scholarly article | Q13442814 |
P50 | author | Nick Monk | Q41893370 |
P2093 | author name string | Mariana Benítez | |
Elena R Alvarez-Buylla | |||
P2860 | cites work | The chemical basis of morphogenesis | Q769913 |
Bare bones pattern formation: a core regulatory network in varying geometries reproduces major features of vertebrate limb development and evolution | Q21136351 | ||
Evolution of the gene network underlying wing polyphenism in ants | Q28214449 | ||
A mutual support mechanism through intercellular movement of CAPRICE and GLABRA3 can pattern the Arabidopsis root epidermis | Q28473717 | ||
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The segment polarity network is a robust developmental module | Q29618600 | ||
Positional information in root epidermis is defined during embryogenesis and acts in domains with strict boundaries. | Q32067129 | ||
Clonal analysis of the Arabidopsis root confirms that position, not lineage, determines cell fate | Q33334883 | ||
Two-dimensional patterning by a trapping/depletion mechanism: the role of TTG1 and GL3 in Arabidopsis trichome formation. | Q33343018 | ||
The gene regulatory network for root epidermal cell-type pattern formation in Arabidopsis | Q33346649 | ||
JACKDAW controls epidermal patterning in the Arabidopsis root meristem through a non-cell-autonomous mechanism | Q33348840 | ||
An introduction to the mechanics of morphogenesis for plant biologists | Q33349003 | ||
The TTG gene is required to specify epidermal cell fate and cell patterning in the Arabidopsis root. | Q33367020 | ||
Regulative feedback in pattern formation: towards a general relativistic theory of positional information | Q33367476 | ||
Root pattern: shooting in the dark? | Q33368619 | ||
Interlinked nonlinear subnetworks underlie the formation of robust cellular patterns in Arabidopsis epidermis: a dynamic spatial model | Q33385015 | ||
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The role of nutrient availability in regulating root architecture. | Q35130155 | ||
Creating a two-dimensional pattern de novo during Arabidopsis trichome and root hair initiation | Q35840082 | ||
Epidermal cell patterning and differentiation throughout the apical-basal axis of the seedling. | Q36169049 | ||
Epidermal differentiation: trichomes in Arabidopsis as a model system | Q36227466 | ||
Quantitative models of developmental pattern formation | Q36584506 | ||
Gene regulatory network models for plant development | Q36671826 | ||
Epidermal pattern formation in the root and shoot of Arabidopsis | Q36711427 | ||
Biological impacts and context of network theory | Q36798117 | ||
Comprehensive analysis of single-repeat R3 MYB proteins in epidermal cell patterning and their transcriptional regulation in Arabidopsis | Q36803283 | ||
From priming to plasticity: the changing fate of rhizodermic cells | Q37032418 | ||
A genetic regulatory network in the development of trichomes and root hairs | Q37079156 | ||
A systems approach reveals regulatory circuitry for Arabidopsis trichome initiation by the GL3 and GL1 selectors | Q37097290 | ||
Theoretical analysis of mechanisms that generate the pigmentation pattern of animals. | Q37321606 | ||
Quantitative approaches in developmental biology. | Q37544246 | ||
Back to the future: evolution of computational models in plant morphogenesis | Q37587589 | ||
Modeling plant growth and pattern formation | Q37632059 | ||
Epidermal cell fate and patterning in leaves | Q41560561 | ||
A system for modelling cell-cell interactions during plant morphogenesis | Q42152907 | ||
A competitive complex formation mechanism underlies trichome patterning on Arabidopsis leaves | Q42441135 | ||
A common position-dependent mechanism controls cell-type patterning and GLABRA2 regulation in the root and hypocotyl epidermis of Arabidopsis | Q42454783 | ||
Arabidopsis TRANSPARENT TESTA GLABRA2 is directly regulated by R2R3 MYB transcription factors and is involved in regulation of GLABRA2 transcription in epidermal differentiation | Q42630473 | ||
One, two, three...models for trichome patterning in Arabidopsis? | Q43168617 | ||
Generation of a spacing pattern: the role of triptychon in trichome patterning in Arabidopsis | Q43734974 | ||
