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1601“…Therefore, we investigated their role in Vitis vinifera (grapevine) in response to obligate biotrophic fungal phytopathogens, Erysiphe necator (powdery mildew, PM) and Plasmopara viticola (downy mildew, DM), which impose huge agro-economic burden on grape-growers worldwide. …”
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1602por Ruan, Xiangchun, Deng, Xiaoling, Tan, Meiling, Yu, Chengbo, Zhang, Meishi, Sun, Ying, Jiang, Nuohao“…Resveratrol is extracted from Polygonum cuspidatum, Cassia tora Linn and Vitis vinifera, and displays good antimicrobial activity. …”
Publicado 2021
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1603por Hamaoka, Kazuhiro, Aoki, Yoshinao, Takahashi, Sayuri, Enoki, Shinichi, Yamamoto, Kosuke, Tanaka, Keisuke, Suzuki, Shunji“…We performed endophytic microbiome analysis of the shoot xylems of four cultivars, Vitis vinifera cvs. Chardonnay, Pinot Noir, Cabernet Sauvignon, and Vitis sp. cv. …”
Publicado 2022
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1604por Li, Yongzhou, He, Liangliang, Song, Yinhua, Zhang, Peng, Chen, Doudou, Guan, Liping, Liu, Sanjun“…The combined transcriptomic analysis and terpene profiling data revealed 20 candidate genes, which were assessed in terms of their involvement in aroma biosynthetic regulation, including 1 VvCYP (VIT_08s0007g07730), 2 VvCCR (VIT_13s0067g00620, VIT_13s0047g00940), 3 VvADH (VIT_00s0615g00010, VIT_00s0615g00030, VIT_ 00s0615g00020), and 1 VvSDR (VIT_08s0040g01200) in the phenylpropanoids synthesis pathway, and 1 VvDXS (VIT_05s0020g02130) and 6 VvTPS (VIT_13s0067g00370, Vitis_vinifera_newGene_3216, VIT_13s0067g00380, VIT_13s0084g00010, VIT_00s0271g00010, and VIT_13s0067g00050) in the methylerythritol phosphate pathway (involved in the production and accumulation of aromatic compounds). …”
Publicado 2023
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1605por Grimplet, Jerome, Deluc, Laurent G, Tillett, Richard L, Wheatley, Matthew D, Schlauch, Karen A, Cramer, Grant R, Cushman, John C“…BACKGROUND: Berries of grape (Vitis vinifera) contain three major tissue types (skin, pulp and seed) all of which contribute to the aroma, color, and flavor characters of wine. …”
Publicado 2007
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1606por Duarte, Jill M, Wall, P Kerr, Edger, Patrick P, Landherr, Lena L, Ma, Hong, Pires, J Chris, Leebens-Mack, Jim, dePamphilis, Claude W“…Using the gene clustering algorithm MCL-tribe, we have identified a set of 959 single copy genes that are shared single copy genes in the genomes of Arabidopsis thaliana, Populus trichocarpa, Vitis vinifera and Oryza sativa. To characterize these genes, we have performed a number of analyses examining GO annotations, coding sequence length, number of exons, number of domains, presence in distant lineages, such as Selaginella and Physcomitrella, and phylogenetic analysis to estimate copy number in other seed plants and to demonstrate their phylogenetic utility. …”
Publicado 2010
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1607por Pap, Dániel, Riaz, Summaira, Dry, Ian B., Jermakow, Angelica, Tenscher, Alan C., Cantu, Dario, Oláh, Róbert, Walker, M. Andrew“…RESULTS: A framework genetic map was developed using simple sequence repeat markers in 277 seedlings of an F1 mapping population arising from a cross of the powdery mildew susceptible Vitis vinifera selection F2-35 and a resistant accession of V. piasezkii DVIT2027. …”
Publicado 2016
