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Brouwer Sophie M. Odilbekov Firuz Burra Dharani Dhar Lenman Marit Hedley Pete E. Grenville-Briggs Laura Alexandersson Erik Liljeroth Erland Andreasson Erik 《Plant molecular biology》2020,102(1-2):1-17
Plant Molecular Biology - HbMBF1a was isolated and characterized in H. brevisubulatum, and overexpressed HbMBF1a could enhance the salt tolerance and ABA insensitivity in Arabidopsis thaliana. The... 相似文献
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Walker CA Köppe M Grenville-Briggs LJ Avrova AO Horner NR McKinnon AD Whisson SC Birch PR van West P 《Fungal genetics and biology : FG & B》2008,45(6):954-962
The asexual multinucleated sporangia of Phytophthora infestans can germinate directly through a germ tube or indirectly by releasing zoospores. The molecular mechanisms controlling sporangial cytokinesis or sporangial cleavage, and zoospore release are largely unknown. Sporangial cleavage is initiated by a cold shock that eventually compartmentalizes single nuclei within each zoospore. Comparison of EST representation in different cDNA libraries revealed a putative ATP-dependent DEAD-box RNA-helicase gene in P. infestans, Pi-RNH1, which has a 140-fold increased expression level in young zoospores compared to uncleaved sporangia. RNA interference was employed to determine the role of Pi-RNH1 in zoospore development. Silencing efficiencies of up to 99% were achieved in some transiently-silenced lines. These Pi-RNH1-silenced lines produced large aberrant zoospores that had undergone partial cleavage and often had multiple flagella on their surface. Transmission electron microscopy revealed that cytoplasmic vesicles fused in the silenced lines, resulting in the formation of large vesicles. The Pi-RNH1-silenced zoospores were also sensitive to osmotic pressure and often ruptured upon release from the sporangia. These findings indicate that Pi-RNH1 has a major function in zoospore development and its potential role in cytokinesis is discussed. 相似文献
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C André Lévesque Henk Brouwer Liliana Cano John P Hamilton Carson Holt Edgar Huitema Sylvain Raffaele Gregg P Robideau Marco Thines Joe Win Marcelo M Zerillo Gordon W Beakes Jeffrey L Boore Dana Busam Bernard Dumas Steve Ferriera Susan I Fuerstenberg Claire MM Gachon Elodie Gaulin Francine Govers Laura Grenville-Briggs Neil Horner Jessica Hostetler Rays HY Jiang Justin Johnson Theerapong Krajaejun Haining Lin Harold JG Meijer Barry Moore Paul Morris Vipaporn Phuntmart Daniela Puiu Jyoti Shetty Jason E Stajich Sucheta Tripathy Stephan Wawra Pieter van West Brett R Whitty Pedro M Coutinho Bernard Henrissat Frank Martin Paul D Thomas Brett M Tyler Ronald P De Vries Sophien Kamoun Mark Yandell Ned Tisserat C Robin Buell 《Genome biology》2010,11(7):1-22
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Gene expression profiling during asexual development of the late blight pathogen Phytophthora infestans reveals a highly dynamic transcriptome 总被引:1,自引:0,他引:1
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Cellulose synthesis in Phytophthora infestans is required for normal appressorium formation and successful infection of potato
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Grenville-Briggs LJ Anderson VL Fugelstad J Avrova AO Bouzenzana J Williams A Wawra S Whisson SC Birch PR Bulone V van West P 《The Plant cell》2008,20(3):720-738
Cellulose, the important structural compound of cell walls, provides strength and rigidity to cells of numerous organisms. Here, we functionally characterize four cellulose synthase genes (CesA) in the oomycete plant pathogen Phytophthora infestans, the causal agent of potato (Solanum tuberosum) late blight. Three members of this new protein family contain Pleckstrin homology domains and form a distinct phylogenetic group most closely related to the cellulose synthases of cyanobacteria. Expression of all four genes is coordinately upregulated during pre- and early infection stages of potato. Inhibition of cellulose synthesis by 2,6-dichlorobenzonitrile leads to a dramatic reduction in the number of normal germ tubes with appressoria, severe disruption of the cell wall in the preinfection structures, and a complete loss of pathogenicity. Silencing of the entire gene family in P. infestans with RNA interference leads to a similar disruption of the cell wall surrounding appressoria and an inability to form typical functional appressoria. In addition, the cellulose content of the cell walls of the silenced lines is >50% lower than in the walls of the nonsilenced lines. Our data demonstrate that the isolated genes are involved in cellulose biosynthesis and that cellulose synthesis is essential for infection by P. infestans. 相似文献