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University of Nebraska - Lincoln
Department of Chemical and Biomolecular Engineering: Faculty Publications
Articles 1 - 2 of 2
Full-Text Articles in Cell and Developmental Biology
Astrogliosis In A Dish: Substrate Stiffness Induces Astrogliosis In Primary Rat Astrocytes, Christina L. Wilson, Stephen L. Hayward, Srivatsan Kidambi
Astrogliosis In A Dish: Substrate Stiffness Induces Astrogliosis In Primary Rat Astrocytes, Christina L. Wilson, Stephen L. Hayward, Srivatsan Kidambi
Department of Chemical and Biomolecular Engineering: Faculty Publications
Astrogliosis due to brain injury or disease can lead to varying molecular and morphological changes in astrocytes. Magnetic resonance elastography and ultrasound have demonstrated that brain stiffness varies with age and disease state. However, there is a lack in understanding the role of varied stiffness on the progression of astrogliosis highlighting a critical need to engineer in vitro models that mimic disease stages. Such models need to incorporate the dynamic changes in the brain microenvironment including the stiffness changes. In this study we developed a polydimethyl siloxane (PDMS) based platform that modeled the physiologically relevant stiffness of brain in both …
Noninvasive Measurement Of Electrical Events Associated With A Single Chlorovirus Infection Of A Microalgal Cell, Seung-Woo Lee, Eun-Hee Lee, Gerhard Thiel, James L. Van Etten, Ravi Saraf
Noninvasive Measurement Of Electrical Events Associated With A Single Chlorovirus Infection Of A Microalgal Cell, Seung-Woo Lee, Eun-Hee Lee, Gerhard Thiel, James L. Van Etten, Ravi Saraf
Department of Chemical and Biomolecular Engineering: Faculty Publications
Chlorovirus Paramecium bursaria chlorella virus 1 (PBCV-1) contains a viral-encoded K+ channel imbedded in its internal membrane, which triggers host plasma membrane depolarization during virus infection. This early stage of infection was monitored at high resolution by recording the cell membrane depolarization of a single Chlorella cell during infection by a single PBCV-1 particle. The measurement was achieved by depositing the cells onto a network of one-dimensional necklaces of Au nanoparticles, which spanned two electrodes 70 μm apart. The nanoparticle necklace array has been shown to behave as a single-electron device at room temperature. The resulting electrochemical field-effect transistor …