scholarly article | Q13442814 |
P50 | author | Daniel Cosgrove | Q27973766 |
P2093 | author name string | Daniel J Cosgrove | |
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The receptor-like kinase FERONIA is required for mechanical signal transduction in Arabidopsis seedlings. | Q53151783 | ||
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High-Resolution Field Emission Scanning Electron Microscopy (FESEM) Imaging of Cellulose Microfibril Organization in Plant Primary Cell Walls. | Q54489912 | ||
An Arabidopsis cell wall proteoglycan consists of pectin and arabinoxylan covalently linked to an arabinogalactan protein | Q56027056 | ||
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The role of wall calcium in the extension of cell walls of soybean hypocotyls | Q74465383 | ||
Autolysis and extension of isolated walls from growing cucumber hypocotyls | Q74470978 | ||
A fungal endoglucanase with plant cell wall extension activity | Q74504536 | ||
Changes in cell wall biomechanical properties in the xyloglucan-deficient xxt1/xxt2 mutant of Arabidopsis | Q82636664 | ||
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A revised architecture of primary cell walls based on biomechanical changes induced by substrate-specific endoglucanases | Q83507648 | ||
Plant cell wall homeostasis is mediated by brassinosteroid feedback signaling | Q84776764 | ||
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Enzyme-Less Growth in Chara and Terrestrial Plants | Q26742153 | ||
Catalysts of plant cell wall loosening | Q26766097 | ||
Modes of deformation of walled cells | Q26822578 | ||
Arabidopsis CSLD5 Functions in Cell Plate Formation in a Cell Cycle-Dependent Manner | Q27318131 | ||
Xyloglucan Deficiency Disrupts Microtubule Stability and Cellulose Biosynthesis in Arabidopsis, Altering Cell Growth and Morphogenesis | Q27320125 | ||
Structural basis for entropy-driven cellulose binding by a type-A cellulose-binding module (CBM) and bacterial expansin | Q27671726 | ||
Measuring the Mechanical Properties of Plant Cell Walls | Q28082997 | ||
Plant expansins: diversity and interactions with plant cell walls | Q28083783 | ||
Mechano-chemical aspects of organ formation in Arabidopsis thaliana: the relationship between auxin and pectin | Q28487929 | ||
Cellulose Structural Polymorphism in Plant Primary Cell Walls Investigated by High-Field 2D Solid-State NMR Spectroscopy and Density Functional Theory Calculations | Q28818077 | ||
Folding of xylan onto cellulose fibrils in plant cell walls revealed by solid-state NMR | Q28818612 | ||
Structural models of primary cell walls in flowering plants: consistency of molecular structure with the physical properties of the walls during growth | Q29617996 | ||
Quantifying hydrostatic pressure in plant cells by using indentation with an atomic force microscope. | Q30383457 | ||
Oscillations in extracellular pH and reactive oxygen species modulate tip growth of Arabidopsis root hairs | Q30482162 | ||
Quantification of cellular penetrative forces using lab-on-a-chip technology and finite element modeling. | Q30539944 | ||
Wide-angle x-ray scattering and solid-state nuclear magnetic resonance data combined to test models for cellulose microfibrils in mung bean cell walls | Q30683366 | ||
Cellulose synthase complexes act in a concerted fashion to synthesize highly aggregated cellulose in secondary cell walls of plants. | Q30819734 | ||
Water-polysaccharide interactions in the primary cell wall of Arabidopsis thaliana from polarization transfer solid-state NMR. | Q30834418 | ||
Dynamic coordination of cytoskeletal and cell wall systems during plant cell morphogenesis | Q30882187 | ||
Cellulose-Pectin Spatial Contacts Are Inherent to Never-Dried Arabidopsis Primary Cell Walls: Evidence from Solid-State Nuclear Magnetic Resonance. | Q30963902 | ||
A Barley xyloglucan xyloglucosyl transferase covalently links xyloglucan, cellulosic substrates, and (1,3;1,4)-beta-D-glucans | Q33276096 | ||
