561 633 brightline quad band bandpass filter

Manufactured by IDEX Corporation

Sourced in United States

The 405/488/561/633 BrightLine quad-band bandpass filter is a multi-band optical filter designed to transmit specific wavelengths of light. It is capable of isolating four distinct wavelengths: 405 nm, 488 nm, 561 nm, and 633 nm. The filter provides high transmission efficiency and excellent out-of-band blocking, making it suitable for use in various laboratory and research applications.

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Lab products found in correlation

Prime 95b, by Teledyne (3 mentions) Nis element, by Nikon (3 mentions) N storm module, by Nikon (2 mentions) Stage top incubator, by Tokai Hit (2 mentions) Ff01 446 523 600 677 25, by IDEX Corporation (1 mentions) Ti microscope, by Nikon (1 mentions)

Close spelling variants of this product

BrightLine bandpass filter BrightLine

3 protocols using 561 633 brightline quad band bandpass filter

Single-Molecule Imaging Microscopy Setup

Check if the same lab product or an alternative is used in the 5 most similar protocols

Single-molecule imaging experiments were conducted on a custom-built Nikon Ti microscope. The microscope is equipped with a ×100 Oil-immersion objective lens (N.A. = 1.49), a multi-band dichroic (405/488/561/633 BrightLine quad-band bandpass filter, Semrock, USA) and a piezo z-stage (ASI, USA), a filter wheel (Sutter Instrument, USA) and a stage top incubator (Tokai Hit, Japan). The lasers were focused into the back pupil plane of the objective to generate wide-field illumination. A Nikon N-STORM module was used steer the incidence angle of the laser for generating inclined illumination. The emission was collected by the same objective passing through an emission filter (617/73, Semrock) in front of sCMOS camera (Prime 95B, Teledyne Photometrics). The microscope, lasers and the camera were controlled through NIS-Elements (Nikon, USA).

Sun Y., Baechler S.A., Zhang X., Kumar S., Factor V.M., Arakawa Y., Chau C.H., Okamoto K., Parikh A., Walker B., Su Y.P., Chen J., Ting T., Huang S.Y., Beck E., Itkin Z., McKnight C., Xie C., Roper N., Nijhawan D., Figg W.D., Meltzer P.S., Yang J.C., Thomas C.J, & Pommier Y. (2023). Targeting neddylation sensitizes colorectal cancer to topoisomerase I inhibitors by inactivating the DCAF13-CRL4 ubiquitin ligase complex. Nature Communications, 14, 3762.

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Single-Molecule Imaging Microscopy Protocol

Check if the same lab product or an alternative is used in the 5 most similar protocols

Single-molecule
imaging experiments were conducted on a custom-built Nikon Ti microscope
coupled with a 100× oil-immersion objective lens (NA = 1.49),
a multiband dichroic (405/488/561/633 BrightLine quad-band bandpass
filter, Semrock, USA), and a piezo z-stage (ASI, USA). The lasers
were focused into the back pupil plane of the objective to generate
wide-field illumination. A Nikon N-STORM module was used to control
the angle of the laser beam for generating inclined illumination.
The emission was collected by the same objective passing through a
quadband bandpass emission filter (FF01-446/523/600/677-25, Semrock,
USA) in front of an sCMOS camera (Prime 95B, Teledyne Photometrics).
The microscope, lasers, and the camera were controlled through NIS-Elements
(Nikon, USA). A 488 nm laser was used excite the QDs.

Gorshkov K., Susumu K., Chen J., Xu M., Pradhan M., Zhu W., Hu X., Breger J.C., Wolak M, & Oh E. (2020). Quantum Dot-Conjugated SARS-CoV-2 Spike Pseudo-Virions Enable Tracking of Angiotensin Converting Enzyme 2 Binding and Endocytosis. ACS Nano, 14(9), 12234-12247.

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Single-Molecule Imaging Microscopy Setup

Check if the same lab product or an alternative is used in the 5 most similar protocols

Single-molecule imaging experiments were conducted on a custom-built Nikon Ti microscope. The microscope is equipped with a 100 × oil-immersion objective lens (N.A. = 1.49), a multi-band dichroic (405/488/561/633 BrightLine quad-band bandpass filter, Semrock, USA) and a piezo Z-stage (ASI, USA), a filter wheel (Sutter Instrument, USA) and a stage top incubator (Tokai Hit, Japan). The lasers were focused on the back pupil plane of the objective to generate wide-field illumination. Nikon N-STORM module was used to steer the incidence angle of the laser for generating inclined illumination. The emission was collected by the same objective passing through an emission filter (617/73, Semrock) in front of the sCMOS camera (Prime 95B, Teledyne Photometrics). The microscope, lasers, and the camera were controlled through NIS-Elements (Nikon, USA).

Sun Y., Chen J., Huang S.Y., Su Y.P., Wang W., Agama K., Saha S., Jenkins L.M., Pascal J.M, & Pommier Y. (2021). PARylation prevents the proteasomal degradation of topoisomerase I DNA-protein crosslinks and induces their deubiquitylation. Nature Communications, 12, 5010.

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