Silencing of the FRO1 gene and its effects on iron partition in Nicotiana benthamiana

Gama, Florinda; Saavedra, Teresa; Dandlen, Susana; de Varennes, Amarilis; Correia, Pedro José; Pestana, Maribela; Nolasco, Gustavo

http://hdl.handle.net/10400.1/13146

Use this identifier to reference this record.

Name:	Description:	Size:	Format:
13146.pdf		895.13 KB	Adobe PDF	Download

Send Feedback

Authors

Gama, Florinda

Saavedra, Teresa

Dandlen, Susana

de Varennes, Amarilis

Correia, Pedro José

Pestana, Maribela

Nolasco, Gustavo

Abstract(s)

To evaluate the dynamic role of the ferric-chelate reductase enzyme (FCR) and to identify possible pathways of regulation of its activity in different plant organs an investigation was conducted by virus induced gene silencing (VIGS) using tobacco rattle virus (TRV) to silence the ferric reductase oxidase gene (FROI) that encodes the FCR enzyme. Half of Nicotiana benthamiana plants received the VIGS vector and the rest remained as control. Four treatments were imposed: two levels of Fe in the nutrient solution (0 or 2.5 mu M of Fe), each one with silenced or non-silenced (VIGS-0; VIGS-2.5) plants. Plants grown without iron (0; VIGS-0) developed typical symptoms of iron deficiency in the youngest leaves. To prove that FROI silencing had occurred, resupply of Fe (R) was done by adding 2.5 mu M of Fe to the nutrient solution in a subset of chlorotic plants (0-R; VIGS-R). Twelve days after resupply, 0-R plants had recovered from Fe deficiency while plants containing the VIGS vector (VIGS-R) remained chlorotic and both FRO1 gene expression and FCR activity were considerably reduced, consequently preventing Fe uptake. With the VIGS technique we were able to silence the FRO1 gene in N. benthamiana and point out its importance in chlorophyll synthesis and Fe partition. (C) 2017 Elsevier Masson SAS. All rights reserved.