| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1042751650 |
| P356 | DOI | 10.1186/S12864-015-1442-3 |
| P932 | PMC publication ID | 4373064 |
| P698 | PubMed publication ID | 25888081 |
| P5875 | ResearchGate publication ID | 276892349 |
| P50 | author | Zhangjun Fei | Q43263881 |
| P2093 | author name string | Min Gao | |
| Xiping Wang | |||
| Chen Jiao | |||
| P2860 | cites work | GenBank | Q21056874 |
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| Resistance to Erysiphe necator in the grapevine 'Kishmish vatkana' is controlled by a single locus through restriction of hyphal growth | Q47869728 | ||
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| Novel disease resistance specificities result from sequence exchange between tandemly repeated genes at the Cf-4/9 locus of tomato. | Q48041422 | ||
| The barley Mlo gene: a novel control element of plant pathogen resistance | Q48052711 | ||
| Dirigent proteins in conifer defense: gene discovery, phylogeny, and differential wound- and insect-induced expression of a family of DIR and DIR-like genes in spruce (Picea spp.). | Q50740271 | ||
| Genome-wide characterization and expression analysis of genetic variants in sweet orange | Q50935507 | ||
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| Ectopic expression of VpALDH2B4, a novel aldehyde dehydrogenase gene from Chinese wild grapevine (Vitis pseudoreticulata), enhances resistance to mildew pathogens and salt stress in Arabidopsis. | Q54339981 | ||
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| Effects of humidity on the development of grapevine powdery mildew | Q79684379 | ||
| Induction of defense responses in cultured parsley cells by plant cell wall fragments | Q83265644 | ||
| Selective sweep at the Rpv3 locus during grapevine breeding for downy mildew resistance | Q84986055 | ||
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| New genes as drivers of phenotypic evolution | Q34535226 | ||
| De novo transcriptome characterization of Vitis vinifera cv. Corvina unveils varietal diversity | Q34554469 | ||
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| Plant defense against herbivores: chemical aspects | Q34636552 | ||
| Whole-transcriptome, high-throughput RNA sequence analysis of the bovine macrophage response to Mycobacterium bovis infection in vitro | Q34658911 | ||
| Prediction and identification of natural antisense transcripts and their small RNAs in soybean (Glycine max) | Q34687363 | ||
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| Transcriptome of Erysiphe necator-infected Vitis pseudoreticulata leaves provides insight into grapevine resistance to powdery mildew | Q35822401 | ||
| CPC: assess the protein-coding potential of transcripts using sequence features and support vector machine. | Q35914259 | ||
| Different requirements for EDS1 and NDR1 by disease resistance genes define at least two R gene-mediated signaling pathways in Arabidopsis | Q36292957 | ||
| Plant hormones are versatile chemical regulators of plant growth. | Q37450755 | ||
| Chitin-induced activation of immune signaling by the rice receptor CEBiP relies on a unique sandwich-type dimerization | Q37519787 | ||
| Hormonal modulation of plant immunity | Q38007563 | ||
| APETALA2/Ethylene Responsive Factor (AP2/ERF) transcription factors: mediators of stress responses and developmental programs | Q38134762 | ||
| Repressor- and activator-type ethylene response factors functioning in jasmonate signaling and disease resistance identified via a genome-wide screen of Arabidopsis transcription factor gene expression | Q39234207 | ||
| Genome-wide patterns of genetic variation among elite maize inbred lines | Q39824622 | ||
| Powdery mildew induces defense-oriented reprogramming of the transcriptome in a susceptible but not in a resistant grapevine. | Q42521330 | ||
| The high polyphenol content of grapevine cultivar tannat berries is conferred primarily by genes that are not shared with the reference genome. | Q42632263 | ||
| The NB-ARC domain: a novel signalling motif shared by plant resistance gene products and regulators of cell death in animals | Q42675868 | ||
| Expression and functional analysis of two genes encoding transcription factors, VpWRKY1 and VpWRKY2, isolated from Chinese wild Vitis pseudoreticulata | Q42919807 | ||
| PEPR2 is a second receptor for the Pep1 and Pep2 peptides and contributes to defense responses in Arabidopsis. | Q43152590 | ||
| Pti4 is induced by ethylene and salicylic acid, and its product is phosphorylated by the Pto kinase | Q44489923 | ||
| Cold-induced silencing by long antisense transcripts of an Arabidopsis Polycomb target | Q45101053 | ||
| Up-regulated transcripts in a compatible powdery mildew-grapevine interaction | Q46053089 | ||
| The draft genome of watermelon (Citrullus lanatus) and resequencing of 20 diverse accessions | Q46093664 | ||
| Functions of EDS1-like and PAD4 genes in grapevine defenses against powdery mildew | Q46854613 | ||
| The comparative analysis of the potential relationship between resveratrol and stilbene synthase gene family in the development stages of grapes (Vitis quinquangularis and Vitis vinifera). | Q46970326 | ||
| Comparative analysis of the receptor-like kinase family in Arabidopsis and rice | Q47709872 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 223 | |
| P577 | publication date | 2015-03-21 | |
| P1433 | published in | BMC Genomics | Q15765854 |
| P1476 | title | Transcriptome characterization of three wild Chinese Vitis uncovers a large number of distinct disease related genes | |
| P478 | volume | 16 |
| Q35961674 | Association analysis for disease resistance to Fusarium oxysporum in cape gooseberry (Physalis peruviana L). |
| Q37614553 | Ectopic Expression of the Wild Grape WRKY Transcription Factor VqWRKY52 in Arabidopsis thaliana Enhances Resistance to the Biotrophic Pathogen Powdery Mildew But Not to the Necrotrophic Pathogen Botrytis cinerea |
| Q91868768 | Emergent Ascomycetes in Viticulture: An Interdisciplinary Overview |
| Q42138643 | How Single Molecule Real-Time Sequencing and Haplotype Phasing Have Enabled Reference-Grade Diploid Genome Assembly of Wine Grapes |
| Q64241037 | Iso-Seq Allows Genome-Independent Transcriptome Profiling of Grape Berry Development |
| Q90043085 | Recent advances in biotechnological studies on wild grapevines as valuable resistance sources for smart viticulture |
| Q36187700 | Transcriptome analyses of seed development in grape hybrids reveals a possible mechanism influencing seed size |
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