What makes plants different? Principles of extracellular matrix function in 'soft' plant tissues.

An overview of the biomechanic and morphogenetic function of the plant extracellular matrix (ECM) in its primary state is given. ECMs can play a pivotal role in cellular osmo- and volume-regulation, if they enclose the cell hermetically and constrain hydrostatic pressure evoked by osmotic gradients between the cell and its environment. From an engineering viewpoint, such cell walls turn cells into hydraulic machines, which establishes a crucial functional differences between cell walls and other cellular surface structures. Examples of such hydraulic machineries are discussed. The function of cell walls in the control of pressure, volume, and shape establishes constructional evolutionary constraints, which can explain aspects commonly considered typical of plants (sessility, autotrophy). In plants, 'cell division' by insertion of a new cell wall is a process of internal cytoplasmic differentiation. As such it differs fundamentally from cell separation during cytokinesis in animals, by leaving the coherence of the dividing protoplast basically intact. The resulting symplastic coherence appears more important for plant morphogenesis than histological structure; similar morphologies are realized on the basis of distinct tissue architectures in different plant taxa. The shape of a plant cell is determined by the shape its cell wall attains under multiaxial tensile stress. Consequently, the development of form in plants is achieved by a differential plastic deformation of the complex ECM in response to this multiaxial force (hydrostatic pressure). Current concepts of the regulation of these deformation processes are briefly evaluated.

[1]  F. Doljanski,et al.  ON THE GENERATION OF FORM BY THE CONTINUOUS INTERACTIONS BETWEEN CELLS AND THEIR EXTRACELLULAR MATRIX , 1992, Biological reviews of the Cambridge Philosophical Society.

[2]  P B Green,et al.  Metabolic and physical control of cell elongation rate: in vivo studies in nitella. , 1971, Plant physiology.

[3]  M. Blatt Extracellular Potassium Activity in Attached Leaves and its Relation to Stomatal Function , 1985 .

[4]  The Relationship of Anatomy to Morphology in Plants: A New Theoretical Perspective , 1992, International Journal of Plant Sciences.

[5]  J. White,et al.  On the mechanisms of cytokinesis in animal cells. , 1983, Journal of theoretical biology.

[6]  H. Sentenac,et al.  Plasma membrane transport systems in higher plants: From black boxes to molecular physiology , 1997 .

[7]  D. Foard,et al.  INITIATION OF LATERAL ROOT PRIMORDIA WITHOUT COMPLETION OF MITOSIS AND WITHOUT CYTOKINESIS IN UNISERIATE PERICYCLE , 1965 .

[8]  A. G. Klein,et al.  Tip growth in plant cells may be amoeboid and not generated by turgor pressure , 1998, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[9]  A. Cleary,et al.  The Tangled1 Gene Is Required for Spatial Control of Cytoskeletal Arrays Associated with Cell Division during Maize Leaf Development , 1998, Plant Cell.

[10]  T. Jacobs Why Do Plant Cells Divide? , 1997, The Plant cell.

[11]  S. Hake,et al.  The tangled-1 mutation alters cell division orientations throughout maize leaf development without altering leaf shape. , 1996, Development.

[12]  G. Steucek,et al.  Biophysical mechanisms for morphogenetic progressions at the shoot apex. , 1992, Developmental biology.

[13]  John A. Frangos,et al.  Physical forces and the mammalian cell , 1993 .

[14]  D. Cosgrove Cell wall loosening by expansins. , 1998, Plant physiology.

[15]  M. Benton The Unity of Evolutionary Biology , 1991 .

[16]  L. C. Sanders,et al.  Roles for the extracellular matrix in plant development and pollination: a special case of cell movement in plants. , 1992, Developmental biology.

[17]  James C. W. Chen The kinetics of tip growth in the Nitella rhizoid , 1973 .

[18]  R. Quatrano,et al.  Role of the cell wall in the determination of cell polarity and the plane of cell division in Fucus embryos , 1997 .

[19]  J. Gumpert,et al.  Characteristic properties and biological significance of stable protoplast type L-forms. , 1983, Experientia. Supplementum.

[20]  N. Battey,et al.  The control of exocytosis in plant cells. , 1993, The New phytologist.

