Details

Autor(en) / Beteiligte

• Zhu, Xiao Fang
• Wang, Zhi Wei
• Dong, Fang
• Lei, Gui Jie
• Shi, Yuan Zhi
• Li, Gui Xin
• Zheng, Shao Jian

Titel

Exogenous auxin alleviates cadmium toxicity in Arabidopsis thaliana by stimulating synthesis of hemicellulose 1 and increasing the cadmium fixation capacity of root cell walls

Ist Teil von

• Journal of hazardous materials, 2013-12, Vol.263, p.398-403

Ort / Verlag

Kidlington: Elsevier B.V

Erscheinungsjahr

2013

Link zum Volltext

Quelle

MEDLINE

Beschreibungen/Notizen

• •Cd reduces endogenous auxin levels in Arabidopsis.•Exogenous applied auxin NAA increases Cd accumulation in the roots but decreases in the shoots.•NAA increases cell wall hemicellulose 1 content.•Hemicellulose 1 retains Cd and makes it difficult to be translocated to shoots.•NAA rescues Cd-induced chlorosis. Auxin is involved in not only plant physiological and developmental processes but also plant responses to abiotic stresses. In this study, cadmium (Cd2+) stress decreased the endogenous auxin level, whereas exogenous auxin (α-naphthaleneacetic acid, NAA, a permeable auxin analog) reduced shoot Cd2+ concentration and rescued Cd2+-induced chlorosis in Arabidopsis thaliana. Under Cd2+ stress conditions, NAA increased Cd2+ retention in the roots and most Cd2+ in the roots was fixed in hemicellulose 1 of the cell wall. NAA treatment did not affect pectin content and its binding capacity for Cd2+, whereas it significantly increased the content of hemicellulose 1 and the amount of Cd2+ retained in it. There were highly significant correlations between Cd2+ concentrations in the root, cell wall and hemicellulose 1 when the plants were subjected to Cd2+ or NAA+Cd2+ treatment for 1 to 7d, suggesting that the increase in hemicellulose 1 contributes greatly to the fixation of Cd2+ in the cell wall. Taken together, these results demonstrate that auxin-induced alleviation of Cd2+ toxicity in Arabidopsis is mediated through increasing hemicellulose 1 content and Cd2+ fixation in the root, thus reducing the translocation of Cd2+ from roots to shoots.