| 41. | Signaling proteins are also important in neural plate development, and aid in differentiating the tissue destined to become the neural plate.
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| 42. | The communication between the neural plate and the notochord is important for the future induction and formation of the neural tube.
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| 43. | Signaling proteins are also important in neural plate development, and aid in differentiating the tissue destined to become the neural plate.
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| 44. | The first signs of neurulation are flattening and thickening of the ectoderm overlying the notochord; this thickened area forms a neural plate.
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| 45. | The absence of BMP4 will cause the patterning of the neural tube and somites from the neural plate in the developing embryo.
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| 46. | Research on the neural plate began in earnest by looking into the determination of the ectoderm and its commitment to the neuronal path.
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| 47. | Some of the notochodral cells become incorporated into the center section neural plate to later form the floor plate of the neural tube.
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| 48. | This flexibility allows for the pivoting and hinging that allows the buckling and lifting of the neural plate when formatting the neural tube.
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| 49. | The inward folding of the ectoderm by virtue of mainly cell division continues until another group of cells form within the neural plate.
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| 50. | After the neural plate has folded to form the notochord _ a primitive spinal column _ it produces a structure called the neural crest.
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