neural groove

(noun)

The neural groove is a shallow median groove between the neural folds of an embryo. The neural folds are two longitudinal ridges that are caused by a folding up of the ectoderm in front of the primitive streak of the developing embryo.

Related Terms

Examples of neural groove in the following topics:

  • Neurulation

    • Neurulation is the formation of the neural tube from the ectoderm of the embryo.
    • The neural plate folds outwards to form the neural groove.
    • Beginning in the future neck region, the neural folds of this groove close to create the neural tube (this form of neurulation is called primary neurulation).
    • The hollow interior is called the neural canal.
    • Transverse sections that show the progression of the neural plate into the neural tube.

  • Embryonic Development

    • The neural groove gradually deepens as the neural folds become elevated, and ultimately the folds meet and coalesce in the middle line and convert the groove into a closed tube, the neural tube or neural canal, the ectodermal wall of which forms the rudiment of the nervous system.
    • The edges of the neural plate start to thicken and lift upward, forming the neural folds.
    • The center of the neural plate remains grounded allowing a U-shaped neural groove to form.
    • This neural groove sets the boundary between the right and left sides of the embryo.
    • The neural folds pinch in towards the midline of the embryo and fuse together to form the neural tube.

  • Development of the Peripheral Nervous System

    • The peripheral nervous system develops from two strips of tissue called the neural crest, running lengthwise above the neural tube.
    • As development proceeds, a fold called the neural groove appears along the midline.
    • The sequence of stages from neural plate to neural tube and neural crest is known as neurulation .
    • After gastrulation, neural crest cells are specified at the border of the neural plate and the non-neural ectoderm.
    • During neurulation, the borders of the neural plate, also known as the neural folds, converge at the dorsal midline to form the neural tube.

  • Establishing Body Axes during Development

    • The neural groove gradually deepens as the neural folds become elevated, and ultimately the folds meet and coalesce in the middle line and convert the groove into a closed tube, the neural tube or neural canal, the ectodermal wall of which forms the rudiment of the nervous system .
    • The edges of the neural plate start to thicken and lift upward, forming the neural folds.
    • The center of the neural plate remains grounded, allowing a U-shaped neural groove to form.
    • This neural groove sets the boundary between the right and left sides of the embryo.
    • (Neural tube is in green. )

  • Development of the Central Nervous System

    • The central nervous system (CNS) develops from a longitudinal groove on the neural plate that forms the rudimentary nervous system.
    • During early development of the vertebrate embryo, a longitudinal groove on the neural plate gradually deepens and the ridges on either side of it (the neural folds) become elevated and ultimately meet, transforming the groove into a closed tube, the ectodermal wall of which forms the rudiment of the nervous system.
    • Development of the neural tube in human embryos (Prentiss-Arey).

  • Embryonic Development of the Brain

    • Neural activity and sensory experience will mediate formation of new synapses, as well as synaptic plasticity, which will be responsible for refinement of the nascent neural circuits.
    • Neurulation is the formation of the neural tube from the ectoderm of the embryo.
    • The neural plate folds outwards to form the neural groove.
    • Beginning in the future neck region, the neural folds of this groove close to create the neural tube (this form of neurulation is called primary neurulation).
    • The hollow interior is called the neural canal.

  • Development of Nervous Tissue

    • Embryonic neural development includes the birth and differentiation of neurons from stem cell precursors.
    • As development proceeds, a fold called the neural groove appears along the midline.
    • At this point the future CNS appears as a cylindrical structure called the neural tube, whereas the future PNS appears as two strips of tissue called the neural crest, running lengthwise above the neural tube.
    • The sequence of stages from neural plate to neural tube and neural crest is known as neurulation.
    • Induction of neural tissues causes formation of neural precursor cells, called neuroblasts.

  • Development of Vision

    • The eye develops from the neural tube, the epidermis, and the periocular mesenchyme, which receives contributions from both the neural crest and mesoderm lineages.
    • First, an outpocketing of the neural tube occurs, creating optic vesicles.
    • Development of the optic vesicles starts in the three-week embryo from a progressively deepening groove in the neural plate called the optic sulcus.
    • The optic cup then delaminates into two layers: the neural retina and the retinal pigment epithelium.
    • The eyes make their appearance before the closure of the anterior end of the neural tube.

  • Fourth Week of Development

    • The fourth week of gestation is characterized by the flexion of the superior portion of the neural tube to create the mesencephalon.
    • Late in the fourth week of gestation, the superior part of the neural tube flexes at the level of the future midbrain, the mesencephalon.
    • It is located between the stomodeum and the first pharyngeal groove.

  • Spinal Cord Grey Matter and Spinal Roots

    • The cord has grooves in the dorsal and ventral sides.
    • The posterior median sulcus is the groove in the dorsal side, and the anterior median fissure is the groove in the ventral side.
    • The dorsal root ganglia develops in the embryo from neural crest cells, not the neural tube.