[Objectives] This study was conducted to investigate the scientific prevention and control of Solanum nigrum L. [Methods] Through experiments on S. nigrum from different sources, it was found that glyphosate stress ha...[Objectives] This study was conducted to investigate the scientific prevention and control of Solanum nigrum L. [Methods] Through experiments on S. nigrum from different sources, it was found that glyphosate stress had significant effects on antioxidant enzyme activity and oxidative damage of sensitive S. nigrum plants. [Results] Sensitive S. nigrum showed oxidative damage under glyphosate stress, while resistant S. nigrum responded to adversity damage by improving its antioxidant enzyme activity. The experimental results showed that the antioxidant enzymes and reduced glutathione of S. nigrum had certain metabolic detoxification effects under glyphosate stress. [Conclusions] This study provides a theoretical basis for scientific prevention and control of S. nigrum , and has a certain reference value for revealing the glyphosate resistance mechanism of S. nigrum .展开更多
In 2020,breast cancer emerged as the leading type of cancer worldwide,surpassing lung cancer in the number of new cases.The high cost and frequent failure of current treatments due to drug resistance and other challen...In 2020,breast cancer emerged as the leading type of cancer worldwide,surpassing lung cancer in the number of new cases.The high cost and frequent failure of current treatments due to drug resistance and other challenges underscore the urgent need for novel,affordable,efficient,and less toxic breast cancer therapies with fewer side effects.This study aims to investigate the molecular mechanisms by which Solanum Nigrum L.counters breast cancer,employing network pharmacology and molecular docking methods.Methods:The study identified the primary active compounds of Solanum Nigrum L.using databases such as TCMSP,TCM-ID,NPASS,and BATMAN.Prediction of the compounds'targets was facilitated by the SwissADME website,while main breast cancer targets were sourced from the GeneCards,OMIM,and TTD databases.The identified drug-disease intersection targets were analyzed using the STRING platform to construct a protein interaction network,which was then visualized and refined to select hub targets using Cytoscape 3.9.0 software.The Metascape database's MOCDE functional plugin was employed for identifying potential functional modules within the protein interaction network.Further,the DAVID database was utilized for GO and KEGG enrichment analyses of the intersection targets.Molecular docking of key active compounds with core targets was performed using AutoDock Tools 1.5.7 software.Lastly,the GEPIA2.0 database was used for predicting overall survival curves of hub targets and conducting a pan-cancer analysis.Results:Eleven active compounds of Solanum Nigrum L.,including Diosgenin,Tigogenin,and Quercetin,were identified from traditional Chinese medicine databases.We discovered 113 targets common to both Solanum Nigrum L.and breast cancer.Solanum Nigrum L.exhibits anti-breast cancer properties through interactions with 14 key targets,including SRC,PIK3R1,HSP90AA1,PIK3CA,AKT1,VEGFA,and ESR1.These interactions influence several critical signaling pathways,notably the cancer signaling pathway,PI3K-Akt signaling pathway,Ras signaling pathway,and EGFR signaling pathway.Survival analysis indicated that the aberrant expression of these 14 key targets significantly affects patient survival times.Furthermore,pan-cancer analysis highlighted marked differences in the expression patterns of these targets between breast cancer patients and control groups.Conclusion:Solanum Nigrum L.mediates its therapeutic impact on breast cancer through a comprehensive approach,targeting multiple components,targets,and pathways.展开更多
