![]() A plant peptide encoded by CLV3 identified by in situ MALDI-TOF MS analysis. The shoot stem cell niche in angiosperms: expression patterns of WUS orthologues in rice and maize imply major modifications in the course of mono- and dicot evolution. Signaling of cell fate decisions by CLAVATA3 in Arabidopsis shoot meristems. Role of AMPA receptor cycling in synaptic transmission and plasticity. Plant stem cell signaling involves ligand-dependent trafficking of the CLAVATA1 receptor kinase. Nimchuk, Z.L., Tarr, P.T., Ohno, C., Qu, X. Expression of maize KNOTTED1 related homeobox genes in the shoot apical meristem predicts patterns of morphogenesis in the vegetative shoot. thick tassel dwarf1 encodes a putative maize ortholog of the Arabidopsis CLAVATA1 leucine-rich repeat receptor-like kinase. The CLAVATA1 gene encodes a putative receptor kinase that controls shoot and floral meristem size in Arabidopsis. The Arabidopsis CLAVATA2 gene encodes a receptor-like protein required for the stability of the CLAVATA1 receptor-like kinase. The fasciated ear2 gene encodes a leucine-rich repeat receptor-like protein that regulates shoot meristem proliferation in maize. The polar auxin transport inhibitor N-1-naphthylphthalamic acid disrupts leaf initiation, KNOX protein regulation, and formation of leaf margins in maize. The YABBY gene TONGARI-BOUSHI1 is involved in lateral organ development and maintenance of meristem organization in the rice spikelet. Signals derived from YABBY gene activities in organ primordia regulate growth and partitioning of Arabidopsis shoot apical meristems. Goldshmidt, A., Alvarez, J.P., Bowman, J.L. Radial patterning of Arabidopsis shoots by class III HD-ZIP and KANADI genes. Plant primary meristems: shared functions and regulatory mechanisms. The stem cell population of Arabidopsis shoot meristems in maintained by a regulatory loop between the CLAVATA and WUSCHEL genes. Dependence of stem cell fate in Arabidopsis on a feedback loop regulated by CLV3 activity. Plant and animal stem cells: similar yet different. Stem cells and niches: mechanisms that promote stem cell maintenance throughout life. ![]()
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