Alicia Howard, Ph.D.
教练
![Alicia Howard, Ph.D.](../../_imgs/_imgs-chem-biochem/alicia-howard.jpg)
Contact 信息
- Office Location: Bonilla Science Hall 104
- Phone Number: (210) 890-5335
- 电子邮件: alhowar1@uiwtx.edu
Texas Tech University:
- Doctor of Philosophy Chemistry 2016
- Master of Science Chemistry 2011
- Bachelor of Arts Psychology 2007
The University of the Incarnate Word:
- 教练 2021 - Present
- Coordinator for Introductory Chemistry and Biological Chemistry for Health Professionals II. Designed and implemented coursework for Nursing Majors and First-Year students
- Adjunct Professor 2018 - 2021
- Lectured curriculum and administered coursework in chemistry related subjects, including Introductory Chemistry, Biological Chemistry for Health Professionals II lecture and lab, 有机实验室, and Chemical Principles I & 2实验室
- Biological Chemistry for Health Professionals II
- Chemical Principles I Lab
- Chemical Principles II Lab
- Introductory Chemistry
- Chemistry Scholars Seminar
- Biological Chemistry for Health Professionals II Lab
- Biochemistry I Lab
- First-Year Experience
- Organic Chemistry I lab
- Organic Chemistry 2实验室
- General Chemistry I
Currently implementing a CUREs curriculum to increase student interest in STEM for 校本's upper level
Biochemistry I Lab over the Malate Dehydrogenase (MDH) enzyme. MDH is a vital enzyme in the citric acid cycle that is responsible for the reversible oxidation of malate to oxaloacetate from the reduction of NAD+ to NADH. The goal of this research is to elaborate on the existing kinetic parameters of MDH in humans by examining the inhibitory effects of applying changes to the physiological conditions.
Biochemistry I Lab over the Malate Dehydrogenase (MDH) enzyme. MDH is a vital enzyme in the citric acid cycle that is responsible for the reversible oxidation of malate to oxaloacetate from the reduction of NAD+ to NADH. The goal of this research is to elaborate on the existing kinetic parameters of MDH in humans by examining the inhibitory effects of applying changes to the physiological conditions.
- 霍华德,.刘杰.Elmegeed, G.A.柯林斯,E.K.C.A.,和Nes, W.D. 甾醇C24 -
Methyltransferase: Physio- and stereo- chemical features of the sterol C3 group required for catalytic
competence, Arch Biochem Biophys. 521, 43-50. 2012. - Haubrich B.A.柯林斯,E.K.霍华德·A.L.王强., Snell, W.J.米勒,M.B.托马斯·C.D.愉快的;愉快的.K.,和Nes, W.D. Characterization, Mutagenesis and Mechanistic Analysis of an Ancient Algal 甾醇C24 - Methyltransferase: Implications for Understanding Sterol Evolution in the Green Lineage, 植物化学. 113, 64-72. 2015.
- Presented research over the 甾醇C24 -Methyltransferase Enzyme at AOCS national convention, 2010.