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HTTP/1.1 200 OKDate: Thu, 04 Dec 2025 03:04:51 GMTServer: ApacheUpgrade: h2,h2cConnection: UpgradeLast-Modified: Thu, 21 Dec 2023 08:57:26 GMTETag: 1a19ca-7a36-60d0149f05b6eAccept-Ranges: bytesContent-Length: 31286Vary: Accept-EncodingContent-Type: text/html !DOCTYPE html>html >head> !-- Site made with Mobirise Website Builder v5.6.13, https://mobirise.com --> meta charsetUTF-8> meta http-equivX-UA-Compatible contentIEedge> meta namegenerator contentMobirise v5.6.13, mobirise.com> meta nametwitter:card contentsummary_large_image/> meta nametwitter:image:src content> meta propertyog:image content> meta nametwitter:title contentHome> meta nameviewport contentwidthdevice-width, initial-scale1, minimum-scale1> link relshortcut icon hrefassets/images/logo.png typeimage/x-icon> meta namedescription content> title>Home/title> link relstylesheet hrefassets/web/assets/mobirise-icons2/mobirise2.css> link relstylesheet hrefassets/bootstrap/css/bootstrap.min.css> link relstylesheet hrefassets/bootstrap/css/bootstrap-grid.min.css> link relstylesheet hrefassets/bootstrap/css/bootstrap-reboot.min.css> link relstylesheet hrefassets/dropdown/css/style.css> link relstylesheet hrefassets/socicon/css/styles.css> link relstylesheet hrefassets/theme/css/style.css> link relpreload hrefhttps://fonts.googleapis.com/css?familyJost:100,200,300,400,500,600,700,800,900,100i,200i,300i,400i,500i,600i,700i,800i,900i&displayswap asstyle onloadthis.onloadnull;this.relstylesheet> noscript>link relstylesheet hrefhttps://fonts.googleapis.com/css?familyJost:100,200,300,400,500,600,700,800,900,100i,200i,300i,400i,500i,600i,700i,800i,900i&displayswap>/noscript> link relpreload asstyle hrefassets/mobirise/css/mbr-additional.css>link relstylesheet hrefassets/mobirise/css/mbr-additional.css typetext/css> /head>body> section data-bs-version5.1 classmenu cid-s48OLK6784 oncemenu idmenu1-h> nav classnavbar navbar-dropdown navbar-fixed-top navbar-expand-lg> div classcontainer> div classnavbar-brand> span classnavbar-caption-wrap>a classnavbar-caption text-black text-primary display-7 hrefhttps://mobiri.se>Plant Cell Biology - Scheuring Lab/a>/span> /div> button classnavbar-toggler typebutton data-togglecollapse data-bs-togglecollapse data-target#navbarSupportedContent data-bs-target#navbarSupportedContent aria-controlsnavbarNavAltMarkup aria-expandedfalse aria-labelToggle navigation> div classhamburger> span>/span> span>/span> span>/span> span>/span> /div> /button> div classcollapse navbar-collapse idnavbarSupportedContent> ul classnavbar-nav nav-dropdown nav-right data-app-modern-menutrue>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#header3-k>Home/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#content1-c>Research/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#slider1-14>Gallery/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#team1-o>Team/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#content4-1k>Publications/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#contacts4-1e>Contact/a>/li>/ul> /div> /div> /nav>/section>section data-bs-version5.1 classheader3 cid-tizGgD8lOD mbr-fullscreen idheader3-k> div classmbr-overlay styleopacity: 0; background-color: rgb(187, 187, 187);>/div> div classalign-center container> div classrow> div classcol-12 col-lg-11> h1 classmbr-section-title mbr-fonts-style mb-3 display-1>strong>Scheuring Lab/strong>/h1> p classmbr-text mbr-fonts-style display-5>Looking at plants from a cell´s perspective./p> /div> /div> /div>/section>section data-bs-version5.1 classcontent1 cid-s48vnjULo4 idcontent1-c> div classcontainer> div classrow justify-content-center> div classtitle col-12 col-md-12> h3 classmbr-section-title mbr-fonts-style align-center mb-4 display-2>strong>Research/strong>/h3> h4 classmbr-section-subtitle align-center mbr-fonts-style mb-4 display-7>Cells are the smallest units of life. Due to their sessile lifestyle, plants rely in particular on intracellular reactions to cope with changing environmental conditions. Thus, our research focus is to understand how plant cells behave during stress situations.br>We aim to understand the cellular and molecular processes which allows for cell elongation and eventually plant growth. To this end, we use a combination of cell biological, genetic and biochemical approaches. Especially vesicle transport along actin filaments and morphological changes of cell organelles (e.g. the vacuole) are being investigated during abiotic and biotic (pathogens) stress. Deciphering these specific intracellular processes will allow to understand stress-induced plant growth regulation which might help to establish more robust plants withstanding future challenges. /h4> /div> /div> /div>/section>section data-bs-version5.1 classslider1 cid-tiIe3NiH2x idslider1-14> div classcarousel slide idtZ3VNqXD74 data-interval5000 data-bs-interval5000> ol classcarousel-indicators> li data-slide-to0 data-bs-slide-to0 classactive data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to1 data-bs-slide-to1 class data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li> li data-slide-to2 data-bs-slide-to2 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to3 data-bs-slide-to3 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li> li data-slide-to4 data-bs-slide-to4 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to5 data-bs-slide-to5 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to6 data-bs-slide-to6 