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How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What...

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Page 1: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 2: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 3: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

How do morphogen concentration gradients achieve in making the cerebral cortex as we know it?

What cellular responses are solely responsible by morphogen gradients?(Eliminate other possibilities such as cell-cell contact)

Page 4: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

Holoprosencephly is a disorder characterized by the failure in development of the forebrain. In the patient’s case, the choroid plexus (secretes cerebral spinal fluid) expands and the hippocampus (consolidate long term memory) becomes smaller.

Page 5: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 6: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 7: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 8: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 9: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 10: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

Cell Type and Shape BMP4 Gradient

Dead Cells Live Cells

Page 11: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 12: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 13: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 14: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

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Page 15: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 16: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

Histone-GFP mNSCs show chromatin condensation, followed a few hours later by cell membrane breakdown and PI colabeling of chromatin.

Page 17: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 18: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

Control Chamber - Gradient Profile

Gradient Chambers - Gradient Profile

Page 19: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.
Page 20: How do morphogen concentration gradients achieve in making the cerebral cortex as we know it? What cellular responses are solely responsible by morphogen.

This project is supported by IM-SURE.

The PIs for this project are Dr. Edwin S. Monuki and Professor Noo Li Jeon.

Extra thanks to Jia Sheng Hu for designing the experiment and mentoring my work.

Microfluidic design accredits to Bonggeun Chung.

Thanks for the support from everyone in Jeon’s Lab.

Much appreciated Said’s effort.


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