The stress effect of cadmium absorption between aloe and Solanum nigrum L was studied through a simulation experiment with different cadmium contents in soil. The results showed that the growth characteristics, biomas...The stress effect of cadmium absorption between aloe and Solanum nigrum L was studied through a simulation experiment with different cadmium contents in soil. The results showed that the growth characteristics, biomass and Cd content in the plants of aloe and S. nigrum L were closely related to Cd content in the soil, and S. nigrum L and aloe had a strong tolerance to Cd in the experiment, pH of rhizosphere soil with S. ni- grum L and aloe planted was generally higher than that of non-rhizosphere soil, which is related to the planting pattern. Compared with aloe, S. nig- rum L had a stronger capacity to accumulate Cd, and intercropping S. nigrum L and aloe could inhibit aloe's absorption of Cd, which is favorable to the safe planting of aloe. In addition, S. nigrum L has the potential to restore polluted soil.展开更多
[Objectives] To screen the optimal macroporous resin for polysaccharide of Solanum nigrum L. [Methods] The polysaccharide content was taken as the indicator, and adsorption and desorption performance of 20 kinds of re...[Objectives] To screen the optimal macroporous resin for polysaccharide of Solanum nigrum L. [Methods] The polysaccharide content was taken as the indicator, and adsorption and desorption performance of 20 kinds of resin were observed and studied. [Results] Adsorption and desorption performance of 20 kinds of resin had significant difference. S-8 type macroporous resin showed the best comprehensive property. [Conclusions] S-8 type macroporous resin should be used to purify polysaccharide of S. nigrum L.展开更多
The antioxygenic activity of Solanum nigrum L. leaves and its various solvent extracts were evaluated using sunflower oil model system. Leaf powder and its methanol/water (80:20) soluble fraction showed strong antioxy...The antioxygenic activity of Solanum nigrum L. leaves and its various solvent extracts were evaluated using sunflower oil model system. Leaf powder and its methanol/water (80:20) soluble fraction showed strong antioxygenic activity in refined sunflower oil. On the other hand, ethyl acetate fraction exhibited marginal antioxygenic activity, whereas the water soluble fraction was practically devoid of any activity in refined sunflower oil. Thermal stability of different extracts of Solanum nigrum L. leaves heated at 80?C in refined sunflower oil also indicated the strong efficacy of methanol/water (80:20) extract to inhibit thermal oxidation. Solanum nigrum L. contain high levels of magnesium (239.0 mg/100g) and phosphorous (80.3 mg/100g). Fatty acid analysis of the lipid extracted from Solanum nigrum L. leaves indicated the presence of linoleic (59.1%) as a major fatty acid. The result of this study confirmed the presence of antioxygenic compounds in leaves, in particular its methanol/water (80:20) extracts showed great potential as a natural antioxidant to inhibit lipid peroxidation in foods.展开更多
The effects of different electrode on Solanum nigrum L.seed germination were determined.The result showed that germination percentage(GP)of seeds in treatment T2(titanium elec-trode)was 26.6%higher than in control(CK,...The effects of different electrode on Solanum nigrum L.seed germination were determined.The result showed that germination percentage(GP)of seeds in treatment T2(titanium elec-trode)was 26.6%higher than in control(CK,without electric field).High potassium and calcium concentrations were beneficial for seed enzymatic activity in treatment T2,which could partly explain the increase in GP.Cd accumulation(μg/pot)in S.nigrum treated with any electric field was significantly higher(p<0.05)than in CK without electric field.Specif-ically,Cd accumulation under the treatment T3(stainless steel electrode)was the highest both in roots and shoots;this accumulation in shoots and roots were 74.7%and 67.4%higher for stainless steel than in CK.This increase must have been associated with a higher Cd concentration in plants and did not exert a significant effect on the biomass.In par-ticular,Cd concentrations in roots and shoots under stainless steel treatment were both significantly higher than in CK(p<0.05),which had to be related to the higher available Cd concentration in the soil in the middle region.Furthermore,it could be attributed to al-tered soil pH and other soil properties.Moreover,none of the biomasses were significantly affected(p<0.05)by different electrode materials compared to CK.展开更多