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li> /ol> div classcarousel-inner> div classcarousel-item slider-image item active> div classitem-wrapper> img classd-block w-100 srcassets/images/plant-cell-biology-high-quality.jpg altMobirise Website Builder data-slide-to1 data-bs-slide-to1> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Looking at plants from a cell´s perspective/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Vacuoles in epidermis cells of the Arabidopsis root meristem/p> /div> /div> /div> div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/scheuring-group.jpg altMobirise Website Builder data-slide-to2 data-bs-slide-to2> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Group Picture/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/image030.jpeg altMobirise Website Builder data-slide-to3 data-bs-slide-to3> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5> strong>The vacuole - cytoskeleton connection/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Actin filament (lifeact-venus) and tonoplast labelling (FM4-64) in root epidermal cells/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/image-41.jpeg altMobirise Website Builder data-slide-to4 data-bs-slide-to4> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Organ development/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Outgrowth of a lateral root on the cellular level/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/isolqted-vacuoles.jpg altMobirise Website Builder data-slide-to5 data-bs-slide-to5> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Vacuole Isolation/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Vacuoles from Arabidopsis leaves released by thermo-osmotic shockbr>/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/image021.jpeg altMobirise Website Builder data-slide-to6 data-bs-slide-to6> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Developing vacuoles/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Vacuoles (stained by MDY-64) in the epidermis of the Arabidopsis root meristem/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/bild1-1.jpeg altMobirise Website Builder data-slide-to7 data-bs-slide-to7> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Fungal hyphae spreading on a leaf surface/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>/p> /div> /div> /div> /div> a classcarousel-control carousel-control-prev rolebutton data-slideprev data-bs-slideprev href#tZ3VNqXD74> span classmobi-mbri mobi-mbri-arrow-prev aria-hiddentrue>/span> span classsr-only visually-hidden>Previous/span> /a> a classcarousel-control carousel-control-next rolebutton data-slidenext data-bs-slidenext href#tZ3VNqXD74> span classmobi-mbri mobi-mbri-arrow-next aria-hiddentrue>/span> span classsr-only visually-hidden>Next/span> /a> /div>/section>section data-bs-version5.1 classteam1 cid-tizPhmy5O2 idteam1-o> div classcontainer> div classrow justify-content-center> div classcol-12> h3 classmbr-section-title mbr-fonts-style align-center mb-4 display-2> strong>Our team/strong> /h3> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/david-1.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5>strong>David Scheuring/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4> strong>Principle Investigator/strong>/h6> p classcard-text mbr-fonts-style align-center display-7>Organizing, administrating and structuring different projectsbr>br>a hrefhttps://www.bio.uni-kl.de/phytopathologie/team/david-scheuring/ classtext-primary>Curriculum Vitae/a>/p> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/sabrina-1.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5> strong>Sabrina Kaiser/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>strong>PhD candidate/strong>/h6> p classcard-text mbr-fonts-style align-center display-7> Investigating the connection between the plant cytoskeleton and the vacuolebr>br>kaisers@rptu.de/p> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/jonas-1.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5> strong>Jonas Müller/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>strong>PhD candidate/strong>/h6> p classcard-text mbr-fonts-style align-center display-7> Deciphering the salicylic acid induced plant growth inhibitionbr>br>br>br>jonasmue@rptu.de /p> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/tobias-mller-4.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5>strong>Tobias Müller/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>strong>PhD candidate/strong>/h6> p classcard-text mbr-fonts-style align-center display-7> Understanding how plant defense is manipulated by pathogensbr>br>br>br>tmueller@rptu.de br>/p> /div> /div> /div> /div> /div>/section>section data-bs-version5.1 classteam1 cid-tFfMdVlEPo idteam1-1l> div classcontainer> div classrow justify-content-center> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/paulina.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7>strong>Paulina Miranda Ramirez/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>Master Student/h6> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/yvonne.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7> strong>Yvonne König/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>Bachelor Student/h6> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/tanaz.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7>strong>Tanaz Azizi/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>Student Helper/h6> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/blank.