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Invitrogen™ Human Fibronectin Native Protein

Catalog No. PIRP43130
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PIRP43130 2 mg
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Catalog No. PIRP43130 Supplier Invitrogen™ Supplier No. RP43130
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Description

Native Protein

RP-43130 contains native human Fibronectin protein and may be used as a positive control in many immunological assays. Place in 37°C water bath to dissolve. The product is of human blood/plasma origin. Although the starting material was tested prior to initiation of the manufacturing process, and was found negative or nonreactive for anti-HIV-1/2, HIV-1 antigen(s), HBsAg, STS, anti-HCV, anti-HBcore and anti-HTLV I & II, extreme caution should be used when handling this material as there is a margin of error in all tests. This product is to be used for IN VITRO research purposes only, and is not intended for clinical or diagnostic use. Reconstitute with 1.57 mL of water to achieve 1.3 mg/mL.

Fibronectin is a disulfide-bonded dimer with a molecular weight range of 230-250 kDa. In the extracellular matrix of several connective tissues and vessels, fibronectin is present as an insoluble protein that is extensively cross-linked by interchain disulfide bonds forming high molecular mass polymers. Fibronectin is most abundant during embryonic development and tissue remodeling. Fibronectin is also present at high concentrations as a soluble plasma protein. Fibronectin is organized as a linear series of repeating modules which form domains for interaction with fibronectin itself, other matrix components (e.g. collagen and heparin) and receptors on cells (e.g. integrins). Fibronectin is present in a soluble dimeric form in plasma, and in a dimeric or multimeric form at the cell surface and in extracellular matrix. Fibronectin is involved in cell adhesion and migration processes including embryogenesis, wound healing, blood coagulation, host defense, and metastasis. Fibronectin has been implicated in carcinoma development in lung cancer. Further, Fibronectin expression is increased especially in non-small cell lung carcinoma. The adhesion of lung carcinoma cells to Fibronectin enhances tumorgenecity and confers resistance to apoptosis induced by standard chemotherapeutic agents. The gene encoding Fibronectin has three regions subject to alternative splicing, with the potential to produce 20 different transcript variants. However, the full-length nature of some Fibronectin variants has not been determined.

Specifications

Accession Number P02751
Concentration 1.3 mg/mL
For Use With (Application) Neutralization
Formulation 0.02M HEPES with 0.15M NaCl and no preservative; pH 7.4
Gene ID (Entrez) 2335
Name Human Fibronectin
pH Range 7.4
Purification Method SDS-PAGE
Quantity 2 mg
Source Human
Storage Requirements 4°C
Regulatory Status RUO
Gene Alias Anastellin; CIG; Cold insoluble globulin (CIG); Cold-insoluble globulin; cumulus cell-specific fibronectin 1 transcript; DKFZp686F10164; DKFZp686H0342; DKFZp686I1370; DKFZp686O13149; E330027I09; ED-B; embryo-specific fibronectin 1 transcript; ferritin L subunit; ferritin L-chain; FIBNEC; fibronectin; fibronectin 1; fibronectin ED-A- region; fibronectin ED-B+ region; fibronectin variable region; FINC; FN; FN1; fn-1; FNZ; GFND; GFND2; LETS; LOW QUALITY PROTEIN: fibronectin; Migration stimulating factor (MSF); migration-stimulating factor; MSF; Ugl-Y1; Ugl-Y2; Ugl-Y3
Common Name Fibronectin
Gene Symbol FN1
Product Type Protein
Conjugate Unconjugated
Species Human
Content And Storage 4°C
Form Lyophilized
Protein Subtype Native
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Frequently Asked Questions (FAQs)

What is the relationship between specific activity units and International Units of activity?

There is no direct correlation or calculation between specific activity unit and International Unit (IU) values. International Units (IU) express a quantification of activity for the base amount of a substance in relation to an analogous reference standard with an internationally accepted unit of biological potency (i.e., IU/ng) that has been assigned based on an International Collaborative Study conducted by the World Health Organization (WHO). WHO Reference Standards are made available by the National Institute for Biological Standards and Control (NIBSC). Intended to simplify the comparison of activity of a substance obtained from different sources, IU measurements can vary as comparison methods are rarely the same between sources. A true direct comparison requires standardized methods of analysis in order to guarantee comparability of the substance’s activity in relation to its mass across sources.
Why can't I see the protein pellet in the vial for my lyophilized recombinant protein? Is this normal?

