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排序方式: 共有2138条查询结果,搜索用时 15 毫秒
1.
Hui Wang Ahui Yang Guang Yang Hongyu Zhao Futi Xie Huijun Zhang Haiying Wang Xue Ao 《中国油料作物学报(英文)》2021,6(1):41-49
In order to simplify the workload and find a reliable method for screening soybeans with different phosphorus(P)efficiencies,47 soybean varieties were screened from 90 varieties according to yield under normal phosphorus,and 10 indicators including root phenotype,phosphorus utilization efficiency at the seedling stage and yield were measured.Through single-index cluster analysis,the performance value and relative value of the abovementioned indexes under low-phosphorus conditions were analyzed,and then,the combined indexes were analyzed by principal components method.The membership function method and the cluster analysis method was used to calculate and analyze the comprehensive score value.Three indexes of root P utilization efficiency(X1),relative value of root P utilization efficiency(X2),and root volume(X3)under low P at the seedling stage were selected as the most consistent with the yield screening results under low P condition,and the mathematical model of the comprehensive score value was obtained:D=1.218X1t 0.320X2t 0.007X3-0.664(P=0.000,R2=1.000).The comprehensive score can screen and identify the P efficiency of soybeans with fewer indexes in the early growth stages,which provides a more rapid and reliable mathematical model for screening and identifying a larger number of germplasm resources for P efficiency. 相似文献
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Due to rapid urbanization and industrialization, many soils for crop production are contaminated by cadmium(Cd), a heavy metal highly toxic to many organisms. Cereal crops such as rice, wheat, maize, and barley are the primary dietary source of Cd for humans, and reducing Cd transfer from soil to their grains is therefore an important issue for food safety. During the last decade, great progress has been made in elucidating the molecular mechanisms of Cd transport, particularly in rice. Inter-and intraspecific variations in Cd accumulation have been observed in cereal crops. Transporters for Cd have been identified in rice and other cereal crops using genotypic differences in Cd accumulation and mutant approaches. These transporters belong to different transporter families and are involved in the uptake, vacuolar sequestration, root-to-shoot translocation, and distribution of Cd. Attempts have been made to reduce Cd accumulation in grains by manipulating these transporters through overexpression or knockout of the transporter genes, as well as through marker-assisted selection breeding based on genotypic differences in Cd accumulation in the grains. In this review, we describe recent progress on molecular mechanisms of Cd accumulation in cereal crops and compare different molecular strategies for minimizing Cd accumulation in grains. 相似文献
3.
DAI Pei GAO Fen GAO Hong-wei WANG Yuan FENG Gao-jie ZHANG Qin-feng BAI Rui QIN Wei-wei LI Hong SONG Xiao-su 《园艺学报》2019,35(2):212-217
AIM:To study whether homocysteine (Hcy) inhibits the expression of ATP-binding cassette transporter A1 (ABCA1) and ATP-binding cassette transporter G1 (ABCG1) by microRNA-33 (miRNA-33) signaling, and reduces the efficiency of reverse cholesterol transport (RCT).METHODS:RAW264.7 macrophages were induced by oxidized low-density lipoprotein (ox-LDL) to establish foam cell model. Oil red O staining was used to determine whether the model was established successfully. miRNA-33 mimics and miRNA-33 inhibitor were transfected into the cells by Lipofectamine 2000, and the cells were exposed to Hcy at concentration of 5 mmol/L for 24 h. The intracellular lipid droplets were observed by Oil red O staining. The expression of ABCA1 and ABCG1 at mRNA and protein levels was determined by real-time PCR and Western blot. The cellular cholesterol content was analyzed by HPLC, and effluent rate of cholesterol was detected by the method of liquid scintillation counting.RESULTS:Compared with blank control group, the lipid content in miRNA-33 mimics group was increased, and the expression of ABCA1 and ABCG1 at mRNA and protein levels was decreased (P<0.05). The intracellular cholesterol content was increased gradually (P<0.05), and the cellular cholesterol efflux rate was gradually decreased (P<0.05) in miRNA-33 mimics group. Compared with blank control group, the testing results in miRNA-33 inhibitor group were the opposition of those in miRNA-33 mimics group (P<0.05). No diffe-rence of the above indexes among blank control group, miRNA-33 mimics-NC group and miRNA-33 inhibitor-NC group was observed.CONCLUSION:Hcy inhibits the mRNA and protein expression of ABCA1 and ABCG1 through miRNA-33 signaling, and reduces the efficiency of RCT in RAW264.7 macrophage-derived foam cells. 相似文献
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As sessile organisms, plants rely on their roots for anchorage and uptake of water and nutrients. Plant root is an organ showing extensive morphological and metabolic plasticity in response to diverse environmental stimuli including nitrogen (N) and phosphorus (P) nutrition/stresses. N and P are two essential macronutrients serving as not only cell structural components but also local and systemic signals triggering root acclimatory responses. Here, we mainly focused on the current advances on root responses to N and P nutrition/stresses regarding transporters as well as long-distance mobile proteins and peptides, which largely represent local and systemic regulators, respectively. Moreover, we exemplified some of the potential pitfalls in experimental design, which has been routinely adopted for decades. These commonly accepted methods may help researchers gain fundamental mechanistic insights into plant intrinsic responses, yet the output might lack strong relevance to the real situation in the context of natural and agricultural ecosystems. On this basis, we further discuss the established—and yet to be validated—improvements in experimental design, aiming at interpreting the data obtained under laboratory conditions in a more practical view. 相似文献
6.