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>/h6> /div> /div> /div> /div> /div>/section>section data-bs-version5.1 classcontent4 cid-tqDU2VnCc2 idcontent4-1k> div classcontainer> div classrow justify-content-center> div classtitle col-md-12 col-lg-12> h3 classmbr-section-title mbr-fonts-style align-center mb-4 display-2> strong>Publications/strong> /h3> /div> /div> /div>/section>section data-bs-version5.1 classcontent5 cid-tqDS2qLg6x idcontent5-1g> div classcontainer> div classrow justify-content-center> div classcol-md-12 col-lg-12> h4 classmbr-section-subtitle mbr-fonts-style mb-4 display-5>Original research: first –and corresponding authorships from our group/h4> p classmbr-text mbr-fonts-style display-7>T Mueller, J Bronkhorst, J Mueller, N Safari, M Hahn, J Sprakel, Scheuring, D (2023) Plant infection by the necrotrophic fungus Botrytis requires actin-dependent generation of high invasive turgor pressure. bioRxiv, https://doi.org/10.1101/2023.12.15.571920br>br>Kaiser S, Mehlhorn D, Ramirez Miranda P, Ries F, Sommer F, Schroda M, Schumacher K, Willmund F, Grefen C, Scheuring, D (2023) Networked proteins redundantly interact with VAP27 and RABG3 to regulate membrane tethering at the vacuole and beyond. bioRxiv, https://doi.org/10.1101/2023.09.29.56011br>br>Jeblick T, Leisen T, Steidele CE, Albert I, Mueller J, Kaiser S, Mahler F, Sommer F, Keller S, Hueckelhoven R, Hahn M, Scheuring, D (2023) Botrytis hypersensitive response inducing protein 1 triggers non-canonical PTI to induce plant cell death. Plant Physiol, 191, 125-141br>br>Kaiser S, Eisele S, Scheuring D (2021) Vacuolar occupancy is crucial for cell elongation and growth regardless of the underlying mechanism. Plant Signal. Behav. 16, 1922796br>br>Kaiser S, Eisa A, Kleine-Vehn J, Scheuring D. (2019) NET4 modulates the compactness of vacuoles in Arabidopsis thaliana. Int. J. Mol. Sci, 20, 4752br>br>Scheuring D, Löfke C, Krüger F, Kittelmann M, Eisa A, Hughes L, Smith RS, Hawes C, Schumacher K, Kleine-Vehn J. (2016) Actin-dependent vacuolar occupancy of the cell determines auxin-induced growth repression. Proc Natl Acad Sci U S A. 113, 452-57br>br>Löfke C, Scheuring D, Dünser K, Schöller M, Luschnig C and Kleine-Vehn J. (2015) Tricho- and atrichoblast cell files show distinct PIN2 auxin efflux carrier exploitations and are jointly required for defined auxin-dependent root organ growth. J Exp Bot. 66, 5103-5112br>br>Scheuring D, Künzl F, Viotti C, San Wan Yan M, Jiang L, Schellmann S, Robinson D.G and Pimpl P. (2012) Ubiquitin initiates sorting of Golgi and plasma membrane proteins into the vacuolar degradation pathway. BMC Plant Biol. 12, 164br>br>Scheuring D, Viotti C, Krüger F, Künzl F, Sturm S, Bubeck J, Hillmer S, Frigerio L, Robinson D.G, Pimpl P and Schumacher K. (2011) Multivesicular bodies mature from the trans-Golgi network/early endosome in Arabidopsis. Plant Cell 23, 3463-81br>br>Bubeck J, Scheuring D, Hummel E, Langhans M, Viotti C, Foresti O, Denecke J, Banfield D.K and Robinson D. G. (2008) The syntaxins SYP31 and SYP81 control ER Golgi trafficking in the plant secretory pathway. Traffic 9, 1629-52br>/p> /div> /div> /div>/section>section data-bs-version5.1 classcontent5 cid-tqDSvugl9N idcontent5-1i> div classcontainer> div classrow justify-content-center> div classcol-md-12 col-lg-12> h4 classmbr-section-subtitle mbr-fonts-style mb-4 display-5>Review articles, book chapters and commentaries/h4> p classmbr-text mbr-fonts-style display-7>Scheuring D and Kleine-Vehn J. (2020) On the discovery of an endomembrane compartment in plants. Proc Natl Acad Sci U S A. 117, 10623-10624br>br>Kaiser S and Scheuring D. (2020) To lead or to follow: Contribution of the plant vacuole to cell growth. Front. Plant Sci. 11, 553br>br>Ruano G and Scheuring D. (2020) Plant Cells under Attack: Unconventional Endomembrane Trafficking during Plant Defense. Plants. 21, 389br>br>Scheuring D, Schöller M, Kleine-Vehn J and Löfke C. (2015) Vacuolar staining methods in plant cells. Methods Mol Biol. 1242, 83-92br>br>Scheuring D and Kleine-Vehn J. (2014) Intracellular auxin transport. Springer press: Auxin and Its Role in Plant Development. pp 61-73. DOI: 10.1007/978-3-7091-1526-8_4br>br>Robinson DG, Pimpl P, Scheuring D, Stierhof YD, Sturm S, Viotti C. (2012) Trying to make sense of retromer. Trends Plant Sci. 17, 431-9br>br>Robinson DG, Scheuring D, Naramoto S and Friml J. ARF1 Localizes to the Golgi and the Trans-Golgi Network. (2011) Plant Cell 23, 846-9 br>/p> /div> /div> /div>/section>section data-bs-version5.1 classcontent5 cid-tqDSWvqDdX idcontent5-1j> div classcontainer> div classrow justify-content-center> div classcol-md-12 col-lg-12> h4 classmbr-section-subtitle mbr-fonts-style mb-4 display-5> Collaborations /h4> p classmbr-text mbr-fonts-style display-7>Kreis E, Niemeyer J, Merz M, Scheuring D, Schroda M (2023) CLPB3 is required for the removal of chloroplast protein aggregates and for thermotolerance in Chlamydomonas. J. Exp. Bot. doi: 10.1093/jxb/erad109br>br>Kuang L, Chen S, Guo Y, Scheuring D, Flaishman MA, Ma M (2022) Proteome analysis of vacuoles isolated from fig (Ficus carica L.) flesh during fruit development. Plant Cell Physiol. pcac039br>br>Leisen T, Werner J, Pattar P, Safari N, Ymeri E, Sommer F, Schroda M, Suárez I, Collado IG, Scheuring D, Hahn M (2022) Multiple knockout mutants reveal a high redundancy of phytotoxic compounds that determine necrotrophic pathogenesis of Botrytis cinerea. PLoS pathogens 18 (3), e1010367br>br>Trösch