[21]  N. Bernstein,et al.  The Determination of Relative Elemental Growth Rate Profiles from Segmental Growth Rates (A Methodological Evaluation) , 1997, Plant physiology.

[22]  D J Cosgrove,et al.  Wall extensibility: its nature, measurement and relationship to plant cell growth. , 1993, The New phytologist.

[23]  J. Hillman,et al.  Biochemistry of plant cell walls. , 1985 .

[24]  Donald E. Ingber,et al.  CHAPTER 2 – Mechanochemical Transduction across Extracellular Matrix and through the Cytoskeleton , 1993 .

[25]  D. R. Kaplan The Relationship of Cells to Organisms in Plants: Problem and Implications of an Organismal Perspective , 1992, International Journal of Plant Sciences.

[26]  M. Steer,et al.  Regulation of Pollen Tube Growth , 1995 .

[27]  S L Shaw,et al.  The role of targeted secretion in the establishment of cell polarity and the orientation of the division plane in Fucus zygotes. , 1996, Development.

[28]  Stephen C. Fry,et al.  Cross-Linking of Matrix Polymers in the Growing Cell Walls of Angiosperms , 1986 .

[29]  T. Hsiao,et al.  Transient Responses of Cell Turgor and Growth of Maize Roots as Affected by Changes in Water Potential , 1994, Plant physiology.

[30]  J. Pritchard,et al.  Biophysical and biochemical control of cell expansion in roots and leaves , 1994 .

[31]  A. Trewavas Growth substance sensitivity: The limiting factor in plant development , 1982 .

[32]  D. Gilligan,et al.  The spectrin-based membrane skeleton and micron-scale organization of the plasma membrane. , 1993, Annual review of cell biology.

[33]  Determinants of fungal cell wall morphology: the vesicle supply center , 1995 .

[34]  J. Thiery,et al.  Cell migration in the vertebrate embryo: role of cell adhesion and tissue environment in pattern formation. , 1985, Annual review of cell biology.

[35]  P. W. Barlow,et al.  Positional Controls in Plant Development , 1984 .

[36]  I. Heath Tip growth in plant and fungal cells , 1992 .

[37]  L. Taiz,et al.  Plant Cell Expansion: Regulation of Cell Wall Mechanical Properties , 1984 .

[38]  A. Trewavas How do plant growth substances work? II , 1981 .

[39]  B. Gunning,et al.  Preprophase Bands, Phragmoplasts, and Spatial Control of Cytokinesis , 1985, Journal of Cell Science.

[40]  F. Berger,et al.  Extracellular matrix and pattern in plant embryos: on the lookout for developmental information. , 1995, Trends in genetics : TIG.

[41]  M. Matthews,et al.  Dynamic Relation between Expansion and Cellular Turgor in Growing Grape (Vitis vinifera L.) Leaves. , 1987, Plant physiology.

[42]  S. Poethig Genetic mosaics and cell lineage analysis in plants. , 1989, Trends in genetics : TIG.

[43]  J. Lockhart An analysis of irreversible plant cell elongation. , 1965, Journal of theoretical biology.

[44]  Andrew Hudson,et al.  Shape and form in plants and fungi , 1994 .

[45]  B. Ninham,et al.  Theory of self-assembly of lipid bilayers and vesicles. , 1977, Biochimica et biophysica acta.

[46]  D. Foard The initial protrusion of a leaf primordium can form without concurrent periclinal cell divisions , 1971 .

[47]  W. Mayer,et al.  Changes of the Apoplastic pH and K+ Concentration in the Phaseolus Pulvinus in situ in Relation to Rhythmic Leaf Movements , 1989 .

[48]  Peter K Hepler,et al.  Cytokinesis in Higher Plants , 1996, Cell.

[49]  D. Cosgrove Analysis of the dynamic and steady-state responses of growth rate and turgor pressure to changes in cell parameters. , 1981, Plant physiology.

[50]  T. Giddings,et al.  Cytokinesis in tobacco BY-2 and root tip cells: a new model of cell plate formation in higher plants , 1995, The Journal of cell biology.

[51]  L. D. Talbott,et al.  The role of sucrose in guard cell osmoregulation , 1998 .