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1608por Cress, Brady F., Leitz, Quentin D., Kim, Daniel C., Amore, Teresita D., Suzuki, Jon Y., Linhardt, Robert J., Koffas, Mattheos A. G.“…RESULTS: Anthocyanin O-methyltransferase (AOMT) orthologs from various plant sources were co-expressed in Escherichia coli with Petunia hybrida anthocyanidin synthase (PhANS) and Arabidopsis thaliana anthocyanidin 3-O-glucosyltransferase (At3GT). Vitis vinifera AOMT (VvAOMT1) and fragrant cyclamen ‘Kaori-no-mai’ AOMT (CkmOMT2) were found to be the most effective AOMTs for production of the 3′-O-methylated product peonidin 3-O-glucoside (P3G), attaining the highest titers at 2.4 and 2.7 mg/L, respectively. …”
Publicado 2017
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1609por Crous, P.W., Schumacher, R.K., Wingfield, M.J., Akulov, A., Denman, S., Roux, J., Braun, U., Burgess, T.I., Carnegie, A.J., Váczy, K.Z., Guatimosim, E., Schwartsburd, P.B., Barreto, R.W., Hernández-Restrepo, M., Lombard, L., Groenewald, J.Z.“…(Finland); Cyclothyriella rubronotata on twigs of Ailanthus altissima, Rhinocladiella quercus on Sorbus aucuparia branches (Germany); Cytospora viticola on stems of Vitis vinifera (Hungary); Echinocatena arthrinioides on leaves of Acacia crassicarpa (Malaysia); Varicosporellopsis aquatilis from garden soil (Netherlands); Pestalotiopsis hollandica on needles of Cupressus sempervirens (Spain), Pseudocamarosporium africanum on twigs of Erica sp. …”
Publicado 2018
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1610“…Pierce’s disease (PD) of grapevine (Vitis vinifera) is caused by the bacterium Xylella fastidiosa and is vectored by xylem sap-sucking insects, whereas Grapevine Red Blotch Virus (GRBV) causes Red Blotch Disease and is transmitted in the laboratory by alfalfa leafhopper Spissistilus festinus. …”
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1611“…VviERF6L1 overexpression in Vitis vinifera results in differential expression of genes related to phytohormone and immune system signaling. …”
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1612“…BACKGROUND: The high susceptibility of European grapevine cultivars (Vitis vinifera) to downy mildew (Plasmopara viticola) leads to the intensive use of fungicides in viticulture. …”
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1613por Maillot, Pascale, Velt, Amandine, Rustenholz, Camille, Butterlin, Gisèle, Merdinoglu, Didier, Duchêne, Eric“…We report here on the regulation of gene AS in developing berries of two grapevine (Vitis vinifera L.) varieties, Gewurztraminer (Gw) and Riesling (Ri), showing distinctive phenotypic characteristics. …”
Publicado 2021
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1614por Tao, Junjie, Jia, Huimin, Wu, Mengting, Zhong, Wenqi, Jia, Dongfeng, Wang, Zupeng, Huang, Chunhui“…Syntenic analyses of TIFY genes between kiwifruit and other five plant species (including Arabidopsis thaliana, Camellia sinensis, Oryza sativa, Solanum lycopersicum and Vitis vinifera) and between the two kiwifruit species provided valuable clues for understanding the potential evolution of the kiwifruit TIFY family. …”
Publicado 2022
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1615por Ali, Mohammad B, Howard, Susanne, Chen, Shangwu, Wang, Yechun, Yu, Oliver, Kovacs, Laszlo G, Qiu, Wenping“…BACKGROUND: The complex and dynamic changes during grape berry development have been studied in Vitis vinifera, but little is known about these processes in other Vitis species. …”
Publicado 2011
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1616por Mazzio, Elizabeth A., Li, Nan, Bauer, David, Mendonca, Patricia, Taka, Equar, Darb, Mohammed, Thomas, Leeshawn, Williams, Henry, Soliman, Karam F. A.“…Natural products lethal against [E. coli 0157:H7] where the LC(50) < 100 μg/ml included bioactive silver hydrosol-Argentyn 23, green tea (its constituents EGCG > Polyphenon 60 > (-)-Gallocatechin > Epicatechin > (+)-Catechin), Grapeseed Extract (Vitis vinifera), Chinese Gallnut (its constituents gallic acid > caffeic acid) and gallic acid containing plants such as Babul Chall Bark (Acacia Arabica), Arjun (Terminalia Arjuna) and Bayberry Root Bark (Morella Cerifera). …”