R, Ries F, Westrich LD, Gao Y, Herkt C, Hoppstädter J, Heck-Roth J, Mustas M, Scheuring D, Choquet Y, Räschle M, Zoschke R, Willmund, F (2021) Fast and global reorganization of the chloroplast protein biogenesis network during heat acclimation. The Plant Cell, koab317, https://doi.org/10.1093/plcell/koab317br>br>Valifard M, Le Hir R, Müller J, Scheuring D, Neuhaus HE, Pommerrenig B (2021) The vacuolar fructose transporter SWEET17 is critical for root development and drought tolerance. Plant Phys. 187, 2716–2730br>br>Hickl D, Drews F, Girke C, Zimmer D, Mühlhaus T, Hauth J, Nordström K, Trentmann O, Neuhaus HE, Scheuring D, Fehlmann T, Keller A, Simon M, Möhlmann T (2021) Differential degradation of RNA species by autophagy related pathways in Arabidopsis. J. Exp. Bot. 72, 6867-6881br>br>Minina EA, Scheuring D, Askani J, Krueger F, Schumacher K (2021) Light at the end of the tunnel: FRAP assay reveals that plant vacuoles start as a tubular network. bioRxiv https://www.biorxiv.org/content/10.1101/2021.05.13.444058v1br>br>Niemeyer J, Scheuring D, Oestreicher J, Morgan B, Schroda M (2021) Real-time monitoring of subcellular H2O2 distribution in Chlamydomonas reinhardtii. Plant Cell, 33, 2935-2949br>br>DJ Klionsky et al. (2021) Guidelines for the use and interpretation of assays for monitoring autophagy. autophagy. 17, 1-382br>br>Hickl D, Scheuring D, Möhlmann T (2021) CTP-Synthase 2 from Arabidopsis thaliana is required for complete embryo development. Front. Plant Sci. 12, 510br>br>Leisen T, Bietz F, Werner J, Wegner A, Schaffrath U, Scheuring D, Willmund F, Mosbach A, Scalliet G, Hahn, M. (2020) CRISPR/Cas with ribonucleoprotein complexes and transiently selected telomere vectors allows highly efficient marker-free and multiple genome editing in Botrytis cinerea. PLOS Pathogens 16: e1008326br>br>Müller N, Leroch M, Schumacher J, Zimmer D, Könnel A, Klug K, Leisen T, Scheuring D, Sommer F, Mühlhaus T, Schroda M, Hahn M. (2018) Investigations on VELVET regulatory mutants confirm the role of host tissue acifidication and secretion of proteins in the pathogenesis of Botrytis cinerea. New Phytol. 219, 1062-1074br>br>Löfke C, Dünser K, Scheuring D and Kleine-Vehn J. (2015) Auxin regulates SNARE-dependent vacuolar morphology restricting cell size. eLife 4, e05868br>br>Viotti C, Krüger F, Krebs M, Neubert C, Fink F, Lupanga U, Scheuring D, Boutté Y, Frescatada-Rosa M, Wolfenstetter S, Sauer N, Hillmer S, Grebe M and Schumacher K. (2013) The endoplasmic reticulum is the main membrane source for biogenesis of the lytic vacuole in Arabidopsis. Plant Cell 25, 3434-49br>br>Stierhof YD, Viotti C, Scheuring D, Sturm S and Robinson DG. (2013) Sorting nexins 1 and 2a locate mainly to the TGN. Protoplasma 250, 235-40br>br>Lerich A, Hillmer S, Langhans M, Scheuring D, van Bentum P and Robinson DG. (2012) ER Import Sites and Their Relationship to ER Exit Sites: A New Model for Bidirectional ER-Golgi Transport in Higher Plants. Front Plant Sci. 2, 143br>br>Shahriari M, Keshavaiah C, Scheuring D, Sabovljevic A, Pimpl P, Hausler R.E, Hulskamp M and Schellmann S. (2010) The AAA-ATPase AtSKD1 contributes to vacuolar maintenance of A. thaliana. Plant J 64, 71-85br>br>Niemes S, Labs M, Scheuring D, Krueger F, Langhans M, Jesenofsky B, Robinson DG and Pimpl P. (2010) Sorting of plant vacuolar proteins is initiated in the ER. Plant J 62, 601-14br>br>Niemes S, Langhans M, Viotti C, Scheuring D, San Wan Yan M, Jiang L, Hillmer S, Robinson D.G and Pimpl P. (2010) Retromer recycles vacuolar sorting receptors from the trans-Golgi network. Plant J 61, 107-21 br>/p> /div> /div> /div>/section>section data-bs-version5.1 classcontacts4 cid-tqDRjldjUR idcontacts4-1e> div classcontainer> div classrow align-items-center justify-content-center> div classtext-content col-12 col-md-6> h2 classmbr-section-title mbr-fonts-style display-2> strong>Contact/strong>/h2> p classmbr-text mbr-fonts-style display-7>PD Dr. David Scheuring br>br>Plant Pathologybr>University of Kaiserslautern (RPTU)br>Paul-Ehrlich-Str. 22br>67663 Kaiserslautern, Germanybr>br>Email: scheuring@uni-kl.debr>Phone: +49 (0)631 205-2219/p> /div> div classicons d-flex align-items-center col-12 col-md-6 justify-content-end mt-md-0 mt-2 flex-wrap> a hrefhttps://twitter.com/david_scheuring target_blank> span classmbr-iconfont mbr-iconfont-social socicon-twitter socicon>/span> /a> /div> /div> /div> /section>section classdisplay-7 stylepadding: 0;align-items: center;justify-content: center;flex-wrap: wrap; align-content: center;display: flex;position: relative;height: 4rem;>a hrefhttps://mobiri.se/ styleflex: 1 1;height: 4rem;position: absolute;width: 100%;z-index: 1;>img alt styleheight: 4rem; srcdata:image/gif;base64,R0lGODlhAQABAIAAAP///wAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw>/a>p stylemargin: 0;text-align: center; classdisplay-7>/p>a stylez-index:1 hrefhttps://mobirise.com/builder/html-code-generator.html>HTML Code Generator/a>/section>script srcassets/bootstrap/js/bootstrap.bundle.min.js>/script> script srcassets/smoothscroll/smooth-scroll.js>/script> script srcassets/ytplayer/index.js>/script> script srcassets/dropdown/js/navbar-dropdown.js>/script> script srcassets/sociallikes/social-likes.js>/script> script srcassets/theme/js/script.js>/script> /body>/html>
