EnzyFluo™ NAD/NADH Assay Kit

Référence EFND-100

Conditionnement : 100tests

Marque : BioAssay Systems

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EnzyFluo™ NAD/NADH Assay Kit



Application

  • For sensitive determination of NAD and NADH and evaluation of drug effects on NAD/NADH metabolism.

Key Features

  • Sensitive and accurate. Detection limit of 0.02 µM and linearity up to 1 µM NAD+/NADH in 96-well plate assay.
  • Convenient. The procedure involves adding a single working reagent, and reading the fluorescence at time zero and 10 min.
  • High-throughput. Can be readily automated as a high-throughput 96-well plate assay for thousands of samples per day.

Method

  • F530/585nm

Samples

Species

  • All

Procedure

  • 10 min

Size

  • 100 tests

Detection Limit

  • 0.02 µM

Shelf Life

  • 6 months

More Details

Pyridine nucleotides play an important role in metabolism and, thus, there is continual interest in monitoring their concentration levels. Quantitative determination of NAD+/NADH has applications in research pertaining to energy transformation and redox state of cells or tissue. BioAssay Systems EnzyFluo™ NAD+/NADH assay kit is based on a lactate dehydrogenase cycling reaction, in which the formed NADH reduces a probe into a highly fluorescent product. The fluorescence intensity of this product, measured at λex/em = 530/585 nm, is proportional to the NAD+/NADH concentration in the sample. This assay is highly specific for NAD+/NADH with minimal interference (<1%) by NADP+/NADPH and is a convenient method to measure NAD, NADH and their ratio.Direct NAD/NADH Assays in 96-Well PlateNEW!!!

Can I determine NAD/NADH directly in 96-well plates?

Yes, NAD/NADH can be determined directly in 96-well plate. Please see our optimized protocol Direct NAD/NADH Assays in 96-Well Plate

When tissue is used, should it be freshly obtained? Or is -80°C storage ok?

If direct sample processing is not possible, we recommend snap freezing tissue samples in liquid nitrogen and keeping them either in liquid nitrogen or at -80°C until further processing.

I have conducted protocols that involve trypsinizing cells, washing with PBS, pelleting, and then applying extraction buffer. My concern with this method is that PBS is known to cause mitochondrial fragmentation very soon after application to cells. Obviously, the functionality of the mitochondria is very important for NADH/NAD levels. I developed an alternative by keeping my cells adhered to the plate, washing once with pbs, applying heated extraction buffer to the cells directly and then scraping cells off. Do you have any thoughts or experience that would indicate whether one method is better than the other?

The second method is better because the first method may cause mitochondrial fragmentation and thus may alter intracellular NAD/NADH concentrations. The second method involves less pretreatment. Adding the heated extraction buffer terminates the metabolic reactions in the cells and is thus much less likely to alter the intracellular NAD/NADH concentrations.

I have also done many experiments with different numbers of cells. What I notice is that there seems to be a sigmoidal relationship between the number of cells and the NAD and NADH concentrations. I am using C2C12 and H9C2 cells. Do you have any experience with these cells at different seeding densities? Also, do you consistently see a relationship between number of cells NAD(H) concentrations? Is this relationship linear, exponential, sigmoidal?

We have not done these experiments. Your results are very interesting, and not unexpected. In general, cells are healthy at certain densities. When cells lack contacts for a healthy environment at low density, they are likely to produce less NAD/NADH, and if too dense, the cells become less active and thus would reach a plateau in NAD/NADH concentrations.

Chaurasiya, A., et al. (2021). Pathogen induced subversion of NAD+ metabolism mediating host cell death: a target for development of chemotherapeutics. Cell Death Discovery 7(1): 10. Assay: NAD and NADH in microbial cells.

Joe, Y., et al. (2020). Cross-talk between CD38 and TTP is essential for resolution of inflammation during microbial sepsis. Cell Reports 30(4): 1063-1076.e5. Assay: NAD and NADH in mouse cells.

Zhang, M., et al. (2020). Dysregulated metabolic pathways in age-related macular degeneration. Scientific Reports 10(1): 2464. Assay: NAD and NADH in human cells.

Liemburg-Apers, Dania C., et al (2016). Acute stimulation of glucose influx upon mitoenergetic dysfunction requires LKB1, AMPK, Sirt2 and mTOR-RAPTOR. J Cell Sci 129.23: 4411-4423. Assay: NAD/NADH in mouse cells.

Kim, Ha-Neui, et al. (2015) Sirtuin1 suppresses osteoclastogenesis by deacetylating FoxOs. Molecular Endocrinology 29.10: 1498-1509. Assay: NAD/NADH in mice.

To find more recent publications, please click here.

If you or your labs do not have the equipment or scientists necessary to run this assay, BioAssay Systems can perform the service for you.

– Fast turnaround
– Quality data
– Low cost

NAD/NADH Assay Kit
$469.00
Catalog No: EFND-100 Categories Agriculture & Environment, Diabetes & Obesity, Metabolism, Oxidative Stress Tags Agriculture & Environment, Diabetes & Obesity, EFND-100, EnzyFluo NAD/NADH Assay Kits, EnzyFluoTM NAD/NADH Assay Kit, metabolism, NAD/NADH assay kits, NAD/NADH determination kits, NAD/NADH measurement kits, NAD/NADH test kits, Oxidative Stress

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