Similar products: Alexa Fluor 488 Proteinase K, FITC Proteinase K.
Product Description:
SF488 labeled Proteinase K is one of Nanocs’ fluorescent Proteinase K conjugates. Proteinase K is a highly reactive nonspecific serine protease that is capable of inactivating RNases and DNases and is used in the isolation or preparation of high molecular weight nucleic acids. Proteinase K is also useful for helping to characterize enzymes, due to its cleavage specificity. Proteinase K is stable in a wide variety of detergents and buffer salts and at various temperatures and pH. The isoelectric point of proteinase K is 8.9. Nanocs provides a number of fluorescent labeled Proteinase K products that span from UV region to near IR. These fluorescent Proteinase K conjugates can be used for enzyme studies, bioassay development and many other biomedical research. Nanocs SF488 labeled Proteinase K is a green fluorescent Proteinase K conjugate that has excitation/emission wavelength at 495/515 nm. This SF488 Proteinase K can be easily detected by fluorescent instruments in FITC channel. All our fluorescent Proteinase K conjugates were purified by size chromatography to remove non-conjugated molecules and ensure adequate applications both in-vitro and in-vivo.
Product Specifications:
2~5 SF488 dyes on each Proteinase K molecule.
Molecular weight: ~28.5 kD
Proteinase K conjugates provided either in water solution or dried powder;
Similar products: Alexa Fluor 546 Proteinase K, Cy3 Proteinase K.
Product Description:
SF546 labeled Proteinase K is one of Nanocs’ fluorescent Proteinase K conjugates. Proteinase K is a highly reactive nonspecific serine protease that is capable of inactivating RNases and DNases and is used in the isolation or preparation of high molecular weight nucleic acids. Proteinase K is also useful for helping to characterize enzymes, due to its cleavage specificity. Proteinase K is stable in a wide variety of detergents and buffer salts and at various temperatures and pH. The isoelectric point of proteinase K is 8.9. Nanocs provides a number of fluorescent labeled Proteinase K products that span from UV region to near IR. These fluorescent Proteinase K conjugates can be used for enzyme studies, bioassay development and many other biomedical research. Nanocs SF546 labeled Proteinase K is a red fluorescent Proteinase K conjugate that has excitation/emission wavelength at 546/570 nm. This red Proteinase K can be easily detected by fluorescent instruments in Cy3 channel. All our fluorescent Proteinase K conjugates were purified by size chromatography to remove non-conjugated molecules and ensure adequate applications both in-vitro and in-vivo.
Product Specifications:
2~5 SF546 dyes on each Proteinase K molecule.
Molecular weight: ~28.5 kD
Proteinase K conjugates provided either in water solution or dried powder;
PE labeled silica beads have excitation and emission maxima at ~496,565/667. The SF™ 647 conjugates of R-PE have emission spectra almost identical to those of Cy5-R-PE or Alexa fluor 647-R-PE conjugates but tend to have more intesne long-wavelength emission and to require less compensation in the R-PE channel. These beads can be used with a single wavelength at 488 nm. Customer conjugation and modification is available upon request.
Bead Properties:
Concentration: 1% suspension in aqueous solution, other concentration available upon request;
PE labeled silica beads have excitation and emission maxima at ~496,565/667. The SF™ 647 conjugates of R-PE have emission spectra almost identical to those of Cy5-R-PE or Alexa fluor 647-R-PE conjugates but tend to have more intesne long-wavelength emission and to require less compensation in the R-PE channel. These beads can be used with a single wavelength at 488 nm. Customer conjugation and modification is available upon request.
Bead Properties:
Concentration: 1% suspension in aqueous solution, other concentration available upon request;
PE labeled silica beads have excitation and emission maxima at ~496,565/667. The SF™ 647 conjugates of R-PE have emission spectra almost identical to those of Cy5-R-PE or Alexa fluor 647-R-PE conjugates but tend to have more intesne long-wavelength emission and to require less compensation in the R-PE channel. These beads can be used with a single wavelength at 488 nm. Customer conjugation and modification is available upon request.
Bead Properties:
Concentration: 1% suspension in aqueous solution, other concentration available upon request;
SFTM488 fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM488 fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
Excellent photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
Specifications:
Reactivity: Amine reactive, fast reaction;
Solubility; Soluble in water and DMSO
Ex/Em wavelength: 495/520 nm;
Applications: Protein, enzyme and antibody labeling;
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
SFTM fluorophores aim to providing better fluorescent molecular tools for our customers. Besides their superior fluorescent properties, e.g. high brightness, super photo-stability, these fluorophores are designed to simplify your fluorescent labeling and detection process. SFTM fluorophores can be used directly in your aqueous working buffer without need adding any organic solvents. Elimination of organic solvents not only simplifies your labeling and detection process, it also provides additional protection of your molecules from damaging caused by some harsh organic solvents. In addition, SFTM fluorophores offer diversified chemically reactive and/or biologically active moieties that can be used directly for labeling, imaging and detecting of various molecules and particles. These fluorophores range from UV to near IR region and can be used both in-vitro and in-vivo imaging. In short, Nanocs SFTM fluorophores offer following advantages:
High fluorescent intensity equal or greater than Alexa fluor or cyanine dyes;
High photo-stability with proprietary structure;
Good water solubility and no organic solvents needed for labeling.
Simplified labeling process with high labeling efficiency.