为了探究MS培养基中氮、磷无机营养盐对鳗草生长的影响。单独添加不同浓度KNO3、NH4NO3和KH2PO4的天然海水中培养鳗草克隆苗,于7、14天进行植株形态学观察和叶片叶绿素含量测定。其中,KNO3的添加量为MS培养基中的1/2倍、1倍和2倍及NO3-总浓度为39.4 mmol/L,KH2PO4和NH4NO3的添加量均为MS培养基中各自浓度的1/2、1和2倍。结果表明,叶绿素含量以KNO3处理组最高(P<0.05),克隆苗培养14天无毒害现象,且有新叶发出;NH4NO3和KH2PO4处理组均对克隆苗有明显毒害作用,NH4NO3处理组叶片48 h后开始褐化,7天后茎尖、根尖明显变软并褐化,14天后植株死亡;KH2PO4处理组培养14天后叶片平均褐化率达56%。因此,1/2、MS培养基均不适用于鳗草的室内培养,其培养基的氮源应为单独添加的NO3--N或高浓度NO3--N+低浓度NH4+-N。 相似文献
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施磷对苜蓿光合产物在根茎叶的分配及抗蓟马的影响 总被引:1,自引:0,他引:1
为了明确施磷后紫花苜蓿根、茎、叶中光合产物分配与苜蓿抗蓟马能力的关系,本试验以紫花苜感虫品种‘甘农3号’和抗虫品种‘甘农9号’为材料,以北方苜蓿蓟马类优势害虫牛角花齿蓟马(Odontothripsloti)为研究对象,设0mg(P_2O_5)·kg~(-1)(土)、27mg(P_2O_5)·kg~(-1)(土)、54mg(P_2O_5)·kg~(-1)(土)、81mg(P_2O_5)·kg~(-1)(土)和108mg(P_2O_5)·kg~(-1)(土)5个磷水平,分别记为P0、P1、P2、P3和P4,在苜蓿6叶期,按3头·株~(-1)接入牛角花齿蓟马,分别于苜蓿持续受害7 d、14 d和21 d时,评价苜蓿的受害指数,测量单株叶、茎、根生物量和根、茎、叶中的可溶性糖和淀粉含量。结果表明:随着施磷水平的升高,‘甘农3号’和‘甘农9号’苜蓿的受害指数降低,总体以P3水平下最低;受害7 d时,两个苜蓿品种受害指数均下降但不显著;受害14 d和21 d时受害指数下降显著(P0.05)。施磷后苜蓿根、茎和叶生物量均显著增加,在蓟马为害前期(7d)和中期(14d)苜蓿受害较轻时,生物量向叶中分配较多;在受到持续较重的为害后(21d),苜蓿的生物量更多向根系分配,相应分配到叶部的生物量有所下降,茎秆中的生物量分配比例变化不显著。相对于‘甘农3号’,各施磷水平下‘甘农9号’分配到叶中的生物量更多。施磷后苜蓿根、茎和叶中可溶性糖和淀粉含量显著增加,随着受害时间的持续,苜蓿根、茎和叶中的淀粉含量总体下降,而可溶性糖含量持续增加;在受害14 d和21 d时,‘甘农9号’的叶和根中的可溶性糖及淀粉含量明显高于‘甘农3号’。总之,施磷可有效增强苜蓿对蓟马的耐害性,在虫害压力适中时,施磷促进了苜蓿地上部分的补偿生长,虫害压力较大时,施磷保证根系的生长以维持其生存。随着受害时间的持续,苜蓿存贮型碳水化合物淀粉的含量趋向减少,根、茎和叶中的可溶性糖含量升高,使较多的资源用于苜蓿光合器官和贮藏器官的构建。P3水平[81 mg(P_2O_5)·kg~(-1)(土)]为本试验中苜蓿最佳施磷水平。 相似文献
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不同供磷水平对辣椒根系形态和根际特征的影响 总被引:3,自引:0,他引:3
以辣椒品种线椒王为试验材料,采用盆栽方式,通过分析不同施磷水平下辣椒根系形态和根系生理的变化,探究辣
椒磷高效利用的主要根系及根际过程。结果表明,辣椒地上部和根系生物量随供磷水平的增加呈现先增加后下降的趋势,整
株磷浓度以及整株磷累积量呈增加趋势。随供磷水平增加,根系总根长呈先增加后下降趋势,根系平均直径、根冠比呈逐渐
降低趋势;辣椒根系菌根侵染率和土壤酸性磷酸酶活性呈现先增加后下降的趋势。相关分析结果表明,土壤有效磷浓度和整
株磷浓度与根系平均直径、菌根侵染率呈极显著负相关,与总根长可用一元二次方程拟合,表明辣椒根系适应低磷的根际特
征可能是通过增加根系生物量及总根长,同时降低根系平均直径来实现的。 相似文献