[52]  J. Bereiter-Hahn,et al.  Hydrostatic Pressure in Metazoan Cells in Culture: Its Involvement in Locomotion and Shape Generation , 1987 .

[53]  G. Bolwell Dynamic Aspects of the Plant Extracellular Matrix , 1993 .

[54]  Joseph E. Varner,et al.  Cell Wall Proteins , 1988 .

[55]  D. Mandoli,et al.  ELABORATION OF BODY PLAN AND PHASE CHANGE DURING DEVELOPMENT OF ACETABULARIA: How Is the Complex Architecture of a Giant Unicell Built? , 1998, Annual review of plant physiology and plant molecular biology.

[56]  M. Palmgren,et al.  Energization of Plant Cell Membranes by H+-Pumping ATPases: Regulation and Biosynthesis , 1999, Plant Cell.

[57]  Winfried S. Peters,et al.  Die Konsequenzen eines Lebens im Druckbehälter. Biotheoretische Implikationen der Organisation pflanzlicher Organismen [The Consequences of Living in a Pressure Pot. Biotheoretical Implications of the Organismic Architecture of Plants] , 1992 .

[58]  J. Boyer,et al.  Turgor and growth at low water potentials. , 1989, Plant physiology.

[59]  U. Zimmermann,et al.  Transpiration Induces Radial Turgor Pressure Gradients in Wheat and Maize Roots , 1993, Plant physiology.

[60]  R. Preston Polysaccharide Conformation and Cell Wall Function , 1979 .

[61]  J. Frensch Primary responses of root and leaf elongation to water deficits in the atmosphere and soil solution , 1997 .

[62]  E. W. Sinnott,et al.  CHANGES IN INTERCELLULAR RELATIONSHIPS DURING THE GROWTH AND DIFFERENTIATION OF LIVING PLANT TISSUES , 1939 .

[63]  Kyle A. Serikawa,et al.  An analysis of morphogenesis of the reproductive whorl of Acetabularia acetabulum , 1998, Planta.

[64]  J. Schroeder,et al.  Exploring biophysical and biochemical components of the osmotic motor that drives stomatal movement , 1988 .

[65]  M. Freeling,et al.  Cell lineage and its consequences in higher plants , 1991 .

[66]  W. J. Lucas,et al.  Plasmodesmata: Dynamics, Domains and Patterning , 1998 .

[67]  Jeremy Pritchard,et al.  Xyloglucan Endotransglycosylase Activity, Microfibril Orientation and the Profiles of Cell Wall Properties Along Growing Regions of Maize Roots , 1993 .

[68]  William J Lucas,et al.  Plasmodesmata and the supracellular nature of plants. , 1993, The New phytologist.

[69]  A. D. Tomos,et al.  The biophysics of differential growth. , 1989, Environmental and experimental botany.

[70]  P. Nick Signals, Motors, Morphogenesis - the Cytoskeleton in Plant Development* , 1999 .

[71]  P. Green Growth and Cell Pattern Formation on an Axis: Critique of Concepts, Terminology, and Modes of Study , 1976, Botanical Gazette.

[72]  R. F. Lyndon Plant Development: The Cellular Basis , 1990 .

[73]  G. Jürgens,et al.  Mutations in the FASS gene uncouple pattern formation and morphogenesis in Arabidopsis development. , 1994, Development.

[74]  A. D. Tomos,et al.  The history of tissue tension. , 1996, Annals of botany.

[75]  R. Quatrano,et al.  Fucus Embryogenesis: A Model to Study the Establishment of Polarity. , 1993, The Plant cell.

[76]  A. Bennett,et al.  A Text-Book of Botany , 2010, Nature.

[77]  P. Dunham,et al.  Membrane mechanisms and intracellular signalling in cell volume regulation. , 1995, International review of cytology.

[78]  T. J. Cooke,et al.  The Independence of Cell Shape and Overall Form in Multicellular Algae and Land Plants: Cells Do Not Act as Building Blocks for Constructing Plant Organs , 1992, International Journal of Plant Sciences.

[79]  A. Haber Nonessentiality of Concurrent Cell Divisions for Degree of Polarization of Leaf Growth. I. Studies with Radiation-Induced Mitotic Inhibition , 1962 .

