Difference between revisions of "ANAT2341 Lab 8"

From Embryology
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==Skin Development and Regeneration==
 
==Skin Development and Regeneration==
  
1. QUIZ
 
  
2. Dr. Annemiek Beverdam (UNSW) - "Stem cell regulation in normal skin regeneration and in skin disease"
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== 1. QUIZ ==
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 +
 
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== 2. Dr. Annemiek Beverdam (UNSW) - "Stem cell regulation in normal skin regeneration and in skin disease" ==
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[[File:Annemiek Beverdam profile photo.jpeg]]
 
[[File:Annemiek Beverdam profile photo.jpeg]]
  
 
Dr. Annemiek Beverdam studies the genetic processes that govern development, homeostasis and regeneration of the skin in the mouse. Her research aims at understanding the genetic and molecular basis of developmental and human regenerative skin diseases such as skin cancer, which affects 2 out of 3 Australians in their life time. Her lab recently made the pivotal discoveries that Yes-associated protein (YAP) functions acts as a key molecular switch in epidermal stem/progenitor cell proliferation and differentiation [https://www.ncbi.nlm.nih.gov/pubmed/23190885] by driving β-Catenin Activation [https://www.ncbi.nlm.nih.gov/pubmed/27816394]. Dr. Beverdam currently investigates the developmental genetic context in which YAP functions to control skin stem/progenitor cells in normal and in disrupted skin biology. She employs genetically manipulated mouse models, human skin samples, advanced imaging technology such as confocal microscopy and whole mouse in vivo imaging, gene and protein expression analyses and whole genome approaches to address her research questions. Her research will open up exciting new avenues for translational research and the development of treatments for human regenerative skin disease such as skin cancer and eczema.
 
Dr. Annemiek Beverdam studies the genetic processes that govern development, homeostasis and regeneration of the skin in the mouse. Her research aims at understanding the genetic and molecular basis of developmental and human regenerative skin diseases such as skin cancer, which affects 2 out of 3 Australians in their life time. Her lab recently made the pivotal discoveries that Yes-associated protein (YAP) functions acts as a key molecular switch in epidermal stem/progenitor cell proliferation and differentiation [https://www.ncbi.nlm.nih.gov/pubmed/23190885] by driving β-Catenin Activation [https://www.ncbi.nlm.nih.gov/pubmed/27816394]. Dr. Beverdam currently investigates the developmental genetic context in which YAP functions to control skin stem/progenitor cells in normal and in disrupted skin biology. She employs genetically manipulated mouse models, human skin samples, advanced imaging technology such as confocal microscopy and whole mouse in vivo imaging, gene and protein expression analyses and whole genome approaches to address her research questions. Her research will open up exciting new avenues for translational research and the development of treatments for human regenerative skin disease such as skin cancer and eczema.

Revision as of 13:07, 13 December 2016

Skin Development and Regeneration

1. QUIZ

2. Dr. Annemiek Beverdam (UNSW) - "Stem cell regulation in normal skin regeneration and in skin disease"

Annemiek Beverdam profile photo.jpeg

Dr. Annemiek Beverdam studies the genetic processes that govern development, homeostasis and regeneration of the skin in the mouse. Her research aims at understanding the genetic and molecular basis of developmental and human regenerative skin diseases such as skin cancer, which affects 2 out of 3 Australians in their life time. Her lab recently made the pivotal discoveries that Yes-associated protein (YAP) functions acts as a key molecular switch in epidermal stem/progenitor cell proliferation and differentiation [1] by driving β-Catenin Activation [2]. Dr. Beverdam currently investigates the developmental genetic context in which YAP functions to control skin stem/progenitor cells in normal and in disrupted skin biology. She employs genetically manipulated mouse models, human skin samples, advanced imaging technology such as confocal microscopy and whole mouse in vivo imaging, gene and protein expression analyses and whole genome approaches to address her research questions. Her research will open up exciting new avenues for translational research and the development of treatments for human regenerative skin disease such as skin cancer and eczema.