Gibco recombinant proteins are frequently formulated without carrier proteins or additives (e.g., BSA, HSA, sucrose, etc.) and Gibco PeproTech recombinant proteins don't contain a carrier protein. As a result, during lyophilization, the protein product may be deposited on the vial as a thin, and sometimes invisible film instead of a pellet. The size of the pellet, if any, is not directly related to the quantity of the recombinant protein in the vial. Our quality control procedures assure that each vial contains the correct amount of product.

To ensure complete recovery of protein product, before opening a vial of lyophilized recombinant protein, we recommend centrifuging it in a microcentrifuge for 20-30 seconds to drive any protein that may be lodged in the cap or on the side or the bottom of the vial. After reconstitution, you can confirm the presence of product protein by running a small amount on SDS-PAGE. In general, a protein band with expected size should be visible with as little as 10 ng of protein loaded on an acrylamide gel.

Does a particular recombinant protein contain the wild-type or mutated amino acid sequence?

Protein sequence information is available on the individual product page, except for proprietary engineered proteins.
What kind of tubes should I use for storing aliquots of reconstituted recombinant proteins?

In general, we recommend using polypropylene tubes for storing aliquots of reconstituted recombinant proteins. Specific information for appropriate storage and handling of many recombinant proteins can be found on the product pages.
Does each lot of recombinant protein have the same specific activity?

No, each lot can vary slightly with regards to its specific activity. The information on the data sheet for each product is provided as a guide. For lot-specific information, please please check the Certificate of Analysis or contact Technical Support.
What is the specific activity of my recombinant protein?

The ED50 for each functionally active recombinant protein can be found on its product page under Activity as well as in the data sheet. The specific activity (units/mg) for each recombinant protein can be determined from the ED50 using information available in our Tech Tip here: https://assets.thermofisher.com/TFS-Assets/BID/Technical-Notes/converting-ed50-ng-ml-specific-activity-units-mg-tech-note.pdf

What is the shelf life of your recombinant proteins?

The majority of our recombinant proteins have a guaranteed shelf life of one year unless otherwise indicated in our technical data sheets. This guarantee applies only if the recombinant protein is stored under the conditions stated in the data sheet. If you are not completely satisfied with the performance of the product, please contact Technical Support at techsupport@thermofisher.com for assistance.
Why is my recombinant protein not soluble?

The solubility issue might be due to improper handling, or use of a solvent other than the one we recommended. We recommend that you warm the lyophilized powder to room temperature before you open the vial, and that you solubilize the protein in the buffer solution recommended in the manual (some proteins are more soluble in low pH buffer). Do not reconstitute at a protein concentration greater than 1 mg/mL. Do not vortex or mix protein solutions vigorously. Allowing the reconstituted protein to incubate overnight at 4 degrees C may help resolve any solubility issues.

Are Thermo Fisher Scientific recombinant proteins calibrated with the WHO Reference Standard?

Where possible, Thermo Fisher Scientific obtains International Unit (IU) values through multiple side-by-side comparisons of our product(s) against the analogous WHO Reference Standard within our biological activity assay. Performing multiple comparison tests allows us to account for any outliers due to possible variations with the assay (e.g., product handling, assay protocol, etc.). Using the results of these comparisons, we can provide a reliable quantification of our product’s activity in relation to the activity of the WHO Reference Standard.

Information pertaining to whether a specific product has been tested against the WHO Reference Standard can typically be located on the product page or COA.
What are the major differences between the recombinant proteins produced in different expression systems?

The recombinant proteins provided by Thermo Fisher Scientific are usually produced in different expression systems such as E. coli, insect cells, or mammalian cells. The major differences in recombinant proteins produced in different expression systems are in the post-translational modifications present, such as glycosylation. Recombinant proteins produced in E. coli are not glycosylated. Recombinant proteins produced in insect cells are partially glycosylated without galactose and sialic acid and not branched. Recombinant proteins produced in mammalian cells are fully glycosylated.

Note: Mimic Sf9 Insect Cells (a derivative of the Sf9 insect cell line that has been modified to stably express a variety of mammalian glycosyltransferases) can be used for production of complex N-glycans with terminal sialic acid and galactose.

Why do I have to freeze recombinant protein solutions in working aliquots?

Repeated freeze/thaws will affect the stability of the recombinant protein. For example, freezing will significantly affect the pH of the protein solution and might cause denaturation of the protein (Arch Biochem Biophys 384:398 (2000)).