Ingo Voss
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Explore the profile of Ingo Voss including associated specialties, affiliations and a list of published articles.
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14
Citations
434
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Recent Articles
1.
Neuffer B, Wesse C, Voss I, Scheibe R
AoB Plants
. 2018 Feb;
10(1):ply005.
PMID: 29479407
For almost 100 years now, ecotypic differentiation of plant species has been a major topic of research. In changing environments, the question needs to be answered as to how long...
2.
Wojtera-Kwiczor J, Zukowska W, Graj W, Malecka A, Piechalak A, Ciszewska L, et al.
Int J Phytoremediation
. 2014 Jun;
16(7-12):770-89.
PMID: 24933884
Plant-assisted bioremediation (rhizoremediation) stands out as a potential tool to inactivate or completely remove xenobiotics from the polluted environment. Therefore, it is of key importance to find an adequate combination...
3.
Blanco N, Ceccoli R, Via M, Voss I, Segretin M, Bravo-Almonacid F, et al.
Plant Physiol
. 2013 Feb;
161(2):866-79.
PMID: 23370717
Ferredoxins (Fds) are ferrosulfoproteins that function as low-potential electron carriers in plants. The Fd family is composed of several isoforms that share high sequence homology but differ in functional characteristics....
4.
Twachtmann M, Altmann B, Muraki N, Voss I, Okutani S, Kurisu G, et al.
Plant Cell
. 2012 Jul;
24(7):2979-91.
PMID: 22805436
To adapt to different light intensities, photosynthetic organisms manipulate the flow of electrons through several alternative pathways at the thylakoid membrane. The enzyme ferredoxin:NADP(+) reductase (FNR) has the potential to...
5.
Hebbelmann I, Selinski J, Wehmeyer C, Goss T, Voss I, Mulo P, et al.
J Exp Bot
. 2011 Dec;
63(3):1445-59.
PMID: 22140244
The nuclear-encoded chloroplast NADP-dependent malate dehydrogenase (NADP-MDH) is a key enzyme controlling the malate valve, to allow the indirect export of reducing equivalents. Arabidopsis thaliana (L.) Heynh. T-DNA insertion mutants...
6.
Blanco N, Ceccoli R, Segretin M, Poli H, Voss I, Melzer M, et al.
Plant J
. 2011 Jan;
65(6):922-35.
PMID: 21205028
Ferredoxins are the main electron shuttles in chloroplasts, accepting electrons from photosystem I and delivering them to essential oxido-reductive pathways in the stroma. Ferredoxin levels decrease under adverse environmental conditions...
7.
Voss I, Goss T, Murozuka E, Altmann B, McLean K, Rigby S, et al.
J Biol Chem
. 2010 Oct;
286(1):50-9.
PMID: 20966083
In higher plants, [2Fe-2S] ferredoxin (Fd) proteins are the unique electron acceptors from photosystem I (PSI). Fds are soluble, and distribute electrons to many enzymes, including Fd:NADP(H) reductase (FNR), for...
8.
Strodtkotter I, Padmasree K, Dinakar C, Speth B, Niazi P, Wojtera J, et al.
Mol Plant
. 2009 Oct;
2(2):284-97.
PMID: 19825614
Plant respiration is characterized by two pathways for electron transfer to O(2), namely the cytochrome pathway (CP) that is linked to ATP production, and the alternative pathway (AP), where electrons...
9.
Voss I, Koelmann M, Wojtera J, Holtgrefe S, Kitzmann C, Backhausen J, et al.
Physiol Plant
. 2008 May;
133(3):584-98.
PMID: 18494733
Ferredoxins are the major distributors for electrons to the various acceptor systems in plastids. In green tissues, ferredoxins are reduced by photosynthetic electron flow in the light, while in heterotrophic...
10.
Koop A, Voss I, Thesing A, Kohl H, Reichelt R, Steinbuchel A
Biomacromolecules
. 2007 Aug;
8(9):2675-83.
PMID: 17713945
In this study the technique of energy-filtering transmission electron microscopy was applied to localize cyanophycin (CGP) in recombinant strains of Ralstonia eutropha. Since CGP is a polymer consisting of the...