Managing heavy metal toxicity stress in plants: biological and biotechnological tools
The maintenance of ion homeostasis in plant cells is a fundamental physiological
requirement for sustainable plant growth, development and production. Plants exposed to …
requirement for sustainable plant growth, development and production. Plants exposed to …
Protein extraction from plant tissues for 2DE and its application in proteomic analysis
X Wu, F Gong, W Wang - Proteomics, 2014 - Wiley Online Library
Plant tissues contain large amounts of secondary compounds that significantly interfere with
protein extraction and 2DE analysis. Thus, sample preparation is a crucial step prior to 2DE …
protein extraction and 2DE analysis. Thus, sample preparation is a crucial step prior to 2DE …
Enhanced Photosynthesis and Carbon Metabolism Favor Arsenic Tolerance in Artemisia annua, a Medicinal Plant as Revealed by Homology‐Based Proteomics
R Rai, S Pandey, AK Shrivastava… - International Journal of …, 2014 - Wiley Online Library
This paper provides the first proteomic evidence of arsenic (As) tolerance and interactive
regulatory network between primary and secondary metabolism in the medicinal plant …
regulatory network between primary and secondary metabolism in the medicinal plant …
The fronds tonoplast quantitative proteomic analysis in arsenic hyperaccumulator Pteris vittata L.
H Shen, Z He, H Yan, Z Xing, Y Chen, W Xu… - Journal of …, 2014 - Elsevier
Pteris vittata, the first known arsenic hyperaccumulating plant, can accumulate very high
concentration arsenic in its aboveground tissues, while low in roots. Previous studies have …
concentration arsenic in its aboveground tissues, while low in roots. Previous studies have …
Arsenic uptake and phytoremediation potential by arbuscular mycorrhizal fungi
X He, E Lilleskov - Mycorrhizal fungi: Use in sustainable agriculture and …, 2014 - Springer
Chronic arsenic exposure through drinking water or food has become a global risk to human
health. Some annual and perennial plants can tolerate and accumulate> 0.1% arsenic (As) …
health. Some annual and perennial plants can tolerate and accumulate> 0.1% arsenic (As) …
[PDF][PDF] 蜈蚣草砷超富集机制及其在砷污染修复中的应用
申红玲, 何振艳, 麻密 - 植物生理学报, 2014 - plant-physiology.com
蕨类植物蜈蚣草能够从土壤中吸收砷, 并储存于地上部分羽叶的液泡中. 蜈蚣草具有高效的抗
氧化系统, 以降低砷的毒害; 其砷酸还原系统和液泡区隔化是蜈蚣草进行砷解毒和砷超富集的 …
氧化系统, 以降低砷的毒害; 其砷酸还原系统和液泡区隔化是蜈蚣草进行砷解毒和砷超富集的 …