Local expression of expansin induces the entire process of leaf development and modifies leaf shape | Q33336458 | ||
Restoration of mature etiolated cucumber hypocotyl cell wall susceptibility to expansin by pretreatment with fungal pectinases and EGTA in vitro | Q33344722 | ||
Arabidopsis phyllotaxis is controlled by the methyl-esterification status of cell-wall pectins | Q33346509 | ||
An introduction to the mechanics of morphogenesis for plant biologists | Q33349003 | ||
Pectin-induced changes in cell wall mechanics underlie organ initiation in Arabidopsis | Q33352297 | ||
Elastic domains regulate growth and organogenesis in the plant shoot apical meristem | Q33353134 | ||
Mechanical control of morphogenesis at the shoot apex | Q33356298 | ||
Interaction between meristem tissue layers controls phyllotaxis | Q33356658 | ||
Quantifying cell shape and gene expression in the shoot apical meristem using MorphoGraphX. | Q33356740 | ||
An auxin-mediated shift toward growth isotropy promotes organ formation at the shoot meristem in Arabidopsis | Q33359173 | ||
The kinematics and mechanics of leaf expansion: new pieces to the Arabidopsis puzzle | Q33359562 | ||
Mechanically, the Shoot Apical Meristem of Arabidopsis Behaves like a Shell Inflated by a Pressure of About 1 MPa. | Q33362027 | ||
Regulation of Meristem Morphogenesis by Cell Wall Synthases in Arabidopsis. | Q33363185 | ||
Nanoscale movements of cellulose microfibrils in primary cell walls | Q33365316 | ||
Localized upregulation of a new expansin gene predicts the site of leaf formation in the tomato meristem | Q33368792 | ||
Auxin steers root cell expansion via apoplastic pH regulation in Arabidopsis thaliana. | Q33810308 | ||
How do plant cell walls extend? | Q34356241 | ||
Wall extensibility: its nature, measurement and relationship to plant cell growth | Q34357191 | ||
A receptor-like protein mediates the response to pectin modification by activating brassinosteroid signaling | Q34409034 | ||
Visualization of cellulose synthase demonstrates functional association with microtubules. | Q34515776 | ||
Re-constructing our models of cellulose and primary cell wall assembly | Q34943883 | ||
Onion epidermis as a new model to study the control of growth anisotropy in higher plants | Q34997682 | ||
Chemically mediated mechanical expansion of the pollen tube cell wall | Q35342535 | ||
STRUCTURE AND BIOGENESIS OF THE CELL WALLS OF GRASSES. | Q35687284 | ||
An unusual xylan in Arabidopsis primary cell walls is synthesised by GUX3, IRX9L, IRX10L and IRX14 | Q35926172 | ||
Anisotropic expansion of the plant cell wall | Q36280315 | ||
A peptide hormone and its receptor protein kinase regulate plant cell expansion | Q36354697 | ||
Regulation of the plasma membrane proton pump (H(+)-ATPase) by phosphorylation | Q36372639 | ||
An anisotropic-viscoplastic model of plant cell morphogenesis by tip growth | Q36396898 | ||
Sentinels at the wall: cell wall receptors and sensors | Q36930989 | ||
ARP2/3 localization in Arabidopsis leaf pavement cells: a diversity of intracellular pools and cytoskeletal interactions | Q37004916 | ||
Hetero-trans-β-glucanase, an enzyme unique to Equisetum plants, functionalizes cellulose | Q37106428 | ||
Sensitivity-enhanced solid-state NMR detection of expansin's target in plant cell walls. | Q37236363 | ||
Subcellular and supracellular mechanical stress prescribes cytoskeleton behavior in Arabidopsis cotyledon pavement cells | Q37700557 | ||
Regulation of anisotropic cell expansion in higher plants | Q37725257 | ||
Heterogeneity in the chemistry, structure and function of plant cell walls | Q37790270 | ||
THESEUS 1, FERONIA and relatives: a family of cell wall-sensing receptor kinases? | Q37941239 | ||
Measuring the mechanics of morphogenesis. | Q38065509 | ||
Shrinking the hammer: micromechanical approaches to morphogenesis | Q38123149 | ||
On the role of stress anisotropy in the growth of stems. | Q38126482 | ||
The cellular mechanics of an invasive lifestyle. | Q38135403 | ||
Plant biomechanics and mechanobiology are convergent paths to flourishing interdisciplinary research | Q38160188 | ||
