M
Max E. Kraner
Researcher at University of Erlangen-Nuremberg
Publications - 16
Citations - 364
Max E. Kraner is an academic researcher from University of Erlangen-Nuremberg. The author has contributed to research in topics: Plasmodesma & Toxoid. The author has an hindex of 9, co-authored 16 publications receiving 226 citations.
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Journal ArticleDOI
Multiple C2 domains and transmembrane region proteins (MCTPs) tether membranes at plasmodesmata.
Marie L Brault,Jules D. Petit,Jules D. Petit,Françoise Immel,William J Nicolas,Marie Glavier,Lysiane Brocard,Amèlia Gaston,Mathieu Fouché,Timothy J. Hawkins,Jean-Marc Crowet,Magali S. Grison,Véronique Germain,Marion Rocher,Max E. Kraner,Vikram Alva,Stéphane Claverol,Andrea Paterlini,Yrjö Helariutta,Magali Deleu,Laurence Lins,Jens Tilsner,Jens Tilsner,Emmanuelle Bayer +23 more
TL;DR: It is shown that the multiple C2 domains and transmembrane region protein (MCTP) family, key regulators of cell‐to‐cell signalling in plants, act as ER‐PM tethers specifically at plasmodesmata.
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Comparative proteomic profiling of the choline transporter-like1 (CHER1) mutant provides insights into plasmodesmata composition of fully developed Arabidopsis thaliana leaves.
TL;DR: A deep comparative proteomic workflow is utilized and a valuable data set of potential PD-associated proteins are revealed, which can be used as a resource to unravel the molecular composition of complex PD and to investigate their function in cell-to-cell communication.
Journal ArticleDOI
Choline transporter-like1 (CHER1) is crucial for plasmodesmata maturation in Arabidopsis thaliana.
Max E. Kraner,Katrin Link,Michael Melzer,Arif B. Ekici,Steffen Uebe,Pablo Tarazona,Ivo Feussner,Jörg Hofmann,Uwe Sonnewald +8 more
TL;DR: Choline transporter‐like 1 (CHER1) is important for genesis of secondary plasmodesmata in the shoot apical meristem and for maturation of complex PD during leaf development, which indicates that cher1 mutants are impaired in PD formation and development.
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Symplasmic phloem unloading and radial post-phloem transport via vascular rays in tuberous roots of Manihot esculenta.
Rabih Mehdi,Christian E. Lamm,Ravi B. Anjanappa,Christina Müdsam,Muhammad Saeed,Janine Klima,Max E. Kraner,Frank Ludewig,Michael Knoblauch,Wilhelm Gruissem,Wilhelm Gruissem,Uwe Sonnewald,Wolfgang Zierer +12 more
TL;DR: Efficient starch storage in young xylem parenchyma cells is supported by symplasmic phloem unloading and post-phloem transport via parenchymatic vascular rays in the tuberous roots of cassava.
Journal ArticleDOI
Autophagic degradation of lamins facilitates the nuclear egress of herpes simplex virus type 1.
Aykut Turan,Linda Grosche,Adalbert Krawczyk,Petra Mühl-Zürbes,Christina Drassner,Alexandra Düthorn,Mirko Kummer,Mike Hasenberg,Sylvia Voortmann,Holger Jastrow,Jan Dörrie,Niels Schaft,Max E. Kraner,Katinka Döhner,Beate Sodeik,Alexander Steinkasserer,Christiane Silke Heilingloh +16 more
TL;DR: It is hypothesized that inhibition of autophagic lamin degradation in mDCs represents a very powerful cellular counterstrike to inhibit the production of progeny virus and thus viral spread.