Another Brick in the Cell Wall: Biosynthesis Dependent Growth Model

PLoS ONE

Volumn 8, Issue 9, 2013, Pages

  Barbacci, Adelin ^a   Lahaye, Marc ^a   Magnenet, Vincent ^b  

^a INRA   (France)

^b UNIVERSITÉ DE STRASBOURG   (France)

Author keywords

[No Author keywords available]

Indexed keywords

PECTIN;

ARTICLE; CELL GROWTH; CELL WALL; CHARA; CHARA CORALLINA; CONCEPTUAL FRAMEWORK; ENZYME MECHANISM; INTERNODE; MATHEMATICAL MODEL; PHYSICAL CHEMISTRY; PLANT CELL; PLANT GROWTH; SYNTHESIS; TEMPERATURE; TENSILE STRENGTH; THERMODYNAMICS; TURGOR PRESSURE;

CELL WALL; CHARA; PLANT CELLS; PRESSURE; TEMPERATURE;

EID: 84884178952     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0074400     Document Type: Article

References (42)

1. Zonia L, Munnik T, (2007) Life under pressure: hydrostatic pressure in cell growth and function. Trends in plant science 12: 90-7.
2. Dumais J, Forterre Y, (2012) Vegetable dynamicks: The role of water in plant movements. Annual Review of Fluid Mechanics 44: 453-478.
3. Cosgrove DJ, (1999) Enzymes and other agents that enhance cell wall extensibility. Annual review of plant physiology and plant molecular biology 50: 391-417.
4. Lerouxel O, Cavalier DM, Liepman AH, Keegstra K, (2006) Biosynthesis of plant cell wall polysaccharides- a complex process. Current opinion in plant biology 9: 621-30.
5. Baskin TI, (2005) Anisotropic expansion of the plant cell wall. Annual review of cell and developmental biology 21: 203-22.
6. Hamant O, Traas J, (2010) The mechanics behind plant development. The New phytologist 185: 369-85.
7. Boudaoud A, (2010) An introduction to the mechanics of morphogenesis for plant biologists. Trends in plant science 15: 353-360.
8. Fry SC, Smith RC, Renwick KF, Martin DJ, Hodge SK, et al. (1992) Xyloglucan endotransglycosylase, a new wall-loosening enzyme activity from plants. Biochem J 282: 821-828.
9. Ray P, Ruesink A, (1962) Kinetic experiments on the nature of the growth mechanism in oat coleoptile cells. Developmental biology 4: 377-397.
10. Rojas ER, Hotton S, Dumais J, (2011) Chemically mediated mechanical expansion of the pollen tube cell wall. Biophysical journal 101: 1844-53.
11. Caffall KH, Mohnen D, (2009) The structure, function, and biosynthesis of plant cell wall pectic polysaccharides. Carbohydrate research 344: 1879-900.
12. Pelloux J, Rustérucci C, Mellerowicz EJ, (2007) New insights into pectin methylesterase structure and function. Trends in plant science 12: 267-77.
13. Cavalier DM, Lerouxel O, Neumetzler L, Yamauchi K, Reinecke A, et al. (2008) Disrupting two arabidopsis thaliana xylosyltransferase genes results in plants deficient in xyloglucan, a major primary cell wall component. The Plant cell 20: 1519-37.
14. Park YB, Cosgrove DJ, (2011) Changes in cell wall biomechanical properties in the xyloglucan-deficient xxt1/xxt2 mutant of Arabidopsis. Plant physiology 158: 465-475.
15. Thompson DS, (2005) How do cell walls regulate plant growth? Journal of experimental botany 56: 2275-85.
16. Lockhart JA, (1965) An analysis of irreversible plant cell elongation. Journal of Theoretical Biology 8: 264-275.
17. Geitmann A, Ortega JK, (2009) Mechanics and modeling of plant cell growth. Trends in plant science 14: 467-78.
18. Ortega JK, (1985) Augmented growth equation for cell wall expansion. Plant physiology 79: 318-320.
19. Cosgrove DJ (1985) Cell wall yield properties of growing tissuel. Plant Physiology: 347-356.
20. Moulia B, Fournier M, (2009) The power and control of gravitropic movements in plants: a biomechanical and systems biology view. Journal of experimental botany 60: 461-86.
