- Alzheimer's disease
- Bone specific alkaline phosphatase
- Collagen type 2
- Dentin matrix protein 1
- Osteocalcin (bovine)
- Osteocalcin (human)
- Osteocalcin (mouse)
- Osteocalcin (pig)
- Osteocalcin (rat)
- Osteocalcin carboxylated Gla-OC
- Osteocalcin undercarboxylated Glu-OC
- Procollagen type I C-peptide
- Tartrate-resistant acid phosphatase (TRACP)
- Brain and CNS
- Cancer and inflammation
- Cell adhesion and ECM
- Environmental hazards
- Epigenetic antibodies
- Metabolic diseases
- mTOR signaling
- Signal transduction
- Stem cell research antibodies
- Virus research
- Miscellaneous research areas
Osteocalcin (mouse) detection
Mouse osteocalcin is a vitamin K-dependent, calcium-binding, non-collagenous protein found in bone and dentin that consists of 49 amino acids. Produced only by osteoblasts, osteocalcin has been used as a unique marker of bone formation and resorption. Osteocalcin is also a hormone that plays a role in insulin regulation and male fertility. During bone metabolism, osteocalcin is released from bone matrix through the action of various enzymes, including one produced by osteoclasts.
Mouse osteocalcin is a vitamin K-dependent, calcium-binding, non-collagenous protein found in bone and dentin that consists of 49 amino acids. Produced only by osteoblasts, osteocalcin has been used as a unique marker of bone formation and resorption. Osteocalcin is also a hormone that plays a role in insulin regulation and male fertility. During bone metabolism, osteocalcin is released from bone matrix through the action of various enzymes, including one produced by osteoclasts. Unmodified Glu-type osteocalcin is produced by osteoblasts and is converted to active Gla-type osteocalcin; its binding to the bone matrix is enabled through the enzymatic conversion of glutamic acid to carboxyglutamate. Bone turnover can be analyzed by simultaneously measuring Gla-type and Glu-type osteocalcin. Most of the three glutamate residues are decarboxylated on osteocalcin (Glu-OC) when it is released into bloodstream from bone. Thus, osteocalcin is present in blood in both its Gla and Glu forms. Recent findings suggest that Glu-type osteocalcin may play an important role in the metabolism of sugar.
Alternate names: bone gamma-carboxyglutamic acid-containing protein, BGLAP.
ELISA kits for osteocalcin (mouse) detection
Gla-osteocalcin and Glu-osteocalcin can be assayed concurrently with the Mouse Gla-Osteocalcin High Sensitive EIA Kit (Cat. # MK127) and Mouse Glu-Osteocalcin High Sensitive EIA Kit (Cat. # MK129), respectively. These mouse osteocalcin ELISA kits allow for the relative evaluation of Gla/Glu-osteocalcins, thereby providing a measure of both bone formation and bone resorption.
These kits use a sandwich ELISA strategy to specifically detect the Gla and Glu forms of osteocalcin. The capture antibody is a plate-bound, solid-phased rat monoclonal antibody that specifically recognizes the C-terminal region of mouse osteocalcin. This is paired with labeled monoclonal antibodies that are specific for captured Glu-type orn Gla-type osteocalcin. Because mouse osteocalcin has C-terminal sequences that differ from other mammals, it is possible to measure mouse osteocalcin without any cross-reaction with bovine antigens. Therefore, the process of osteoblastic cell differentiation can be monitored in pluripotent cells, such as mouse ES and iPS cells, without interference from bovine serum included in the culture medium. Furthermore, these kits can be used for high-sensitivity measurements from a variety of samples, including cell culture supernatants, blood, or body fluids.
Antibodies for osteocalcin (mouse) detection
Monoclonal Anti-Mouse Osteocalcin (Clone R21C-01A) was obtained by fusing mouse myeloma cell-line P3U1 with the spleen cells of Sprague Dawley rats following their immunization with mouse osteocalcin peptide (amino acids 25–46) conjugated to keyhole limpet hemocyanin (KLH). The osteocalcin antibody was harvested from severe combined immunodeficiency (SCID) mouse ascitic fluid.
Polyclonal Anti-Mouse Osteocalcin, Clone mOC(1–20) antibody was raised against an N-terminal mouse osteocalcin peptide (amino acids 1–20) and specifically recognizes mouse osteocalcin.
|Antigen/peptide||Cat. #||Application||Species||(Clone) and source||Cross‑reactivity|
Rat IgG MoAb
|Does not cross‑react with bovine antigens and can be used directly for cell culture supernatants using bovine serum-containing medium
Some cross-reactivity may be observed with rabbit osteocalcin*
Rat IgG MoAb
|Does not cross-react with bovine antigens and can be used directly for cell culture supernatants using bovine serum-containing medium.
Some cross‑reactivity may be observed with rabbit osteocalcin*
(25–46) conjugated to KLH
Rat IgG2a MoAb
|Does not cross-react with bovine, rat, or human osteocalcin|
[1–20]) conjugated to KLH
Rabbit IgG PoAb
|Does not cross-react with rat osteocalcin|
*While some cross-reactivity is observed with rabbit samples, these assays are not suitable for quantitative measurement of rabbit osteocalcin. We recommend using the Gla-Osteocalcin EIA Kit (Cat. # MK111) for this application.
Please see the product's Certificate of Analysis for information about storage conditions, product components, and technical specifications. Please see the Kit Components List to determine kit components. Certificates of Analysis and Kit Components Lists are located under the Documents tab.
Takara Bio USA, Inc.
United States/Canada: +1.800.662.2566 • Asia Pacific: +1.650.919.7300 • Europe: +33.(0)1.3904.6880 • Japan: +81.(0)77.565.6999
FOR RESEARCH USE ONLY. NOT FOR USE IN DIAGNOSTIC PROCEDURES. © 2018 Takara Bio Inc. All Rights Reserved. All trademarks are the property of Takara Bio Inc. or its affiliate(s) in the U.S. and/or other countries or their respective owners. Certain trademarks may not be registered in all jurisdictions. Additional product, intellectual property, and restricted use information is available at takarabio.com.