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cell patch clamp recordings  (World Precision Instruments)


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    World Precision Instruments cell patch clamp recordings
    A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole <t>cell</t> <t>patch</t> <t>clamp</t> <t>recordings,</t> antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).
    Cell Patch Clamp Recordings, supplied by World Precision Instruments, used in various techniques. Bioz Stars score: 96/100, based on 1349 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/cell patch clamp recordings/product/World Precision Instruments
    Average 96 stars, based on 1349 article reviews
    cell patch clamp recordings - by Bioz Stars, 2026-06
    96/100 stars

    Images

    1) Product Images from "Sensory-motor integration in a nonspiking interneuron contributes to active sensor control in Drosophila"

    Article Title: Sensory-motor integration in a nonspiking interneuron contributes to active sensor control in Drosophila

    Journal: bioRxiv

    doi: 10.64898/2026.04.16.718965

    A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole cell patch clamp recordings, antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).
    Figure Legend Snippet: A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole cell patch clamp recordings, antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).

    Techniques Used: Expressing, Labeling, Patch Clamp, Activity Assay, Membrane



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    A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole <t>cell</t> <t>patch</t> <t>clamp</t> <t>recordings,</t> antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).
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    A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole <t>cell</t> <t>patch</t> <t>clamp</t> <t>recordings,</t> antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).
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    Image Search Results


    A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole cell patch clamp recordings, antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).

    Journal: bioRxiv

    Article Title: Sensory-motor integration in a nonspiking interneuron contributes to active sensor control in Drosophila

    doi: 10.64898/2026.04.16.718965

    Figure Lengend Snippet: A) Schematic depicting JONs projecting through the antennal nerve and synapsing onto APN2 cells (gold dashed box) in the ipsilateral hemisphere of the central brain. Inset shows expression pattern of the genetic driver line labeling APN2 ( 24C06-GAL4) . Scale bar is 20 µm. B) During whole cell patch clamp recordings, antennal movements were recorded by a lateral camera and flight activity was monitored using an optical wingbeat detector. C) Example video frame with 2 tracked points and the relative direction of antenna angle deflections. Deflections down towards the head are represented as negative values, and deflections up and away from the head as positive values. D) Example single-trial traces showing antennal and APN2 activity during quiescence (left) and flight (right). Wing movement was detected using an infrared light sensor. E) Each dot is the average response of one APN2 cell. Black bars indicate the average across APN2 cells for each condition, with respective SEM error bars. Grey dashed lines pair measurements from the same cell during flight and quiescence. Across flies, the average APN2 membrane potential is reduced during bouts of flight compared to quiescence, both when the antennae are free (paired t-test; p = 0.037) and when the antennae are glued (Wilcoxon Signed-Rank Test; p = 0.014).

    Article Snippet: We used 6-11 MΩ thick-walled glass pipettes (Item #1B150F-3, World Precision Instruments) for whole cell patch clamp recordings, which we pulled using a Sutter P-1000 puller.

    Techniques: Expressing, Labeling, Patch Clamp, Activity Assay, Membrane