21. Kha H, Tuble SC, Kalyanasundaram S, Williamson RE, (2010) Wallgen, software to construct layered cellulose-hemicellulose networks and predict their small deformation mechanics. Plant physiology 152: 774-86.
22. Veytsman BA, Cosgrove DJ, (1998) A model of cell wall expansion based on thermodynamics of polymer network. Biophysical journal 75: 2240-2250.
23. Dyson RJ, Jensen OE, (2010) A fibre-reinforced fluid model of anisotropic plant cell growth. Journal of Fluid Mechanics 655: 472-503.
24. Pietruszka M, (2012) A biosynthesis/inactivation model for enzymatic wlfs or non-enzymatically mediated cell evolution. Journal of theoretical biology 315: 119-27.
25. Dyson RJ, Band LR, Jensen OE, (2012) A model of crosslink kinetics in the expanding plant cell wall: yield stress and enzyme action. Journal of theoretical biology 307: 125-36.
26. Kroeger JH, Zerzour R, Geitmann A, (2011) Regulator or driving force? the role of turgor pressure in oscillatory plant cell growth. PloS one 6: e18549.
27. Winship LJ, Obermeyer G, Geitmann A, Hepler PK, (2010) Under pressure, cell walls set the pace. Trends in plant science 15: 363-9.
28. Dumais J, (2007) Can mechanics control pattern formation in plants? Current opinion in plant biology 10: 58-62.
29. Videcoq P, Steenkeste K, Bonnin E, Garnier C, (2013) A multi-scale study of enzyme diffusion in macromolecular solutions and physical gels of pectin polysaccharides. Soft Matter 9: 5110.
30. Callen HB (1985) Thermodynamics and an introduction to thermostatistics. 2nd edition. New York: Wiley, 2nd revise edition, 512 pp.
31. Cunat C, (2001) The dnlr approach and relaxation phenomena. part I historical account and dnlr formalism. Mechanics of Time-Dependent Materials 5: 39-65.
32. Peaucelle A, Braybrook S, Höfte H, (2012) Cell wall mechanics and growth control in plants: the role of pectins revisited. Frontiers in plant science 3: 121.
33. Sørensen I, Pettolino Fa, Bacic A, Ralph J, Lu F, et al. (2011) The charophycean green algae provide insights into the early origins of plant cell walls. The Plant journal: for cell and molecular biology 68: 201-11.
34. Proseus TE, Boyer JS, (2008) Calcium pectate chemistry causes growth to be stored in chara corallina: a test of the pectate cycle. Plant, cell & environment 31: 1147-55.
35. Mrabet K, Rahouadj R, Cunat C, (2003) An irreversible model for semicristalline polymers submitted to multisequence loading at large strain. Engineering and Science 45: 42-51.
36. Prigogine I, Kondepudi D (1999) Thermodynamique des moteurs thermiques aux structures dissipatives. Odile Jacob, odile jacob edition.
37. Proseus TE, Boyer JS, (2006) Calcium pectate chemistry controls growth rate of chara corallina. Journal of experimental botany 57: 3989-4002.
38. Proseus TE, Boyer JS, (2006) Identifying cytoplasmic input to the cell wall of growing chara corallina. Journal of experimental botany 57: 3231-42.
39. Proseus TE, Boyer JS, (2007) Tension required for pectate chemistry to control growth in chara corallina. Journal of experimental botany 58: 4283-92.
40. Coussy O (2004) Poromechanics. Ltd, John Wiley & Sons, 2nd rev ed edition, 312 pp.
41. Moulia B, Der Loughian C, Bastien R, Martin L, Rodríguez M, et al. (2011) Integrative mechanobiology of growth and architectural development in changing mechanical environments. In: Wojtaszek P, editor, Mechanical integration of plant cells and plants., Berlin, Heidelberg: Springer Berlin Heidelberg, volume 9 of Signaling and Communication in Plants, chapter Integrative. 269-302.
42. Bastien R, Bohr T, Moulia B, Douady S (2013) A unifying model of shoot gravitropism reveals proprioception as a central feature of posture control in plants. Proceedings of the National Academy of Sciences of the United States of America in press.