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1.
BMC Genomics ; 21(1): 155, 2020 Feb 12.
Artigo em Inglês | MEDLINE | ID: mdl-32050898

RESUMO

BACKGROUND: Cotton Verticillium wilt is one of the most devastating diseases for cotton production in the world. Although this diseases have been widely studied at the molecular level from pathogens, the molecular basis of V. dahliae interacted with cotton has not been well examined. RESULTS: In this study, RNA-seq analysis was carried out on V. dahliae samples cultured by different root exudates from three cotton cultivars (a susceptible upland cotton cultivar, a tolerant upland cotton cultivar and a resistant island cotton cultivar) and water for 0 h, 6 h, 12 h, 24 h and 48 h. Statistical analysis of differentially expressed genes revealed that V. dahliae responded to all kinds of root exudates but more strongly to susceptible cultivar than to tolerant and resistant cultivars. Go analysis indicated that 'hydrolase activity, hydrolyzing O-glycosyl compounds' related genes were highly enriched in V. dahliae cultured by root exudates from susceptible cotton at early stage of interaction, suggesting genes related to this term were closely related to the pathogenicity of V. dahliae. Additionally, 'transmembrane transport', 'coenzyme binding', 'NADP binding', 'cofactor binding', 'oxidoreductase activity', 'flavin adenine dinucleotide binding', 'extracellular region' were commonly enriched in V. dahliae cultured by all kinds of root exudates at early stage of interaction (6 h and 12 h), suggesting that genes related to these terms were required for the initial steps of the roots infections. CONCLUSIONS: Based on the GO analysis results, the early stage of interaction (6 h and 12 h) were considered as the critical stage of V. dahliae-cotton interaction. Comparative transcriptomic analysis detected that 31 candidate genes response to root exudates from cotton cultivars with different level of V. dahliae resistance, 68 response to only susceptible cotton cultivar, and 26 genes required for development of V. dahliae. Collectively, these expression data have advanced our understanding of key molecular events in the V. dahliae interacted with cotton, and provided a framework for further functional studies of candidate genes to develop better control strategies for the cotton wilt disease.


Assuntos
Perfilação da Expressão Gênica , Gossypium/genética , Proteínas de Plantas/genética , Raízes de Plantas/genética , Transcriptoma , Verticillium/genética , Biologia Computacional/métodos , Ontologia Genética , Anotação de Sequência Molecular , Fenótipo , Proteínas de Plantas/biossíntese
2.
Sheng Wu Gong Cheng Xue Bao ; 35(8): 1520-1528, 2019 Aug 25.
Artigo em Chinês | MEDLINE | ID: mdl-31441623

RESUMO

Actin filaments play an important role in fungal life processes such as growth, development and cytokinesis. The expression vector pSULPH-Lifeact-mCherry of fluorescent mCherry-labeled actin was transferred into Verticillium dahliae Kleb. wild type V592 by the genetic transformation system mediated by Agrobacterium tumefaciens to obtain the stable fluorescent labeled actin strain V592/Lifeact-mCherry. Then we detected its biological phenotype and the dynamic changes of actin fluorescence during the process of spore germination, mycelial growth and development. There was no significant difference in the colony morphology, colonial growth rate, sporulation and germination rate between the fluorescent labeled actin strain and the wild type. The actin fluorescence signal was observed at the tip of the conidia and hyphae and the septum clearly. Actin participated in the formation of the contractile actomyosin ring (CAR) during cytokinesis by observing the dynamic behavior of the actin in the process of hyphal septum formation. The fluorescent labeled actin strain can be used to study the dynamics of actin in fungal development to provide theoretical and practical support for further study of the mechanism of actin in fungal development and pathogenesis.


Assuntos
Verticillium , Actinas , Agrobacterium tumefaciens , Doenças das Plantas , Esporos Fúngicos
3.
Nat Plants ; 5(5): 498-504, 2019 05.
Artigo em Inglês | MEDLINE | ID: mdl-31040442

RESUMO

Cotton (Gossypium hirsutum) fibres consist of single cells that grow in a highly polarized manner, assumed to be controlled by the cytoskeleton1-3. However, how the cytoskeletal organization and dynamics underpin fibre development remains unexplored. Moreover, it is unclear whether cotton fibres expand via tip growth or diffuse growth2-4. We generated stable transgenic cotton plants expressing fluorescent markers of the actin and microtubule cytoskeleton. Live-cell imaging revealed that elongating cotton fibres assemble a cortical filamentous actin network that extends along the cell axis to finally form actin strands with closed loops in the tapered fibre tip. Analyses of F-actin network properties indicate that cotton fibres have a unique actin organization that blends features of both diffuse and tip growth modes. Interestingly, typical actin organization and endosomal vesicle aggregation found in tip-growing cell apices were not observed in fibre tips. Instead, endomembrane compartments were evenly distributed along the elongating fibre cells and moved bi-directionally along the fibre shank to the fibre tip. Moreover, plus-end tracked microtubules transversely encircled elongating fibre shanks, reminiscent of diffusely growing cells. Collectively, our findings indicate that cotton fibres elongate via a unique tip-biased diffuse growth mode.


