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Amplite® Colorimetric L-Lactate Assay Kit
Lactic acid is chiral and has two optical isomers: L-lactic acid and D-lactic acid. Lactate is constantly produced from pyruvate via the enzyme lactate dehydrogenase (LDH) in the process of metabolism and exercise. Monitoring lactate levels is a good way to evaluate the balance between tissue oxygen demand and utilization and is useful when studying cellular and animal physiology. D-lactate is not metabolized by mammals and its elimination from the body depends mainly on renal excretion. D- and L-lactic acid are found in many fermented milk products such as yoghurt and cheese, and also in pickled vegetables, and cured meats and fish. The D- and L-lactic acid (generated by bacteria) is a quality indicator of foods, such as egg, milk, fruit juice and wine. Abnormal high concentration of D-lactate in the blood is usually a reflection of bacterial overgrowth in the gastrointestinal tract. AAT Bioquest's Amplite® Lactate Assay Kits (Cat# 13814 and 13815 for L-lactate assay, and Cat# 13810 and 13811 for D-lactate assay) provide both fluorescence and absorbance-based method for detecting either L-lactate or D-lactate in biological samples such as serum, plasma, urine, as well as in cell culture samples. In the enzyme coupled assay, lactate is proportionally related to NADH, which is specifically monitored by a chromogenic NADH sensor. The signal can easily read by an absorbance microplate reader at the absorbance ratio of ~A575nm/A605nm to increase assay sensitivity. With this Colorimetric Amplite® L-Lactate Assay Kit, we were able to detect as little as 4 µM L-lactate in a 100 µL reaction volume.
Example protocol
AT A GLANCE
Protocol Summary
- Prepare L-Lactate standards or test samples (50 µL)
- Add L-Lactate working solution (50 µL)
- Incubate at room temperature for 30 min - 2 hours
- Monitor absorbance ratio increase at A575nm/A605nm
PREPARATION OF STOCK SOLUTIONS
Unless otherwise noted, all unused stock solutions should be divided into single-use aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.
1. NAD stock solution (100X)
Add 100 µL of H2O into the vial of NAD (Component C) to make 100X NAD stock solution.2. L-Lactate standard solution (100 mM)
Add 200 µL of H2O or 1x PBS buffer into the vial of L-Lactate Standard (Component D) to make 100 mM L-Lactate standard solution.PREPARATION OF STANDARD SOLUTION
For convenience, use the Serial Dilution Planner:
https://www.aatbio.com/tools/serial-dilution/13815
https://www.aatbio.com/tools/serial-dilution/13815
L-Lactate standard
Add 10 µL of 100 mM L-Lactate standard solution into 990 µL 1xPBS buffer to generate 1 mM L-Lactate standard solution (SD7). Take 1 mM L-Lactate standard solution (SD7) and perform 1:3 serial dilutions in 1xPBS buffer to get serially diluted L-Lactate standards (SD6 - SD1). Note: Diluted L-Lactate standard solution is unstable, and should be used within 4 hours.PREPARATION OF WORKING SOLUTION
- Add 5 mL of Assay Buffer (Component B) into one bottle of Enzyme Probe (Component A), and mix well.
- Add 50 µL of 100X NAD stock solution into the bottle of Component A+B and mix well to make L-Lactate working solution.
Note This L-Lactate working solution is enough for one 96-well plate. It is unstable and should be used promptly within 2 hours. Avoid exposure to light.
Note Alternatively, one can make a 50X of L-Lactate Enzyme stock solution by adding 100 μL of H2O into the bottle of Enzyme Mix (Component A), and then prepare the L-Lactate working solution by mix the stock solution with Assay Buffer (Component B) and 100X NAD stock solution proportionally.
SAMPLE EXPERIMENTAL PROTOCOL
Table 1. Layout of L-Lactate standards and test samples in a white clear bottom 96-well microplate. SD= L-Lactate Standards (SD1 - SD7, 1 to 1000 µM), BL=Blank Control, TS=Test Samples.
