Effective selenium detoxification in the seed proteins of a hyperaccumulator plant: the analysis of selenium-containing proteins of monkeypot nut (Lecythis minor) seeds

A shotgun proteomic approach was applied to characterize the selenium (Se)-containing proteins of the selenium hyperaccumulator monkeypot nut ( Lecythis minor ) seeds. The exceptionally high Se content (>4,000 mg kg −1 ) of the sample enabled a straightforward procedure without the need for multi...

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Published in:Journal of biological inorganic chemistry 2015-01, Vol.20 (1), p.23-33
Main Authors: Németh, Anikó, Dernovics, Mihály
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Biochemistry
Biomedical and Life Sciences
Lecythidaceae - chemistry
Life Sciences
Microbiology
Original Paper
Proteome - chemistry
Seed Storage Proteins - chemistry
Seeds - chemistry
Selenium - chemistry
Selenomethionine - chemistry
Sequence Analysis, Protein
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Dernovics, Mihály
description A shotgun proteomic approach was applied to characterize the selenium (Se)-containing proteins of the selenium hyperaccumulator monkeypot nut ( Lecythis minor ) seeds. The exceptionally high Se content (>4,000 mg kg −1 ) of the sample enabled a straightforward procedure without the need for multiple preconcentration and fractionation steps. The proteins identified were sulfur-rich seed proteins, namely, 11S globulin (Q84ND2), 2S albumin (B6EU54), 2S sulfur-rich seed storage proteins (P04403 and P0C8Y8) and a 11S globulin-like protein (A0EM48). Database directed search for theoretically selenium-containing peptides was assisted by manual spectra evaluation to achieve around 25 % coverage on sulfur analogues. Remarkable detoxification mechanisms on the proteome level were revealed in the form of multiple selenomethionine–methionine substitution and the lack of selenocysteine residues. The degree of selenomethionine substitution could be characterized by an exponential function that implies the inhibition of protein elongation by selenomethionine. Our results contribute to the deeper understanding of selenium detoxification procedures in hyperaccumulator plants.
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subjects Amino Acid Sequence
Biochemistry
Biomedical and Life Sciences
Lecythidaceae - chemistry
Life Sciences
Microbiology
Original Paper
Proteome - chemistry
Seed Storage Proteins - chemistry
Seeds - chemistry
Selenium - chemistry
Selenomethionine - chemistry
Sequence Analysis, Protein
title Effective selenium detoxification in the seed proteins of a hyperaccumulator plant: the analysis of selenium-containing proteins of monkeypot nut (Lecythis minor) seeds
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