Robert Stewart scite author profile

Difficulties associated with in vitro manipulation and culture of the early chicken embryo have restricted generation of transgenic chickens to approaches that use replication-competent retroviruses. The need to produce transgenic chickens in the absence of replicating virus prompted development of a new method of gene transfer into the chicken. Microinjection of the replication-defective reticuloendotheliosis virus (REV) vector ME111 beneath unincubated chicken embryo blastoderms results in infection of germline stem cells. This vector contains genetic information exogenous to the chicken genome, including both the herpes simplex virus type 1 thymidine kinase gene and the Tn5 neomycin phosphotransferase gene. About 8 percent of male birds hatched from injected embryos contained vector DNA in their semen. All four positive males tested passed vector sequences onto their progeny. Analysis of G1 offspring showed that gonads of G0 male birds were mosaic with respect to insertion of vector provirus. Thus, primordial germ cells present in the unincubated chicken embryo blastoderm are susceptible to infection by defective REV vectors.

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Optical measurement of voltage sensing by endogenous ion channels

Thapa

Stewart

Sepela

et al. 2019

Preprint

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1A primary goal of molecular physiology is to understand how conformational changes of 2 proteins affect the function of cells, tissues, and organisms. Here, we describe an imaging 3 method for measuring the conformational changes of a voltage-sensing protein within tissue. We 4 synthesized a fluorescent molecular probe, compatible with two-photon microscopy, that targets 5 a resting conformation of Kv2-type voltage gated K + channel proteins. Voltage-response 6 characteristics were used to calibrate a statistical thermodynamic model relating probe labeling 7 intensity to the conformations adopted by unlabeled Kv2 proteins. Two-photon imaging of rat 8 brain slices labeled with the probe revealed fluorescence consistent with conformation-selective 9 labeling of endogenous neuronal Kv2 proteins. In principle, this method of quantifying 10 endogenous protein conformational change from fluorescence images is generalizable to other 11 proteins labeled with conformation-selective probes. 12

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Firing of Hippocampal Neurogliaform Cells Induces Suppression of Synaptic Inhibition

Stewart

Canepari

et al. 2014

J. Neurosci.

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EVAP: A two-photon imaging tool to study conformational changes in endogenous Kv2 channels in live tissues

Thapa

Stewart

Sepela

et al. 2021

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A primary goal of molecular physiology is to understand how conformational changes of proteins affect the function of cells, tissues, and organisms. Here, we describe an imaging method for measuring the conformational changes of the voltage sensors of endogenous ion channel proteins within live tissue, without genetic modification. We synthesized GxTX-594, a variant of the peptidyl tarantula toxin guangxitoxin-1E, conjugated to a fluorophore optimal for two-photon excitation imaging through light-scattering tissue. We term this tool EVAP (Endogenous Voltage-sensor Activity Probe). GxTX-594 targets the voltage sensors of Kv2 proteins, which form potassium channels and plasma membrane–endoplasmic reticulum junctions. GxTX-594 dynamically labels Kv2 proteins on cell surfaces in response to voltage stimulation. To interpret dynamic changes in fluorescence intensity, we developed a statistical thermodynamic model that relates the conformational changes of Kv2 voltage sensors to degree of labeling. We used two-photon excitation imaging of rat brain slices to image Kv2 proteins in neurons. We found puncta of GxTX-594 on hippocampal CA1 neurons that responded to voltage stimulation and retain a voltage response roughly similar to heterologously expressed Kv2.1 protein. Our findings show that EVAP imaging methods enable the identification of conformational changes of endogenous Kv2 voltage sensors in tissue.

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Robert Stewart

Germline Transmission of Exogenous Genes in the Chicken

Optical measurement of voltage sensing by endogenous ion channels

Firing of Hippocampal Neurogliaform Cells Induces Suppression of Synaptic Inhibition

EVAP: A two-photon imaging tool to study conformational changes in endogenous Kv2 channels in live tissues

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