Fate of transformed Trichoderma harzianum in the phylloplane of tomato plants

A propiconazole-resistant Trichoderma harzianum strain with high phylloplane survival capability was transformed with the E. coli hygromycin B phosphotransferase gene (hph), coding for hygromycin B resistance. Four transformants were analysed for survival ability on the phylloplane of tomato plants grown under glasshouse conditions in comparison with their prototype and a yellow, hygromycin B-sensitive mutant. Over 2 weeks, the four transformants showed higher survival rates in comparison with the wild-type strain. The yellow mutant TF3/973 did not significantly differ in survival from the transformants. Both hygromycin B resistance and mitotic stability of transformants were evaluated during growth in vitro and after reisolation from tomato phylloplane. Hybridization patterns with the complete plasmid indicated that all four transformants were mitotically stable after several rounds of vegetative growth without selective pressure and during 2 weeks on tomato plants. None of the transformants had lost the ability to grow in the presence of both propiconazole and hygromycin B after growth under the same conditions. The results are discussed in relation to risk assessment of the release of transgenic fungi.     

The sesquiterpene α-copaene is induced in tomato leaves infected by Botrytis cinerea

Abstract

Explorative experiments were done to investigate the possibility that tomato plants infected by Botrytis cinerea have a different emission of volatile organic compounds (VOC) than healthy plants. This was done by headspace analysis of volatiles emitted by detached leaves of infected and healthy plants. Principal component analysis (PCA) of GC-FID chromatograms revealed clearly separated clusters between infected and control leaves and identification of an interesting compound. In further analysis by GC-MS, the significantly distinctive component (p≤0.05) was identified as the sesquiterpene α-copaene. In previous work on herbivore damage, α-copaene was not distinctive, which may suggest that α-copaene may be specifically associated to fungal infections in tomato.     

The lre-miR159a-LrGAMYB pathway mediates resistance to grey mould infection in Lilium regale

Grey mould is one of the most determinative factors of lily growth and plays a major role in limiting lily productivity. MicroRNA159 (miR159) is a highly conserved microRNA in plants, and participates in the regulation of plant development and stress responses. Our previous studies revealed that lre-miR159a participates in the response of Lilium regale to Botrytis elliptica according to deep sequencing analyses; however, the response mechanism remains unknown. Here, lre-miR159a and its target LrGAMYB gene were isolated from L. regale. Transgenic Arabidopsis overexpressing lre-MIR159a exhibited larger leaves and smaller necrotic spots on inoculation with Botrytis than those of wild-type and overexpressing LrGAMYB plants. The lre-MIR159a overexpression also led to repressed expression of two targets of miR159, AtMYB33 and AtMYB65, and enhanced accumulation of hormone-related genes, including AtPR1, AtPR2, AtNPR1, AtPDF1.2, and AtLOX for both the jasmonic acid and salicylic acid pathways. Moreover, lower levels of H₂O₂ and were observed in lre-MIR159a transgenic Arabidopsis, which reduced the damage from reactive oxygen species accumulation. Taken together, these results indicate that lre-miR159a positively regulates resistance to grey mould by repressing the expression of its target LrGAMYB gene and activating a defence response.     

Nitrogen availability and susceptibility of tomato leaves to Botrytis cinerea

The aim of this study was to investigate the effect of nitrogen availability on susceptibility of tomato leaves to the fungal pathogen Botrytis cinerea. Plants with varying nitrogen availability were grown by adding N daily in exponentially increasing amounts to a nutrient solution at different rates. Leaves of plants grown at low nitrogen availability had a high leaf C/N ratio (21 g g^-1) and were about 2.5 times more susceptible to primary lesion formation by B. cinerea compared to plant grown at high nitrogen availability, which had a low leaf C/N ratio (11 g g^-1). Leaf C/N ratio accounted for 95% of variation in susceptibility. This relationship between C/N ratio and susceptibility persisted when plants were grown with exponential P addition and optimal N supply, and was thus independent of plant growth rate or related factors. We could not explain the effect of nitrogen availability by variation in the most obvious N-based resistance compound α-tomatine because more susceptible leaves with a high C/N ratio contained more α-tomatine. These leaves also contained more soluble carbohydrates. The level of soluble carbohydrates correlated positively with susceptibility, independent of the growth method. We therefore suggest that the effect of N availability on susceptibility must be explained by variation in levels of soluble carbohydrates and speculate about the role of these carbohydrates in the infection process. This revised version was published online in June 2006 with corrections to the Cover Date.     