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HTTP/1.1 200 OKDate: Thu, 04 Dec 2025 03:04:51 GMTServer: ApacheUpgrade: h2,h2cConnection: UpgradeLast-Modified: Thu, 21 Dec 2023 08:57:26 GMTETag: 1a19ca-7a36-60d0149f05b6eAccept-Ranges: bytesContent-Length: 31286Vary: Accept-EncodingContent-Type: text/html !DOCTYPE html>html >head> !-- Site made with Mobirise Website Builder v5.6.13, https://mobirise.com --> meta charsetUTF-8> meta http-equivX-UA-Compatible contentIEedge> meta namegenerator contentMobirise v5.6.13, mobirise.com> meta nametwitter:card contentsummary_large_image/> meta nametwitter:image:src content> meta propertyog:image content> meta nametwitter:title contentHome> meta nameviewport contentwidthdevice-width, initial-scale1, minimum-scale1> link relshortcut icon hrefassets/images/logo.png typeimage/x-icon> meta namedescription content> title>Home/title> link relstylesheet hrefassets/web/assets/mobirise-icons2/mobirise2.css> link relstylesheet hrefassets/bootstrap/css/bootstrap.min.css> link relstylesheet hrefassets/bootstrap/css/bootstrap-grid.min.css> link relstylesheet hrefassets/bootstrap/css/bootstrap-reboot.min.css> link relstylesheet hrefassets/dropdown/css/style.css> link relstylesheet hrefassets/socicon/css/styles.css> link relstylesheet hrefassets/theme/css/style.css> link relpreload hrefhttps://fonts.googleapis.com/css?familyJost:100,200,300,400,500,600,700,800,900,100i,200i,300i,400i,500i,600i,700i,800i,900i&displayswap asstyle onloadthis.onloadnull;this.relstylesheet> noscript>link relstylesheet hrefhttps://fonts.googleapis.com/css?familyJost:100,200,300,400,500,600,700,800,900,100i,200i,300i,400i,500i,600i,700i,800i,900i&displayswap>/noscript> link relpreload asstyle hrefassets/mobirise/css/mbr-additional.css>link relstylesheet hrefassets/mobirise/css/mbr-additional.css typetext/css> /head>body> section data-bs-version5.1 classmenu cid-s48OLK6784 oncemenu idmenu1-h> nav classnavbar navbar-dropdown navbar-fixed-top navbar-expand-lg> div classcontainer> div classnavbar-brand> span classnavbar-caption-wrap>a classnavbar-caption text-black text-primary display-7 hrefhttps://mobiri.se>Plant Cell Biology - Scheuring Lab/a>/span> /div> button classnavbar-toggler typebutton data-togglecollapse data-bs-togglecollapse data-target#navbarSupportedContent data-bs-target#navbarSupportedContent aria-controlsnavbarNavAltMarkup aria-expandedfalse aria-labelToggle navigation> div classhamburger> span>/span> span>/span> span>/span> span>/span> /div> /button> div classcollapse navbar-collapse idnavbarSupportedContent> ul classnavbar-nav nav-dropdown nav-right data-app-modern-menutrue>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#header3-k>Home/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#content1-c>Research/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#slider1-14>Gallery/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#team1-o>Team/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#content4-1k>Publications/a>/li>li classnav-item>a classnav-link link text-black text-primary display-4 hrefindex.html#contacts4-1e>Contact/a>/li>/ul> /div> /div> /nav>/section>section data-bs-version5.1 classheader3 cid-tizGgD8lOD mbr-fullscreen idheader3-k> div classmbr-overlay styleopacity: 0; background-color: rgb(187, 187, 187);>/div> div classalign-center container> div classrow> div classcol-12 col-lg-11> h1 classmbr-section-title mbr-fonts-style mb-3 display-1>strong>Scheuring Lab/strong>/h1> p classmbr-text mbr-fonts-style display-5>Looking at plants from a cell´s perspective./p> /div> /div> /div>/section>section data-bs-version5.1 classcontent1 cid-s48vnjULo4 idcontent1-c> div classcontainer> div classrow justify-content-center> div classtitle col-12 col-md-12> h3 classmbr-section-title mbr-fonts-style align-center mb-4 display-2>strong>Research/strong>/h3> h4 classmbr-section-subtitle align-center mbr-fonts-style mb-4 display-7>Cells are the smallest units of life. Due to their sessile lifestyle, plants rely in particular on intracellular reactions to cope with changing environmental conditions. Thus, our research focus is to understand how plant cells behave during stress situations.br>We aim to understand the cellular and molecular processes which allows for cell elongation and eventually plant growth. To this end, we use a combination of cell biological, genetic and biochemical approaches. Especially vesicle transport along actin filaments and morphological changes of cell organelles (e.g. the vacuole) are being investigated during abiotic and biotic (pathogens) stress. Deciphering these specific intracellular processes will allow to understand stress-induced plant growth regulation which might help to establish more robust plants withstanding future challenges. /h4> /div> /div> /div>/section>section data-bs-version5.1 classslider1 cid-tiIe3NiH2x idslider1-14> div classcarousel slide idtZ3VNqXD74 data-interval5000 data-bs-interval5000> ol classcarousel-indicators> li data-slide-to0 data-bs-slide-to0 classactive data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to1 data-bs-slide-to1 class data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li> li data-slide-to2 data-bs-slide-to2 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to3 data-bs-slide-to3 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li> li data-slide-to4 data-bs-slide-to4 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to5 data-bs-slide-to5 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li>li data-slide-to6 data-bs-slide-to6 data-target#tZ3VNqXD74 data-bs-target#tZ3VNqXD74>/li> /ol> div classcarousel-inner> div classcarousel-item slider-image item active> div classitem-wrapper> img classd-block w-100 