Plant Cell, Development & Ultrastructure

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PCDU Lecture Plant Cell, Development & Ultrastructure Plant Cell Biology Labs Download at: http://goo.gl/111tha

Microtubules 13 Protofilamente 25nm

Plant MT Cytoskeleton Animal MT cytoskeleton

Preprophase Band of MTs Hardham & Gunning 1997

Preprophase Band Formation Time course of PPB-formation Dhonukshe & Gadella 2003 Proposed function of PPB is to determine the division plane by inserting specific markers in the plasmamembrane One of the best candidates for such a marker is the tan-protein TAN-mutants in maize Phenotype: Cell plate misorientation Function: TAN-protein interacts with kinesin

Transition from Interphase to Pro-Metaphase Cortical MT-System Perinuclear MT-System GFP-MAP4 labeled microtubules Dhonukshe & Gadella 2003

Secondary Cell Wall Formation Gmcycledetail1 Gmcycledetail2

Cytokinesis

Phragmoplast Formation plant Gunning et al. animal

Cortical MTs in Young Cells Cyr 2005

MT-Microfibril Co-Alignment Gunning & Steer 2000

MT-Microfibril Co-Alignment Gunning et al. 2000

MT-Microfibril Co-Alignment Distribution of CesA Complexes Alongside Microtubules

Delivery of Terminal Complexes to PM MT Ø=25nm CSC Saxena & Brown 2005 Crowell et al 2009 Cellulose synthase complexes (CSC) have a very large cytoplasmic domain (Ø ca. 30nm), they are delivered one by one from the TGN. In the process of delivery to and retrieval from the plasma membrane they interact with microtubules. CMF cellulose microfibril, PM plasma membrane, CSC cellulose synthase complex, MASC - microtubule-associated cellulose synthase compartment, TGN transgolgi network, CCV clathrin coated vesicles.

Delivery of Terminal Complexes to PM Cellulose synthase-interactive protein 1 is a stretched protein with multiple protein-protein interacting domains and a membrane binding site. It is not a MT-dependent Motor nor a MAP! from Endler et al. 2011 Cellulose synthase complexes (CSC) have a very large cytoplasmic domain (Ø ca. 30nm), they are delivered one by one from the TGN to the PM. In the process of delivery to and retrieval from the PM they interact with microtubules. Crowell et al 2009 CMF cellulose microfibril PM plasma membrane CSC cellulose synthase complex MASC - microtubule-associated cellulose synthase compartment TGN transgolgi network CCV clathrin coated vesicles

Inhibition of Cellulose Synthesis (2,6-Dichlorobenzonitrile) DeBolt, Gutierrez, Ehrhardt, and Somerville 2007

Movement is Powered by Cellulose Synthesis multiple frames overlay control DCB Velocity profile DeBolt et al. 2007 Live-cell imaging of YFP::CESA6 in untreated cells (A), and cells treated with isoxaben (B), or DCB (C and D). Each image represents a timeaveraged projection of 60 frames spaced 5 s apart.

MT-Microfibril Co-Alignment Argument in Favour of MT-Independent Self-Organization of CES-Complexes Control (multiple frames overlay) 20 µm Oryzalin (multiple frames overlay) CesA-GFP x6 CesA-GFP x30 MT (CFP-Tua1) CesA-GFP x6 CesA-GFP x30 MT (CFP-Tua1) Peredez et al. 2009 CesA can reorganize into linear tracks in oryzalin-treated cells (in the absence of cortical MTs). This suggests that MTs may play a shepherding role in organizing cellulose deposition rather than serving as a required partner. The velocity of the CesA-complexes in the plasma membrane does not change, when MTs are depolymerized with oryzalin.

MT-Microfibril Co-Alignment In the absences of MTs In the presence of MTs

MT- & F-Actin Associations with Golgi Stacks Colocalization of AtKinesin-13 (A) with the Golgi apparatus (B) in leaf mesophyll protoplasts isolated from a STtmd- GFP plant (Sialyl-transferase-transmembrane domain). Association of Golgi stacks (N-acetylglucosaminyl transferase I -GFP label) with cortical microtubules (GFP-alpha-6 tubulin). Association of Golgi (NAGT-GFP) with actin filaments (GFP-talin) from Lu et al. 2005: Molecular Biology of the Cell Vol. 16, 811 823.

Golgies pause at cross over points between MTs and actin filaments, CesA containing vesicles are released, CesA complexes become inserted in the PM alongside MTs and start to produce cellulose microfibrils, which tend to co-aligne with microfibrils already laid down in the cell wall izmb.uni-bonn.de MT-Microfibril Co-Alignment Distribution of golgi bodies at cross over points between actin filaments and microtubules cellulose microfibbrils single microtubules microtubule bundles actin filaments golgi stack Proposed model for the function of kinesin 13A in plant cells

Freeze Fracture Replica Labelling of CesA Kimura et al. 1999

MT-CSA Co-Alignment transmembrane domain ARM, Armadillo repeat core motif C2- phospholipid-binding Cellulose synthase-interactive protein 1 is a stretched protein with multiple protein-protein interacting domains (ARM) and a phospholipid (membrane)- binding site. It is not a MTdependent Motor nor a MAP! from Endler et al. 2011 Gu et al. 2011 coexpression relationships between CSI1, CESA isoforms and cobra. red = very strong, orange = strong, green = medium strong, grey = weak CTL1=chitinase-like 1

MT-CSA Co-Alignment Domain structure of CSI1 2150 Huber et al. 1997 Bringmann et al. 2012 armadillo repeat motifs in animal β-catenin red-green-blue denote one repeat unit of ca. 40 amino acids. CSI1 is made of 6 armadillo-like sequences forming a long superhelical rod with a C2 motif at the C-terminal end

MT-CSA Co-Alignment interaction wild type CSI1-3 mutant delivery Cellulose synthase-interactive protein 1 is a stretched protein with multiple protein-protein interacting domains and a membrane binding site. It is not a MT-dependent Motor nor a MAP! from Endler et al. 2011 70.1% 40% interaction with microtubules no interaction with microtubules Li et al. 2012 co-alignment of YFP-CESA6 with RFP-TUA5

MT-Microfibril Co-Alignment Distribution of CesA/CSI-Complexes Alongside Microtubules single frame Time Average Over 61 Frames movement movement no movement movement RFP-TUA5 GFP-CSI overlay RFP-CSI1 GFP-CESA RFP-CSI1 GFP-CESA Li et al. 2012 control control 10hrs 20µM Oryzalin

MT-Microfibril Co-Alignment Distribution of CesA/CSI complexes alongside microtubules CFP-TUA1 YFP-CESA6 % CFP-TUA1 YFP-CESA6 RFP-CSI1 59,2 21,5 11,2 1,3 0,5 6,3 X X X X X X X X CFP-TUA1, YFP-CESA6, RFP-CSI1 CFP-TUA1, X YFP-CESA6, RFP-CSI1 X X CFP-TUA1, YFP-CESA6 YFP-CESA6 RFP-CSI1 RFP-CSI1 CESA associated with CSI & MT CESA associated with CSI MT associated with CSI solitary CSI MT associated with CESA solitary CESA Li et al. 2012

Model of MT-CSA Co-Alignment MF straight MF twisted C2-Domain phospholipid-binding MT CSC MT CSI1 Bringmann et al. 2012 CSC cellulose synthesizing complex CSI1 cellulose synthase interacting protein 1 MT microtubules MF cellulose microfibril

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