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AB197649

Alexa Fluor® 647 Anti-ATPB antibody [3D5] - Mitochondrial Marker

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(2 Publications)

Mouse Monoclonal ATPB antibody - conjugated to Alexa Fluor® 647. Mitochondrion marker. Suitable for ICC/IF and reacts with Human samples. Cited in 2 publications.

View Alternative Names

ATP5B, ATPMB, ATPSB, ATP5F1B, ATP synthase F1 subunit beta

1 Images
Immunocytochemistry/ Immunofluorescence - Alexa Fluor® 647 Anti-ATPB antibody [3D5] - Mitochondrial Marker (AB197649)
  • ICC/IF

Lab

Immunocytochemistry/ Immunofluorescence - Alexa Fluor® 647 Anti-ATPB antibody [3D5] - Mitochondrial Marker (AB197649)

ab197649 staining ATPB in HepG2 cells. The cells were fixed with 100% methanol (5 min), permeabilized with 0.1% Triton X-100 for 5 minutes and then blocked with 1% BSA/10% normal goat serum/0.3M glycine in 0.1% PBS-Tween for 1h. The cells were then incubated overnight at +4°C with ab197649 at a 1/50 dilution (shown in red) and ab195887, Mouse monoclonal to alpha Tubulin (Alexa Fluor® 488), at a 1/250 dilution (shown in green). Nuclear DNA was labelled with DAPI (shown in blue).

Image was taken with a confocal microscope (Leica-Microsystems, TCS SP8).

  • 519 Alexa Fluor® 488

    Alexa Fluor® 488 Anti-ATPB antibody [3D5] - Mitochondrial Marker

  • HRP

    HRP Anti-ATPB antibody [3D5] - Mitochondrial Marker

Key facts

Host species

Mouse

Clonality

Monoclonal

Clone number

3D5

Isotype

IgG1

Light chain type

kappa

Conjugation

Alexa Fluor® 647

Excitation/Emission

Ex: 650nm, Em: 665nm

Carrier free

No

Reacts with

Human

Applications

ICC/IF

applications

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Species", "Dilution Info", "Notes"], "tabs": { "all-applications": {"fullname" : "All Applications", "shortname": "All Applications"}, "ICCIF" : {"fullname" : "Immunocytochemistry/ Immunofluorescence", "shortname":"ICC/IF"} }, "product-promise": { "all": "all", "testedAndGuaranteed": "tested", "guaranteed": "expected", "predicted": "predicted", "notRecommended": "not-recommended" } }, "values": { "Human": { "ICCIF-species-checked": "testedAndGuaranteed", "ICCIF-species-dilution-info": "1/50", "ICCIF-species-notes": "<p>This product gave a positive signal in HepG2 cells fixed with 100% methanol (5 min).</p>" }, "Mouse": { "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "" }, "Rat": { "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "" }, "Caenorhabditis elegans": { "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "" }, "Cow": { "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "" }, "Monkey": { "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "" } } }
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Product details

Alexa Fluor® is a registered trademark of Molecular Probes, Inc, a Thermo Fisher Scientific Company. The Alexa Fluor® dye included in this product is provided under an intellectual property license from Life Technologies Corporation. As this product contains the Alexa Fluor® dye, the purchase of this product conveys to the buyer the non-transferable right to use the purchased product and components of the product only in research conducted by the buyer (whether the buyer is an academic or for-profit entity). As this product contains the Alexa Fluor® dye the sale of this product is expressly conditioned on the buyer not using the product or its components, or any materials made using the product or its components, in any activity to generate revenue, which may include, but is not limited to use of the product or its components: in manufacturing; (ii) to provide a service, information, or data in return for payment (iii) for therapeutic, diagnostic or prophylactic purposes; or (iv) for resale, regardless of whether they are sold for use in research. For information on purchasing a license to this product for purposes other than research, contact Life Technologies Corporation, 5781 Van Allen Way, Carlsbad, CA 92008 USA or outlicensing@thermofisher.com.
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Properties and storage information