Some Characteristics of Red Light-induced Substance(s) against Botrytis cinerea Produced in Broad Bean Leaflets

The red light-induced antifungal substance(s) produced in broad bean was of relatively high molecular weight, water soluble, heat stable and fungi specific. Cellulose thin layer chromatography (TLC) of infection droplets of Botrytis cinerea or water droplets without spores of B. cinerea, recovered from inoculated broad bean leaflets kept under red light for 48 h, displayed inhibition zones at approximate Rf values of 0.0 and 0.6. Inhibition zones observed in cellulose TLC of water droplets were relatively faint compared to those of infection droplets. In a time-course study of accumulation of the antifungal substance(s), antifungal activity in both water and infection droplets recovered from red light irradiated broad bean leaflets occurred after 24 h irradiation. However, the antifungal activity in infection droplets was significantly higher than in water droplets. The antifungal substance(s) was less active against Botrytis fabae than B. cinerea.     

Ant attendance in aphids: why different degrees of myrmecophily?

1. Aphids show a range of associations with ants from nonattendance to obligate myrmecophily. Aphis fabae cirsiiacanthoides is facultatively associated with ants, while Symydobius oblongus is an obligate myrmecophile. The selection pressures that have shaped these associations are unknown. 2. The consequences for these aphids of their different degrees of associations with ants were determined, in terms of costs and benefits to individuals and colonies in laboratory and field experiments. In the laboratory, individuals of A. f. cirsiiacanthoides performed worse and those of Symydobius oblongus performed better when attended by the ant Lasius niger than when unattended. For example, when ant-attended, A. f. cirsiiacanthoides developed more slowly, were smaller, and invested less in gonads, whereas S. oblongus developed more quickly, were larger, and invested more in gonads. In addition, the ant regulated the population size of S. oblongus to an average of 50–70 individuals per birch sapling by removing aphids, but did not regulate the population size of A. f. cirsiiacanthoides. 3. Under field conditions, ant-attended colonies of both A. f. cirsiiacanthoides and S. oblongus achieved higher peak numbers and lasted longer, and ant-attended colonies of A. f. cirsiiacanthoides produced more alate dispersers than unattended colonies. 4. The implications of divergent selection pressures for the development of myrmecophily in aphids are discussed.     

Evidence for a constitutive cytoplasmic cutinase in ungerminated conidia of Botrytis cinerea Pers.: Fr.

Cytoplasmic soluble proteins from ungerminated conidia of Botrytis cinerea exhibited cutinase activity, while cell wall binding proteins lacked this activity. Cutinase activity in proteins extracted from cell walls and cytoplasm of ungerminated conidia of Botrytis cinerea was determined using p-nitrophenyl butyrate (PNB) and TLC analysis of products derived from hydrolysis of [³H]cutin. Treatment of conidia with indoxyl acetate, a substrate indicative of non-specific esterase and cutinase activity, also gave a positive reaction in the cytoplasm of ungerminated conidia. The possible role of a putative constitutive cutinase in the cytoplasm of conidia in the early stages of infection of plants by B. cinerea is discussed.     

Marker Gene Overexpression in Flowers Treated with Resistance Inducers does not Correlate with Protection Against Flower‐Infecting Fungi in Tomato and Blueberry