Publicado 2016
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1617por Crous, P.W., Schumacher, R.K., Akulov, A., Thangavel, R., Hernández-Restrepo, M., Carnegie, A.J., Cheewangkoon, R., Wingfield, M.J., Summerell, B.A., Quaedvlieg, W., Coutinho, T.A., Roux, J., Wood, A.R., Giraldo, A., Groenewald, J.Z.“…(South Africa); Phlogicylindrium dunnii on leaves of Eucalyptus dunnii (Australia); Phyllosticta hagahagaensis on leaf litter of Carissa bispinosa (South Africa); Phyllosticta austroafricana on leaf spots of unidentified deciduous tree host (South Africa); Pseudosigmoidea alnicola on Alnus glutinosa leaf litter (Germany); Pseudoteratosphaeria africana on leaf spot on unidentified host (Angola); Porodiplodia vitis on canes of Vitis vinifera (USA); Sodiomyces alkalinus from soil (Mongolia), Sodiomyces magadiensis and Sodiomyces tronii from soil (Kenya), Sympodiella quercina on fallen leaf of Quercus robur (Germany) and Zasmidium hakeicola on leaves of Hakea corymbosa (Australia). …”
Publicado 2019
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1618por Crous, P.W., Wingfield, M.J., Burgess, T.I., Hardy, G.E.St.J., Barber, P.A., Alvarado, P., Barnes, C.W., Buchanan, P.K., Heykoop, M., Moreno, G., Thangavel, R., van der Spuy, S., Barili, A., Barrett, S., Cacciola, S.O., Cano-Lira, J.F., Crane, C., Decock, C., Gibertoni, T.B., Guarro, J., Guevara-Suarez, M., Hubka, V., Kolařík, M., Lira, C.R.S., Ordoñez, M.E., Padamsee, M., Ryvarden, L., Soares, A.M., Stchigel, A.M., Sutton, D.A., Vizzini, A., Weir, B.S., Acharya, K., Aloi, F., Baseia, I.G., Blanchette, R.A., Bordallo, J.J., Bratek, Z., Butler, T., Cano-Canals, J., Carlavilla, J.R., Chander, J., Cheewangkoon, R., Cruz, R.H.S.F., da Silva, M., Dutta, A.K., Ercole, E., Escobio, V., Esteve-Raventós, F., Flores, J.A., Gené, J., Góis, J.S., Haines, L., Held, B.W., Jung, M. Horta, Hosaka, K., Jung, T., Jurjević, Ž., Kautman, V., Kautmanova, I., Kiyashko, A.A., Kozanek, M., Kubátová, A., Lafourcade, M., La Spada, F., Latha, K.P.D., Madrid, H., Malysheva, E.F., Manimohan, P., Manjón, J.L., Martín, M.P., Mata, M., Merényi, Z., Morte, A., Nagy, I., Normand, A.-C., Paloi, S., Pattison, N., Pawłowska, J., Pereira, O.L., Petterson, M.E., Picillo, B., Raj, K.N.A., Roberts, A., Rodríguez, A., Rodríguez-Campo, F.J., Romański, M., Ruszkiewicz-Michalska, M., Scanu, B., Schena, L., Semelbauer, M., Sharma, R., Shouche, Y.S., Silva, V., Staniaszek-Kik, M., Stielow, J.B., Tapia, C., Taylor, P.W.J., Toome-Heller, M., Vabeikhokhei, J.M.C., van Diepeningen, A.D., Van Hoa, N., M., Van Tri, Wiederhold, N.P., Wrzosek, M., Zothanzama, J., Groenewald, J.Z.“…New Zealand: Candida rongomai-pounamu on agaric mushroom surface, Candida vespimorsuum on cup fungus surface, Cylindrocladiella vitis on Vitis vinifera, Foliocryphia eucalyptorum on Eucalyptus sp., Ramularia vacciniicola on Vaccinium sp., and Rhodotorula ngohengohe on bird feather surface. …”
Publicado 2017
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1619por Crous, P.W., Wingfield, M.J., Lombard, L., Roets, F., Swart, W.J., Alvarado, P., Carnegie, A.J., Moreno, G., Luangsaard, J., Thangavel, R., Alexandrova, A.V., Baseia, I.G., Bellanger, J.