New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942
Pietsch D, Bernat G, Kahmann U, Staiger D, Pistorius EK, Michel K-P (2011)
Photosynthesis Research 108(2-3): 121-132.
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Autor*in
Pietsch, Daniel;
Bernat, Gabor;
Kahmann, Uwe;
Staiger, DorotheeUniBi;
Pistorius, Elfriede K;
Michel, Klaus-Peter
Einrichtung
Abstract / Bemerkung
Iron limitation has a strong impact on electron transport reactions of the unicellular fresh water cyanobacterium Synechococcus elongatus PCC 7942 (thereafter referred to as S.elongatus). Among the various adaptational processes on different cellular levels, iron limitation induces a strongly enhanced expression of IdiC (iron-deficiency-induced protein C). In this article, we show that IdiC is loosely attached to the thylakoid and to the cytoplasmic membranes and that its expression is enhanced during conditions of iron starvation and during the late growth phase. The intracellular IdiC level was even more increased when additional iron was replenished in the late growth phase. On the basis of its amino acid sequence and of its absorbance spectrum, IdiC can be classified as a member of the family of thioredoxin (TRX)-like (2Fe-2S) ferredoxins. The presence of an iron cofactor in IdiC was detected by inductive coupled plasma optical emission spectrometry (ICP-OES). Comparative measurements of electron transport activities of S.elongatus wild type (WT) and an IdiC-merodiploid mutant called MuD, which contained a strongly reduced IdiC content under iron-sufficient as well as iron-deficient growth conditions, were performed. The results revealed that MuD had a strongly increased light sensitivity, especially under iron limitation. The measurements of photosystem II (PS II)-mediated electron transport rates in WT and MuD strain showed that PS II activity was significantly lower in MuD than in the WT strain. Moreover, P(700) (+) re-reduction rates provided evidence that the respiratory activities, which were very low in the MuD strain in the presence of iron, significantly increased in iron-starved cells. Thus, an increase in respiration may compensate for the drastic decrease of photosynthetic electron transport activity in MuD grown under iron starvation. Based on the similarity of the S. elongatus IdiC to the NuoE subunit of the NDH-1 complex in Escherichia coli, it is likely that IdiC has a function in the electron transport processes from NAD(P)H to the plastoquinone pool. This is in agreement with the up-regulation of IdiC in the late growth phase as well as under stress conditions when PS II is damaged. As absence or high reduction of the IdiC level would prevent or reduce the formation of functional NDH-1 complexes, under such conditions electron transport routes via alternative substrate dehydrogenases, donating electrons to the plastoquinone pool, can be assumed to be up-regulated.
Erscheinungsjahr
2011
Zeitschriftentitel
Photosynthesis Research
Band
108
Ausgabe
2-3
Seite(n)
121-132
ISSN
0166-8595
eISSN
1573-5079
Page URI
https://pub.uni-bielefeld.de/record/2377849
Zitieren
Pietsch D, Bernat G, Kahmann U, Staiger D, Pistorius EK, Michel K-P. New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942. Photosynthesis Research. 2011;108(2-3):121-132.
Pietsch, D., Bernat, G., Kahmann, U., Staiger, D., Pistorius, E. K., & Michel, K. - P. (2011). New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942. Photosynthesis Research, 108(2-3), 121-132. https://doi.org/10.1007/s11120-011-9661-1
Pietsch, Daniel, Bernat, Gabor, Kahmann, Uwe, Staiger, Dorothee, Pistorius, Elfriede K, and Michel, Klaus-Peter. 2011. “New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942”. Photosynthesis Research 108 (2-3): 121-132.
Pietsch, D., Bernat, G., Kahmann, U., Staiger, D., Pistorius, E. K., and Michel, K. - P. (2011). New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942. Photosynthesis Research 108, 121-132.
Pietsch, D., et al., 2011. New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942. Photosynthesis Research, 108(2-3), p 121-132.
D. Pietsch, et al., “New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942”, Photosynthesis Research, vol. 108, 2011, pp. 121-132.
Pietsch, D., Bernat, G., Kahmann, U., Staiger, D., Pistorius, E.K., Michel, K.-P.: New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942. Photosynthesis Research. 108, 121-132 (2011).
Pietsch, Daniel, Bernat, Gabor, Kahmann, Uwe, Staiger, Dorothee, Pistorius, Elfriede K, and Michel, Klaus-Peter. “New insights into the function of the iron deficiency-induced protein C from Synechococcus elongatus PCC 7942”. Photosynthesis Research 108.2-3 (2011): 121-132.
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