[80]  S. Assmann,et al.  Signal transduction in guard cells. , 1993, Annual review of cell biology.

[81]  Kenneth M. Yamada,et al.  The Interactions of Cells with Extracellular Matrix Components , 1984 .

[82]  D J Cosgrove,et al.  Wall relaxation and the driving forces for cell expansive growth. , 1987, Plant physiology.

[83]  P. Albersheim,et al.  Structure and function of the primary cell walls of plants. , 1984, Annual review of biochemistry.

[84]  N. Carpita,et al.  Structural models of primary cell walls in flowering plants: consistency of molecular structure with the physical properties of the walls during growth. , 1993, The Plant journal : for cell and molecular biology.

[85]  D. Foard,et al.  METABOLIC STUDIES OF GAMMA‐IRRADIATED WHEAT GROWING WITHOUT CELL DIVISION , 1961 .

[86]  P. Zambryski,et al.  Plant intercellular communication via plasmodesmata. , 1997, The Plant cell.

[87]  Donald R. Kaplan,et al.  The Relationship of Cell and Organism in Vascular PlantsAre cells the building blocks of plant form , 1991 .

[88]  E. Macrobbie,et al.  Signalling in guard cells and regulation of ion channel activity. , 1997, Journal of experimental botany.

[89]  J. Dodge The fine structure of algal cells , 1973 .

[90]  R. Quatrano,et al.  Plant cell morphogenesis: plasma membrane interactions with the cytoskeleton and cell wall. , 1997, Annual review of cell and developmental biology.

[91]  J. Boyer,et al.  Rapid wall relaxation in elongating tissues. , 1988, Plant physiology.

[92]  J. Boyer,et al.  Decreased Growth-Induced Water Potential (A Primary Cause of Growth Inhibition at Low Water Potentials) , 1997, Plant physiology.

[93]  R. O. Erickson,et al.  Kinematics of plant growth. , 1979, Journal of theoretical biology.

[94]  S. Fry,et al.  Xyloglucan endotransglycosylase, a new wall-loosening enzyme activity from plants. , 1992, The Biochemical journal.

[95]  R. Hampp,et al.  Movement of Pulvinated Leaves , 1995 .

[96]  J. Parker,et al.  Activation of ion transport pathways by changes in cell volume. , 1991, Biochimica et biophysica acta.

[97]  J. Wessels Tansley Review No. 45 Wall growth, protein excretion and morphogenesis in fungi. , 1993, The New phytologist.

[98]  S. Luan,et al.  Voltage-Dependent K+ Channels as Targets of Osmosensing in Guard Cells , 1998, Plant Cell.

[99]  P. Green Expansin and morphology: a role for biophysics , 1997 .

[100]  G. Coté Signal Transduction in Leaf Movement , 1995, Plant physiology.

[101]  D. Inzé,et al.  Dominant negative mutants of the Cdc2 kinase uncouple cell division from iterative plant development. , 1995, The EMBO journal.

[102]  H. Harris,et al.  The birth of the cell , 1998 .

[103]  J. Lackie Cell Movement and Cell Behaviour , 1986, Springer Netherlands.

[104]  K. Roberts,et al.  The plant extracellular matrix: in a new expansive mood. , 1994, Current opinion in cell biology.

[105]  T. J. Cooke,et al.  Fundamental Concepts in the Embryogenesis of Dicotyledons: A Morphological Interpretation of Embryo Mutants. , 1997, The Plant cell.

[106]  S. McQueen-Mason,et al.  Two endogenous proteins that induce cell wall extension in plants. , 1992, The Plant cell.

[107]  I. R. Cowan,et al.  A study of stomatal mechanics using the cell pressure probe , 1998 .

[108]  C. Mattheck Trees: The Mechanical Design , 1991 .

[109]  Andrew J. Fleming,et al.  Induction of Leaf Primordia by the Cell Wall Protein Expansin , 1997 .

[110]  K. Nishitani,et al.  Endo-xyloglucan transferase, a novel class of glycosyltransferase that catalyzes transfer of a segment of xyloglucan molecule to another xyloglucan molecule. , 1992, The Journal of biological chemistry.