Form
Liquid
Purity
IgG fraction
Purification notes
Near homogeneity as judged by SDS-PAGE. The antibody was produced in vitro using hybridomas grown in serum-free medium, and then purified by biochemical fractionation.
Storage buffer
pH: 7.4 Preservative: 0.02% Sodium azide Constituents: PBS, 30% Glycerol (glycerin, glycerine), 1% BSA
Shipped at conditions
Blue Ice
Appropriate short-term storage duration
1-2 weeks
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
-20°C
Aliquoting information
Upon delivery aliquot
Storage information
Avoid freeze / thaw cycle|Store in the dark
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

ATPB also known as ATP synthase subunit beta is an essential protein component of the ATP synthase complex. It has an approximate mass of 52 kDa and is primarily expressed in the mitochondria. The protein's role is to catalyze the production of adenosine triphosphate (ATP) from adenosine diphosphate (ADP) and inorganic phosphate utilizing the proton gradient across the inner mitochondrial membrane. This process is central to the cellular energy production often referred to as oxidative phosphorylation. ATPB is frequently used as a mitochondrial marker in research making it an important target for antibodies such as those conjugated with Alexa Fluor 647 for immunofluorescence applications.
Biological function summary

ATPB functions as part of the mitochondrial ATP synthase complex which is also known as complex V of the electron transport chain. This complex is important for maintaining cellular energy homeostasis through ATP production. ATPB contributes to the catalytic activity necessary for ATP synthesis therefore supporting various cellular processes that require energy input such as muscle contraction and active transport. The protein also plays a role in coupling the proton motive force to ATP synthesis a function critical for mitochondrial efficiency and metabolic health.

Pathways

ATPB involves itself significantly in the oxidative phosphorylation and glycolysis pathways. It partners with other proteins in the ATP synthase complex such as ATP synthase subunit alpha (ATP5A1) to effectuate the conversion of energy. In the broader scope of energy metabolism ATPB integrates with glycolysis where glycolytic end-products feed into oxidative phosphorylation sustaining the cell’s energy currency. Both pathways are important for cells especially in tissues with high energy demands like the heart and skeletal muscles.

ATPB has been implicated in mitochondrial dysfunction-related diseases such as mitochondrial myopathy and Leigh syndrome. These conditions often result from mutations or defects in components of the electron transport chain leading to impaired ATP production. ATPB’s close connection to ATP5A1 and other complex V proteins highlights its involvement in these disorders. Understanding ATPB's role and function helps in disease mechanism elucidation and potentially offers targets for therapeutic interventions in mitochondrial-related diseases.
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Product protocols

For this product, it's our understanding that no specific protocols are required. You can visit:
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Target data

Mitochondrial membrane ATP synthase (F(1)F(0) ATP synthase or Complex V) produces ATP from ADP in the presence of a proton gradient across the membrane which is generated by electron transport complexes of the respiratory chain. F-type ATPases consist of two structural domains, F(1) - containing the extramembraneous catalytic core, and F(0) - containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Subunits alpha and beta form the catalytic core in F(1). Rotation of the central stalk against the surrounding alpha(3)beta(3) subunits leads to hydrolysis of ATP in three separate catalytic sites on the beta subunits.
See full target information ATP5F1B
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Publications (2)

Recent publications for all applications. Explore the full list and refine your search

EBioMedicine 78:103981 PubMed35390636

2022

SARS-CoV-2 entry sites are present in all structural elements of the human glossopharyngeal and vagal nerves: Clinical implications.

Applications

Unspecified application

Species

Unspecified reactive species

Lynn Vitale-Cross,Ildiko Szalayova,Aiden Scoggins,Miklos Palkovits,Eva Mezey

NPJ vaccines 6:117 PubMed34584101

2021

Specific human cytomegalovirus signature detected in NK cell metabolic changes post vaccination.

Applications

Unspecified application

Species

Unspecified reactive species

Elena Woods,Vanessa Zaiatz-Bittencourt,Ciaran Bannan,Colm Bergin,David K Finlay,Matthias Hoffmann,Anthony Brown,Bethany Turner,Shokouh Makvandi-Nejad,Ventzi Vassilev,Stefania Capone,Antonella Folgori,Tomáš Hanke,Eleanor Barnes,Lucy Dorrell,Clair M Gardiner
View all publications
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