Download: Protein Gel Guide
Fluorescent stains are rapid, and highly sensitive for detecting total protein in protein electrophoresis gels and membranes. Fluorescent stains are designed for use in 1D and 2D PAGE and offer sensitivities similar to that obtained with silver staining techniques. Our line of SYPRO and fluorescent stains can be used for total protein quantitation and can be viewed using a standard UV or blue-light transilluminator or with imaging instruments equipped with appropriate light sources, such as iBright Imaging Systems.
Highlights of fluorescent stains:
- Simple staining procedure—no destaining or timed steps required; minimal hands-on time
- Quantitative—linear quantitation range over 2-3 orders of magnitude with low protein-to-protein variability
- Sensitivity—typically more sensitive than coomassie stains and equivalent to silver stains
Compare available fluorescent protein gel and membrane stains
SYPRO Ruby | SYPRO Orange | SYPRO Red | SYPRO Tangerine | Coomassie Fluor Orange | SYPRO Ruby Blot Stain | No-Stain Protein Labeling Reagent | |
---|---|---|---|---|---|---|---|
Min. protein detected | 0.25- 1 ng | 4–8 ng | 4–8 ng | 1-4 ng | 8 ng | 2-8 ng | 20 ng |
Stain time | 90 min microwave 18 hr standard | ~1 hour | ~1 hour | ~1 hour | ~1 hour | ~1 hour | 10 min |
Ex/Em | Ex: 280, 450nm Em: 610 nm | Ex: 300, 470nm Em: 570 nm | Ex: 300, 550nm Em: 630 nm | Ex: 300, 490nm Em: 640 nm | Ex: 300, 470nm Em: 570 nm | Ex: 280, 450nm Em: 618nm | Ex: 488nm Em: 590nm |
Compatible applications | 1D and 2D gels (SDS and non-denaturing), IEF, Mass spec | SDS gel staining | SDS gel staining | SDS gel staining, Western blotting, zymography, mass spec, electroelution | SDS gel staining | Membrane staining, mass spec, microsequencing | Gel or membrane staining, western blotting |
Highlights | Stains most classes of proteins, including glycoproteins, phosphoproteins, lipoproteins, calcium binding proteins, fibrillar proteins, and other proteins that are difficult to stain | Stain can be dissolved in the cathode (top) running buffer to stain proteins as the gel runs | Stain can be dissolved in the cathode (top) running buffer to stain proteins as the gel runs | Staining is performed in buffered salt solutions (no acids or organic solvents required) | Gels do not need to be wash before staining | Stain does not interfere with subsequent detection techniques | Total protein normalization after western blotting. |
No fixative required | ✓ | ✓ | ✓ | ✓ | Fixative required only for PVDF membranes | ✓ | |
No de-staining required | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | |
Multiplexing with other stains | ✓ *not recommended with colorimetric stains | ✓ | ✓ | ||||
Format | Ready to use | Supplied as stock solution | Supplied as stock solution | Supplied as stock solution | Ready to use | Ready to use | Supplied as stock solution |
Catalog number | S12000 | S6651 | S6653 | S12010 | C33250 | S11791 | A44449 |
Total protein detection
SYPRO stains provide total protein detection by binding non-covalently to proteins in the gel or membrane. Since proteins are not covalently modified by the dyes, the stains are compatible with downstream applications such as mass spectrometry, and sequencing. No-Stain Protein Labeling Reagent covalently modifies proteins in the gel or on the membrane to provide total protein detection.
SYPRO Ruby | SYPRO Orange | SYPRO Red | SYPRO Tangerine | Coomassie Fluor Orange | SYPRO Ruby Blot Stain | No-Stain Protein Labeling Reagent | |
---|---|---|---|---|---|---|---|
Mode of action | Non-covalently binds to basic amino acids and the polypeptide backbone | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with proteins on the membrane | Forms covalent bonds with lysine amino acid side chains with proteins in the gel or membrane |
Fluorescent detection
All the SYPRO stains have dual-excitation maxima, the dye exhibits luminescence upon excitation with either UV or visible light. This property makes it possible to visualize the luminescence with many types of instruments, including UV epi-illumination sources, UV or blue-light transilluminators, laser-scanning instruments, and CCD imaging instruments, including those with excitation light at 450 nm, 473 nm, 488 nm or 532 nm. SYPRO stains have exceptional photo stability, allowing long exposure times for maximum sensitivity.
