| 31. | The neural plate will form opposite the primitive streak from ectodermal tissue which thickens and flattens into the neural plate.
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| 32. | When the neural plate begins to fold, rostral areas of the neural plate do not express Pax3 and MSX proteins.
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| 33. | The bending of the neural plate involves the formation of hinges, where the neural plate is connected to surrounding tissues.
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| 34. | Approximately half of those cells will be induced to remain ectoderm, while the other half will form the neural plate.
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| 35. | These fluctuations in mRNA and protein expression allude to how they play a role in differentiation of neural plate cells.
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| 36. | In the neural plate stage GBX2 is required in order for the anterior hindbrain precursors to survive and form correctly.
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| 37. | The bending of the neural plate involves the formation of hinges, where the neural plate is connected to surrounding tissues.
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| 38. | Low pSMAD 1, 5, 8 levels allow a greater mobility at the median hinge point than in lateral neural plate cells.
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| 39. | Additionally, cells destined to become neural plate cells express nerve cell adhesion molecule ( NCAM ) to further neural plate cohesion.
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| 40. | Additionally, cells destined to become neural plate cells express nerve cell adhesion molecule ( NCAM ) to further neural plate cohesion.
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