srcassets/images/plant-cell-biology-high-quality.jpg altMobirise Website Builder data-slide-to1 data-bs-slide-to1> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Looking at plants from a cell´s perspective/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Vacuoles in epidermis cells of the Arabidopsis root meristem/p> /div> /div> /div> div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/scheuring-group.jpg altMobirise Website Builder data-slide-to2 data-bs-slide-to2> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Group Picture/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/image030.jpeg altMobirise Website Builder data-slide-to3 data-bs-slide-to3> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5> strong>The vacuole - cytoskeleton connection/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Actin filament (lifeact-venus) and tonoplast labelling (FM4-64) in root epidermal cells/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/image-41.jpeg altMobirise Website Builder data-slide-to4 data-bs-slide-to4> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Organ development/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Outgrowth of a lateral root on the cellular level/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/isolqted-vacuoles.jpg altMobirise Website Builder data-slide-to5 data-bs-slide-to5> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Vacuole Isolation/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Vacuoles from Arabidopsis leaves released by thermo-osmotic shockbr>/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/image021.jpeg altMobirise Website Builder data-slide-to6 data-bs-slide-to6> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Developing vacuoles/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>Vacuoles (stained by MDY-64) in the epidermis of the Arabidopsis root meristem/p> /div> /div> /div>div classcarousel-item slider-image item> div classitem-wrapper> img classd-block w-100 srcassets/images/bild1-1.jpeg altMobirise Website Builder data-slide-to7 data-bs-slide-to7> div classcarousel-caption> h5 classmbr-section-subtitle mbr-fonts-style display-5>strong>Fungal hyphae spreading on a leaf surface/strong>/h5> p classmbr-section-text mbr-fonts-style display-7>/p> /div> /div> /div> /div> a classcarousel-control carousel-control-prev rolebutton data-slideprev data-bs-slideprev href#tZ3VNqXD74> span classmobi-mbri mobi-mbri-arrow-prev aria-hiddentrue>/span> span classsr-only visually-hidden>Previous/span> /a> a classcarousel-control carousel-control-next rolebutton data-slidenext data-bs-slidenext href#tZ3VNqXD74> span classmobi-mbri mobi-mbri-arrow-next aria-hiddentrue>/span> span classsr-only visually-hidden>Next/span> /a> /div>/section>section data-bs-version5.1 classteam1 cid-tizPhmy5O2 idteam1-o> div classcontainer> div classrow justify-content-center> div classcol-12> h3 classmbr-section-title mbr-fonts-style align-center mb-4 display-2> strong>Our team/strong> /h3> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/david-1.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5>strong>David Scheuring/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4> strong>Principle Investigator/strong>/h6> p classcard-text mbr-fonts-style align-center display-7>Organizing, administrating and structuring different projectsbr>br>a hrefhttps://www.bio.uni-kl.de/phytopathologie/team/david-scheuring/ classtext-primary>Curriculum Vitae/a>/p> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/sabrina-1.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5> strong>Sabrina Kaiser/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>strong>PhD candidate/strong>/h6> p classcard-text mbr-fonts-style align-center display-7> Investigating the connection between the plant cytoskeleton and the vacuolebr>br>kaisers@rptu.de/p> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/jonas-1.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5> strong>Jonas Müller/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>strong>PhD candidate/strong>/h6> p classcard-text mbr-fonts-style align-center display-7> Deciphering the salicylic acid induced plant growth inhibitionbr>br>br>br>jonasmue@rptu.de /p> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/tobias-mller-4.jpg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-5>strong>Tobias Müller/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>strong>PhD candidate/strong>/h6> p classcard-text mbr-fonts-style align-center display-7> Understanding how plant defense is manipulated by pathogensbr>br>br>br>tmueller@rptu.de br>/p> /div> /div> /div> /div> /div>/section>section data-bs-version5.1 classteam1 cid-tFfMdVlEPo idteam1-1l> div classcontainer> div classrow justify-content-center> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/paulina.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7>strong>Paulina Miranda Ramirez/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>Master Student/h6> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/yvonne.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7> strong>Yvonne König/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>Bachelor Student/h6> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/tanaz.