Excitation (dashed line) and emission (solid line) spectra for SYPRO Ruby protein gel stain.
Simple staining protocols
The SYPRO stains follow simple staining procedures which can be completed in less than an hour for a majority of the experiments. SYPRO Orange, Red, and Tangerine require no separate fixation or de staining steps and there is no fear of overstaining the gel.
Staining protocol for SYPRO Ruby Gel Stain
Reagent | Overnight protocol | Microwave protocol | |
---|---|---|---|
Fix | 50% methanol, 7% acetic acid | 100 ml, 30 min | 100 ml, 15 min |
100 ml, 30 min | 100 ml, 15 min | ||
Stain | SYPRO Ruby gel stain | 75 ml, overnight (room temperature) | 75 ml, microwave 30 seconds, agitate 30 seconds, microwave 30 seconds, agitate 5 minutes, microwave 30 seconds, agitate 23 minutes (30 minutes total) (80-85 °C) |
Wash | 10% methanol, 7% acetic acid | 100 ml, 30 min | 100 ml, 30 min |
Total time | ~18 hours | 90 minutes | |
Hands on time | 10 minutes | 15 minutes |
Staining protocol for SYPRO Orange and SYPRO Red
Reagent | Step | |
---|---|---|
Prepare | Dilute stock reagent 1:5000 in 7.5% (v/v) acetic acid | |
Stain | Place gel in staining solution | 50 mL (mini gel), 10 to 60 min |
Rinse | Rinse gel in 7.5% acetic acid | <1 min |
Visualization, capture and analysis of fluorescent protein gel and membrane stains
All of the SYPRO stains have dual-excitation maxima—the dyes exhibit luminescence upon excitation with either UV or visible light. This property makes it possible to visualize the light emission with many types of instruments, including UV epi-illumination sources, UV or blue light transilluminators, laser-scanning instruments, and CCD imaging instruments, including those that provide excitation light at 450 nm, 473 nm, 488 nm or 532 nm.
iBright Imaging Systems
Capture and analyze publication quality images from fluorescently stained gels and membranes with iBright Imaging Systems. These high-performance instruments enhance the imaging experience through powerful hardware, advanced automated technologies, and an interface that is easy to use for researchers of all experience levels.
Blue light transilluminators
Blue LED transilluminators provide quick, safe way to visualize fluorescently stained gels and membranes. Explore our options for blue light transilluminators.
Compare available fluorescent protein gel and membrane stains
SYPRO Ruby | SYPRO Orange | SYPRO Red | SYPRO Tangerine | Coomassie Fluor Orange | SYPRO Ruby Blot Stain | No-Stain Protein Labeling Reagent | |
---|---|---|---|---|---|---|---|
Min. protein detected | 0.25- 1 ng | 4–8 ng | 4–8 ng | 1-4 ng | 8 ng | 2-8 ng | 20 ng |
Stain time | 90 min microwave 18 hr standard | ~1 hour | ~1 hour | ~1 hour | ~1 hour | ~1 hour | 10 min |
Ex/Em | Ex: 280, 450nm Em: 610 nm | Ex: 300, 470nm Em: 570 nm | Ex: 300, 550nm Em: 630 nm | Ex: 300, 490nm Em: 640 nm | Ex: 300, 470nm Em: 570 nm | Ex: 280, 450nm Em: 618nm | Ex: 488nm Em: 590nm |
Compatible applications | 1D and 2D gels (SDS and non-denaturing), IEF, Mass spec | SDS gel staining | SDS gel staining | SDS gel staining, Western blotting, zymography, mass spec, electroelution | SDS gel staining | Membrane staining, mass spec, microsequencing | Gel or membrane staining, western blotting |
Highlights | Stains most classes of proteins, including glycoproteins, phosphoproteins, lipoproteins, calcium binding proteins, fibrillar proteins, and other proteins that are difficult to stain | Stain can be dissolved in the cathode (top) running buffer to stain proteins as the gel runs | Stain can be dissolved in the cathode (top) running buffer to stain proteins as the gel runs | Staining is performed in buffered salt solutions (no acids or organic solvents required) | Gels do not need to be wash before staining | Stain does not interfere with subsequent detection techniques | Total protein normalization after western blotting. |
No fixative required | ✓ | ✓ | ✓ | ✓ | Fixative required only for PVDF membranes | ✓ | |
No de-staining required | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | |
Multiplexing with other stains | ✓ *not recommended with colorimetric stains | ✓ | ✓ | ||||
Format | Ready to use | Supplied as stock solution | Supplied as stock solution | Supplied as stock solution | Ready to use | Ready to use | Supplied as stock solution |
Catalog number | S12000 | S6651 | S6653 | S12010 | C33250 | S11791 | A44449 |
Total protein detection
SYPRO stains provide total protein detection by binding non-covalently to proteins in the gel or membrane. Since proteins are not covalently modified by the dyes, the stains are compatible with downstream applications such as mass spectrometry, and sequencing. No-Stain Protein Labeling Reagent covalently modifies proteins in the gel or on the membrane to provide total protein detection.