Flowers can serve as infection courts for specialized and unspecialized plant pathogens, but little is known about the ability of floral tissues to undergo induced resistance (IR) responses against these pathogens. We studied the expression of IR marker genes in tomato and blueberry flowers treated with the inducers methyl jasmonate (MeJA), benzothiadiazole‐S‐methyl ester (BTH) and 2,6‐dichloroisonicotinic acid (INA). In tomato, spray application of MeJA and BTH (but not INA) to entire plants (leaves, stems and flowers) resulted in a significant (P < 0.05) overexpression of Pin2 (5.2‐fold) and PR‐4 (5.6‐fold) in pistil tissues, respectively. A statistically similar expression was obtained in pistils when flowers were protected from direct spray, indicating a systemic response. In blueberry, where information about IR marker genes is limited, PR‐3 and PR‐4 orthologs were first identified and characterized using in silico and wet‐laboratory techniques. In subsequent induction experiments, INA and BTH induced overexpression of PR‐4 in blueberry pistils by 3.2‐ and 1.8‐fold, respectively, when entire plants were treated. In blueberry flowers protected from spray applications, all chemicals applied to vegetative tissues led to significant overexpression of PR‐4 (MeJA: 1.4‐fold, BTH: 2.9‐fold and INA: 1.6‐fold), with BTH also inducing PR‐3 (1.7‐fold). The effect of these responses in protecting flowers was studied by inoculating treated tomato flowers with the necrotroph Botrytis cinerea and blueberry flowers with the hemi‐biotroph Monilinia vaccinii‐corymbosi. In both pathosystems, no significant disease suppression associated with resistance inducer application was observed under the conditions studied. Thus, although IR marker genes were shown to be inducible in floral tissue, the magnitude of this response was insufficient to suppress pathogen ingress.     

Occurrence of fenhexamid resistance in Botrytis cinerea from greenhouse strawberries in China

This study assessed the fenhexamid sensitivity of 143 Botrytis cinerea isolates collected from greenhouse strawberries in five regions of China between 2012 and 2013, and identified four isolates with moderate levels of resistance: two from the Xinjiang Uygur Autonomous Region and two from Hebei Province. The baseline fenhexamid sensitivity of B. cinerea exhibited a unimodal distribution with a mean EC₅₀ value of 0.20 ± 0.10 μg/ml (SD). The EC₅₀ values of the fenhexamid‐resistant isolates ranged from 0.05 to 0.40 μg/ml. Molecular analysis of the fenhexamid target gene erg27 revealed that the resistant isolates collected from Xinjiang (163‐6 and 163‐22) contained three mutations that led to amino acid changes (V365A, E368D and A378T) known to be associated with fenhexamid resistance, but that the isolates from Hebei lacked any mutations, indicating that an alternative mechanism could be responsible for their resistance. Most of the biological characteristics of the fenhexamid‐resistant isolates, such as mycelial growth, sclerotia production and pathogenicity, did not significantly differ from those of the sensitive ones (p ≤ .05), but it was noted that some of the resistant isolates exhibited reduced rates of sporulation and spore germination. In addition, the resistant isolates exhibited lower osmotic sensitivity than the sensitive ones. The study found no evidence of cross‐resistance with other fungicides, but that there was negative cross‐resistance with procymidone, iprodione, carbendazim and pyraclostrobin, which indicates that the inclusion of these fungicides within an integrated pest management (IPM) programme could help to minimize the risk of fenhexamid resistance developing in B. cinerea.     

HDA19调控拟南芥对真菌Botrytis cineara的抗性反应

HDACs(Histone deacetylase)家族蛋白质负责组蛋白H3K4和H4K19脱乙酰化,并参与植物生长和应激反应的信号转导过程。茉莉酮酸酯Jasmonates(JA)是一种重要的天然植物激素,不仅调节植物生长和发育而且还参与植物对多种逆境胁迫响应的信号转导和调控过程。但是,HDACs在植物中参与JA信号转导的具体机制目前还不是很清楚。该研究以HDA19(Histone deacetylase 19)为对象,探讨了HDACs在植物JA信号转导中的功能和作用。结果表明:HDA19的T-DNA插入纯合突变体在JA处理条件下没有出现明显的JA根长反应。在相同处理条件下,hda19的不同突变体株系与相同生态型背景的野生型植株(WT)花色素苷含量无显著差异,但下游JAZ1、VSP1等JA信号通路的标记基因都显著上调表达。同时,hda19相比于WT对真菌Botrytis cineara的抗性显著增强,且hda19中下游基础防御标记基因PDF1.2、Thi2.1、ERF1等的表达水平显著高于WT。基于上述研究结果,该研究认为HAD19通过JA信号通路负调控拟南芥对真菌B.cineara的防御反应。