AUTHOR=Barabasz Anna , Palusińska Małgorzata , Papierniak Anna , Kendziorek Maria , Kozak Katarzyna , Williams Lorraine Elizabeth , Antosiewicz Danuta Maria 

TITLE=Functional Analysis of NtZIP4B and Zn Status-Dependent Expression Pattern of Tobacco ZIP Genes

JOURNAL=Frontiers in Plant Science

VOLUME=9

YEAR=2019

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2018.01984

DOI=10.3389/fpls.2018.01984

ISSN=1664-462X

ABSTRACT=<p>Tobacco is frequently considered as a plant useful for phytoremediation of metal-contaminated soil, despite the mechanisms for regulation of uptake and accumulation being largely unknown. Here we cloned and characterized a new tobacco Zn and Cd transporter <italic>NtZIP4B</italic> from the ZIP family (ZRT-IRT-Like proteins). It complemented the Zn-uptake defective yeast mutant <italic>zrt1zrt2</italic>, and rendered the wild type DY1457 yeast more sensitive to Cd. Bioinformatic analysis and transient expression of the NtZIP4B-GFP fusion protein in tobacco leaves indicated its localization to the plasma membrane. Real-time q-PCR based analysis showed that it is expressed in all vegetative organs with the highest level in leaves. The Zn status determined transcript abundance; <italic>NtZIP4B</italic> was upregulated by Zn-deficiency and downregulated by Zn excess. At the tissue level, in roots <italic>NtZIP4B</italic> is expressed in the vasculature of the middle part of the roots and in surrounding tissues including the root epidermis; in leaves primarily in the vasculature. Bioinformatic analysis identified two copies of <italic>ZIP4</italic> in tobacco, <italic>NtZIP4A</italic> and <italic>NtZIP4B</italic> with 97.57% homology at the amino acid level, with the same expression pattern for both, indicating a high degree of functional redundancy. Moreover, the present study provides new insights into the coordinated function of <italic>NtZIP1, NtZIP2, NtZIP4, NtZIP5, NtZIP8, NtIRT1</italic>, <italic>and NtIRT1-like</italic> in response to low-to-high Zn status. Leaves were the major site of <italic>NtZIP4, NtZIP5</italic>, and <italic>NtZIP8</italic> expression, and roots for <italic>NtZIP1, NtZIP2, NtIRT1</italic>, and <italic>NtIRT1</italic>-like. Contrasting expression level in the apical and basal root parts indicates distinct roles in root-specific processes likely contributing to the regulation of Zn root-to-shoot translocation. In summary, new insight into the role of <italic>ZIP</italic> genes in Zn homeostasis pointing to their overlapping and complementary functions, offers opportunities for strategies to modify Zn and Cd root/shoot partition in tobacco.</p>