scholarly article | Q13442814 |
P2093 | author name string | Peter Nick | |
P2860 | cites work | Cell-to-cell movement of TMV RNA is temperature-dependent and corresponds to the association of movement protein with microtubules | Q73884367 |
Gravity-induced reorientation of cortical microtubules observed in vivo | Q74462095 | ||
Limited period of graviresponsiveness in germinating spores of Ceratopteris richardii | Q74470323 | ||
Gravimorphism in rice and barley: promotion of leaf elongation by vertical inversion in agravitropically growing plants | Q74479211 | ||
Cold-Induced Changes in Freezing Tolerance, Protein Phosphorylation, and Gene Expression (Evidence for a Role of Calcium) | Q74788906 | ||
Macrotubule-dependent protoplast volume regulation in plasmolysed root-tip cells of Triticum turgidum: involvement of phospholipase D | Q80137595 | ||
Erect leaves caused by brassinosteroid deficiency increase biomass production and grain yield in rice | Q82043720 | ||
Relationship between Freezing Tolerance of Root-Tip Cells and Cold Stability of Microtubules in Rye (Secale cereale L. cv Puma) | Q83269967 | ||
Microtubules in mesophyll cells of nonacclimated and cold-acclimated spinach : visualization and responses to freezing, low temperature, and dehydration | Q83271879 | ||
Effect of microtubule stabilization on the freezing tolerance of mesophyll cells of spinach | Q83271882 | ||
Microtubule plus-ends reveal essential links between intracellular polarization and localized modulation of endocytosis during division-plane establishment in plant cells | Q21245366 | ||
A possible unifying principle for mechanosensation | Q22337260 | ||
Structure-function analysis of the tobacco mosaic virus resistance gene N | Q24683725 | ||
Rapid Synthesis of Auxin via a New Tryptophan-Dependent Pathway Is Required for Shade Avoidance in Plants | Q27650264 | ||
Transgenic plant aequorin reports the effects of touch and cold-shock and elicitors on cytoplasmic calcium | Q28288683 | ||
Tracking the ends: a dynamic protein network controls the fate of microtubule tips | Q29619464 | ||
A kinesin with calponin-homology domain is involved in premitotic nuclear migration | Q30495521 | ||
BOTERO1 is required for normal orientation of cortical microtubules and anisotropic cell expansion in Arabidopsis. | Q33335335 | ||
Organization of cortical microtubules in graviresponding maize roots | Q33336066 | ||
Hyperosmotic stress induces formation of tubulin macrotubules in root-tip cells of Triticum turgidum: their probable involvement in protoplast volume control | Q33337519 | ||
Developmental patterning by mechanical signals in Arabidopsis | Q33346441 | ||
Arabidopsis RETINOBLASTOMA-RELATED is required for stem cell maintenance, cell differentiation, and lateral organ production | Q33349206 | ||
Reorganization of cortical microtubules and cellulose deposition during leaf formation in Graptopetalum paraguayense | Q33357255 | ||
Regulation of OsSPL14 by OsmiR156 defines ideal plant architecture in rice | Q34117075 | ||
Plant tubulins: a melting pot for basic questions and promising applications | Q34156017 | ||
RNA as a long-distance information macromolecule in plants | Q34443618 | ||
Visualization of cellulose synthase demonstrates functional association with microtubules. | Q34515776 | ||
A functional-structural model of rice linking quantitative genetic information with morphological development and physiological processes | Q34802806 | ||
Cell polarization, a crucial process in fungal defence | Q34863274 | ||
mRNA localization: gene expression in the spatial dimension | Q34951203 | ||
Generating high-yielding varieties by genetic manipulation of plant architecture | Q35744511 | ||
Dealing with mechanics: mechanisms of force transduction in cells | Q35827608 | ||
Progress in understanding the role of microtubules in plant cells. | Q35921747 | ||
Membrane fluidity and its roles in the perception of environmental signals | Q35935398 | ||
The cytoskeleton as a regulator and target of biotic interactions in plants | Q35980437 | ||
Receptor-mediated activation of a plant Ca2+-permeable ion channel involved in pathogen defense | Q36056394 | ||
Expression of Erwinia amylovora hrp genes in response to environmental stimuli | Q36110192 | ||
Local mechanical stimulation induces components of the pathogen defense response in parsley | Q36175851 | ||
Brittle Culm 12, a dual-targeting kinesin-4 protein, controls cell-cycle progression and wall properties in rice | Q36230302 | ||
Flexural rigidity of microtubules and actin filaments measured from thermal fluctuations in shape | Q36383049 | ||
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell | Q36392210 | ||
A superhighway to virus infection | Q36404651 | ||
Genes controlling plant architecture | Q36407745 | ||
Viral strategies for intracellular trafficking: motors and microtubules | Q36462029 | ||