Assuntos
Fibra de Algodão , Citoesqueleto/ultraestrutura , Gossypium/ultraestrutura , Actinas/ultraestrutura , Proteínas de Fluorescência Verde , Imageamento Tridimensional , Microscopia Intravital/métodos , Microtúbulos/ultraestrutura
4.
Environ Microbiol ; 20(4): 1607-1621, 2018 04.
Artigo em Inglês | MEDLINE | ID: mdl-29575486

RESUMO

The vascular wilt fungus Verticillium dahliae is one of the most destructive pathogens of cotton (Gossypium hirsutum) and many other economically important dicot plants. Fungal pathogens require Myosin-mediated actomyosin motility system for colonization of their host plants; however, the mechanisms underlying this process have not been fully characterized for V. dahliae. Here, in a knock-out experiment, we characterized the role of VdMyo5, a member of the Myosin V family, before and during infection of cotton and Arabidopsis thaliana. The VdMyo5 deletion mutant (ΔVdmyo5) fungi showed obvious defects in the development of conidia and the polarized elongation of vegetative hyphae, but no inhibition of host root penetration. Overall, the ΔVdmyo5 fungi exhibited dramatically reduced virulence in cotton and Arabidopsis, with almost no colonization in sections of host vascular tissue. We found labelled Myosin5-GFP to be specifically enriched at the hyphal tip, co-localized with FM4-64 labelled Spitzenkörper, which is the vesicle supply centre in filamentous fungi. Comparative secretome analysis revealed that proteins associated with cell wall modification and degradation of reactive oxygen species were significantly altered in mutant strains. Our results indicate that Myosin5 is required for vegetative growth and full virulence, possibly by regulating vesicle transport. The findings provide important insight into the cellular mechanisms of Verticillium pathogenesis.


Assuntos
Actomiosina/metabolismo , Arabidopsis/microbiologia , Gossypium/microbiologia , Miosina Tipo V/metabolismo , Doenças das Plantas/microbiologia , Verticillium/patogenicidade , Técnicas de Inativação de Genes , Hifas/crescimento & desenvolvimento , Miosina Tipo V/genética , Raízes de Plantas/microbiologia , Esporos Fúngicos/crescimento & desenvolvimento , Verticillium/genética , Verticillium/metabolismo , Virulência/genética
5.
Elife ; 42015 Aug 19.
Artigo em Inglês | MEDLINE | ID: mdl-26287478

RESUMO

Microtubules (MTs) and actin filaments (F-actin) function cooperatively to regulate plant cell morphogenesis. However, the mechanisms underlying the crosstalk between these two cytoskeletal systems, particularly in cell shape control, remain largely unknown. In this study, we show that introduction of the MyTH4-FERM tandem into KCBP (kinesin-like calmodulin-binding protein) during evolution conferred novel functions. The MyTH4 domain and the FERM domain in the N-terminal tail of KCBP physically bind to MTs and F-actin, respectively. During trichome morphogenesis, KCBP distributes in a specific cortical gradient and concentrates at the branching sites and the apexes of elongating branches, which lack MTs but have cortical F-actin. Further, live-cell imaging and genetic analyses revealed that KCBP acts as a hub integrating MTs and actin filaments to assemble the required cytoskeletal configuration for the unique, polarized diffuse growth pattern during trichome cell morphogenesis. Our findings provide significant insights into the mechanisms underlying cytoskeletal regulation of cell shape determination.


Assuntos
Citoesqueleto de Actina/metabolismo , Proteínas de Arabidopsis/metabolismo , Arabidopsis/citologia , Proteínas de Ligação a Calmodulina/metabolismo , Forma Celular , Microtúbulos/metabolismo , Células Vegetais/fisiologia , Tricomas/citologia , Arabidopsis/fisiologia , Ligação Proteica , Estrutura Terciária de Proteína
6.
J Exp Bot ; 66(7): 1877-89, 2015 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-25609828

RESUMO

Fibre cell initiation and elongation is critical for cotton fibre development. However, little is known about the regulation of initiation and elongation during fibre cell development. Here, the regulatory role of a novel protein GhCFE1A was uncovered. GhCFE1A is preferentially expressed at initiation and rapid elongation stages during fibre development; in addition, much higher expression of GhCFE1A was detected at the fibre initiation stage in fibreless cotton mutants than in the fibre-bearing TM-1 wild-type. Importantly, overexpression of GhCFE1A in cotton not only delayed fibre cell elongation but also significantly reduced the density of lint and fuzz fibre initials and stem trichomes. Yeast two-hybrid assay showed that GhCFE1A interacted with several actin proteins, and the interaction was further confirmed by co-sedimentation assay. Interestingly, a subcellular localization assay showed that GhCFE1A resided on the cortical endoplasmic reticulum (ER) network and co-localized with actin cables. Moreover, the density of F-actin filaments was shown to be reduced in GhCFE1A-overexpressing fibres at the rapid elongation stage compared with the wild-type control. Taken together, the results demonstrate that GhCFE1A probably functions as a dynamic linker between the actin cytoskeleton and the ER network, and plays an important role in fibre cell initiation and elongation during cotton fibre development.


Assuntos
Citoesqueleto de Actina/metabolismo , Retículo Endoplasmático/metabolismo , Regulação da Expressão Gênica de Plantas , Gossypium/genética , Proteínas de Plantas/metabolismo , Citoesqueleto de Actina/genética , Actinas/genética , Actinas/metabolismo , Sequência de Bases , Fibra de Algodão , Perfilação da Expressão Gênica , Regulação da Expressão Gênica no Desenvolvimento , Gossypium/crescimento & desenvolvimento , Gossypium/metabolismo , Dados de Sequência Molecular , Proteínas de Plantas/genética , Caules de Planta/genética , Caules de Planta/fisiologia , Plantas Geneticamente Modificadas , Análise de Sequência de DNA , Tricomas/genética , Tricomas/crescimento & desenvolvimento
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