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  4. ATP5J2 Protein, Human (Cell-Free, His)

ATP5J2 protein is a component of mitochondrial membrane ATP synthase (complex V), which uses the proton gradient established by the respiratory chain electron transport complex to help ADP synthesize ATP. ATP5J2 is located in the F(0) domain as a small subunit and cooperates with subunit a in the membrane. ATP5J2 Protein, Human (Cell-Free, His) is the recombinant human-derived ATP5J2 protein, expressed by E. coli Cell-free , with N-10*His labeled tag. The total length of ATP5J2 Protein, Human (Cell-Free, His) is 94 a.a., with molecular weight of 12.4 kDa.

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Description

ATP5J2 protein is a component of mitochondrial membrane ATP synthase (complex V), which uses the proton gradient established by the respiratory chain electron transport complex to help ADP synthesize ATP. ATP5J2 is located in the F(0) domain as a small subunit and cooperates with subunit a in the membrane. ATP5J2 Protein, Human (Cell-Free, His) is the recombinant human-derived ATP5J2 protein, expressed by E. coli Cell-free , with N-10*His labeled tag. The total length of ATP5J2 Protein, Human (Cell-Free, His) is 94 a.a., with molecular weight of 12.4 kDa.
Background

The ATP5J2 protein is a part of the mitochondrial membrane ATP synthase, also known as Complex V, which is responsible for the synthesis of ATP from ADP in the presence of a proton gradient generated by the electron transport complexes of the respiratory chain. F-type ATPases are structured into two domains: F(1), encompassing the extramembraneous catalytic core, and F(0), housing the membrane proton channel. These domains are connected by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the F(1) catalytic domain is coordinated with proton translocation through a rotary mechanism involving the central stalk subunits. ATP5J2 is specifically located within the F(0) domain, serving as a minor subunit alongside subunit a in the membrane. The overall F-type ATPase complex includes CF(1), the catalytic core, and CF(0), the membrane proton channel, with specific subunits contributing to their distinct functions. ATP5J2 is a component of the larger ATP synthase complex, collaborating with various other subunits to facilitate ATP synthesis.
Species

Human
Source

E. coli Cell-free
Tag

N-10*His
Accession

P56134 (M1-H94)
Gene ID

9551
Molecular Construction
N-term
10*His
ATP5J2 (M1-H94)
Accession # P56134
C-term
Synonyms
ATP synthase subunit f, mitochondrial; ATP synthase membrane subunit f
AA Sequence

MASVGECPAPVPVKDKKLLEVKLGELPSWILMRDFSPSGIFGAFQRGYYRYYNKYINVKKGSISGITMVLACYVLFSYSFSYKHLKHERLRKYH

Molecular Weight

12.4 kDa
Purity

Greater than 90% as determined by reducing SDS-PAGE.
Endotoxin Level

<1 EU/μg, determined by LAL method.
Documentation
Data Sheet (236 KB) Handling Instructions (2659 KB)

ATP5J2 Protein, Human (Cell-Free, His) Related Classifications

Help & FAQs
  • How should lyophilized recombinant proteins be reconstituted and stored?

    1. Before opening the cap, centrifuge the vial at 13000 rpm for 20-30 seconds. This step will ensure that any lyophilized powder that may have adhered to the cap or walls is collected at the bottom of the vial, minimizing the risk of product loss. 2. Taking 10 μg as an example, first add 20 μL of reconstituted solution provided by MCE and use a pipette to gently resuspend the lyophilized protein until it is fully dissolved.. (For most proteins, the reconstitution solution we provide is sterile water. If a diluent other than water is required, it will be indicated in the product's Certificate of Analysis (COA).). 3. Add an additional 80 μL of buffer/culture medium containing carrier protein (either 0.1% BSA, 5% HSA, 10% FBS, or 5% trehalose), and then use a pipette to gently mix until uniform. The final concentration is should not be lower than 100 μg/mL. 4. Aliquot at least 20 μL per tube. 5. After aliquoting, store it frozen at a temperature ranging from -20ºC to -80ºC, and it can be preserved for 3 to 6 months.

  • How should solution-form recombinant proteins be stored?

    1. The product can be stored in its original form and diluted as needed upon use. 2. Alternatively, dilute with a buffer/culture medium containing a carrier protein (either 0.1% BSA, 5% HSA, 10% FBS, or 5% alginate), mix well by pipetting, and ensure that

  • Why is it necessary to add carrier proteins?

    Carrier proteins are commonly added to enhance the stability of recombinant proteins, preventing them from adhering to the walls of the container during freezing or thawing processes. Plastic tubes have a certain adsorptive capacity for proteins, which may lead to difficulty in separating the protein from the tube walls, resulting in a decrease in the actual concentration of the protein in the solution and thus affecting its activity. To minimize such losses, it is recommended to add a commonly used carrier protein solution prior to the long-term storage of recombinant protein products.

  • Carrier protein types and options?

    In cases where the carrier protein is not expected to influence the experimental outcomes, an appropriate carrier protein, such as 0.1% BSA (Bovine Serum Albumin), 5% HSA (Human Serum Albumin), 10% FBS (Fetal Bovine Serum), or 5% trehalose, can be incorpo

  • Reconstitution Calculator

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The reconstitution calculator equation

Volume (to add to vial) = Mass (in vial) ÷ Desired Reconstitution Concentration

Volume (to add to vial) = Mass (in vial) ÷ Desired Reconstitution Concentration
= ÷

The dilution calculator equation

Concentration (start) × Volume (start) = Concentration (final) × Volume (final)

This equation is commonly abbreviated as: C1V1 = C2V2

Concentration (start) × Volume (start) = Concentration (final) × Volume (final)
× = ×
C1   V1   C2   V2

The specific activity calculator equation

Specific Activity (Unit/mg) = 106 ÷ Biological Activity (ED50)

Specific Activity (Unit/mg) = 106 ÷ Biological Activity (ED50)
Unit/mg = 106 ÷ ng/mL

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ATP5J2 Protein, Human (Cell-Free, His)
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