the early, tube-like anlage of the brain and spinal cord formed by closure of the neural groove.
the tube located along the back of an embryo that later develops into the spinal cord and brain
The tubular structure, formed by the fusion of the edges of the neural plate, from which the central nervous system (forebrain, midbrain, hindbrain, and spinal cord) develops.
The structure from which the nervous system developpes. While still in the womb, it bonds to the skeleton, and becomes part of a bone.
the tube formed during embryogenesis from ectoderm that is the rudiment of the brain and spinal cord.
An early stage in the development of the vertebrate nervous system consisting of a hollow tube created by two opposing folds of the dorsal ectoderm along the anterior-posterior body axis.
A hollow tube in vertebrate embryos which changes and eventually forms the brain and spinal cord.
neural plate region of ectoderm pinched off to form hollow ectodermal tube above notochord in mesoderm. (More? Neural Notes)
A groove in a fetus that develops into the brain, spinal cord, spinal nerves and backbone
the structure that develops into the brain and spinal cord of a fetus during pregnancy.
a tube of ectodermal tissue in the embryo from which the brain and spinal cord develop
Related Topic"...It gives rise to the brain, spinal cord, and other parts of the central nervous system..."
NEUR-el TOOB Embryonic precursor of the central nervous system. 226, 620
the tissue from which the spinal cord and brain develop in the embryo.
Tube filled with CSF formed when the lips of the neural groove fuse. Develops into the CNS.
Hollow tube formed by closing of the neural plate, which forms the nervous system.
A tube of ectoderm in the embryo that will form the spinal cord.
in the early stages of the development of the brain in the embryo, a tubular structure derived from the outer layer of cells of the embryo and from which the brain and spinal cord develop.
neuralis - nerve]. A tube of tissue formed by a thickening and rolling up of the neural plate during embryonic neurulation. It will later form the brain and spinal cord of the animal.
Embryological structure which gives rise to the brain and spinal cord.
the part of the embryo that develops into the brain and spinal cord
Origin of a baby's entire brain and spinal cord, which forms during the fourth week after conception. First, the neural plate elongates into a neural groove. Then the groove zippers shut in two directions, beginning in the middle of the embryo and progressing both towards the head and towards the "tail" end of the embryo.
A tubular structure formed by fission of the neural groove from overlying ectoderm. The brain and spinal cord develop from neural tube.
A structure in early fetal life that develops into the brain, spinal cord, spinal nerves and spine.
The tube of tissue that lies along the central axis of the early embryo. It gives rise to the brain, spinal cord, and other parts of the central nervous system.
The tubular embryonic tissue from which the brain and spinal cord develop. Very serious congenital defects result from failure of this tube to close during the process of growth and differentiation.
In the developing vertebrate nervous system, the neural tube is the precursor of the central nervous system, which comprises the brain and spinal cord. 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 (which strictly speaking is the center of the neural tube), the ectodermal wall of which forms the rudiment of the nervous system.