To explore the material basis and mechanisms of the anti-inflammatory effects of Hibiscus mutabilis L..The active ingredients and potential targets of Hibiscus mutabilis L.were obtained through the literature review a...To explore the material basis and mechanisms of the anti-inflammatory effects of Hibiscus mutabilis L..The active ingredients and potential targets of Hibiscus mutabilis L.were obtained through the literature review and SwissADME platform.Genes related to the inflammation were collected using Genecards and OMIM databases,and the intersection genes were submitted on STRING and DAVID websites.Then,the protein interaction network(PPI),gene ontology(GO)and pathway(KEGG)were analyzed.Cytoscape 3.7.2 software was used to construct the“Hibiscus mutabilis L.-active ingredient-target-inflammation”network diagram,and AutoDockTools-1.5.6 software was used for the molecular docking verification.The antiinflammatory effect of Hibiscus mutabilis L.active ingredient was verified by the RAW264.7 inflammatory cell model.The results showed that 11 active components and 94 potential targets,1029 inflammatory targets and 24 intersection targets were obtained from Hibiscus mutabilis L..The key anti-inflammatory active ingredients of Hibiscus mutabilis L.are quercetin,apigenin and luteolin.Its action pathway is mainly related to NF-κB,cancer pathway and TNF signaling pathway.Cell experiments showed that total flavonoids of Hibiscus mutabilis L.could effectively inhibit the expression of tumor necrosis factor(TNF-α),interleukin 8(IL-8)and epidermal growth factor receptor(EGFR)in LPS-induced RAW 264.7 inflammatory cells.It also downregulates the phosphorylation of human nuclear factor ĸB inhibitory protein α(IĸBα)and NF-κB p65 subunit protein(p65).Overall,the anti-inflammatory effect of Hibiscus mutabilis L.is related to many active components,many signal pathways and targets,which provides a theoretical basis for its further development and application.展开更多
Background Unravelling the relationship between trichome density and resistance to jassids in upland cotton,nine parental lines,viz.MCU 5,CO 14,CO 17,TCH 1828,KC 2,KC 3,GISV 323,GTHV 15–34,and RHC 1409 were obtained ...Background Unravelling the relationship between trichome density and resistance to jassids in upland cotton,nine parental lines,viz.MCU 5,CO 14,CO 17,TCH 1828,KC 2,KC 3,GISV 323,GTHV 15–34,and RHC 1409 were obtained from the Tamilnadu Agricultural University.These genotypes were subjected to molecular analysis using 27 primers,merely the JESPR 154 primer amplifying a 150-bp fragment in genotypes exhibiting the pubescence.Result This finding validated the association between pubescence and jassid resistance.Further analysis revealed that resistant genotypes(KC 3,GTHV 15–34,GISV 323,and RHC 1409)exhibited significantly higher trichome densities and length compared with susceptible genotypes.These results stalwartly support the hypothesis that trichomes play a pivotal role in conferring resistance to jassids in upland cotton.Conclusion By breeding cotton varieties with increased trichome density and length,it is possible to reduce jassid infestations,thereby decreasing the reliance on chemical pesticides and promoting a more sustainable agricultural environment.展开更多
Cadmium(Cd)or excess copper(Cu)has a great impact in terms of toxicity on living organisms as it severely affects crop growth,yield and food security;thus,warranting appropriate measures for the remediation of Cd or C...Cadmium(Cd)or excess copper(Cu)has a great impact in terms of toxicity on living organisms as it severely affects crop growth,yield and food security;thus,warranting appropriate measures for the remediation of Cd or Cu polluted soils.Phytoextraction of heavy metal(HM)using tolerant plants along with organic chelators has gained global attention,and this study provided further insights into this issue.Pot experiments were performed to evaluate the effects of different types of chelators[ethylenediamine tetraacetic acid(EDTA),ethylenediamine disuccinic acid(EDDS)and citric acid(CA)]to improve the phytoextraction capacity of Ricinus communis L.for the metals Cd and Cu.Contaminated soil from a copper smelter was used in this study.A rhizon soil sampler was used to determine the metal concentrations in soil pore water.The results indicated that R.communis was an adequate candidate for chelator induced phytoextraction under the experimental conditions and that EDDS would be a good candidate chelator for the phytoextraction of Cu in soils.EDTA addition obviously improved the uptake of Cd and Cu in R.communis;however,it posed the greatest risk because the concentration of HMs in soil pore water was very high even after 40 days.Compared with EDTA and EDDS,CA had few effects on Cd or Cu uptake in R.communis.Linear relationships between the metal uptake in R.communis shoots and the maximum HM concentrations in soil pore water under HM,2.5,5,and 10 mmol·kg^(-1) treatments were typically observed.From the results of this study,it could be concluded that EDDS treatments played a promising role in increasing the uptake of Cd or Cu and reducing its phytotoxicity.EDDS application could be an effective approach for the phytoextraction of Cd or Cu from polluted soils by growing Ricinus communis L.展开更多
