TY - JOUR
T1 - A plant type 2 metallothionein (MT) from cork tissue responds to oxidative stress
AU - Mir, Gisela
AU - Domènech, Jordi
AU - Huguet, Gemma
AU - Guo, Woei Jiun
AU - Goldsbrough, Peter
AU - Atrian, Silvia
AU - Molinas, Marisa
N1 - Funding Information:
We thank Dennis Thiele for providing yeast strains DTY3 and DTY4 and David Salt for the p424 vector. We are indebted to Mercé Capdevila for fruitful data and manuscript discussions. This work was supported by the Spanish Ministerio de Ciencia y Tecnología grants BIO2003-3892 to Silvia Atrian and AGL2003-00416 to Marisa Molinas and by a grant from the United States Department of Agriculture NRI Program to Peter Goldsbrough (Woei-Jiun Guo). GM was the recipient of a predoctoral fellowship from the Pla de Formació de Personal Investigador del Departament d’Universitats, Recerca i Societat de la Informació de la Generalitat de Catalunya. We also thank the Serveis Cientifico-Tecnics de la Universitat de Barcelona (ICP-OES, ESI-MS) and Universitat de Girona (DNA sequencing).
PY - 2004/12
Y1 - 2004/12
N2 - Expression of plant metallothionein genes has been reported in a variety of senescing tissues, such as leaves and stems, ripening fruits, and wounded tissues, and has been proposed to function in both metal chaperoning and scavenging of reactive oxygen species. In this work, it is shown that MT is also associated with suberization, after identifying a gene actively transcribed in Quercus suber cork cells as a novel MT. This cDNA, isolated from a phellem cDNA library, encodes a MT that belongs to type 2 plant MTs (QsMT). Expression of the QsMT cDNA in E. coli grown in media supplemented with Zn, Cd, or Cu has yielded recombinant QsMT. Characterization of the respective metal aggregates agrees well with a copper-related biological role, consistent with the capacity of QsMT to restore copper tolerance to a MT-deficient, copper-sensitive yeast mutant. Furthermore, in situ hybridization results demonstrate that RNA expression of QsMT is mainly observed under conditions related to oxidative stress, either endogenous, as found in cork or in actively proliferating tissues, or exogenous, for example, in response to H2O2 or paraquat treatments. The putative role of QsMT in oxidative stress, both as a free radical scavenger via its sulphydryl groups or as a copper chelator is discussed.
AB - Expression of plant metallothionein genes has been reported in a variety of senescing tissues, such as leaves and stems, ripening fruits, and wounded tissues, and has been proposed to function in both metal chaperoning and scavenging of reactive oxygen species. In this work, it is shown that MT is also associated with suberization, after identifying a gene actively transcribed in Quercus suber cork cells as a novel MT. This cDNA, isolated from a phellem cDNA library, encodes a MT that belongs to type 2 plant MTs (QsMT). Expression of the QsMT cDNA in E. coli grown in media supplemented with Zn, Cd, or Cu has yielded recombinant QsMT. Characterization of the respective metal aggregates agrees well with a copper-related biological role, consistent with the capacity of QsMT to restore copper tolerance to a MT-deficient, copper-sensitive yeast mutant. Furthermore, in situ hybridization results demonstrate that RNA expression of QsMT is mainly observed under conditions related to oxidative stress, either endogenous, as found in cork or in actively proliferating tissues, or exogenous, for example, in response to H2O2 or paraquat treatments. The putative role of QsMT in oxidative stress, both as a free radical scavenger via its sulphydryl groups or as a copper chelator is discussed.
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U2 - 10.1093/jxb/erh254
DO - 10.1093/jxb/erh254
M3 - Article
C2 - 15448172
AN - SCOPUS:11144281841
SN - 0022-0957
VL - 55
SP - 2483
EP - 2493
JO - Journal of experimental botany
JF - Journal of experimental botany
IS - 408
ER -