Product Uses Include
Laminin-1 is purified from EHS tumor tissue and is free of the laminin binding protein entactin which is a common contaminant in some laminin preparations (150 kDa). Protein purity is determined by scanning densitometry of Coomassie Blue stained protein on a 4-20% polyacrylamide gel. The laminin is >90% pure (Figure 1).
The protein is modified to contain covalently linked rhodamines at random surface lysines. An activated ester of rhodamine [(5-(and 6)-carboxytetramethylrhodamine succinimidyl ester] is used to label the protein. Labeling stoichiometry is determined by spectro-scopic measurement of protein and dye concentrations. Final labeling stoichiometry is 2-5 dyes per protein molecule (Figure 2). The material is guaranteed to contain <15% of free dye and >85% of dye conjugated to laminin. Rhodamine laminin can be detected using a filter set of 535nm excitation and 585 nm emission.
Laminin runs as individual subunits on SDS-PAGE with an appar-ent molecular weight of 400 and 225 kDa (Figure 1). LMN01 is supplied as a pale pink lyophilized powder. Each vial of LMN01 contains 20 μg protein.
Fibronectin is purified from bovine plasma. Protein purity is determined by scanning densitometry of coomassie blue stained protein on a 4-20% polyacrylamide gel. Biotinylated fibronectin is >80% pure (Figure 1).
The protein is modified to contain covalently linked biotins at random surface lysines. A long-chain activated ester of biotin [biotin-XX, succinimidyl ester] is used to label the protein. Labeling efficiency is determined by the ability to detect 10 ng biotinylated fibronectin using alkaline phosphatase conjugated streptavidin (Figure 2).
Fibronectin runs as individual subunits on SDS-PAGE with an apparent molecular weight of 230 kDa. FNR03 is supplied as a white lyophilized powder. Each vial contains 20 µg protein.
Fluorescent Fibronectin Treated MCF10A cells
Fluorescent fibronectin (Cat. # FNR01) treated MCF10Acells (image kindly provided by A. Varadara and M. Karthykenyan, Univ. S.Carolina,Columbia, SC).
Purity is determined by scanning densitometry of proteins on SDS-PAGE gels. Samples are >90% pure.
Figure 1: Rhodamine Laminin Purity Determination
Legend: 20 μg of unlabeled laminin (Lane 1) and 20 μg of rhodamine laminin (Lane 2) was separated by electrophoresis in a 4-20% SDS-PAGE system. The unlabeled pro-tein was stained with Coomassie Blue and visualized in white light. The rhodamine labeled protein was visual-ized under UV light. The alpha sub-unit runs at 400 kDa (top band) while the beta and gamma subunits run as a 225 kDa doublet (lower band). Protein quantitation was determined with the Precision Red™ Protein Assay Reagent (Cat. # ADV02). Mark12 molecular weight markers are from Invitrogen.
Figure 2: Detection of Biotinylated Fibronectin
Legend: LMN01 was diluted with Milli-Q water and its absorbance spectrum was scanned between 250 and 750 nm. In this example, rhodamine labeling stoichiometry was calculated to be 2.7 dyes per laminin protein using the absorbancy maximum for rhodamine at 565 nm and the Beer-Lambert law. Dye extinction coefficient when protein bound is 70,000M-1cm-1 .
1. Kelly T. et al. 1994. Invadopodia promote proteolysis of a wide variety of extracellular matrix proteins. J. Cellular Physiol. 158: 299-308.
2. Tronchin G. et al. 1997. Expression and identification of a laminin-binding protein in Aspergillus fumigates conidia. Infection & Immunity 65: 9-15.
Question 1: What is the optimal excitation and emission filter settings to visualize the rhodamine fluorescence?
Answer 1:Rhodamine-labeled laminin can be detected using a filter set of 535 nm excitation and 585 nm emission.
Question 2: What is the labeling stoichiometry?
Answer 2: Rhodamine labeling stoichiometry was calculated to be 2-5 dyes per laminin protein using the absorbancy maximum for rhodamine at 565 nm and the Beer-Lambert law. Dye extinction coefficient when protein bound is 70,000 M-1cm-1.
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