count	source_label	source_id	relationship	target_label	target_id	entity_type	solr_id	publication_id	sentences
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		UNIPROT:P08865	Protein	30708a92-0532-11f0-9c9e-0050569a1f61	10.1016/j.cj.2024.06.010	Besides, PevD1 induced the accumulation of SA and lignin by promoting the activation of ERF114-regulatedPAL1transcription[53].
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		UNIPROT:P19021	Protein	211401d2-1acc-11f0-b759-0050569a791b	10.1016/j.pmpp.2024.102450	PevD1 interacts with Nbnrp1 protein to enhance the activity of PPO, PAL in tobacco, which makes plants produce disease resistance [34].
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		UNIPROT:P50336	Protein	211401d2-1acc-11f0-b759-0050569a791b	10.1016/j.pmpp.2024.102450	PevD1 interacts with Nbnrp1 protein to enhance the activity of PPO, PAL in tobacco, which makes plants produce disease resistance [34].
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		CHEBI:6457	Chemical	30708a92-0532-11f0-9c9e-0050569a1f61	10.1016/j.cj.2024.06.010	Besides, PevD1 induced the accumulation of SA and lignin by promoting the activation of ERF114-regulatedPAL1transcription[53].
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		MESH:D007239	Phenotype	30708a92-0532-11f0-9c9e-0050569a1f61	10.1016/j.cj.2024.06.010	The nuclear effector PevD1 promotes the infection ofV.
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		UNIPROT:Q86TD4	Protein	a14bddf8-c468-11e5-9da3-001a4ae51247	24080193	Analysis of the deduced amino acid sequence suggested that PevD1 does not share significant homology with other known proteins, and the detailed mechanisms of HR and SAR induction by PevD1 in tobacco are still unclear.|||The data presented in this study are consistent with early findings which indicated that the phenotypes of HR and SAR were only induced by the C-terminal or N-terminal portion of PevD1 separately, and the HR (or SAR) induced by PevD1 is not accompanied by the development of SAR (or HR).
2	PEVD1_VERDA	UNIPROT:G0Y276	activates		GO:0000725	Phenotype	a14bddf8-c468-11e5-9da3-001a4ae51247	24080193	Analysis of the deduced amino acid sequence suggested that PevD1 does not share significant homology with other known proteins, and the detailed mechanisms of HR and SAR induction by PevD1 in tobacco are still unclear.|||The data presented in this study are consistent with early findings which indicated that the phenotypes of HR and SAR were only induced by the C-terminal or N-terminal portion of PevD1 separately, and the HR (or SAR) induced by PevD1 is not accompanied by the development of SAR (or HR).
1	PEVD1_VERDA	UNIPROT:G0Y276	activates		GO:0009058	Phenotype	1a4e414a-c754-11ee-ae05-0050569a1f61	10.1016/j.micpath.2023.106276	benthamianamediates PevD1-induced defense responses via the sesquiterpenoid phytoalexins biosynthesis pathways [236].
1	PEVD1_VERDA	UNIPROT:G0Y276	activates		MESH:D007239	Phenotype	84820778-680d-11e9-8e95-001a4a160175	PMC6483360	The protein elicitor PevD1 isolated from Verticillium dahliaecan enhance resistance to pathogen infection in plants, metabolite deposition, and cell wall modification [64,65].
1	PEVD1_VERDA	UNIPROT:G0Y276	activates		GO:0008219	Phenotype	c89db116-ae94-11ec-8f68-0050569a1f61	PMCPMC8497623	Notably, it has been shown that, like Ds70694, both PevD1 and MoHrip1 can trigger cell death inNicotianaspecies44–46.
1	PEVD1_VERDA	UNIPROT:G0Y276	activates		GO:0010150	Phenotype	a7a79902-3c7d-11f0-8978-0050569a1f61	10.1016/j.pbi.2022.102228	"</ce:simple-para>
                     </ce:note>
                  </ce:bib-reference>
                  <ce:bib-reference id=""bib18"">
                     <ce:label>18</ce:label>
                     <sb:reference id=""sref18"">
                        <sb:contribution langtype=""en"">
                           <sb:authors>
                              <sb:author>
                                 <ce:given-name>Y.</ce:given-name>
                                 <ce:surname>Zhang</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>Y.</ce:given-name>
                                 <ce:surname>Gao</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>H.L.</ce:given-name>
                                 <ce:surname>Wang</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>C.</ce:given-name>
                                 <ce:surname>Kan</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>Z.</ce:given-name>
                                 <ce:surname>Li</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>X.</ce:given-name>
                                 <ce:surname>Yang</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>W.</ce:given-name>
                                 <ce:surname>Yin</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>X.</ce:given-name>
                                 <ce:surname>Xia</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>H.G.</ce:given-name>
                                 <ce:surname>Nam</ce:surname>
                              </sb:author>
                              <sb:author>
                                 <ce:given-name>Z.</ce:given-name>
                                 <ce:surname>Li</ce:surname>
                              </sb:author>
                              <sb:et-al/>
                           </sb:authors>
                           <sb:title>
                              <sb:maintitle>
                                 <ce:italic>Verticillium dahliae</ce:italic> secretory effector PevD1 induces leaf senescence by promoting ORE1-mediated ethylene biosynthesis</sb:maintitle>
                           </sb:title>
                        </sb:contribution>
                        <sb:host>
                           <sb:issue>
                              <sb:series>
                                 <sb:title>
                                    <sb:maintitle>Mol Plant</sb:maintitle>
                                 </sb:title>
                                 <sb:volume-nr>14</sb:volume-nr>
                              </sb:series>
                              <sb:date>2021</sb:date>
                           </sb:issue>
                           <sb:pages>
                              <sb:first-page>1901</sb:first-page>
                              <sb:last-page>1917</sb:last-page>
                           </sb:pages>
                        </sb:host>
                     </sb:reference>
                     <ce:source-text id=""srct0105"">Zhang Y, Gao Y, Wang HL, Kan C, Li Z, Yang X, Yin W, Xia X, Nam HG, Li Z, et al.: Verticillium dahliae secretory effector PevD1 induces leaf senescence by promoting ORE1-mediated ethylene biosynthesis."
1		GO:0000725	activates	PEVD1_VERDA	UNIPROT:G0Y276	Phenotype	a14bddf8-c468-11e5-9da3-001a4ae51247	24080193	Based on the results showed in this study, the HR induction activity of PevD1 likely to be resided in the C-terminal 57 amino acids.