Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
  1. Home
  2. Search

Refine search

Refine search

Access:
Content type:
Publication date:
Apply   From and To filters
Subject: Show more
Journals Show more
Publishers: Show more
Societies Show more
Series: Show more
Collections: Show more

Actions for selected content:

Select all | Deselect all
  • View selected items
  • Export citations
  • Download PDF (zip)
  • Save to Kindle
  • Save to Dropbox
  • Save to Google Drive

Save Search

You can save your searches here and later view and run them again in "My saved searches".

Please provide a title, maximum of 40 characters.
Cancel
×

1 results

  • Tansley Review No. 108 Molecular events of vesicle trafficking and control by SNARE proteins in plants

  • MICHAEL R. BLATT, BARBARA LEYMAN, DANNY GEELEN
  • Journal:
    The New Phytologist / Volume 144 / Issue 3 / December 1999
    Published online by Cambridge University Press:
    01 December 1999, pp. 389-418
    Print publication:
    December 1999

  • CONTENTS

    Summary 389

    I. INTRODUCTION 389

    II. 1. The SNARE hypothesis 393

    2. SNAREs and associates 395

    (a) NSF 395

    (b) SNAP 395

    (c) SNARE 395

    (d) Rab and Rab-associated proteins 397

    (e) Other interacting proteins 398

    (f) Clostridial neurotoxins 399

    3. New perspectives on SNARE function 400

    (a) Revisiting the SNARE hypothesis 400

    (b) Roles for SNARE proteins 401

    III. VESICLE TRAFFICKING IN PLANTS 402

    1. Identifying secretory proteins in plants 402

    2. Placing syntaxins in order 403

    3. Functional analysis of plant SNAREs in vesicle trafficking 404

    4. Small GTPases 405

    5. Searching for a vesicle–fusion complex 405

    IV. REGULATION OF VESICLE TRAFFICKING IN PLANT CELLS 406

    1. Hormonal control of secretion 406

    (a) Auxin-evoked secretion and cell growth 406

    (b) Gibberellic acid and secretion by barley aleurone 407

    (c) Abscisic acid control of stomatal aperture 407

    2. Coupling secretion to cytosolic-free Ca+ concentration 408

    3. Stress-evoked secretion 409

    (a) Mechanical stress 409

    (b) Wounding and pathogen attack 409

    V. CONCLUSION 410

    Acknowledgements 411

    References 411

    Eukaryotic cells share a set of secretory pathways for the flux of membrane and protein material. In 1993, ideas about the functioning of three major proteins of the neurosecretory complex were consolidated in the SNARE hypothesis, which proposed that the interaction of these proteins provides both the specificity for vesicle targeting and the molecular machinery for fusion between vesicle and target membranes. Subsequetly, the organization, molecular mechanics and control of vesicle trafficking have become topics of intense research, and the hypothesis has evolved to accommodate new discoveries from the analysis of secretion in yeast and mammals. It is likely to be challenged again as more information comes to light about secretory processes in plants. New tools for measuring and manipulating vesicle traffic and secretion are now being used, drawing on in vivo fluorescence and capacitance recording as well as genetic engineering. These new technologies have already begun to yield details wholly unexpected from past studies. Here we focus on recent findings relating to the mechanisms of vesicle trafficking and the background to these developments, highlighting both current understanding of the molecular events of secretion and the gaps therein, as well as discussing emerging themes from work with plants.