Zinc is important as a component of

Zinc is important as a component of enzymes for protein synthesis and energy production and maintains the structural integrity of biomembranes. More than 1200 proteins are predicted to contain, bind, or transport Zn2+, including – among others – a large numbers of zinc-finger containing proteins and transcription factors, oxidoreductases, and hydrolytic enzymes such as metalloproteases [14•]. Zinc plays also an important role in seed development, and zinc-deficient plants show a delayed maturity.

Most of the zinc enzymes are involved in regulation of DNA-transcription, RNA-processing, and translation. Up to 4% of the predicted proteins in Arabidopsis contain the zinc-finger motif [37] that is well known in transcription factors and is important for protein–protein interactions. Beside transcription factors, several enzymes involved in DNA or RNA synthesis and maintenance are zinc-dependent: all types of DNA-polymerases and RNA-polymerases, histone deacetylases, splicing factors, and enzymes involved in RNA-editing in mitochondria and chloroplasts [14•]. Furthermore, zinc was found in a number of tRNA synthetases and in the translation initiation factor elF-5 from maize that is required for the formation of a functional 80S initiation complex [38].

In chloroplasts, zinc-dependent enzymes fulfill several major functions. The stromal processing peptidase SPP [39] is zinc-dependent in analogy to the mitochondrial system [40]. Additional zinc metalloproteases in these organelles have to destroy the cleaved signal-peptide [41]. Moreover inside the chloroplasts proteolytic activities are dependent on zinc, for example, the repair processes of photosystem II by turning over photo-damaged D1 protein [42]. Zinc deficiency also reduces net photosynthesis in plants by disturbing the activity of carbonic anhydrase, which is the limiting enzyme for CO2 fixation in C4-plants, Cu–Zn superoxide dismutase, and D-ribulose-5-phosphate 3-epimerase, an enzyme of the Calvin cycle and oxidative pentose phosphate pathway [43].

In addition to chloroplasts and mitochondria, also the cytoplasm, lysosome, and the apoplastic space are compartments with zinc-dependent hydrolytic activities: different nucleases and aminopeptidases, peptide deformylases [44], the 26S-proteasome [45], the α-mannosidase [46], and matrix-metalloproteinases associated with the extracellular matrix [47]. Further, Zinc was found to be involved in signal transduction via mitogen-activated protein kinases [48•].