Simple chemical reaction systems with limit cycle behaviour | Q43861247 | ||
Interactive Effects of Jasmonic Acid, Salicylic Acid, and Gibberellin on Induction of Trichomes in Arabidopsis | Q44613160 | ||
Positional signaling mediated by a receptor-like kinase in Arabidopsis | Q45200885 | ||
Jasmonic acid control of GLABRA3 links inducible defense and trichome patterning in Arabidopsis | Q45350348 | ||
The ENHANCER OF TRY AND CPC1 gene acts redundantly with TRIPTYCHON and CAPRICE in trichome and root hair cell patterning in Arabidopsis. | Q47824337 | ||
WEREWOLF, a MYB-related protein in Arabidopsis, is a position-dependent regulator of epidermal cell patterning | Q47904549 | ||
The MYB23 gene provides a positive feedback loop for cell fate specification in the Arabidopsis root epidermis | Q47937734 | ||
The Arabidopsis Athb-10 (GLABRA2) is an HD-Zip protein required for regulation of root hair development | Q48060682 | ||
A feedback mechanism controlling SCRAMBLED receptor accumulation and cell-type pattern in Arabidopsis. | Q50608908 | ||
Cell-to-cell movement of the CAPRICE protein in Arabidopsis root epidermal cell differentiation. | Q50747699 | ||
A computational model of teeth and the developmental origins of morphological variation. | Q51714893 | ||
Functional diversity of R3 single-repeat genes in trichome development. | Q51742204 | ||
Distinct and overlapping roles of single-repeat MYB genes in root epidermal patterning. | Q51975313 | ||
The role of the SCRAMBLED receptor-like kinase in patterning the Arabidopsis root epidermis. | Q52005109 | ||
ENHANCER of TRY and CPC 2 (ETC2) reveals redundancy in the region-specific control of trichome development of Arabidopsis. | Q52062305 | ||
The bHLH genes GL3 and EGL3 participate in an intercellular regulatory circuit that controls cell patterning in the Arabidopsis root epidermis. | Q52064183 | ||
Genetic regulation of root hair development in Arabidopsis thaliana: a network model. | Q52078606 | ||
Environmentally induced plasticity of root hair development in Arabidopsis. | Q52094863 | ||
The bHLH genes GLABRA3 (GL3) and ENHANCER OF GLABRA3 (EGL3) specify epidermal cell fate in the Arabidopsis root. | Q52097524 | ||
Cell pattern in the Arabidopsis root epidermis determined by lateral inhibition with feedback. | Q52122289 | ||
GLABROUS1 overexpression and TRIPTYCHON alter the cell cycle and trichome cell fate in Arabidopsis. | Q52181820 | ||
Robustness, flexibility, and the role of lateral inhibition in the neurogenic network. | Q52596238 | ||
A theory of biological pattern formation. | Q52960600 | ||
The WEREWOLF MYB protein directly regulates CAPRICE transcription during cell fate specification in the Arabidopsis root epidermis. | Q53612645 | ||
Equivalent genetic regulatory networks in different contexts recover contrasting spatial cell patterns that resemble those in Arabidopsis root and leaf epidermis: a dynamic model | Q57272354 | ||
P433 | issue | 4 | |
P304 | page(s) | 241-253 | |
P577 | publication date | 2011-01-21 | |
P1433 | published in | Journal of Experimental Zoology. Part B: Molecular and Developmental Evolution | Q15760970 |
P1476 | title | Epidermal patterning in Arabidopsis: models make a difference. | |
P478 | volume | 316 |
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Q57175811 | Dynamical Patterning Modules, Biogeneric Materials, and the Evolution of Multicellular Plants |
Q38691515 | Integration of transcriptomic and proteomic analysis towards understanding the systems biology of root hairs |
Q83231071 | Modularity, criticality, and evolvability of a developmental gene regulatory network |
Q57272350 | Mutually reinforcing patterning mechanisms |
Q50853479 | Nuclear trapping controls the position-dependent localization of CAPRICE in the root epidermis of Arabidopsis. |
Q35914212 | Progress on trichome development regulated by phytohormone signaling |
Q26852962 | Quantification of variability in trichome patterns |
Q41486874 | Root hairs |
Q39144732 | SABRE is required for stabilization of root hair patterning in Arabidopsis thaliana. |
Q38708449 | The CD4+ T cell regulatory network mediates inflammatory responses during acute hyperinsulinemia: a simulation study |
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