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7>strong>Tanaz Azizi/strong>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>Student Helper/h6> /div> /div> /div> div classcol-sm-6 col-lg-3> div classcard-wrap> div classimage-wrap> img srcassets/images/blank.jpeg altMobirise Website Builder> /div> div classcontent-wrap> h5 classmbr-section-title card-title mbr-fonts-style align-center m-0 display-7>/h5> h6 classmbr-role mbr-fonts-style align-center mb-3 display-4>/h6> /div> /div> /div> /div> /div>/section>section data-bs-version5.1 classcontent4 cid-tqDU2VnCc2 idcontent4-1k> div classcontainer> div classrow justify-content-center> div classtitle col-md-12 col-lg-12> h3 classmbr-section-title mbr-fonts-style align-center mb-4 display-2> strong>Publications/strong> /h3> /div> /div> /div>/section>section data-bs-version5.1 classcontent5 cid-tqDS2qLg6x idcontent5-1g> div classcontainer> div classrow justify-content-center> div classcol-md-12 col-lg-12> h4 classmbr-section-subtitle mbr-fonts-style mb-4 display-5>Original research: first –and corresponding authorships from our group/h4> p classmbr-text mbr-fonts-style display-7>T Mueller, J Bronkhorst, J Mueller, N Safari, M Hahn, J Sprakel, Scheuring, D (2023) Plant infection by the necrotrophic fungus Botrytis requires actin-dependent generation of high invasive turgor pressure. bioRxiv, https://doi.org/10.1101/2023.12.15.571920br>br>Kaiser S, Mehlhorn D, Ramirez Miranda P, Ries F, Sommer F, Schroda M, Schumacher K, Willmund F, Grefen C, Scheuring, D (2023) Networked proteins redundantly interact with VAP27 and RABG3 to regulate membrane tethering at the vacuole and beyond. bioRxiv, https://doi.org/10.1101/2023.09.29.56011br>br>Jeblick T, Leisen T, Steidele CE, Albert I, Mueller J, Kaiser S, Mahler F, Sommer F, Keller S, Hueckelhoven R, Hahn M, Scheuring, D (2023) Botrytis hypersensitive response inducing protein 1 triggers non-canonical PTI to induce plant cell death. Plant Physiol, 191, 125-141br>br>Kaiser S, Eisele S, Scheuring D (2021) Vacuolar occupancy is crucial for cell elongation and growth regardless of the underlying mechanism. Plant Signal. Behav. 16, 1922796br>br>Kaiser S, Eisa A, Kleine-Vehn J, Scheuring D. (2019) NET4 modulates the compactness of vacuoles in Arabidopsis thaliana. Int. J. Mol. Sci, 20, 4752br>br>Scheuring D, Löfke C, Krüger F, Kittelmann M, Eisa A, Hughes L, Smith RS, Hawes C, Schumacher K, Kleine-Vehn J. (2016) Actin-dependent vacuolar occupancy of the cell determines auxin-induced growth repression. Proc Natl Acad Sci U S A. 113, 452-57br>br>Löfke C, Scheuring D, Dünser K, Schöller M, Luschnig C and Kleine-Vehn J. (2015) Tricho- and atrichoblast cell files show distinct PIN2 auxin efflux carrier exploitations and are jointly required for defined auxin-dependent root organ growth. J Exp Bot. 66, 5103-5112br>br>Scheuring D, Künzl F, Viotti C, San Wan Yan M, Jiang L, Schellmann S, Robinson D.G and Pimpl P. (2012) Ubiquitin initiates sorting of Golgi and plasma membrane proteins into the vacuolar degradation pathway. BMC Plant Biol. 12, 164br>br>Scheuring D, Viotti C, Krüger F, Künzl F, Sturm S, Bubeck J, Hillmer S, Frigerio L, Robinson D.G, Pimpl P and Schumacher K. (2011) Multivesicular bodies mature from the trans-Golgi network/early endosome in Arabidopsis. Plant Cell 23, 3463-81br>br>Bubeck J, Scheuring D, Hummel E, Langhans M, Viotti C, Foresti O, Denecke J, Banfield D.K and Robinson D. G. (2008) The syntaxins SYP31 and SYP81 control ER Golgi trafficking in the plant secretory pathway. Traffic 9, 1629-52br>/p> /div> /div> /div>/section>section data-bs-version5.1 classcontent5 cid-tqDSvugl9N idcontent5-1i> div classcontainer> div classrow justify-content-center> div classcol-md-12 col-lg-12> h4 classmbr-section-subtitle mbr-fonts-style mb-4 display-5>Review articles, book chapters and commentaries/h4> p classmbr-text mbr-fonts-style display-7>Scheuring D and Kleine-Vehn J. (2020) On the discovery of an endomembrane compartment in plants. Proc Natl Acad Sci U S A. 117, 10623-10624br>br>Kaiser S and Scheuring D. (2020) To lead or to follow: Contribution of the plant vacuole to cell growth. Front. Plant Sci. 11, 553br>br>Ruano G and Scheuring D. (2020) Plant Cells under Attack: Unconventional Endomembrane Trafficking during Plant Defense. Plants. 21, 389br>br>Scheuring D, Schöller M, Kleine-Vehn J and Löfke C. (2015) Vacuolar staining methods in plant cells. Methods Mol Biol. 1242, 83-92br>br>Scheuring D and Kleine-Vehn J. (2014) Intracellular auxin transport. Springer press: Auxin and Its Role in Plant Development. pp 61-73. DOI: 10.1007/978-3-7091-1526-8_4br>br>Robinson DG, Pimpl P, Scheuring D, Stierhof YD, Sturm S, Viotti C. (2012) Trying to make sense of retromer. Trends Plant Sci. 17, 431-9br>br>Robinson DG, Scheuring D, Naramoto S and Friml J. ARF1 Localizes to the Golgi and the Trans-Golgi Network. (2011) Plant Cell 23, 846-9 br>/p> /div> /div> /div>/section>section data-bs-version5.1 classcontent5 cid-tqDSWvqDdX idcontent5-1j> div classcontainer> div classrow justify-content-center> div classcol-md-12 col-lg-12> h4 classmbr-section-subtitle mbr-fonts-style mb-4 display-5> Collaborations /h4> p classmbr-text mbr-fonts-style display-7>Kreis E, Niemeyer J, Merz M, Scheuring D, Schroda M (2023) CLPB3 is required for the removal of chloroplast protein aggregates and for thermotolerance in Chlamydomonas. J. Exp. Bot. doi: 10.1093/jxb/erad109br>br>Kuang L, Chen S, Guo Y, Scheuring D, Flaishman MA, Ma M (2022) Proteome analysis of vacuoles isolated from fig (Ficus carica L.) flesh during fruit development. Plant Cell Physiol. pcac039br>br>Leisen T, Werner J, Pattar P, Safari N, Ymeri E, Sommer F, Schroda M, Suárez I, Collado IG, Scheuring D, Hahn M (2022) Multiple