[111]  M. Tester Techniques for studying ion channels: an introduction. , 1997, Journal of experimental botany.

[112]  O. Kandler Cell Wall Structures and their Phylogenetic Implications , 1982 .

[113]  E. Steudle,et al.  Gradients of turgor, osmotic pressure, and water potential in the cortex of the hypocotyl of growing ricinus seedlings : effects of the supply of water from the xylem and of solutes from the Phloem. , 1992, Plant physiology.

[114]  W. Davies,et al.  Control of leaf growth , 1985 .

[115]  F. Lang Cell volume regulation , 1989 .

[116]  E. Elson,et al.  Cell membranes, methods and reviews , 1983 .

[117]  C. Kuhlemeier,et al.  Localized Upregulation of a New Expansin Gene Predicts the Site of Leaf Formation in the Tomato Meristem , 1998, Plant Cell.

[118]  J. Labavitch Cell Wall Turnover in Plant Development , 1981 .

[119]  D. Deamer,et al.  Liposomes from ionic, single-chain amphiphiles. , 1978, Biochemistry.

[120]  J. Boyer Cell enlargement and growth-induced water potentials , 1988 .

[121]  E. Percival,et al.  Chemistry and enzymology of marine algal polysaccharides , 1967 .

[122]  P. Green Connecting gene and hormone action to form, pattern and organogenesis: biophysical transductions , 1994 .

[123]  C. Anthony Bacterial energy transduction , 1988 .

[124]  M. Böttger,et al.  The temporal correlation of changes in apoplast pH and growth rate in maize coleoptile segments , 1998 .

[125]  S. Fry Loosening the ties , 1993, Current Biology.

[126]  B. M. Johri Embryology of Angiosperms , 1984, Springer Berlin Heidelberg.

[127]  P. B. Green,et al.  Phyllotactic Patterns: A Biophysical Mechanism for their Origin , 1996 .

[128]  C. Lloyd The Cytoskeletal basis of plant growth and form , 1991 .

[129]  Stephen C. Fry,et al.  Turgor and Cell Expansion: Beyond the Lockhart Equation , 1992 .

[130]  C. Wiencke,et al.  Incomplete turgor adjustment in Cladophora rupestrisunder fluctuating salinity regimes , 1992 .

[131]  R. Rappaport,et al.  Establishment of the mechanism of cytokinesis in animal cells. , 1986, International review of cytology.

[132]  Phototropic Response of the Bean Pulvinus: Movement of Water and Ions , 1997 .

[133]  K. Raschke,et al.  Stomatal opening quantitatively related to potassium transport: evidence from electron probe analysis. , 1971, Plant physiology.

[134]  U. Kutschera The Role of the Epidermis in the Control of Elongation Growth in Stems and Coleoptiles , 1992 .

[135]  D. Cosgrove,et al.  Biophysical control of plant cell growth. , 1986, Annual review of plant physiology.

[136]  T. Flowers,et al.  Control of leaf cell elongation in barley. Generation rates of osmotic pressure and turgor, and growth-associated water potential gradients , 1998, Planta.

[137]  F. Berger,et al.  Cell Fate Determination by the Cell Wall in Early Fucus Development , 1994, Science.

[138]  D J Cosgrove,et al.  Assembly and enlargement of the primary cell wall in plants. , 1997, Annual review of cell and developmental biology.

[139]  R. Cleland,et al.  The Acid Growth Theory of auxin-induced cell elongation is alive and well. , 1992, Plant physiology.

[140]  A. D. Tomos,et al.  The Epidermis Still in Control , 1996 .

[141]  Jeremy Pritchard,et al.  The control of cell expansion in roots. , 1994, The New phytologist.

[142]  A. Schmid Morphogenetic Forces in Diatom Cell Wall Formation , 1987 .

[143]  H. L. Gorton,et al.  The Pulvinus : motor organ for leaf movement , 1990 .

[144]  L. D. Talbott,et al.  Central Roles for Potassium and Sucrose in Guard-Cell Osmoregulation , 1996, Plant physiology.

[145]  D. Hathway PLANT GROWTH AND DEVELOPMENT IN MOLECULAR PERSPECTIVE , 1990 .