A systematic investigation was conducted to screen for cadmium-hyperaccumulator from 54 species in 20 weed families using outdoor pot-culture experiment and small-scale field experiment. The results from the outdoor p...A systematic investigation was conducted to screen for cadmium-hyperaccumulator from 54 species in 20 weed families using outdoor pot-culture experiment and small-scale field experiment. The results from the outdoor pot-culture experiment showed that Cd concentrations in the stems and leaves of Solanum nigrum L. growing in a soil spiked with 25 mg/kg Cd were up to 103.8 and 124.6 mg/kg (DW), respectively, which was greater than 100 mg/kg, minimum Cd concentration for a Cd-hyperaccumulator. The Cdenrichment factor(EF,concentration ratio in plant to soil) in shoots was as high as 2.68. Moreover, Cd accumulation in shoots was greater than that in roots (TF, concentration ratio in shoots to roots) and the plant biomass growth was not inhibited at the Cd concentrations tested compared with the control. The results of the small-scale field experiment also showed that the characteristics of Cd accumulation in S. nigrum were all consistent with the characteristics of Cd-hyperaccumulators. Thus S. nigrum can be classified as a Cd-hyperaccumulator. This work is important for further research in the areas of hyperaccumulators screening, and plant-tolerance physiology and evolution. It provides a pat- entable new plant species for phytoremediation of Cd-con- taminated soils.展开更多
<i><span style="font-family:;" "="">Solanum nigrum</span></i><span style="font-family:;" "=""> L. has a delightful prospect as a hyperacc...<i><span style="font-family:;" "="">Solanum nigrum</span></i><span style="font-family:;" "=""> L. has a delightful prospect as a hyperaccumulation plant for cadmium pollution remediation, and microplastic is a new type of pollution that has received wide attention. In this study, the effects of polyethylene microplastics (LDPE) (0.135, 0.27, 0.81 and 1.35 mg·kg<sup>-1</sup>) and cadmium (20 mg·kg<sup>-1</sup>) on the growth indexes and soil physical and chemical properties of <i>Solanum nigrum</i> L. were investigated in a 17-day microcosm experiment. The results showed that single LDPE contamination showed a trend of low concentration promotion and medium-high concentration inhibited the growth index of <i>Solanum nigrum</i> L. and soil physicochemical index, and single Cd contamination was more stressful to plants than single LDPE contamination, while low concentration of LDPE could reduce the effect of Cd on soil physical and chemical properties and promote plant growth and uptake of soil nutrients. These findings suggest that high concentrations of microplastics can inhibit the growth of <i>Solanum nigrum</i> L. alone or in combination with Cd, rather than reducing the toxicity of Cd.</span>展开更多
基金Supported by Key Laboratory Open Platform Project of Hunan Provincial Department of Education(16K047)Hunan Science and Technology Progject(2023NK 4289)。
文摘[Objectives] This study was conducted to investigate the scientific prevention and control of Solanum nigrum L. [Methods] Through experiments on S. nigrum from different sources, it was found that glyphosate stress had significant effects on antioxidant enzyme activity and oxidative damage of sensitive S. nigrum plants. [Results] Sensitive S. nigrum showed oxidative damage under glyphosate stress, while resistant S. nigrum responded to adversity damage by improving its antioxidant enzyme activity. The experimental results showed that the antioxidant enzymes and reduced glutathione of S. nigrum had certain metabolic detoxification effects under glyphosate stress. [Conclusions] This study provides a theoretical basis for scientific prevention and control of S. nigrum , and has a certain reference value for revealing the glyphosate resistance mechanism of S. nigrum .
基金supported by Local special projects in major health of Hubei Provincial Science and Technology Department(2022BCE054)Key scientific research projects of Hubei polytechnic University(23xjz08A)Hubei polytechnic University Huangshi Daye Lake high-tech Zone University Science Park joint open fund project(23xjz04AK).
