Matching Items (9)
DescriptionFeatures projects advancing women of color in the tech field.
ContributorsArizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2020-20-21
Description
Features projects advancing women of color in the tech field.
ContributorsArizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2020
Description
Features projects advancing women of color in the tech field.
ContributorsArizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2021
Description
Features projects advancing women of color in the tech field.
ContributorsArizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2021
Description
Features projects advancing women of color in the tech field.
ContributorsArizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2021
Description
Features projects advancing women of color in the tech field.
ContributorsArizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2021
DescriptionProvides results of a national study of digital technology use among African American teens and their parents.
ContributorsRideout, Victoria J. (Author) / Scott, Kimberley A., Ed.D. (Author) / Clark, Kevin A., Ph.D. (Author) / Arizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2016
DescriptionProvides results of a study that examined the effects of a girl-centered culturally responsive educational program on self-concept.
ContributorsTao, Chun, M.S. (Author) / Scott, Kimberly Ann, 1969- (Contributor) / Arizona State University. Center for Gender Equity in Science and Technology (Contributor)
Created2017 (year uncertain)
Description
Glioblastoma multiforme is associated with a very low survival rate and is recognized as the most vicious form of intracranial cancer. The Akt gene pathway has three different isoforms, each of which has a different role in the tumors of GBM. Preliminary data suggests that Akt3 may work to decrease tumorigenicity. A produced image that visualizes the subcellular localization of Akt3 led the author to believe that Akt3 may reduce tumorigenicity by decreasing genomic instability caused by the cancer. To explore this, flow cytometry was performed on GBM cell lines with Akt3v1 over-expression, Akt3v2 over-expression, and a control glioma cell line.
ContributorsGhorayeb, Antoine (Author) / Neisewander, Janet (Thesis director) / Diehnelt, Chris (Committee member) / Moussallem, Suzan (Committee member) / Barrett, The Honors College (Contributor) / College of Liberal Arts and Sciences (Contributor)
Created2012-12