knockout mutants reveal a high redundancy of phytotoxic compounds that determine necrotrophic pathogenesis of Botrytis cinerea. PLoS pathogens 18 (3), e1010367br>br>Trösch R, Ries F, Westrich LD, Gao Y, Herkt C, Hoppstädter J, Heck-Roth J, Mustas M, Scheuring D, Choquet Y, Räschle M, Zoschke R, Willmund, F (2021) Fast and global reorganization of the chloroplast protein biogenesis network during heat acclimation. The Plant Cell, koab317, https://doi.org/10.1093/plcell/koab317br>br>Valifard M, Le Hir R, Müller J, Scheuring D, Neuhaus HE, Pommerrenig B (2021) The vacuolar fructose transporter SWEET17 is critical for root development and drought tolerance. Plant Phys. 187, 2716–2730br>br>Hickl D, Drews F, Girke C, Zimmer D, Mühlhaus T, Hauth J, Nordström K, Trentmann O, Neuhaus HE, Scheuring D, Fehlmann T, Keller A, Simon M, Möhlmann T (2021) Differential degradation of RNA species by autophagy related pathways in Arabidopsis. J. Exp. Bot. 72, 6867-6881br>br>Minina EA, Scheuring D, Askani J, Krueger F, Schumacher K (2021) Light at the end of the tunnel: FRAP assay reveals that plant vacuoles start as a tubular network. bioRxiv https://www.biorxiv.org/content/10.1101/2021.05.13.444058v1br>br>Niemeyer J, Scheuring D, Oestreicher J, Morgan B, Schroda M (2021) Real-time monitoring of subcellular H2O2 distribution in Chlamydomonas reinhardtii. Plant Cell, 33, 2935-2949br>br>DJ Klionsky et al. (2021) Guidelines for the use and interpretation of assays for monitoring autophagy. autophagy. 17, 1-382br>br>Hickl D, Scheuring D, Möhlmann T (2021) CTP-Synthase 2 from Arabidopsis thaliana is required for complete embryo development. Front. Plant Sci. 12, 510br>br>Leisen T, Bietz F, Werner J, Wegner A, Schaffrath U, Scheuring D, Willmund F, Mosbach A, Scalliet G, Hahn, M. (2020) CRISPR/Cas with ribonucleoprotein complexes and transiently selected telomere vectors allows highly efficient marker-free and multiple genome editing in Botrytis cinerea. PLOS Pathogens 16: e1008326br>br>Müller N, Leroch M, Schumacher J, Zimmer D, Könnel A, Klug K, Leisen T, Scheuring D, Sommer F, Mühlhaus T, Schroda M, Hahn M. (2018) Investigations on VELVET regulatory mutants confirm the role of host tissue acifidication and secretion of proteins in the pathogenesis of Botrytis cinerea. New Phytol. 219, 1062-1074br>br>Löfke C, Dünser K, Scheuring D and Kleine-Vehn J. (2015) Auxin regulates SNARE-dependent vacuolar morphology restricting cell size. eLife 4, e05868br>br>Viotti C, Krüger F, Krebs M, Neubert C, Fink F, Lupanga U, Scheuring D, Boutté Y, Frescatada-Rosa M, Wolfenstetter S, Sauer N, Hillmer S, Grebe M and Schumacher K. (2013) The endoplasmic reticulum is the main membrane source for biogenesis of the lytic vacuole in Arabidopsis. Plant Cell 25, 3434-49br>br>Stierhof YD, Viotti C, Scheuring D, Sturm S and Robinson DG. (2013) Sorting nexins 1 and 2a locate mainly to the TGN. Protoplasma 250, 235-40br>br>Lerich A, Hillmer S, Langhans M, Scheuring D, van Bentum P and Robinson DG. (2012) ER Import Sites and Their Relationship to ER Exit Sites: A New Model for Bidirectional ER-Golgi Transport in Higher Plants. Front Plant Sci. 2, 143br>br>Shahriari M, Keshavaiah C, Scheuring D, Sabovljevic A, Pimpl P, Hausler R.E, Hulskamp M and Schellmann S. (2010) The AAA-ATPase AtSKD1 contributes to vacuolar maintenance of A. thaliana. Plant J 64, 71-85br>br>Niemes S, Labs M, Scheuring D, Krueger F, Langhans M, Jesenofsky B, Robinson DG and Pimpl P. (2010) Sorting of plant vacuolar proteins is initiated in the ER. Plant J 62, 601-14br>br>Niemes S, Langhans M, Viotti C, Scheuring D, San Wan Yan M, Jiang L, Hillmer S, Robinson D.G and Pimpl P. (2010) Retromer recycles vacuolar sorting receptors from the trans-Golgi network. Plant J 61, 107-21 br>/p> /div> /div> /div>/section>section data-bs-version5.1 classcontacts4 cid-tqDRjldjUR idcontacts4-1e> div classcontainer> div classrow align-items-center justify-content-center> div classtext-content col-12 col-md-6> h2 classmbr-section-title mbr-fonts-style display-2> strong>Contact/strong>/h2> p classmbr-text mbr-fonts-style display-7>PD Dr. David Scheuring br>br>Plant Pathologybr>University of Kaiserslautern (RPTU)br>Paul-Ehrlich-Str. 22br>67663 Kaiserslautern, Germanybr>br>Email: scheuring@uni-kl.debr>Phone: +49 (0)631 205-2219/p> /div> div classicons d-flex align-items-center col-12 col-md-6 justify-content-end mt-md-0 mt-2 flex-wrap> a hrefhttps://twitter.com/david_scheuring target_blank> span classmbr-iconfont mbr-iconfont-social socicon-twitter socicon>/span> /a> /div> /div> /div> /section>section classdisplay-7 stylepadding: 0;align-items: center;justify-content: center;flex-wrap: wrap; align-content: center;display: flex;position: relative;height: 4rem;>a hrefhttps://mobiri.se/ styleflex: 1 1;height: 4rem;position: absolute;width: 100%;z-index: 1;>img alt styleheight: 4rem; srcdata:image/gif;base64,R0lGODlhAQABAIAAAP///wAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw>/a>p stylemargin: 0;text-align: center; classdisplay-7>/p>a stylez-index:1 hrefhttps://mobirise.com/builder/html-code-generator.html>HTML Code Generator/a>/section>script srcassets/bootstrap/js/bootstrap.bundle.min.js>/script> script srcassets/smoothscroll/smooth-scroll.js>/script> script srcassets/ytplayer/index.js>/script> script srcassets/dropdown/js/navbar-dropdown.js>/script> script srcassets/sociallikes/social-likes.js>/script> script srcassets/theme/js/script.js>/script> /body>/html>
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