TY - JOUR

T1 - Early manganese-toxicity response in Vigna unguiculata L.

T2 - A proteomic and transcriptomic study

AU - Führs, Hendrik

AU - Hartwig, Moritz

AU - Molina, Laura Elisa Buitrago

AU - Heintz, Dimitri

AU - Van Dorsselaer, Alain

AU - Braun, Hans Peter

AU - Horst, Walter Johannes

PY - 2007/12/19

Y1 - 2007/12/19

N2 - The apoplast is known to play a predominant role in the expression of manganese (Mn) toxicity in cowpea (Vigna unguiculata L.) leaves. To unravel early Mn-toxicity responses after 1-3 days Mn treatment also in the leaf symplast, we studied the symplastic reactions induced by Mn in two cultivars differing in Mn tolerance on a total cellular level. Comparative proteome analyses of plants exposed to low or high Mn allowed to identify proteins specifically affected by Mn, particularly in the Mn-sensitive cowpea cultivar. These proteins are involved in CO2 fixation, stabilization of the Mn cluster of the photosystem II, pathogenesis-response reactions and protein degradation. Chloroplastic proteins important for CO2 fixation and photosynthesis were of lower abundance upon Mn stress suggesting scavenging of metabolic energy for a specific stress response. Transcriptome analyses supported these findings, but additionally revealed an upregulation of genes involved in signal transduction only in the Mn-sensitive cultivar. In conclusion, a coordinated interplay of apoplastic and symplastic reactions seems to be important during the Mn-stress response in cowpea.

AB - The apoplast is known to play a predominant role in the expression of manganese (Mn) toxicity in cowpea (Vigna unguiculata L.) leaves. To unravel early Mn-toxicity responses after 1-3 days Mn treatment also in the leaf symplast, we studied the symplastic reactions induced by Mn in two cultivars differing in Mn tolerance on a total cellular level. Comparative proteome analyses of plants exposed to low or high Mn allowed to identify proteins specifically affected by Mn, particularly in the Mn-sensitive cowpea cultivar. These proteins are involved in CO2 fixation, stabilization of the Mn cluster of the photosystem II, pathogenesis-response reactions and protein degradation. Chloroplastic proteins important for CO2 fixation and photosynthesis were of lower abundance upon Mn stress suggesting scavenging of metabolic energy for a specific stress response. Transcriptome analyses supported these findings, but additionally revealed an upregulation of genes involved in signal transduction only in the Mn-sensitive cultivar. In conclusion, a coordinated interplay of apoplastic and symplastic reactions seems to be important during the Mn-stress response in cowpea.

KW - Apoplast

KW - Cowpea

KW - Manganese toxicity

KW - Symplast

UR - http://www.scopus.com/inward/record.url?scp=38149040209&partnerID=8YFLogxK

U2 - 10.15488/11664

DO - 10.15488/11664

M3 - Article

C2 - 18095375

AN - SCOPUS:38149040209

VL - 8

SP - 149

EP - 159

JO - PROTEOMICS

JF - PROTEOMICS

SN - 1615-9853

IS - 1

ER -