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Any process that modulates the frequency, rate or extent of a multicellular organismal process, the processes pertinent to the function of a multicellular organism above the cellular level; includes the integrated processes of tissues and organs. The process whose specific outcome is the progression of an embryo from its formation until the end of its embryonic life stage. The end of the embryonic stage is organism-specific. For example, for mammals, the process would begin with zygote formation and end with birth. For insects, the process would begin at zygote formation and end with larval hatching. For plant zygotic embryos, this would be from zygote formation to the end of seed dormancy. For plant vegetative embryos, this would be from the initial determination of the cell or group of cells to form an embryo until the point when the embryo becomes independent of the parent plant. Any process that activates or increases the frequency, rate or extent of a biological process. Biological processes are regulated by many means; examples include the control of gene expression, protein modification or interaction with a protein or substrate molecule. The process by which anatomical structures are generated and organized. Morphogenesis pertains to the creation of form. Any process that modulates the frequency, rate or extent of embryonic development. A biological process whose specific outcome is the progression of an integrated living unit: an anatomical structure (which may be a subcellular structure, cell, tissue, or organ), or organism over time from an initial condition to a later condition. The developmental process pertaining to the initial formation of an anatomical structure from unspecified parts. This process begins with the specific processes that contribute to the appearance of the discrete structure and ends when the structural rudiment is recognizable. An anatomical structure is any biological entity that occupies space and is distinguished from its surroundings. Anatomical structures can be macroscopic such as a carpel, or microscopic such as an acrosome. Any process that activates or increases the rate or extent of development, the biological process whose specific outcome is the progression of an organism over time from an initial condition (e.g. a zygote, or a young adult) to a later condition (e.g. a multicellular animal or an aged adult). The series of molecular signals initiated by binding of Wnt protein to a frizzled family receptor on the surface of the target cell and increasing the rate or extent of posterior neural plate formation. Any process that modulates the frequency, rate or extent of development, the biological process whose specific outcome is the progression of a multicellular organism over time from an initial condition (e.g. a zygote, or a young adult) to a later condition (e.g. a multicellular animal or an aged adult). Any process that modulates the frequency, rate or extent of anatomical structure morphogenesis. The formation of the flat, thickened layer of ectodermal cells known as the neural plate. The underlying dorsal mesoderm signals the ectodermal cells above it to elongate into columnar neural plate cells. The neural plate subsequently develops into the neural tube, which gives rise to the central nervous system. The series of molecular signals initiated by binding of Wnt protein to a frizzled family receptor on the surface of the target cell and ending with a change in cell state. The formation of posterior end of the flat, thickened layer of ectodermal cells known as the neural plate. Any series of molecular signals initiated by the binding of an extracellular ligand to a receptor on the surface of the target cell.

View Gene Ontology (GO) Term

GO TERM SUMMARY

Name: positive regulation of posterior neural plate formation by Wnt receptor signaling pathway
Acc: GO:0090021
Aspect: Biological Process
Desc: The series of molecular signals initiated by binding of Wnt protein to a frizzled family receptor on the surface of the target cell and increasing the rate or extent of posterior neural plate formation.
Proteins in PDR annotated with:
   This term: 0
   Term or descendants: 0


[geneontology.org]
INTERACTIVE GO GRAPH

GO:0090021 - positive regulation of posterior neural plate formation by Wnt receptor signaling pathway (interactive image map)

YRC Informatics Platform - Version 3.0
Created and Maintained by: Michael Riffle