Background Mepiquat chloride(MC)is a widely used plant growth regulator in cotton(Gossypium hirsutum L.).It regulates endogenous hormone content and crosstalk to control plant height and promote lateral root(LR)develo...Background Mepiquat chloride(MC)is a widely used plant growth regulator in cotton(Gossypium hirsutum L.).It regulates endogenous hormone content and crosstalk to control plant height and promote lateral root(LR)development.However,the roles of cytokinins(CTKs)in the MC-induced increase in LR number in cotton seedlings remain unclear.Therefore,in this study,whole-genome transcriptome analysis was performed to elucidate the molecular mechanisms,CTK transformation,and CTK signaling pathway response to MC in cotton roots.Results In the present study,MC reduced the contents of the active CTK trans-zeatin(tZ)and N^(6)-isopentenyladenine(iP)but increased the levels of the nucleoside CTK trans-zeatin riboside(tZR)and N^(6)-isopentenyladenine riboside(iPR).RNA-seq data showed that the CTK biosynthesis genes GhIPTs and active CTK catabolism genes GhCKXs were obviously upregulated after MC treatment.The CTK-activating enzyme gene GhLOGs was repressed compared with the control.Furthermore,MC inhibited the expression of GhAHK4 and GhARR2/12,which are involved in the CTK signaling pathway,and activated the IAA-IAA14-ARF7/19 signaling module.Meanwhile,MC increased the expression levels of genes involved in sucrose synthesis,the cell cycle,cell division,and cell wall biosynthesis pathways.Silencing the GhCKX family separately decreased the LR number and active indole-3-acetic acid(IAA)level.The expression levels of GhPIN1,GhARF7,GhARF19,GhLBD16,GhLBD18,GhLBD29,and GhLBD33 were downregulated,but GhARR2/12 and GhIAA14 were upregulated.The total content of active CTKs was noticeably increased.The results of silencing the GhLOGs family were opposite to those of silencing GhCKXs.Silencing GhARR12 could upregulate GhPIN1 expression and increase LR number.In addition,the silenced GhCKXs,GhLOGs,and GhARR12 were less responsive to MCinduced LR growth than the control.Conclusion These results suggested that MC treatment could upregulate CTK-nucleoside biosynthesis and CTK metabolism genes to decrease active CTK levels,promoting crosstalk between CTKs and auxin signaling pathways to enhance LR initiation.展开更多
Trifolium repens L.served as the experimental subject to investigate the effects of varying concentrations of Hg and Pb stress on seed germination,thereby providing a theoretical foundation for further research on the...Trifolium repens L.served as the experimental subject to investigate the effects of varying concentrations of Hg and Pb stress on seed germination,thereby providing a theoretical foundation for further research on the remediation of heavy-metal-contaminated soil utilizing this species.The findings indicated that the germination energy,germination percentage and germination index under 10 mg·L^(-1) Hg treatment were significantly elevated compared to the CK group(P<0.05),with a remarkable germination percentage reaching 97%.Conversely,the germination energy,germination percentage,germination index,vigor index,radicle length,and fresh weight under 200 mg·L^(-1) Hg treatment were substantially lower than those of the CK group(P<0.05).At 100 mg·L^(-1) Pb treatment,the radicle length of Trifolium repens L.was significantly higher than that of the CK group,whereas the 500 mg·L^(-1) Pb treatment resulted in a notable reduction in seed germination energy,germination percentage,germination index,and vigor index compared to the CK group(P<0.05).Under Hg and Pb stress,the activities of superoxide dismutase(SOD)and peroxidase(POD)initially increased before declining,while catalase(CAT)activity rose with increasing heavy metal concentrations.Ultrastructure observations of the radicle revealed that 200 mg·L^(-1) Hg inflicted considerable damage to the radicle of Trifolium repens L.,and 500 mg·L^(-1) Pb also harmed root cells,resulting in the dissolution of nucleoli within the nuclear membrane.The results demonstrated that low concentrations of heavy metal also promoted the germination of Trifolium repens L.,while both 200 mg·L^(-1) Hg and 500 mg·L^(-1) Pb significantly inhibited its germination.展开更多
