A gene regulatory network model for cell-fate determination during Arabidopsis thaliana flower development that is robust and recovers experimental gene expression profiles.
about
Floral morphogenesis: stochastic explorations of a gene network epigenetic landscapeCell patterns emerge from coupled chemical and physical fields with cell proliferation dynamics: the Arabidopsis thaliana root as a study systemDiscrete dynamics model for the speract-activated Ca2+ signaling network relevant to sperm motilityModeling the epigenetic attractors landscape: toward a post-genomic mechanistic understanding of developmentRobustness can evolve gradually in complex regulatory gene networks with varying topologyBoolean network model predicts cell cycle sequence of fission yeastA Boolean model of the Pseudomonas syringae hrp regulon predicts a tightly regulated systemIn silico determination of the effect of multi-target drugs on calcium dynamics signaling network underlying sea urchin spermatozoa motilityBiological robustness: paradigms, mechanisms, and systems principlesMost networks in Wagner's model are cyclingFlower developmentSpecialization can drive the evolution of modularityNeutrality and robustness in evo-devo: emergence of lateral inhibitionMorphogenesis of flowers--our evolving viewA data-driven integrative model of sepal primordium polarity in ArabidopsisDeciphering the Arabidopsis floral transition process by integrating a protein-protein interaction network and gene expression dataSustained-input switches for transcription factors and microRNAs are central building blocks of eukaryotic gene circuits.A dynamic analysis of IRS-PKR signaling in liver cells: a discrete modeling approach.Continuous-time modeling of cell fate determination in Arabidopsis flowersTopology-based cancer classification and related pathway mining using microarray data.A methodology for the structural and functional analysis of signaling and regulatory networks.Predicting essential components of signal transduction networks: a dynamic model of guard cell abscisic acid signaling.Development of genomic sciences in Mexico: a good start and a long way to go.Dynamic simulation of regulatory networks using SQUADThe regulatory network of E. coli metabolism as a Boolean dynamical system exhibits both homeostasis and flexibility of responsePhenotype prediction in regulated metabolic networksCritical dynamics in genetic regulatory networks: examples from four kingdoms.An AGAMOUS-related MADS-box gene, XAL1 (AGL12), regulates root meristem cell proliferation and flowering transition in Arabidopsis.Systems biology of organ initiation at the shoot apex.Systems approaches to identifying gene regulatory networks in plants.Uncovering genetic and molecular interactions among floral meristem identity genes in Arabidopsis thaliana.Interlocking feedback loops govern the dynamic behavior of the floral transition in Arabidopsis.Reshaping the epigenetic landscape during early flower development: induction of attractor transitions by relative differences in gene decay rates.Analysis of two TFL1 homologs of dogwood species (Cornus L.) indicates functional conservation in control of transition to flowering.Flower development: from morphodynamics to morphomechanics.A dynamic genetic-hormonal regulatory network model explains multiple cellular behaviors of the root apical meristem of Arabidopsis thaliana.Identification of Two New Mechanisms That Regulate Fruit Growth by Cell Expansion in Tomato.Boolean network simulations for life scientists.Interlinked nonlinear subnetworks underlie the formation of robust cellular patterns in Arabidopsis epidermis: a dynamic spatial model.Developmental robustness by obligate interaction of class B floral homeotic genes and proteins.
P2860
Q21092166-901F6CB3-B8A3-4857-86E7-40AE2580CDD5Q27324634-E203847D-EA98-4981-99AC-9BBB16B9A496Q27330175-FAAD8A5B-51E5-4CE0-8D1F-12CFA4DF875FQ28083970-53D00958-907A-42DE-AB19-8C19C6769BFAQ28469133-A662B572-E200-41F2-8B09-90C76D82AC1AQ28472221-66E2A0F6-8B6D-4C4A-98EF-6AB4BE9E078EQ28472886-D7AB079C-DABA-4C92-98AD-97EE1F7203DDQ28542568-9D4434AB-07AC-4D1A-B114-28C05C636CA3Q28730028-1CDAF86F-3EFF-416A-B11F-8F91AEC21755Q28730614-CE9D9788-E59B-4C7B-B6A0-6D7B2DCF50C3Q28740986-FE6719F9-85DD-44FE-AFD0-6E673233EE06Q28748240-9B634ABE-6BA9-4EE0-9A89-58D77206EBBFQ28756627-51D8D20E-D478-46E0-B34D-7BF47535D441Q28770014-9D17988F-3C56-4DE3-B57F-64F89340651FQ30000934-4806CB55-9736-4EE0-A7B6-9EE28226D64FQ30000964-20BC082C-7A46-4F80-BDC2-4ADB938A5F8EQ30580556-F14020DF-0B5E-4C47-8311-F889A08645FBQ30941901-32481705-456F-465B-A6CA-628AAE5006C2Q30986246-487EF84D-8BFA-4499-A125-551CC2F8E44EQ31054943-B349EC55-D153-4233-9B5E-64B4D57E5819Q33233350-44A796CE-D986-4B51-8265-2164CDA77ACAQ33257261-31AB6BCF-778B-47C3-B3C1-1E09D29386E7Q33300999-786B518D-2970-4CFF-81BF-175BCC6141DEQ33307209-76B14090-405A-4012-8E12-AE6732F47A51Q33321940-3FE293E9-156D-4876-9C83-C060BBEE2E6BQ33331008-935BCD70-9ACF-4B70-BC37-DDAF37F07D63Q33344447-567CEFC2-1C91-469E-90EA-3090B0CE2E1EQ33345090-5C15A33F-AAC6-4817-8608-657DD4404D40Q33348323-4E1ED4B3-C63B-456C-AAEB-A554930D55BBQ33350602-4D79F41A-2B08-4BC5-A07F-7BEC299BE6FBQ33352412-24215A79-40C5-4348-8FC4-05A6A67C8EB3Q33355561-8695BFDB-C8C7-44F3-967E-400F65A6979EQ33360682-A10F7A9E-70C9-499D-AE04-60390C78F41DQ33362410-AD2B718E-D0B7-4C4F-939C-F13C8FF29FFDQ33365096-8AAF9FA0-1C46-4649-B616-7BB825C7C1FFQ33365257-721943E4-749E-4109-AADC-040A2B7724B8Q33365656-6FA71264-5D83-48E8-8FEE-27476B718F52Q33384933-100032E9-3DB8-49FE-AE95-25A31694BEF2Q33385015-879F96E1-4613-4231-9DDC-32D4D6AEAD67Q33400323-6BBB8C0B-F538-4611-98DA-C1935C81849E
P2860
A gene regulatory network model for cell-fate determination during Arabidopsis thaliana flower development that is robust and recovers experimental gene expression profiles.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
A gene regulatory network mode ...... ntal gene expression profiles.
@en
A gene regulatory network mode ...... ntal gene expression profiles.
@nl
type
label
A gene regulatory network mode ...... ntal gene expression profiles.
@en
A gene regulatory network mode ...... ntal gene expression profiles.
@nl
prefLabel
A gene regulatory network mode ...... ntal gene expression profiles.
@en
A gene regulatory network mode ...... ntal gene expression profiles.
@nl
P2860
P356
P1433
P1476
A gene regulatory network mode ...... ntal gene expression profiles.
@en
P2093
Elena R Alvarez-Buylla
Pablo Padilla-Longoria
P2860
P304
P356
10.1105/TPC.104.021725
P577
2004-10-14T00:00:00Z