on infected tissue (Yohalem et al, 2003). The mitotically produced spores, macroconidia, can be transported long distances by wind (Agrios, 2005;Webster and Weber, 2007).…”

“…The ability of B. tulipae to infect living host plants may result from a combination of at least 4 factors: (1) possession of pathogenic factors (e.g., toxins and cell-wall degrading enzymes) that confer the ability to kill and invade plant tissue; (2) the ability to avoid or counteract plant resistance mechanisms; (3) the ability to survive outside host-plant tissue under less favorable conditions (e.g., low humidity and UV irradiation); and (4) the ability to reproduce and disperse (Staats et al, 2005).…”

Chemical Composition of Celandine (<i>Chelidonium majus</i> L.) Extract and its Effects on <i>Botrytis tulipae</i> (Lib.) Lind Fungus and the Tulip

“…1 Post-harvest grey mould rot on green bean. a Symptoms of post-harvest grey mould rot caused by Botrytis cinerea b grey mould rot developed 7 days after artificial inoculation c one-weekold colony of B. cinerea on potato on PDA d black sclerotia developed on PDA e conidia (White et al 1990), G3PDH-F (5′-ATTGACATCGTCGC TGTCAACGA-3′)/G3PDH-R (5′-ACCCCACTCGTTGT CGTACCA-3′), HSP60-F (5′-CAACAATTGAGATT TGCCCACAAG-3′)/HSP60-R (5′-GATGGATCCAGTGG TACCGAGCAT-3′) and RPB2-F (5′-GATGATCGTGATCA TTTCGG-3′)/RPB2-R (5′-CCCATAGCTTGCTTACCCAT-3′) (Staats et al 2005), respectively. The polymerase chain reaction (PCR) was performed in a 25 μL reaction mixture containing 0.5 μL of each primer (10 pmol/L), 0.5 μL of Taq DNA polymerase (Bioneer, Korea), 0.5 μL of each dNTP (10 mM), 2.5 μL of 10× PCR reaction buffer, 18.5 μL of distilled water, and 2.0 μL of template DNA.…”

Botrytis cinerea is the causal agent of post-harvest grey mould rot on green bean (Phaseolus vulgaris) in Korea

“…2A, 2B). 배양 10일 후부터 회색 균사체가 뭉쳐지면서 작은 소립의 균핵을 형성하 [5]. ITS 영역의 증폭에는 ITS1F/ITS4 primer pair를 이용하였으며 [6], RPB2 유전 자는 RPB2for/RPB2rev, HSP60 유전자는 HSP60for/HSP60rev, G3PDH 유전자는 G3PDH for/G3PDHrev primer pair를 사용하여 증폭하였다 [4].…”

Occurrence of Gray Mold Caused by Botrytis cinerea on Rubus crataegifolius in Korea