Evidence of interaction network evolution by whole-genome duplications: a case study in MADS-box proteins.
about
Expansion and Function of Repeat Domain Proteins During Stress and Development in PlantsThe interface of protein structure, protein biophysics, and molecular evolutionTangled up in two: a burst of genome duplications at the end of the Cretaceous and the consequences for plant evolutionDynamics and adaptive benefits of protein domain emergence and arrangements during plant genome evolutionMobile DNA and evolution in the 21st centuryPhylogenetic analysis and molecular evolution of the dormancy associated MADS-box genes from peachConserved and variable correlated mutations in the plant MADS protein network.Regulators of plant biomass degradation in ascomycetous fungi.Altered gene expression and ecological divergence in sibling allopolyploids of Dactylorhiza (Orchidaceae)Polyploid organisms.Evolution of herbivore-induced early defense signaling was shaped by genome-wide duplications in Nicotiana.Functional conservation and divergence of four ginger AP1/AGL9 MADS-box genes revealed by analysis of their expression and protein-protein interaction, and ectopic expression of AhFUL gene in ArabidopsisA kinetic model of the evolution of a protein interaction networkA genome-wide analysis of MADS-box genes in peach [Prunus persica (L.) Batsch]Differential gene expression and alternative splicing between diploid and tetraploid watermelon.MADS-complexes regulate transcriptome dynamics during pollen maturation.Evolutionary Dynamics of Floral Homeotic Transcription Factor Protein-Protein Interactions.Analysis of expression profiles of selected genes associated with the regenerative property and the receptivity to gene transfer during somatic embryogenesis in Triticum aestivum LMechanisms of transcription factor evolution in Metazoa.Systems biology: an approach.Molecular aspects of flower development in grasses.The causes and molecular consequences of polyploidy in flowering plants.The fate of duplicated genes in a polyploid plant genome.Evolution and tinkering: what do a protein kinase, a transcriptional regulator and chromosome segregation/cell division proteins have in common?Wide-scale screening of T-DNA lines for transcription factor genes affecting male gametophyte development in Arabidopsis.Protein interaction evolution from promiscuity to specificity with reduced flexibility in an increasingly complex network.Gamma paleohexaploidy in the stem lineage of core eudicots: significance for MADS-box gene and species diversification.Functional conservation of MIKC*-Type MADS box genes in Arabidopsis and rice pollen maturation.A parsimonious model of lineage-specific expansion of MADS-box genes in Physcomitrella patens.Living Organisms Author Their Read-Write Genomes in Evolution.FLOWERING LOCUS C in monocots and the tandem origin of angiosperm-specific MADS-box genes.Fitness effects of mutation: testing genetic redundancy in Arabidopsis thaliana.Interactions among proteins of floral MADS-box genes in basal eudicots: implications for evolution of the regulatory network for flower development.Single-Gene and Whole-Genome Duplications and the Evolution of Protein-Protein Interaction NetworksEvolution AfterandBefore Gene Duplication?
P2860
Q26770374-6FD219B2-2850-4B34-8571-33A9E5D4FC3EQ26863623-19A5434D-C2B4-441E-82DA-425D78CBC322Q28657578-6B8E4071-70DE-42FB-8BD4-55A72062142DQ28730773-B4DA5553-C5AB-49D0-89DE-0001D8886A55Q28748605-BCC437C5-FB32-46E3-9A7B-7D7C4C5EACE8Q33475197-06B8B95C-A481-4AC8-BDDA-A8694CBCAB62Q33729839-A69B1A08-C7A2-419A-B7B2-F58768DC0B15Q33791538-5D4EAA29-C8EF-4FB2-88C5-A1EBFA15645BQ33882312-CDC05B88-EDB5-4FC4-8A99-694AB8BC38F6Q34273385-73D100A4-3F51-4A11-913D-94F803513D7FQ34544101-FFF84968-045D-4D6B-A9FF-318DAC540D4EQ34612341-444C15F1-A523-4F61-B073-E67D78E44307Q34622500-ECA4E2AC-2F11-4EEA-AE1F-628BEC1EFA51Q35085595-97E000D3-F599-473B-B1DF-962BE8BE6204Q35626658-3374D335-D905-4580-8BFF-424A59802AA3Q36482041-03BB6E5E-FCCF-47CA-92F6-B7B2203FE578Q36904228-892820A8-F0BC-4967-B89F-B38AFA627E7CQ37300982-D7D15A2A-C84F-4926-A778-C23635C5A0FCQ37623770-89147E5F-5863-43C6-A6B9-8C322D9F4FD5Q37763517-1A8EF5F1-3A0F-44F2-80EA-CF664175AEE5Q37923841-58B06E8A-617B-495C-BA41-8B0A85C7A875Q38218016-7BDE9EAE-0645-4CDF-9E71-EDEDC98B6DCFQ38495039-769D4F98-F7A3-4517-B163-87F540416452Q38569235-F8EE2977-CD2E-4D80-8D1D-77D523A17ED4Q39684934-5D4C05C9-7232-4C9C-9A87-E1D5ACE5B978Q42314462-740E7EF7-8CAB-4C93-A729-F0C11F4A8C43Q42660080-4A5135E1-3A23-4FF3-BD9A-D9E978E004F3Q43738562-4E0A88DA-80FD-434C-9C71-44A572AEC88AQ45407028-E4B5D95B-17D2-48A8-BA30-3BE1851721B6Q46246927-35DC5ABC-E2F4-4E49-AFB3-7F800CC56F14Q47754243-AF0C0559-08C8-4849-9C4C-56BE082B2168Q48305528-A66470BE-A8A8-45D3-B5BC-B3ECF72B3322Q51915377-CF79B550-AF0E-4823-BE9B-51FB19BA2302Q56336640-C152D174-063A-4F35-A37C-17521C07918BQ57685946-82F0AF7A-74E9-4DB3-AB2C-D76D9639AD3A
P2860
Evidence of interaction network evolution by whole-genome duplications: a case study in MADS-box proteins.
description
2006 nî lūn-bûn
@nan
2006 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Evidence of interaction networ ...... se study in MADS-box proteins.
@ast
Evidence of interaction networ ...... se study in MADS-box proteins.
@en
Evidence of interaction networ ...... se study in MADS-box proteins.
@nl
type
label
Evidence of interaction networ ...... se study in MADS-box proteins.
@ast
Evidence of interaction networ ...... se study in MADS-box proteins.
@en
Evidence of interaction networ ...... se study in MADS-box proteins.
@nl
prefLabel
Evidence of interaction networ ...... se study in MADS-box proteins.
@ast
Evidence of interaction networ ...... se study in MADS-box proteins.
@en
Evidence of interaction networ ...... se study in MADS-box proteins.
@nl
P356
P1476
Evidence of interaction networ ...... se study in MADS-box proteins.
@en
P2093
Amelie S Veron
P304
P356
10.1093/MOLBEV/MSL197
P577
2006-12-14T00:00:00Z