-M., Bessette, A.E., Bessette, A.R., De la Peña-Lastra, S., García, D., Gené, J., Pham, T.H.G., Heykoop, M., Malysheva, E., Malysheva, V., Martín, M.P., Morozova, O.V., Noisripoom, W., Overton, B.E., Rea, A.E., Sewall, B.J., Smith, M.E., Smyth, C.W., Tasanathai, K., Visagie, C.M., Adamčík, S., Alves, A., Andrade, J.P., Aninat, M.J., Araújo, R.V.B., Bordallo, J.J., Boufleur, T., Baroncelli, R., Barreto, R.W., Bolin, J., Cabero, J., Caboň, M., Cafà, G., Caffot, M.L.H., Cai, L., Carlavilla, J.R., Chávez, R., de Castro, R.R.L., Delgat, L., Deschuyteneer, D., Dios, M.M., Domínguez, L.S., Evans, H.C., Eyssartier, G., Ferreira, B.W., Figueiredo, C.N., Liu, F., Fournier, J., Galli-Terasawa, L.V., Gil-Durán, C., Glienke, C., Gonçalves, M.F.M., Gryta, H., Guarro, J., Himaman, W., Hywel-Jones, N., Iturrieta-González, I., Ivanushkina, N.E., Jargeat, P., Khalid, A.N., Khan, J., Kiran, M., Kiss, L., Kochkina, G.A., Kolařík, M., Kubátová, A., Lodge, D.J., Loizides, M., Luque, D., Manjón, J.L., Marbach, P.A.S., Massola, N.S., Mata, M., Miller, A.N., Mongkolsamrit, S., Moreau, P.-A., Morte, A., Mujic, A., Navarro-Ródenas, A., Németh, M.Z., Nóbrega, T.F., Nováková, A., Olariaga, I., Ozerskaya, S.M., Palma, M.A., Petters-Vandresen, D.A.L., Piontelli, E., Popov, E.S., Rodríguez, A., Requejo, Ó., Rodrigues, A.C.M., Rong, I.H., Roux, J., Seifert, K.A., Silva, B.D.B., Sklenář, F., Smith, J.A., Sousa, J.O., Souza, H.G., De Souza, J.T., Švec, K., Tanchaud, P., Tanney, J.B., Terasawa, F., Thanakitpipattana, D., Torres-Garcia, D., Vaca, I., Vaghefi, N., van Iperen, A.L., Vasilenko, O.V., Verbeken, A., Yilmaz, N., Zamora, J.C., Zapata, M., Jurjević, Ž., Groenewald, J.Z.“…New Zealand, Neoconiothyrium viticola on stems of Vitis vinifera, Parafenestella pittospori on Pittosporum tenuifolium, Pilidium novae-zelandiae on Phoenix sp. …”
Publicado 2019
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1620por Crous, P.W., Cowan, D.A., Maggs-Kölling, G., Yilmaz, N., Thangavel, R., Wingfield, M.J., Noordeloos, M.E., Dima, B., Brandrud, T.E., Jansen, G.M., Morozova, O.V., Vila, J., Shivas, R.G., Tan, Y.P., Bishop-Hurley, S., Lacey, E., Marney, T.S., Larsson, E., Le Floch, G., Lombard, L., Nodet, P., Hubka, V., Alvarado, P., Berraf-Tebbal, A., Reyes, J.D., Delgado, G., Eichmeier, A., Jordal, J.B., Kachalkin, A.V., Kubátová, A., Maciá-Vicente, J.G., Malysheva, E.F., Papp, V., Rajeshkumar, K.C., Sharma, A., Spetik, M., Szabóová, D., Tomashevskaya, M.A., Abad, J.A., Abad, Z.G., Alexandrova, A.V., Anand, G., Arenas, F., Ashtekar, N., Balashov, S., Bañares, Á., Baroncelli, R., Bera, I., Biketova, A.Yu., Blomquist, C.L., Boekhout, T., Boertmann, D., Bulyonkova, T.M., Burgess, T.I., Carnegie, A.J., Cobo-Diaz, J.F., Corriol, G., Cunnington, J.H., da Cruz, M.O., Damm, U., Davoodian, N., de A. Santiago, A.L.C.M., Dearnaley, J., de Freitas, L.W.S., Dhileepan, K., Dimitrov, R., Di Piazza, S., Fatima, S., Fuljer, F., Galera, H., Ghosh, A., Giraldo, A., Glushakova, A.M., Gorczak, M., Gouliamova, D.E., Gramaje, D., Groenewald, M., Gunsch, C.K., Gutiérrez, A., Holdom, D., Houbraken, J., Ismailov, A.B., Istel, Ł., Iturriaga, T., Jeppson, M., Jurjević, Ž., Kalinina, L.B., Kapitonov, V.I., Kautmanová, I., Khalid, A.N., Kiran, M., Kiss, L., Kovács, Á., Kurose, D., Kušan, I., Lad, S., Læssøe, T., Lee, H.B., Luangsa-ard, J.J., Lynch, M., Mahamedi, A.E., Malysheva, V.F., Mateos, A., Matočec, N., Mešić, A., Miller, A.N., Mongkolsamrit, S., Moreno, G., Morte, A., Mostowfizadeh-Ghalamfarsa, R., Naseer, A., Navarro-Ródenas, A., Nguyen, T.T.T., Noisripoom, W., Ntandu, J.E., Nuytinck, J., Ostrý, V., Pankratov, T.A., Pawłowska, J., Pecenka, J., Pham, T.H.G., Polhorský, A., Pošta, A., Raudabaugh, D.B., Reschke, K., Rodríguez, A., Romero, M., Rooney-Latham, S., Roux, J., Sandoval-Denis, M., Smith, M.Th., Steinrucken, T.V., Svetasheva, T.Y., Tkalčec, Z., van der Linde, E.J., v.d. Vegte, M., Vauras, J., Verbeken, A., Visagie, C.M., Vitelli, J.S., Volobuev, S.V., Weill, A., Wrzosek, M., Zmitrovich, I.V., Zvyagina, E.A., Groenewald, J.Z.“…Novel species of fungi described in this study include those from various countries as follows: Algeria, Phaeoacremonium adelophialidum from Vitis vinifera. Antarctica, Comoclathris antarctica from soil. …”
Publicado 2021
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