Cadmium–Induced Siderophore Production by a High Cd-Resistant Bacterial Strain Relieved Cd Toxicity in Plants Through Root Colonization

Sangram Sinha; Samir Kumar Mukherjee

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Cadmium–Induced Siderophore Production by a High Cd-Resistant Bacterial Strain Relieved Cd Toxicity in Plants Through Root Colonization

机译：高抗镉细菌菌株通过根定植减轻镉对植物的镉毒性。

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This study focuses on the isolation and characterization of a high cadmium (Cd)-resistant bacterial strain, and possible exploitation of its Cd-accumulation and Cd-induced siderophore production property to improve plant growth in cadmium-contaminated soil through root colonization. The bacterial strain could tolerate up to 8 mM of Cd and could accumulate Cd intracellularly. The strain showed Cd-induced siderophore production maximally at 1.75 mM of Cd concentration under culture condition. It stimulated the growth of mustard and pumpkin plants in Cd-added soil through its establishment in rhizosphere. Through biochemical characterization and 16S rDNA sequence analysis, the strain KUCd1, as the name given to it, was identified as a strain of Pseudomonas aeruginosa.

机译：这项研究的重点是高镉抗性细菌菌株的分离和鉴定，以及利用其镉积累和镉诱导的铁载体生产特性，以通过根部定植改善镉污染土壤中植物的生长。该细菌菌株可以耐受高达8 mM的Cd，并且可以在细胞内积累Cd。在培养条件下，该菌株在1.75 mM的Cd浓度下最大显示出Cd诱导的铁载体产生。它通过在根际中建立而刺激了添加Cd的土壤中芥菜和南瓜植物的生长。通过生化表征和16S rDNA序列分析，名称为KUCd1的菌株被鉴定为铜绿假单胞菌的菌株。

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《Current Microbiology》 |2008年第1期|55-60|共6页
作者
Sangram Sinha; Samir Kumar Mukherjee;
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Department of Microbiology University of Kalyani Kalyani 741 235 West Bengal India;

Department of Microbiology University of Kalyani Kalyani 741 235 West Bengal India;

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1. Cadmium-Induced Siderophore Production by a High Cd-Resistant Bacterial Strain Relieved Cd Toxicity in Plants Through Root Colonization [J] . Sinha Sangram, Mukherjee Samir Kumar Current Microbiology: An International Journal . 2008,第1期

机译：高抗镉细菌菌株通过根定植减轻镉对植物的镉诱导铁载体产生
2. Rhizoremediation of cadmium-contaminated soil associated with hydroxamate siderophores isolated from Cd-resistant plant growth-promoting Dietzia maris and Lysinibacillus strains [J] . Gusain Poonam, Paliwal Rashmi, Singh Vir International Journal of Phytoremediation . 2017,第1a6期

机译：镉污染土壤与羟肟酸盐的污染土壤中分离的镉抗性植物生长促进饮食和溶酶菌株相关的镉污染土壤
3. Rhizoremediation of cadmium-contaminated soil associated with hydroxamate siderophores isolated from Cd-resistant plant growth-promoting Dietzia maris and Lysinibacillus strains [J] . Gusain Poonam, Paliwal Rashmi, Singh Vir IUBMB life . 2015,第1期

机译：镉污染土壤与羟肟酸盐的污染土壤中分离的镉抗性植物生长促进饮食和溶酶菌株相关的镉污染土壤
4. Decreasing bacterial colonization around the Intraosseous Transcutaneous Amputation Prosthesis without inducing cytotoxicity to fibroblasts using hydroxyapatite, silver and fibronectin [C] . Chimutengwende-Gordon M., Pendegrass C Blunn G. Society for Biomaterials annual meeting and exposition . 2013

机译：使用羟基磷灰石，银和纤连蛋白减少骨内经皮截肢假体周围的细菌定植，而不会诱导对成纤维细胞的细胞毒性
5. Mathematical models for siderophore production and siderophore mediated antagonism in bacterial populations under iron limitation. [D] . Fgaier, Hedia. 2010

机译：铁限制下细菌群体中铁载体产生和铁载体介导的拮抗作用的数学模型。
6. Cd-Resistant Strains of B. cereus S5 with Endurance Capacity and Their Capacities for Cadmium Removal from Cadmium-Polluted Water [O] . Huiqing Wu, Qingping Wu, Guojie Wu, -1

机译：具有持久能力的蜡状芽孢杆菌S5耐镉菌株及其去除镉污染水中镉的能力
7. Cadmium-resistant Ralstonia mannitolilytica Relieved Cadmium Toxicity in Mustard Plant Through Root Colonization and Growth Promoting Activity [O] . Bejoysekhar Datta, Abhishek Paul 2016

机译：钙耐兰西尼亚甘露玉米菌灰通过根殖民化和生长促进活性缓解芥末植物中的镉毒性
8. Siderophore-Mediated Plant Growth Promotion and Colonization of Roots by Strains of 'Pseudomonas spp.' (Door Sideroforen Bepaalde Plantegroeistimulatie en Kolonisatie van Wortels door Stammen van 'Pseudomonas spp.') [R] . Bakker, P. 1989

机译：铁光体介导的植物生长促进和'假单胞菌属'菌株的根系定殖（门sideroforen Bepaalde plantegroeistimulatie en Kolonisatie van Wortels门stammen van'pseudomonas spp。'）

Cadmium–Induced Siderophore Production by a High Cd-Resistant Bacterial Strain Relieved Cd Toxicity in Plants Through Root Colonization

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