SYPRO Ruby | SYPRO Orange | SYPRO Red | SYPRO Tangerine | Coomassie Fluor Orange | SYPRO Ruby Blot Stain | No-Stain Protein Labeling Reagent | |
---|---|---|---|---|---|---|---|
Mode of action | Non-covalently binds to basic amino acids and the polypeptide backbone | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with the SDS coat around proteins in the gel | Non-covalently interacts with proteins on the membrane | Forms covalent bonds with lysine amino acid side chains with proteins in the gel or membrane |
Fluorescent detection
All the SYPRO stains have dual-excitation maxima, the dye exhibits luminescence upon excitation with either UV or visible light. This property makes it possible to visualize the luminescence with many types of instruments, including UV epi-illumination sources, UV or blue-light transilluminators, laser-scanning instruments, and CCD imaging instruments, including those with excitation light at 450 nm, 473 nm, 488 nm or 532 nm. SYPRO stains have exceptional photo stability, allowing long exposure times for maximum sensitivity.
Excitation (dashed line) and emission (solid line) spectra for SYPRO Ruby protein gel stain.
Simple staining protocols
The SYPRO stains follow simple staining procedures which can be completed in less than an hour for a majority of the experiments. SYPRO Orange, Red, and Tangerine require no separate fixation or de staining steps and there is no fear of overstaining the gel.
Staining protocol for SYPRO Ruby Gel Stain
Reagent | Overnight protocol | Microwave protocol | |
---|---|---|---|
Fix | 50% methanol, 7% acetic acid | 100 ml, 30 min | 100 ml, 15 min |
100 ml, 30 min | 100 ml, 15 min | ||
Stain | SYPRO Ruby gel stain | 75 ml, overnight (room temperature) | 75 ml, microwave 30 seconds, agitate 30 seconds, microwave 30 seconds, agitate 5 minutes, microwave 30 seconds, agitate 23 minutes (30 minutes total) (80-85 °C) |
Wash | 10% methanol, 7% acetic acid | 100 ml, 30 min | 100 ml, 30 min |
Total time | ~18 hours | 90 minutes | |
Hands on time | 10 minutes | 15 minutes |
Staining protocol for SYPRO Orange and SYPRO Red
Reagent | Step | |
---|---|---|
Prepare | Dilute stock reagent 1:5000 in 7.5% (v/v) acetic acid | |
Stain | Place gel in staining solution | 50 mL (mini gel), 10 to 60 min |
Rinse | Rinse gel in 7.5% acetic acid | <1 min |
Visualization, capture and analysis of fluorescent protein gel and membrane stains
All of the SYPRO stains have dual-excitation maxima—the dyes exhibit luminescence upon excitation with either UV or visible light. This property makes it possible to visualize the light emission with many types of instruments, including UV epi-illumination sources, UV or blue light transilluminators, laser-scanning instruments, and CCD imaging instruments, including those that provide excitation light at 450 nm, 473 nm, 488 nm or 532 nm.
iBright Imaging Systems
Capture and analyze publication quality images from fluorescently stained gels and membranes with iBright Imaging Systems. These high-performance instruments enhance the imaging experience through powerful hardware, advanced automated technologies, and an interface that is easy to use for researchers of all experience levels.
Blue light transilluminators
Blue LED transilluminators provide quick, safe way to visualize fluorescently stained gels and membranes. Explore our options for blue light transilluminators.
For Research Use Only. Not for use in diagnostic procedures.