Using FRAP Imaging Settings

FRAP Imaging Settings are used with either the FRAP Benchtop Rock Imager or Rock Imager 1000 with a FRAP imaging method option. There are several tabs and fields on the FRAP imaging setting configuration page. Most of the options related to FRAP appear only after you select FRAP from the Imaging Mode. This topic explains what the various tabs and fields are and how to manipulate them.

FRAP Configurations

 

Optics Controls

Optics Control Description
Condenser The Condenser setting indicates the position of the condenser, expressed as the percentage at which the condenser's iris is closed. The condenser collects light from the Kohler light source and concentrates it onto the well being imaged. Values range from 0-100%. At 0%, the iris is fully open, and the cone of light is concentrated at a wide angle. At 100%, the iris is closed, and the light is concentrated in a column, rather than a cone.

Hint: Higher condenser values provide greater shadowing around crystals and precipitates in the drop, thereby making them easier to see in the captured image.
Polarizer The Polarizer setting indicates the angle, from 0 to 360 degrees, of the polarizer lens through which the light source is projected. A proper polarizer setting can help generate sufficient contrast in the captured image.
Fluoro Light Changing this value affects the fluorescence signal intensity. 100% is the most intense.

Note: Optics Controls are disabled if you select FRAP imaging mode.

Imaging Modes

Mode Description
Default Selecting Default instructs the imager to capture images with visible light.  You can then configure basic camera control settings, such as exposure, gain, and resolution.
Fluorescence (Cy3) Selecting this method images drops with fluorescent light.
FRAP FRAP imaging method options include Full Recovery and High Throughput.

 

FRAP Mode

The FRAP mode determines what the imager does post-bleaching. You can select one of two available modes (Full Recovery and High Throughput). Use Full Recovery if you are interested in a certain drop. Full Recovery will provide many more images over a shorter period of time, and requires more time. Use High Throughput when inspecting plates for the first time for faster imaging.

 

FRAP Configurations

Once you select FRAP as the Imaging Mode and a FRAP Mode (Full Recovery or High Throughput), you can define various other settings. Most of these settings we explain below show up for both FRAP Full Recovery and High Throughput modes.

 

Bleaching Tab

On the Bleaching tab, you set options related to the laser, which is what bleaches the drop during FRAP imaging.

 

Bleach Option Description
Pulse Laser for The amount of time the laser is focused on the drop to bleach the fluorophores.
Drop area to include in Random Bleach Position A bleach position is randomly chosen in the specified area. One or two different bleaching spots can be chosen; near the center of the drop or near the edge of the drop. Concentric rings define the boundary of the area in which a spot is chosen. If 25% area for Edge is specified, then a bleach spot will be performed on the outer 25% area of the drop, whereas the area for the center is defined from the center out.
Bleach Position Locator The Bleach Position Locator is used to help the imager find areas within the LCP drop that are strong candidates for bleaching. Underexposed or overexposed areas within the drop will be ignored based on the values set with the sliders. Zero is black, and 255 is white. With the default settings, the imager will identify all areas within a drop that fall within the 80-255 pixel intensity range and use these areas as bleach spots.
  • Underexposed Threshold
    This setting is the minimum pixel intensity used to identify a potential bleach spot area. The default value is 80. Rock Imager will try to find an area in which all pixels have an intensity between the underexposed and overexposed thresholds. If an area contains a value lower than the underexposed threshold, it is considered an invalid area. If no valid areas are identified, Rock Imager will reduce the underexposed threshold by half and try again. If it still can't locate a valid area, then what happens next depends on the imaging setting. If you have selected an Edge imaging setting, the well will not be bleached. If you selected the Center imaging setting, the well will be bleached at the center of the drop.

  • Overexposed Threshold
    This setting is the maximum pixel intensity used to identify a potential bleaching spot. The default overexposed threshold is 255, which is pure white. Like in the underexposed threshold, any area containing a value higher than the overexposed threshold is considered an invalid area. With the default settings, the imager will identify all areas within a drop that fall within the 80-255 pixel intensity range and use these areas as bleach spots. No bleach spots detected? The Rock Imager will bleach depends on the imaging setting. If you have selected an Edge imaging setting, the well will not be bleached. If you selected the Center imaging setting, the well will be bleached at the center of the drop.

 

Post-Bleach Tab

Select the Full Recovery FRAP post-bleach Options (or HT-FRAP Post-bleach Options if High Throughput FRAP mode selected) to configure options related to what the imager does after the laser bleaches your drop.

 

Post-Bleach Option Description
Acquire images at fastest rate for (Full Recovery only) This setting defines how long, in seconds, the imager will take rapid pictures of your drop after laser bleaching is complete.
Interval The number of intervals (in seconds) that will be used when taking additional images after the initial imaging process is complete.
Post-bleach imaging time The number of seconds post-bleach imaging will take given the settings you configured on this tab.
Time to wait before taking end-state images (High Throughput Only) The delay time (in seconds) before FRAP captures images of your drops after the bleaching process is complete.

 

Imaging Tab

The Imaging tab is where you configure optics and camera settings for your FRAP images.

The imaging tab is divided into 3 areas: Imaging Options, Focusing Options, and Bright Field Focusing.

Section Field Description
Imaging Options Fluorescence Illumination The Fluorescence Illumination is the florescent light source. Changing this value affects the fluorescence signal intensity. 100% is the most intense.
Gamma This field affects the contrast of the midtones in the image.
Exposure The Exposure field populates with the amount of time in milliseconds that the camera's shutter remains open when capturing an image, which determines the amount of light allowed to fall on the camera's sensor affecting the image's brightness.
Gain The gain setting is used to amplify signal strength in low-light conditions, increase the sensitivity and make the image brighter.
Focusing Option Auto focus Condenser The Condenser collects light from the Kohler light source and concentrates it onto the well being examined. Values range from 0 - 100%. At 0%, the iris is fully open, and a cone of light is concentrated at a wide angle. At 100%, the iris is closed, and the light is concentrated in a column of light as opposed to a cone.

Adjusting the condenser value can improve image contrast. Increasing the condenser angle increases the contrast.
Bright Field Focusing Bright Field This value sets the brightness level of the bright-field illumination source that passes through the drop from below. At 0%, the light is turned off, and at 100% the light is at maximum brightness. With bright-field illumination, light is passed through the specimen under the microscope so that the specimen appears dark against a bright background.
Gamma See "Gamma" in the Imaging Options area.
Exposure See "Exposure" in the Imaging Options area.
Gain See "Gain" in the Imaging Options area.

 

General Tab (Full Recovery only)

The General Settings area provides Curve Fitting Options which apply to the curve FRAP generates based on the pictures taking during the FRAP process.

You can choose one of two component fittings, Single Component Fitting or Double Component Fitting.

Fitting Description
Single Component Fitting Selecting this option fits the pixel intensity recovery data with one Bessel function. The result of this numerical fitting is a single diffusion rate. This method is accurate enough for most applications, if protein molecules are labeled with dye.
Double Component Fitting Selecting this option fits the pixel intensity recovery data with two Bessel functions. The result of this numerical fit is two distinct diffusion rates. This method is useful if the protein is not purified well. Some small molecule lipids are labeled with dye, which generate the two distinct diffusion rates: diffusion rate of lipid and diffusion rate of protein.

 

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