Topics
embryogenesisAnatomical structure
homeodomainBiomolecule
apical meristemAnatomical structure
leucine zipperProtein
One of the most fundamental events in plant ontogeny is the specification of the shoot and root apical meristem (SAM and RAM) in embryogenesis. In Arabidopsis, the restricted expression of class III homeodomain leucine zipper (HD-ZIP III) transcription factors (TFs) at the central–apical domain of early embryos is required for the correct specification of the SAM and RAM. Because the expression of HD-ZIP III TFs is suppressed by microRNA165/166 (miR165/6), elucidation of the sites of miR165/6 production and their activity range is a key to understanding the molecular basis of SAM and RAM specification in embryogenesis. Here, we present a comprehensive reporter analysis of all nine Arabidopsis MICRORNA165/166 (MIR165/6) genes during embryoge...
SummaryDevelopment of seed plant embryos is polarized along the apical-basal axis. This polarization...
International audienceLegume root architecture is characterized by the development of two de novo me...
In both animals and plants, many developmentally important regulatory genes have complementary micro...
Development in multicellular organisms requires a strict balance between cell division and different...
Pattern formation is the process by which undifferentiated cells divide and differentiate to generat...
miRNAs are essential regulators of cell identity, yet their role in early embryo development in plan...
Arabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes their acti...
The seed maturation program only occurs during late embryogenesis, and repression of the program is ...
SummaryArabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes the...
© 2015. MicroRNA 165 and 166 (miR165/166) is composed of nine members and targets five members (PHB,...
The seed maturation program only occurs during late embryogenesis, and repression of the program is ...
The seed maturation program only occurs during late embryogenesis, and repression of the program is ...
<div><p>The seed maturation program only occurs during late embryogenesis, and repression of the pro...
MicroRNAs (miRNAs) are 21-24-nucleotide RNAs that negatively regulate gene expression. Plant miRNAs ...
Development of seed plant embryos is polarized along the apical-basal axis. This polarization occurs...
SummaryDevelopment of seed plant embryos is polarized along the apical-basal axis. This polarization...
International audienceLegume root architecture is characterized by the development of two de novo me...
In both animals and plants, many developmentally important regulatory genes have complementary micro...
Development in multicellular organisms requires a strict balance between cell division and different...
Pattern formation is the process by which undifferentiated cells divide and differentiate to generat...
miRNAs are essential regulators of cell identity, yet their role in early embryo development in plan...
Arabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes their acti...
The seed maturation program only occurs during late embryogenesis, and repression of the program is ...
SummaryArabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes the...
© 2015. MicroRNA 165 and 166 (miR165/166) is composed of nine members and targets five members (PHB,...
The seed maturation program only occurs during late embryogenesis, and repression of the program is ...
The seed maturation program only occurs during late embryogenesis, and repression of the program is ...
<div><p>The seed maturation program only occurs during late embryogenesis, and repression of the pro...
MicroRNAs (miRNAs) are 21-24-nucleotide RNAs that negatively regulate gene expression. Plant miRNAs ...
Development of seed plant embryos is polarized along the apical-basal axis. This polarization occurs...
SummaryDevelopment of seed plant embryos is polarized along the apical-basal axis. This polarization...
International audienceLegume root architecture is characterized by the development of two de novo me...
In both animals and plants, many developmentally important regulatory genes have complementary micro...
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