Independent recruitment of a conserved developmental mechanism during leaf evolution - Wikidata - awgldk - TriplyDB

Independent recruitment of a conserved developmental mechanism during leaf evolution

Independent recruitment of a conserved developmental mechanism during leaf evolution

http://www.wikidata.org/entity/Q28241754

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The Selaginella genome identifies genetic changes associated with the evolution of vascular plants Ferns: the missing link in shoot evolution and development Adaptation in flower form: a comparative evodevo approach Development and genetics in the evolution of land plant body plans ASL/LBD phylogeny suggests that genetic mechanisms of root initiation downstream of auxin are distinct in lycophytes and euphyllophytes A strawberry KNOX gene regulates leaf, flower and meristem architecture Antagonistic roles for KNOX1 and KNOX2 genes in patterning the land plant body plan following an ancient gene duplication Three ancient hormonal cues co-ordinate shoot branching in a moss Plasma membrane-targeted PIN proteins drive shoot development in a moss Leaf evolution: gases, genes and geochemistry The evolution, morphology, and development of fern leaves Evolutionarily conserved repressive activity of WOX proteins mediates leaf blade outgrowth and floral organ development in plants Morphological evolution in land plants: new designs with old genes Evolutionary development of the plant and spore wall Differentiating Arabidopsis shoots from leaves by combined YABBY activities Convergences and divergences in polar auxin transport and shoot development in land plant evolution Parallels in lignin biosynthesis: A study in Selaginella moellendorffii reveals convergence across 400 million years of evolution Historical contingency and the purported uniqueness of evolutionary innovations CORKSCREW1 defines a novel mechanism of domain specification in the maize shoot.A class I KNOX gene from the palm species Elaeis guineensis (Arecaceae) is associated with meristem function and a distinct mode of leaf dissection.The developmental selector AS1 is an evolutionarily conserved regulator of the plant immune response Lobe-generating centres in the simple leaves of Myriophyllum aquaticum: evidence for KN1-like activity.A FILAMENTOUS FLOWER orthologue plays a key role in leaf patterning in opium poppy.Conserved transport mechanisms but distinct auxin responses govern shoot patterning in Selaginella kraussiana.Symplesiomorphies in the WUSCHEL clade suggest that the last common ancestor of seed plants contained at least four independent stem cell niches.Evolutionary aspects of non-cell-autonomous regulation in vascular plants: structural background and models to study.Dichotomous branching: the plant form and integrity upon the apical meristem bifurcation What determines a leaf's shape?Dissecting the molecular signatures of apical cell-type shoot meristems from two ancient land plant lineages.Meiosis in flowering plants and other green organisms.Cladodes, leaf-like organs in Asparagus, show the significance of co-option of pre-existing genetic regulatory circuit for morphological diversity of plants Co-option of the polarity gene network shapes filament morphology in angiosperms Identification of WOX Family Genes in Selaginella kraussiana for Studies on Stem Cells and Regeneration in Lycophytes.Recruitment and remodeling of an ancient gene regulatory network during land plant evolution.Multicellular development and protein-protein interactions.The effect of selection environment on the probability of parallel evolution.Nonreciprocal complementation of KNOX gene function in land plants.Challenging the paradigms of leaf evolution: Class III HD-Zips in ferns and lycophytes.A role for PHANTASTICA in medio-lateral regulation of adaxial domain development in tomato and tobacco leaves.The Huperzia selago Shoot Tip Transcriptome Sheds New Light on the Evolution of Leaves.

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P2860

Independent recruitment of a conserved developmental mechanism during leaf evolution

http://www.wikidata.org/entity/Q28241754

description

2005 nî lūn-bûn

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2005 թուականի Մարտին հրատարակուած գիտական յօդուած

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2005 թվականի մարտին հրատարակված գիտական հոդված

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2005年の論文

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2005年論文

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2005年論文

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name

Independent recruitment of a conserved developmental mechanism during leaf evolution

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Independent recruitment of a conserved developmental mechanism during leaf evolution

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Independent recruitment of a conserved developmental mechanism during leaf evolution

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type

label

Independent recruitment of a conserved developmental mechanism during leaf evolution

@ast

Independent recruitment of a conserved developmental mechanism during leaf evolution

@en

Independent recruitment of a conserved developmental mechanism during leaf evolution

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prefLabel

Independent recruitment of a conserved developmental mechanism during leaf evolution

@ast

Independent recruitment of a conserved developmental mechanism during leaf evolution

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Independent recruitment of a conserved developmental mechanism during leaf evolution

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Independent recruitment of a conserved developmental mechanism during leaf evolution

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C Jill Harrison

http://www.w3.org/2001/XMLSchema#string

Debbie L Alexander

http://www.w3.org/2001/XMLSchema#string

Elizabeth C Moylan

http://www.w3.org/2001/XMLSchema#string

Jane A Langdale

http://www.w3.org/2001/XMLSchema#string

Robert W Scotland

http://www.w3.org/2001/XMLSchema#string

Susie B Corley

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P2860

Evolution of the angiosperms: calibrating the family tree

ROUGH SHEATH2: a Myb protein that represses knox homeobox genes in maize lateral organ primordia.

The maize rough sheath2 gene and leaf development programs in monocot and dicot plants.

The expression of tobacco knotted1-type class 1 homeobox genes correspond to regions predicted by the cytohistological zonation model.

Regional expression of the rice KN1-type homeobox gene family during embryo, shoot, and flower development.

Asymmetric leaves1 mediates leaf patterning and stem cell function in Arabidopsis.

Expression of a class 1 knotted1-like homeobox gene is down-regulated in pea compound leaf primordia.

KNAT2: evidence for a link between knotted-like genes and carpel development.

Spontaneous mutations in KNOX genes give rise to a novel floral structure in Antirrhinum.

Homologies in leaf form inferred from KNOXI gene expression during development.

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10.1038/NATURE03410

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