Response to nickel in the proteome of the metal accumulator plant Brassica juncea

Response to nickel in the proteome of the metal accumulator plant Brassica juncea

To gain a comprehensive understanding of the molecular mechanism of heavy metal accumulation in Brassica juncea, comparative proteomic approaches were used to analysis protein profiles in leaf tissues of 6-week-old B. juncea after exposure to 100 µM Ni. Proteomic analysis revealed that 61 protein sp...

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Veröffentlicht in:Journal of plant interactions 2012-09, Vol.7 (3), p.230-237
Hauptverfasser: Wang, Yun, Hu, Hao, Zhu, Lin-Ying, Li, Xiao-Xi
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Sprache:eng
Schlagworte:
adenosine triphosphate
antioxidants
Brassica juncea
desorption
gene expression regulation
heavy metals
ionization
leaves
mass spectrometry
metal accumulation
nickel
oxidative stress
photosynthesis
proteins
proteome
proteomics
sulfur
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container_title Journal of plant interactions
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creator Wang, Yun
Hu, Hao
Zhu, Lin-Ying
Li, Xiao-Xi
description To gain a comprehensive understanding of the molecular mechanism of heavy metal accumulation in Brassica juncea, comparative proteomic approaches were used to analysis protein profiles in leaf tissues of 6-week-old B. juncea after exposure to 100 µM Ni. Proteomic analysis revealed that 61 protein spots showed 1.5-fold change in protein abundance after Ni exposure as compared to that of corresponding spots in control. Out of the 61 differentially expressed protein spots, 37 protein spots were ambiguously identified by matrix assisted laser desorption ionization/time of flight mass spectrometry (MALDI-TOF MS). The majority of these identified proteins were found to be involved in sulphur metabolism, protection against oxidative stress, clearly indicated that heavy metal sequestration and antioxidant system were activated by Ni treatment. The induced expression of photosynthesis and ATP generation-related proteins were also observed in plants exposed to metals, suggesting the tolerance and accumulation is an energy-demanding process. The identification of these proteins in response to Ni can lead a deep understanding of heavy metal accumulation and tolerance in B. juncea.
doi_str_mv 10.1080/17429145.2011.603060
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subjects adenosine triphosphate
antioxidants
Brassica juncea
desorption
gene expression regulation
heavy metals
ionization
leaves
mass spectrometry
metal accumulation
nickel
oxidative stress
photosynthesis
proteins
proteome
proteomics
sulfur
title Response to nickel in the proteome of the metal accumulator plant Brassica juncea
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