教育

• Postdoctoral Fellowship, Medical College of Wisconsin

• Ph.D., Medical College of Wisconsin — Cell and Developmental 生物学

• B.S., Wisconsin Lutheran College — 生物学

BACKGROUND

I became a member of the 生物学 faculty at WLC in 2022. In the interim between graduating from and returning to WLC, I ventured a few minutes north to the Medical College of Wisconsin; there I conducted graduate work studying rare pediatric genetic eye disorders and post-graduate work investigating how the formation of new blood vessels controls lung development, 老化, and regeneration. In my free time, I enjoy playing Ultimate Frisbee, singing in choir and playing my French horn at church, 园艺, 野营, 阅读, and watching science fiction and crime-solving shows.

教学

• BIO 202 - Principles of 生物学 2
• BIO 331 - Cell 生物学
• BIO 355 - Pathophysiology
• BIO 360 - Genetics
• BIO 401 - ReSearch Strategies 1
• BIO 402 - ReSearch Strategies 2
• BIO 403 - ReSearch Strategies 3
• LAS 401 - Liberal Arts Capstone

RESEARCH INTERESTS

My main interests are genetics, cell and molecular biology, and developmental biology. I am captivated by the intricate, 复杂的, beautiful design of the cell, especially our genetic makeup, and how such a tiny unit can perform so many functions and act in concert with trillions of other cells to form a living being. I am also intrigued by discerning disease processes and looking for potential therapeutic targets. I would like to generate animal or cell culture models of disease via genome editing technologies like CRISPR-Cas9 and then use the models to determine signaling mechanisms contributing to various disease phenotypes.

SCHOLARLY WORKS

• Mammoto T., Hunyenyiwa T.， P., Hendee K.马图斯，K.Rao, S.李，S. H.塔比马，D. M.纽约州切斯勒市. C., & Mammoto,. (2022). Hydrostatic pressure controls angiogenesis through endothelial YAP1 during lung regeneration. Frontiers in Bioengineering and Biotechnology, 10, 823642. PMID: 35252132.
• Hunyenyiwa T., Hendee K.马图斯，K.， P.猛犸象，T., & Mammoto,. (2021). Obesity inhibits angiogenesis through TWIST1-SLIT2 signaling. Frontiers in Cell and Developmental 生物学, 9, 693410. PMID: 34660572.
• Hendee K., Hunyenyiwa T.马图斯，K.托莱多，M.A，猛犸象., & Mammoto T. (2021). Twist1 signaling in age-dependent decline in angiogenesis and lung regeneration. Aging (Albany NY), 13(6), 7781-7799. PMID: 33764901.
• Mammoto,., Hendee K.M., & Mammoto T. (2020). Endothelial Twist1-PDGFB signaling mediates hypoxia-induced proliferation and migration of αSMA-positive cells. Scientific Reports, 10(1), 7563. PMID: 32371931.
• Mammoto T.Torisawa, Y.S.M., Hendee K.Anugwom, C., Gutterman, D., & Mammoto,. (2019). Effects of age-dependent changes in cell size on endothelial cell proliferation and senescence through YAP1. Aging (Albany NY), 11(17), 7051-7069. PMID: 31487690.
• Hendee K. E.索罗金纳，E. A.穆海森，S. S.里斯,我. M.泰勒，R. C.马尔科维奇，V.库图里洛，G.链接，B. A., & 精液,E. V. (2018). PITX2 deficiency and associated human disease: insights from the zebrafish model. Human Molecular Genetics, 27(10), 1675-1695. PMID: 29506241.
• Hendee K. E.王，L. W.里斯,我. M.大米，G. M.， Apte, S. S., & 精液,E. V. (2017). Identification and functional analysis of an ADAMTSL1 variant associated with a 复杂的 phenotype including congenital glaucoma, 颅面, and other systemic features in a three-generation human pedigree. Human Mutation, 38(11), 1485-1490. PMID: 28722276.
• 里斯,我. M.泰勒，R. C.，嗯，E., Hendee K. E., Kariminejad, A., Abdul-Rahman, O.本·奥姆兰，T.曼宁，M。. A.叶斯利尤特，A.麦卡锡，C. A.kitner, T. E.科斯塔科斯，D., & 精液,E. V. (2016). 分析 CYP1B1 in pediatric and adult glaucoma and other ocular phenotypes. Molecular Vision, 22, 1229-1238. PMID: 27777502.
• 里斯,我. M.泰勒，R. C.，嗯，E., Hendee K. E.席尔特，K. F.菲利普斯，J。. A.南卡罗来纳州塞奎拉市.A., & 精液,E. V. (2016). Whole exome sequencing identifies multiple diagnoses in congenital glaucoma with systemic anomalies. Clinical Genetics, 90(4), 378-382. PMID: 27272408.