J
Jürgen Soll
Researcher at Ludwig Maximilian University of Munich
Publications - 227
Citations - 15287
Jürgen Soll is an academic researcher from Ludwig Maximilian University of Munich. The author has contributed to research in topics: Chloroplast & Translocon. The author has an hindex of 72, co-authored 224 publications receiving 14663 citations. Previous affiliations of Jürgen Soll include Hochschule Hannover & University of Veterinary Medicine Hanover.
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Journal ArticleDOI
14-3-3 proteins: a highly conserved, widespread family of eukaryotic proteins.
Alastair Aitken,D. B. Collinge,B. P. H. van Heusden,T. Isobe,Patrick H. Roseboom,G. Rosenfeld,Jürgen Soll +6 more
TL;DR: A family of proteins known as 14-3-3 is currently receiving increased attention by investigators studying a broad range of biological systems, including plants and invertebrates, and current thinking indicates that these proteins may function as regulators in signal transduction/phosphorylation mechanisms.
Journal ArticleDOI
Protein import into chloroplasts
Jürgen Soll,Enrico Schleiff +1 more
TL;DR: In vivo results from the model plant Arabidopsis thaliana and biochemical, biophysical and structural data from other plants allow us to outline the mechanistic details of the molecular machines that facilitate chloroplasts' translocation.
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14-3-3 proteins form a guidance complex with chloroplast precursor proteins in plants.
Timo May,Jürgen Soll +1 more
TL;DR: The 14-3-3–Hsp70–precursor protein complex is a bona fide intermediate in the in vivo protein import pathway in plants and indicates an unrecognized selectivity of 14- 3-3 proteins for precursors from mitochondria and plastids in plants in comparison to fungi and animals.
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VIPP1, a nuclear gene of Arabidopsis thaliana essential for thylakoid membrane formation.
Daniela Kroll,Karin Meierhoff,Nicole Bechtold,Mikio Kinoshita,Sabine Westphal,Ute C. Vothknecht,Jürgen Soll,Peter Westhoff +7 more
TL;DR: It is proposed that VIPP1 is essential for the maintenance of thylakoids by a transport pathway not previously recognized.
Journal ArticleDOI
PIC1, an ancient permease in Arabidopsis chloroplasts, mediates iron transport.
TL;DR: Observations suggest that PIC1 functions in iron transport across the inner envelope of chloroplasts and hence in cellular metal homeostasis.