M. Hunt, "Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations," BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION , vol.84, pp.35-47, 2018
Hunt, M. 2018. Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations. BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION , vol.84 , 35-47.
Hunt, M., (2018). Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations. BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION , vol.84, 35-47.
Hunt, Melis. "Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations," BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION , vol.84, 35-47, 2018
Hunt, Melis. "Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations." BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION , vol.84, pp.35-47, 2018
Hunt, M. (2018) . "Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations." BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION , vol.84, pp.35-47.
@article{article, author={Melis Hunt}, title={Nano-Mechanical Tensile Behavior of the SPTA1 Gene in the Presence of Hereditary Hemolytic Anemia-Related Point Mutations}, journal={BIOMEDICAL TECHNOLOGY: MODELING, EXPERIMENTS AND SIMULATION}, year=2018, pages={35-47} }