文摘To explore the material basis and mechanisms of the anti-inflammatory effects of Hibiscus mutabilis L..The active ingredients and potential targets of Hibiscus mutabilis L.were obtained through the literature review and SwissADME platform.Genes related to the inflammation were collected using Genecards and OMIM databases,and the intersection genes were submitted on STRING and DAVID websites.Then,the protein interaction network(PPI),gene ontology(GO)and pathway(KEGG)were analyzed.Cytoscape 3.7.2 software was used to construct the“Hibiscus mutabilis L.-active ingredient-target-inflammation”network diagram,and AutoDockTools-1.5.6 software was used for the molecular docking verification.The antiinflammatory effect of Hibiscus mutabilis L.active ingredient was verified by the RAW264.7 inflammatory cell model.The results showed that 11 active components and 94 potential targets,1029 inflammatory targets and 24 intersection targets were obtained from Hibiscus mutabilis L..The key anti-inflammatory active ingredients of Hibiscus mutabilis L.are quercetin,apigenin and luteolin.Its action pathway is mainly related to NF-κB,cancer pathway and TNF signaling pathway.Cell experiments showed that total flavonoids of Hibiscus mutabilis L.could effectively inhibit the expression of tumor necrosis factor(TNF-α),interleukin 8(IL-8)and epidermal growth factor receptor(EGFR)in LPS-induced RAW 264.7 inflammatory cells.It also downregulates the phosphorylation of human nuclear factor ĸB inhibitory protein α(IĸBα)and NF-κB p65 subunit protein(p65).Overall,the anti-inflammatory effect of Hibiscus mutabilis L.is related to many active components,many signal pathways and targets,which provides a theoretical basis for its further development and application.
文摘Background Unravelling the relationship between trichome density and resistance to jassids in upland cotton,nine parental lines,viz.MCU 5,CO 14,CO 17,TCH 1828,KC 2,KC 3,GISV 323,GTHV 15–34,and RHC 1409 were obtained from the Tamilnadu Agricultural University.These genotypes were subjected to molecular analysis using 27 primers,merely the JESPR 154 primer amplifying a 150-bp fragment in genotypes exhibiting the pubescence.Result This finding validated the association between pubescence and jassid resistance.Further analysis revealed that resistant genotypes(KC 3,GTHV 15–34,GISV 323,and RHC 1409)exhibited significantly higher trichome densities and length compared with susceptible genotypes.These results stalwartly support the hypothesis that trichomes play a pivotal role in conferring resistance to jassids in upland cotton.Conclusion By breeding cotton varieties with increased trichome density and length,it is possible to reduce jassid infestations,thereby decreasing the reliance on chemical pesticides and promoting a more sustainable agricultural environment.
基金Supported by the Joint Funds of the National Natural Science Foundation of China(U2340219)。
文摘Cadmium(Cd)or excess copper(Cu)has a great impact in terms of toxicity on living organisms as it severely affects crop growth,yield and food security;thus,warranting appropriate measures for the remediation of Cd or Cu polluted soils.Phytoextraction of heavy metal(HM)using tolerant plants along with organic chelators has gained global attention,and this study provided further insights into this issue.Pot experiments were performed to evaluate the effects of different types of chelators[ethylenediamine tetraacetic acid(EDTA),ethylenediamine disuccinic acid(EDDS)and citric acid(CA)]to improve the phytoextraction capacity of Ricinus communis L.for the metals Cd and Cu.Contaminated soil from a copper smelter was used in this study.A rhizon soil sampler was used to determine the metal concentrations in soil pore water.The results indicated that R.communis was an adequate candidate for chelator induced phytoextraction under the experimental conditions and that EDDS would be a good candidate chelator for the phytoextraction of Cu in soils.EDTA addition obviously improved the uptake of Cd and Cu in R.communis;however,it posed the greatest risk because the concentration of HMs in soil pore water was very high even after 40 days.Compared with EDTA and EDDS,CA had few effects on Cd or Cu uptake in R.communis.Linear relationships between the metal uptake in R.communis shoots and the maximum HM concentrations in soil pore water under HM,2.5,5,and 10 mmol·kg^(-1) treatments were typically observed.From the results of this study,it could be concluded that EDDS treatments played a promising role in increasing the uptake of Cd or Cu and reducing its phytotoxicity.EDDS application could be an effective approach for the phytoextraction of Cd or Cu from polluted soils by growing Ricinus communis L.