文摘In 2020,breast cancer emerged as the leading type of cancer worldwide,surpassing lung cancer in the number of new cases.The high cost and frequent failure of current treatments due to drug resistance and other challenges underscore the urgent need for novel,affordable,efficient,and less toxic breast cancer therapies with fewer side effects.This study aims to investigate the molecular mechanisms by which Solanum Nigrum L.counters breast cancer,employing network pharmacology and molecular docking methods.Methods:The study identified the primary active compounds of Solanum Nigrum L.using databases such as TCMSP,TCM-ID,NPASS,and BATMAN.Prediction of the compounds'targets was facilitated by the SwissADME website,while main breast cancer targets were sourced from the GeneCards,OMIM,and TTD databases.The identified drug-disease intersection targets were analyzed using the STRING platform to construct a protein interaction network,which was then visualized and refined to select hub targets using Cytoscape 3.9.0 software.The Metascape database's MOCDE functional plugin was employed for identifying potential functional modules within the protein interaction network.Further,the DAVID database was utilized for GO and KEGG enrichment analyses of the intersection targets.Molecular docking of key active compounds with core targets was performed using AutoDock Tools 1.5.7 software.Lastly,the GEPIA2.0 database was used for predicting overall survival curves of hub targets and conducting a pan-cancer analysis.Results:Eleven active compounds of Solanum Nigrum L.,including Diosgenin,Tigogenin,and Quercetin,were identified from traditional Chinese medicine databases.We discovered 113 targets common to both Solanum Nigrum L.and breast cancer.Solanum Nigrum L.exhibits anti-breast cancer properties through interactions with 14 key targets,including SRC,PIK3R1,HSP90AA1,PIK3CA,AKT1,VEGFA,and ESR1.These interactions influence several critical signaling pathways,notably the cancer signaling pathway,PI3K-Akt signaling pathway,Ras signaling pathway,and EGFR signaling pathway.Survival analysis indicated that the aberrant expression of these 14 key targets significantly affects patient survival times.Furthermore,pan-cancer analysis highlighted marked differences in the expression patterns of these targets between breast cancer patients and control groups.Conclusion:Solanum Nigrum L.mediates its therapeutic impact on breast cancer through a comprehensive approach,targeting multiple components,targets,and pathways.
基金Supported by the Scientific Research Project of Public Welfare Industry of Ministry of Land and Resources,China(201111020-7)National Innovation Experimental Project for Undergraduates(201311078017)+1 种基金Scientific Research Project of Guangzhou Higher Education(10A062)Plan Project for Emerging Talents of Guangzhou University(2011)
文摘The stress effect of cadmium absorption between aloe and Solanum nigrum L was studied through a simulation experiment with different cadmium contents in soil. The results showed that the growth characteristics, biomass and Cd content in the plants of aloe and S. nigrum L were closely related to Cd content in the soil, and S. nigrum L and aloe had a strong tolerance to Cd in the experiment, pH of rhizosphere soil with S. ni- grum L and aloe planted was generally higher than that of non-rhizosphere soil, which is related to the planting pattern. Compared with aloe, S. nig- rum L had a stronger capacity to accumulate Cd, and intercropping S. nigrum L and aloe could inhibit aloe's absorption of Cd, which is favorable to the safe planting of aloe. In addition, S. nigrum L has the potential to restore polluted soil.
基金Supported by Science and Technology Planning Project of Zhejiang Province Science and Technology Department(2018C37091)Science and Technology Planning Project of Jiaxing Municipal Sci&Tech Bureau(2016AY23096)
文摘[Objectives] To screen the optimal macroporous resin for polysaccharide of Solanum nigrum L. [Methods] The polysaccharide content was taken as the indicator, and adsorption and desorption performance of 20 kinds of resin were observed and studied. [Results] Adsorption and desorption performance of 20 kinds of resin had significant difference. S-8 type macroporous resin showed the best comprehensive property. [Conclusions] S-8 type macroporous resin should be used to purify polysaccharide of S. nigrum L.
文摘The antioxygenic activity of Solanum nigrum L. leaves and its various solvent extracts were evaluated using sunflower oil model system. Leaf powder and its methanol/water (80:20) soluble fraction showed strong antioxygenic activity in refined sunflower oil. On the other hand, ethyl acetate fraction exhibited marginal antioxygenic activity, whereas the water soluble fraction was practically devoid of any activity in refined sunflower oil. Thermal stability of different extracts of Solanum nigrum L. leaves heated at 80?C in refined sunflower oil also indicated the strong efficacy of methanol/water (80:20) extract to inhibit thermal oxidation. Solanum nigrum L. contain high levels of magnesium (239.0 mg/100g) and phosphorous (80.3 mg/100g). Fatty acid analysis of the lipid extracted from Solanum nigrum L. leaves indicated the presence of linoleic (59.1%) as a major fatty acid. The result of this study confirmed the presence of antioxygenic compounds in leaves, in particular its methanol/water (80:20) extracts showed great potential as a natural antioxidant to inhibit lipid peroxidation in foods.
