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Charged Pore-Lining Residues Are Required For Normal Channel Kinetics In The Eukaryotic Mechanosensitive Ion Channel Msl1, Angela M. Schlegel, Elizabeth S. Haswell
Charged Pore-Lining Residues Are Required For Normal Channel Kinetics In The Eukaryotic Mechanosensitive Ion Channel Msl1, Angela M. Schlegel, Elizabeth S. Haswell
Biology Faculty Publications & Presentations
Mechanosensitive (MS) ion channels are widespread mechanisms for cellular mechanosensation that can be directly activated by increasing membrane tension. The well-studied MscS family of MS ion channels is found in bacteria, archaea, and plants. MscS-Like (MSL)1 is localized to the inner mitochondrial membrane of Arabidopsis thaliana, where it is required for normal mitochondrial responses to oxidative stress. Like Escherichia coli MscS, MSL1 has a pore-lining helix that is kinked. However, in MSL1 this kink is comprised of two charged pore-lining residues, R326 and D327. Using single-channel patch-clamp electrophysiology in E. coli, we show that altering the size and …
Structural Mechanism For Gating Of A Eukaryoticmechanosensitive Channel Of Small Conductance, Zengqin Deng, Grigory Maksaev, Angela M. Schlegel, Jingying Zhang, Michael Rau, James A.J. Fitzpatrick, Elizabeth S. Haswell, Peng Yuan
Structural Mechanism For Gating Of A Eukaryoticmechanosensitive Channel Of Small Conductance, Zengqin Deng, Grigory Maksaev, Angela M. Schlegel, Jingying Zhang, Michael Rau, James A.J. Fitzpatrick, Elizabeth S. Haswell, Peng Yuan
Biology Faculty Publications & Presentations
Mechanosensitive ion channels transduce physical force into electrochemical signaling that underlies an array of fundamental physiological processes, including hearing, touch, proprioception, osmoregulation, and morphogenesis. The mechanosensitive channels of small conductance (MscS) constitute a remarkably diverse superfamily of channels critical for management of osmotic pressure. Here, we present cryo-electron microscopy structures of a MscS homolog from Arabidopsis thaliana, MSL1, presumably in both the closed and open states. The heptameric MSL1 channel contains an unusual bowl-shaped transmembrane region, which is reminiscent of the evolutionarily and architecturally unrelated mechanosensitive Piezo channels. Upon channel opening, the curved transmembrane domain of MSL1 flattens and expands. …
The Mechanosensitive Ion Channel Msl10 Potentiates Responses To Cell Swelling In Arabidopsis Seedlings, Debarati Basu, Elizabeth S. Haswell
The Mechanosensitive Ion Channel Msl10 Potentiates Responses To Cell Swelling In Arabidopsis Seedlings, Debarati Basu, Elizabeth S. Haswell
Biology Faculty Publications & Presentations
The ability to respond to unanticipated increases in volume is a fundamental property of cells, essential for cellular integrity in the face of osmotic challenges. Plants must manage cell swelling during flooding, rehydration, and pathogen invasion-but little is known about the mechanisms by which this occurs. It has been proposed that plant cells could sense and respond to cell swelling through the action of mechanosensitive ion channels. Here, we characterize a new assay to study the effects of cell swelling on Arabidopsis thaliana seedlings and to test the contributions of the mechanosensitive ion channel MscS-like10 (MSL10). The assay incorporates both …
Plant Biomechanics: No Pain, No Gain For Birch Tree Stems, A. M. Schlegel, E. S. Haswell
Plant Biomechanics: No Pain, No Gain For Birch Tree Stems, A. M. Schlegel, E. S. Haswell
Biology Faculty Publications & Presentations
Allometric relationships between organism size and shape are often described in developmental or evolutionary terms. A new study characterizes a collapsing birch tree mutant and provides a genetic entry point into the biomechanical control of tree allometry.