Physical forces regulate plant development and morphogenesis | Q38213230 | ||
The yin and yang of cell wall integrity control: brassinosteroid and FERONIA signaling | Q38284060 | ||
Solid-state NMR investigations of cellulose structure and interactions with matrix polysaccharides in plant primary cell walls. | Q38583919 | ||
Plant cell wall extensibility: connecting plant cell growth with cell wall structure, mechanics, and the action of wall-modifying enzymes | Q38648172 | ||
Cell wall integrity signalling in plants : "to grow or not to grow that's the question". | Q38761528 | ||
The plant secretory pathway for the trafficking of cell wall polysaccharides and glycoproteins | Q38806949 | ||
On the micro-indentation of plant cells in a tissue context. | Q38970318 | ||
Connecting Homogalacturonan-Type Pectin Remodeling to Acid Growth | Q39019018 | ||
The Target of β-Expansin EXPB1 in Maize Cell Walls from Binding and Solid-State NMR Studies. | Q39301540 | ||
Life behind the wall: sensing mechanical cues in plants | Q39429043 | ||
Finite element model of polar growth in pollen tubes | Q39848737 | ||
Plant cell enlargement and the action of expansins | Q41075752 | ||
The rheology of a growing leaf: stress-induced changes in the mechanical properties of leaves | Q41307291 | ||
A survey of cellulose microfibril patterns in dividing, expanding, and differentiating cells of Arabidopsis thaliana | Q41609964 | ||
Dimensionless number is central to stress relaxation and expansive growth of the cell wall | Q42215878 | ||
The plant cell-wall enzyme AtXTH3 catalyses covalent cross-linking between cellulose and cello-oligosaccharide | Q42290492 | ||
The case for multinet growth in growing walls of plant cells | Q44556862 | ||
Role of the plasma membrane H+-ATPase in auxin-induced elongation growth: historical and new aspects | Q44561210 | ||
Interaction between wall deposition and cell elongation in dark-grown hypocotyl cells in Arabidopsis | Q44924504 | ||
Differential regulation of cellulose orientation at the inner and outer face of epidermal cells in the Arabidopsis hypocotyl | Q45285851 | ||
Quantification of the Young's modulus of the primary plant cell wall using Bending-Lab-On-Chip (BLOC). | Q45396941 | ||
Pectin-cellulose interactions in the Arabidopsis primary cell wall from two-dimensional magic-angle-spinning solid-state nuclear magnetic resonance. | Q45776809 | ||
Effects of Xylan Side-Chain Substitutions on Xylan-Cellulose Interactions and Implications for Thermal Pretreatment of Cellulosic Biomass | Q46410440 | ||
The Structure of Plant Cell Walls: III. A Model of the Walls of Suspension-cultured Sycamore Cells Based on the Interconnections of the Macromolecular Components | Q47944366 | ||
Gradients in Wall Mechanics and Polysaccharides along Growing Inflorescence Stems. | Q48050352 | ||
Differential Growth in Periclinal and Anticlinal Walls during Lobe Formation in Arabidopsis Cotyledon Pavement Cells. | Q48143395 | ||
FERONIA and Her Pals: Functions and Mechanisms. | Q48186117 | ||
The Actin Cytoskeleton: Functional Arrays for Cytoplasmic Organization and Cell Shape Control | Q48207127 | ||
An even pattern of xylan substitution is critical for interaction with cellulose in plant cell walls | Q48219580 | ||
The fragile Fiber1 kinesin contributes to cortical microtubule-mediated trafficking of cell wall components. | Q48229792 | ||
Auxin and Cellular Elongation. | Q48258873 | ||
Cellulose Synthesis and Cell Expansion Are Regulated by Different Mechanisms in Growing Arabidopsis Hypocotyls. | Q48368487 | ||
How does plant cell wall nanoscale architecture correlate with enzymatic digestibility? | Q50115698 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell wall | Q128700 |
P304 | page(s) | 16-27 | |
P577 | publication date | 2017-11-14 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | Diffuse Growth of Plant Cell Walls | |
P478 | volume | 176 |
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