基金This work was supported by the National Natural Science Foundation of China(Nos.31870488,41571300)the Open Fund of Cultivation State Key Laboratory of Qinba Biological Resources and Ecological Environment of Shaanxi University of Technology(No.SLGPT2019KF04-02)the project of Foreign Experts Bureau of Shaanxi province of China(No.G20200241015).
文摘The effects of different electrode on Solanum nigrum L.seed germination were determined.The result showed that germination percentage(GP)of seeds in treatment T2(titanium elec-trode)was 26.6%higher than in control(CK,without electric field).High potassium and calcium concentrations were beneficial for seed enzymatic activity in treatment T2,which could partly explain the increase in GP.Cd accumulation(μg/pot)in S.nigrum treated with any electric field was significantly higher(p<0.05)than in CK without electric field.Specif-ically,Cd accumulation under the treatment T3(stainless steel electrode)was the highest both in roots and shoots;this accumulation in shoots and roots were 74.7%and 67.4%higher for stainless steel than in CK.This increase must have been associated with a higher Cd concentration in plants and did not exert a significant effect on the biomass.In par-ticular,Cd concentrations in roots and shoots under stainless steel treatment were both significantly higher than in CK(p<0.05),which had to be related to the higher available Cd concentration in the soil in the middle region.Furthermore,it could be attributed to al-tered soil pH and other soil properties.Moreover,none of the biomasses were significantly affected(p<0.05)by different electrode materials compared to CK.
基金the National Natural Science Foundation of China as the outstanding young scientist grant(Grant No.20225722) the overseas young scientist grant(Grant No.20428707).
文摘A systematic investigation was conducted to screen for cadmium-hyperaccumulator from 54 species in 20 weed families using outdoor pot-culture experiment and small-scale field experiment. The results from the outdoor pot-culture experiment showed that Cd concentrations in the stems and leaves of Solanum nigrum L. growing in a soil spiked with 25 mg/kg Cd were up to 103.8 and 124.6 mg/kg (DW), respectively, which was greater than 100 mg/kg, minimum Cd concentration for a Cd-hyperaccumulator. The Cdenrichment factor(EF,concentration ratio in plant to soil) in shoots was as high as 2.68. Moreover, Cd accumulation in shoots was greater than that in roots (TF, concentration ratio in shoots to roots) and the plant biomass growth was not inhibited at the Cd concentrations tested compared with the control. The results of the small-scale field experiment also showed that the characteristics of Cd accumulation in S. nigrum were all consistent with the characteristics of Cd-hyperaccumulators. Thus S. nigrum can be classified as a Cd-hyperaccumulator. This work is important for further research in the areas of hyperaccumulators screening, and plant-tolerance physiology and evolution. It provides a pat- entable new plant species for phytoremediation of Cd-con- taminated soils.
文摘<i><span style="font-family:;" "="">Solanum nigrum</span></i><span style="font-family:;" "=""> L. has a delightful prospect as a hyperaccumulation plant for cadmium pollution remediation, and microplastic is a new type of pollution that has received wide attention. In this study, the effects of polyethylene microplastics (LDPE) (0.135, 0.27, 0.81 and 1.35 mg·kg<sup>-1</sup>) and cadmium (20 mg·kg<sup>-1</sup>) on the growth indexes and soil physical and chemical properties of <i>Solanum nigrum</i> L. were investigated in a 17-day microcosm experiment. The results showed that single LDPE contamination showed a trend of low concentration promotion and medium-high concentration inhibited the growth index of <i>Solanum nigrum</i> L. and soil physicochemical index, and single Cd contamination was more stressful to plants than single LDPE contamination, while low concentration of LDPE could reduce the effect of Cd on soil physical and chemical properties and promote plant growth and uptake of soil nutrients. These findings suggest that high concentrations of microplastics can inhibit the growth of <i>Solanum nigrum</i> L. alone or in combination with Cd, rather than reducing the toxicity of Cd.</span>
