Abstract
Lasiodiplodia theobromae is one of the most aggressive agents of the grapevine trunk disease Botryosphaeria dieback. Through a dual RNA-sequencing approach, this study aimed to give a broader perspective on the infection strategy deployed by L. theobromae, while understanding grapevine response. Approximately 0.05% and 90% of the reads were mapped to the genomes of L. theobromae and Vitis vinifera, respectively. Over 2500 genes were significantly differentially expressed in infected plants after 10 dpi, many of which are involved in the inducible defense mechanisms of grapevines. Gene expression analysis showed changes in the fungal metabolism of phenolic compounds, carbohydrate metabolism, transmembrane transport, and toxin synthesis. These functions are related to the pathogenicity mechanisms involved in plant cell wall degradation and fungal defense against antimicrobial substances produced by the host. Genes encoding for the degradation of plant phenylpropanoid precursors were up-regulated, suggesting that the fungus could evade the host defense response using the phenylpropanoid pathway. The up-regulation of many distinct components of the phenylpropanoid pathway in plants supports this hypothesis. Moreover, genes related to phytoalexin biosynthesis, hormone metabolism, cell wall modification enzymes, and pathogenesis-related proteins seem to be involved in the host responses observed. This study provides additional insights into the molecular mechanisms of L. theobromae and V. vinifera interactions.
Highlights
Grapevine (Vitis vinifera) is widely cultivated and an economically important fruit crop worldwide [1]
The results showed that L. theobromae affected several genes down-regulated in V. vinifera involved in Tphheotroessyunlttshsehsiosw, ecedllthwatalLl. athnedobrcoymtoasekaeffleetcotnedosregvaenriazlagtieonne,stdraonwspno-rret,gualnadtedceilnl Vc.yvclien.ifeMraoisntvooflvtehde iennrpihchoetodstyenrmthsesoifs,ucpe-lrlegwuallalteadndgecnyetsosakreelientvoonlvoerdgainnidzeafteionnse, trreasnpsopnosret,saencodncdealrlycymceleta. bMoloitsets,osftethroel eannrdicphhedentyerlpmrsopoaf nuopi-drebgiuolsaytnedthgeesinse, sanarderiensvpoolnvesedtionodxeifdeantsieveresstpreosnss.e, secondary metabolites, sterol and phenylpropanoid biosynthesis, and response to oxidative stress
DisOcunses-iyoenar-old plants of V. vinifera were inoculated with L. theobromae Bt105, and the progression of thOenle-syioenart-horldoupglahnotustotfhVe .svaimnipfelriangwperoeinintsoscuglagtesdtewdithaLt. athseuobcrcoemssafeuBl itn10fe5c,taionnd othcceuprroegdr(eFsisgiounre of the lesion throughout the sampling points suggested that a successful infection occurred
Summary
Grapevine (Vitis vinifera) is widely cultivated and an economically important fruit crop worldwide [1]. Sci. 2019, 20, x FOR PEER REVIEW prodfuucntgivi iotyf, trheedufacminiglypBrootfiryt oasnpdhaleorinagceeaveittyha[t4]g. rSoowmperaimutahroilrys isnugmgaetsutrtehawtoeondvicraounsmesendtieabl acchkanagseas, such as drcooungsehqtuaenndceinocfrtehaesedeovfetleompmpeernattoufrea,nmecaryotiincdwuocoedsocamnekefur/nlegsiioton b[3e]c.oBmoteryaogsgprheasesriivaedpieabthacokgelenasd,skilling theirtohaoslotsssthofropurogdhutchtievirteyl,eraesdeuocifncgepllrowfiatlalnddelgornagdeivnigtye[n4]z.ySmomese,aiunthhiobristosuryggpersot ttehiantse,navnirdontomxeinntsal[5,6,7,8]
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