Cortical microtubule arrays in the Arabidopsis seedling | Q37069639 | ||
"Second extrinsic organizational mechanism" for orienting cellulose: modeling a role for the plasmalemmal reticulum | Q37224458 | ||
Roles of arginine and lysine residues in the translocation of a cell-penetrating peptide from (13)C, (31)P, and (19)F solid-state NMR. | Q37297026 | ||
Unilateral reorientation of microtubules at the outer epidermal wall during photo- and gravitropic curvature of maize coleoptiles and sunflower hypocotyls | Q39303422 | ||
Plant actin controls membrane permeability | Q39525484 | ||
Using the peptide BP100 as a cell-penetrating tool for the chemical engineering of actin filaments within living plant cells | Q39620462 | ||
The cytoskeleton enhances gene expression in the response to the Harpin elicitor in grapevine | Q39673029 | ||
Chemical genetic screening identifies a novel inhibitor of parallel alignment of cortical microtubules and cellulose microfibrils | Q40079629 | ||
A unified hypothesis for the role of membrane bound enzyme complexes and microtubules in plant cell wall synthesis | Q41513368 | ||
Rice leaf inclination2, a VIN3-like protein, regulates leaf angle through modulating cell division of the collar | Q42965183 | ||
Tobacco mutants with reduced microtubule dynamics are less susceptible to TMV. | Q43129334 | ||
The mode of interaction between Vitis and Plasmopara viticola Berk. & Curt. Ex de Bary depends on the host species | Q43268574 | ||
Cold-activation of Brassica napus BN115 promoter is mediated by structural changes in membranes and cytoskeleton, and requires Ca2+ influx | Q43698225 | ||
Cold acclimation can induce microtubular cold stability in a manner distinct from abscisic acid | Q43751050 | ||
Interaction of tobamovirus movement proteins with the plant cytoskeleton | Q44117689 | ||
The stability of cortical microtubules depends on their orientation | Q44256591 | ||
Is microtubule disassembly a trigger for cold acclimation? | Q44526038 | ||
Activation-tagged tobacco mutants that are tolerant to antimicrotubular herbicides are cross-resistant to chilling stress. | Q44644823 | ||
Involvement of the secretory pathway and the cytoskeleton in intracellular targeting and tubule assembly of Grapevine fanleaf virus movement protein in tobacco BY-2 cells. | Q45721966 | ||
Cellular internalization of arginine-rich peptides into tobacco suspension cells: a structure-activity relationship study | Q46259075 | ||
Harpin, elicitor of the hypersensitive response produced by the plant pathogen Erwinia amylovora | Q47932082 | ||
Herbicide resistance caused by spontaneous mutation of the cytoskeletal protein tubulin | Q48024464 | ||
A new cold-induced alfalfa gene is associated with enhanced hardening at subzero temperature | Q48113880 | ||
Different stability of posttranslationally modified brain microtubules isolated from cold-temperate fish | Q48188559 | ||
A kinesin-like protein is essential for oriented deposition of cellulose microfibrils and cell wall strength | Q48270378 | ||
The Arabidopsis TONNEAU2 gene encodes a putative novel protein phosphatase 2A regulatory subunit essential for the control of the cortical cytoskeleton | Q48307541 | ||
The microtubule plus-end binding protein EB1 functions in root responses to touch and gravity signals in Arabidopsis | Q48888186 | ||
Transport of TMV movement protein particles associated with the targeting of RNA to plasmodesmata. | Q51772089 | ||
Mutation of rice BC12/GDD1, which encodes a kinesin-like protein that binds to a GA biosynthesis gene promoter, leads to dwarfism with impaired cell elongation. | Q51888609 | ||
Spatial relationship between microtubules and plasma-membrane rosettes during the deposition of primary wall microfibrils in Closterium sp. | Q52252924 | ||
Analysis and significance of gravity-induced asymmetric growth in the grass leaf-sheath pulvinus. | Q52432606 | ||
Organization of cytoskeleton controls the changes in cytosolic calcium of cold-shocked Nicotiana plumbaginifolia protoplasts. | Q52528909 | ||
Plant cell growth responds to external forces and the response requires intact microtubules. | Q52543981 | ||
The auxin response of actin is altered in the rice mutant Yin-Yang. | Q53994632 | ||
Characterization and Role of an Endogenous Inhibitor in the Induction of Cold Hardiness in Acer negundo | Q57125804 | ||
Regulation of Cold Hardiness in Acer negundo | Q57126598 | ||
The Schizosaccharomyces pombe EB1 Homolog Mal3p Binds and Stabilizes the Microtubule Lattice Seam | Q57873710 | ||
Genetically engineered alteration in the chilling sensitivity of plants | Q59050661 | ||
Acrylamide inhibits gravitropism and affects microtubules in rice coleoptiles | Q62019358 | ||
P304 | page(s) | S81-94 | |
P577 | publication date | 2011-10-18 | |
P1433 | published in | Protoplasma | Q15765986 |
P1476 | title | Microtubules and the tax payer | |
P478 | volume | 249 Suppl 2 |