基金supported by the National Natural Science Foundation of China(Grant No.31471434)。
文摘Background Mepiquat chloride(MC)is a widely used plant growth regulator in cotton(Gossypium hirsutum L.).It regulates endogenous hormone content and crosstalk to control plant height and promote lateral root(LR)development.However,the roles of cytokinins(CTKs)in the MC-induced increase in LR number in cotton seedlings remain unclear.Therefore,in this study,whole-genome transcriptome analysis was performed to elucidate the molecular mechanisms,CTK transformation,and CTK signaling pathway response to MC in cotton roots.Results In the present study,MC reduced the contents of the active CTK trans-zeatin(tZ)and N^(6)-isopentenyladenine(iP)but increased the levels of the nucleoside CTK trans-zeatin riboside(tZR)and N^(6)-isopentenyladenine riboside(iPR).RNA-seq data showed that the CTK biosynthesis genes GhIPTs and active CTK catabolism genes GhCKXs were obviously upregulated after MC treatment.The CTK-activating enzyme gene GhLOGs was repressed compared with the control.Furthermore,MC inhibited the expression of GhAHK4 and GhARR2/12,which are involved in the CTK signaling pathway,and activated the IAA-IAA14-ARF7/19 signaling module.Meanwhile,MC increased the expression levels of genes involved in sucrose synthesis,the cell cycle,cell division,and cell wall biosynthesis pathways.Silencing the GhCKX family separately decreased the LR number and active indole-3-acetic acid(IAA)level.The expression levels of GhPIN1,GhARF7,GhARF19,GhLBD16,GhLBD18,GhLBD29,and GhLBD33 were downregulated,but GhARR2/12 and GhIAA14 were upregulated.The total content of active CTKs was noticeably increased.The results of silencing the GhLOGs family were opposite to those of silencing GhCKXs.Silencing GhARR12 could upregulate GhPIN1 expression and increase LR number.In addition,the silenced GhCKXs,GhLOGs,and GhARR12 were less responsive to MCinduced LR growth than the control.Conclusion These results suggested that MC treatment could upregulate CTK-nucleoside biosynthesis and CTK metabolism genes to decrease active CTK levels,promoting crosstalk between CTKs and auxin signaling pathways to enhance LR initiation.
基金Supported by the National Grass Industry Technology Innovation Center,Major Innovation Platform Construction Project(Topic CCPTZX2023N04CCPTZX2024GJ01–1–2)+2 种基金the National Key Research and Development Program of China(2023YFD1200302)the Joint Key Project of Natural Science Foundation of Heilongjiang Province(ZL2024C018)the National Natural Science Foundation of China(32471760)。
文摘Trifolium repens L.served as the experimental subject to investigate the effects of varying concentrations of Hg and Pb stress on seed germination,thereby providing a theoretical foundation for further research on the remediation of heavy-metal-contaminated soil utilizing this species.The findings indicated that the germination energy,germination percentage and germination index under 10 mg·L^(-1) Hg treatment were significantly elevated compared to the CK group(P<0.05),with a remarkable germination percentage reaching 97%.Conversely,the germination energy,germination percentage,germination index,vigor index,radicle length,and fresh weight under 200 mg·L^(-1) Hg treatment were substantially lower than those of the CK group(P<0.05).At 100 mg·L^(-1) Pb treatment,the radicle length of Trifolium repens L.was significantly higher than that of the CK group,whereas the 500 mg·L^(-1) Pb treatment resulted in a notable reduction in seed germination energy,germination percentage,germination index,and vigor index compared to the CK group(P<0.05).Under Hg and Pb stress,the activities of superoxide dismutase(SOD)and peroxidase(POD)initially increased before declining,while catalase(CAT)activity rose with increasing heavy metal concentrations.Ultrastructure observations of the radicle revealed that 200 mg·L^(-1) Hg inflicted considerable damage to the radicle of Trifolium repens L.,and 500 mg·L^(-1) Pb also harmed root cells,resulting in the dissolution of nucleoli within the nuclear membrane.The results demonstrated that low concentrations of heavy metal also promoted the germination of Trifolium repens L.,while both 200 mg·L^(-1) Hg and 500 mg·L^(-1) Pb significantly inhibited its germination.
基金Supported by the Key Research of Southwest University of Science and Technology-"Biologic Stability and Mutation under the Radiate Environment and the Mechanism"(07XJGZB05)Research Foundation of Southwest University of Science and Technology for youth(O8zx315208zx3152)
