1)phytochelatin植物螯合肽
1.Phytochelatin and its function in heavy metal tolerance of higer plants;植物螯合肽及其在重金属耐性中的作用
2.Recently,phytochelatin synthase(PCS) genes in higher plants and fission yeast have been isolated and characterized,and that some genes similar to the plant phytochelat.植物螯合肽能够缓解重金属的毒害作用,并且对必需金属元素在真核生物(如高等植物、真菌和微藻)细胞内的分布具有调节作用。
3.Cd) by the cysteine-richpolypeptides known as phytochelatins (PC) arethought to confer heavy metal hyperaccumulationand tolerance in some plant species.镉胁迫能调节植物对硫酸盐的吸收、转运、同化,以及半胱氨酸、谷胱甘肽(glutathione,GSH)和植物螯合肽(phytochelatins,PC)的合成。
英文短句/例句
1.Roles of Phytochelatins and Phytochelatin Synthase in Plant Cadmium Tolerance and Accumulation植物螯合肽及植物螯合肽合成酶在植物镉耐性和积累中的作用机制研究
2.Analysis of Phytocheletins in Peanut by High Performance Liquid Chromatography/Electrospray Mass Spectrometry高效液相色谱-质谱法测定花生中的植物螯合肽
3.Transformation of Petris Vittata L. Phytochelatins Synthases Gene, PvPCS1 in Arabidopsis Thaliana;将蜈蚣草植物螯合肽合成酶基因(PvPCS1)转入拟南芥中的研究
4.Study on preparation of ferrous polypeptide chelate from off-cuts and its antibacteral activity多肽亚铁螯合物制备及抑菌活性研究
5.Study on the Preparation and Biological Activities of Zinc Chelating Small Peptides from Silver Carp Protein鲢鱼蛋白小肽螯合锌的制备及其生物活性研究
6.However, some synthetic chelates have been shown to induce the uptake of metals by plants.许多螯合剂能诱导植物对重金属的吸收。
7.Study on Screening Out of Heavy Metal Hyperaccumulators and Chelation-adsorption of Heavy Metals;重金属超富集植物的筛选与螯合吸附研究
8.The Application of Chelating Agents in the Phytoremediation of Heavy Metal Contaminated Soils螯合剂在植物修复重金属污染土壤中的应用
9.Processing Condition Investigation for Preparating Ferrous Chelate with Peptide of Hydrolysised Rice Protein and Its Stabilization;米蛋白肽亚铁螯合物生产工艺及产品稳态化研究
10.The Research of the Collagen Polypeptide-Chromium on Decrease Blood Sugar、Heat Resistant Health Care Efficient Function;胶原蛋白多肽—铬螯合物降血糖、抗热应激保健功效的研究
11.Study on compound enzymic peptides iron from hairtail off-cuts and its activity of antioxidation带鱼下脚料蛋白多肽亚铁螯合物的制备及抗氧化活性研究
12.Effect of Collagen Peptide-Chromium(Ⅲ) Complex on Enhancing Diabetes Mice Immunity胶原蛋白多肽-铬(Ⅲ)螯合物提高糖尿病小鼠免疫功能的研究
13.Effect of Polypeptide Chromium Chelate on Hepatic Protein Expression in Diabetic Mice多肽铬螯合物对糖尿病小鼠肝脏蛋白质表达的影响(英文)
14.EFFECTS OF HORIZONTAL EXCHANGE ELECTRIC FIELD AND EDDS APPLICATION ON RYEGRASS UPTAKE OF COPPER/ZINC AND SOIL CHARACTERISTICS水平交换电场与EDDS螯合诱导植物联合修复Cu/Zn污染土壤
15.Study on Solution-phase Synthesis of [1-3] Phytosulfokine植物硫肽素[1-3]PSK的液相合成研究
16.Plants may possibly influence soil chemistry by the possession of chelating mechanisms.植物由于具有螯合机制可能影响土壤的化学特性。
17.Surfactant/chelator-enhanced Phytoremediation of Cd-contaminated Soil;表面活性剂与螯合剂强化植物修复镉污染土壤的研究
18.The Potential of Biodegradable Chelating Agents for Phytoremediation of Heavy Metals from Contaminated Soils;可降解螯合剂诱导的植物修复重金属污染土壤的潜力
相关短句/例句
Phytochelatins植物螯合肽
1.The role of metallothioneins and phytochelatins in heavy metal tolerance of plants;金属硫蛋白和植物螯合肽在植物重金属耐性中的作用
2.Phytochelatins, a series of non-protein thiol compounds, are found universally in higher plants.综述了近年来植物螯合肽(PC)研究的一些最新进展,主要对PC的结构、在植物体内的合成及PC在植物体内的功能和作用进行了阐述,并展望了其今后的发展前景。
3)phytochelatins(PC)植物螯合肽(PC)
4)phytochelatin synthase植物螯合肽合成酶
1.Recently,phytochelatin synthase(PCS) genes in higher plants and fission yeast have been isolated and characterized,and that some genes similar to the plant phytochelat.最近已有研究从植物和真菌中分离出植物螯合肽合成酶的编码基因,而且相继在蠕虫和一些原核生物中也发现了类似植物螯合肽合成酶的编码基因。
5)phytochelatin植物螯合物
1.Polarography as a tool in studies on phytochelatin induced by cadmium in the algae Pheodactylum tricornutum and the graminae Agrostis capillaris;极谱法在镉诱导单胞藻和禾草类植物螯合物研究的应用
6)AtPCS1拟南芥植物螯合肽合成酶
延伸阅读
红螯螯虾 英文名: Red claw 俗名: 淡水龙虾,小龙虾 产地及产期: 原产于澳大利亚,自80年代未,英国、法国、西班牙、南非、津巴布韦、日本、东南亚等许多国家。 介绍: 红螯螯虾整个躯体由体表被覆几丁质甲壳的头胸部和腹部组成,全身有20节,头胸部13节。头胸甲保护着内脏器官,头胸甲前有一向前延伸的额剑,两边各有3~4个棘。头胸甲背部有4条沿身体纵轴方向排列的脊。双眼有柄而突起。头胸部有5对步足,第1对为粗壮的大螯,雄性的大螯在外侧有一膜质鲜红美丽的斑块,第2、第 3对步足为螯状,第4、第5对步足为爪状。腹部有7节,虽被覆甲壳,但节间关联处有纤维膜相连,可灵活运动。腹部第2节至第5节下面都有1对附肢,称为腹足或游泳足。腹部第6节附肢向后伸展,加宽称尾足,并与尾节组成尾扇,是螯虾快速运动器官。在头胸部的前端还有3对触角,1对大触角,2对小触角。 红螯螯虾在河流、湖泊、水库、池塘都能生活,白天潜伏在水体中可隐蔽的地方,傍晚和黎明前出来觅食,喜夜晚活动,营底栖爬行生活。常在砖瓦、砾石的间隙中爬行或潜伏在池塘的天然洞穴及人工洞穴中,在较软的池底中有掘穴能力。有时亦沿池壁上爬或攀伏于水生植物的根和密叶中。