Table 2. Reagent composition for each well.
| BL | BL | TS | TS |
| SD1 | SD1 | ... | ... |
| SD2 | SD2 | ... | ... |
| SD3 | SD3 | ||
| SD4 | SD4 | ||
| SD5 | SD5 | ||
| SD6 | SD6 | ||
| SD7 | SD7 |
| Well | Volume | Reagent |
| SD1 - SD7 | 50 µL | Serial Dilutions (1 to 1000 µM) |
| BL | 50 µL | Dilution Buffer |
| TS | 50 µL | test sample |
- Prepare L-Lactate standards (SD), blank controls (BL), and test samples (TS) according to the layout provided in Tables 1 and 2. For a 384-well plate, use 25 µL of reagent per well instead of 50 µL.
- Add 50 µL of L-Lactate working solution to each well of L-Lactate standard, blank control, and test samples to make the total L-Lactate assay volume of 100 µL/well. For a 384-well plate, add 25 µL of L-Lactate working solution into each well instead, for a total volume of 50 µL/well.
- Incubate the reaction at room temperature for 30 minutes to 2 hours, protected from light.
- Monitor the absorbance ratio increase with an absorbance plate reader at A575nm/A605nm.
Citations
View all 36 citations: Citation Explorer
TRIM33 promotes glycolysis through regulating P53 K48-linked ubiquitination to promote esophageal squamous cell carcinoma growth
Authors: Xia, Tian and Meng, Lian and Xu, Guixuan and Sun, Hao and Chen, Hao
Journal: Cell Death \& Disease (2024): 740
Authors: Xia, Tian and Meng, Lian and Xu, Guixuan and Sun, Hao and Chen, Hao
Journal: Cell Death \& Disease (2024): 740
Diamond-Like Carbon Depositing on the Surface of Polylactide Membrane for Prevention of Adhesion Formation During Tendon Repair
Authors: Xiao, Yao and Tao, Zaijin and Ju, Yufeng and Huang, Xiaolu and Zhang, Xinshu and Liu, Xiaonan and Volotovski, Pavel A and Huang, Chao and Chen, Hongqi and Zhang, Yaozhong and others,
Journal: Nano-Micro Letters (2024): 1--22
Authors: Xiao, Yao and Tao, Zaijin and Ju, Yufeng and Huang, Xiaolu and Zhang, Xinshu and Liu, Xiaonan and Volotovski, Pavel A and Huang, Chao and Chen, Hongqi and Zhang, Yaozhong and others,
Journal: Nano-Micro Letters (2024): 1--22
Mitochondrial Common Deletion Level in Adipose Tissue Is Not Associated with Obesity but Is Associated with a Structural Change in Triglycerides as Revealed by FTIR Spectroscopy
Authors: Bahtiyarb, Ayda Y{\i}lmaza Nurten and Zengind, Ay{\c{c}}a Do{\u{g}}an Mollao{\u{g}}luc Kagan and Onur, Halit Eren Taskind Ayla Karimovae and Ulutine, Baykarae Turgut and Onarane, Ilhan
Journal: (2023)
Authors: Bahtiyarb, Ayda Y{\i}lmaza Nurten and Zengind, Ay{\c{c}}a Do{\u{g}}an Mollao{\u{g}}luc Kagan and Onur, Halit Eren Taskind Ayla Karimovae and Ulutine, Baykarae Turgut and Onarane, Ilhan
Journal: (2023)
Neudesin, A Secretory Protein, Suppresses Cytokine Production in Bone Marrow-Derived Dendritic Cells Stimulated by Lipopolysaccharide
Authors: Kondo, Naoto and Masuda, Yuki and Nakayama, Yoshiaki and Shimizu, Ryohei and Tanigaki, Takumi and Yasui, Yuri and Itoh, Nobuyuki and Konishi, Morichika
Journal: BPB Reports (2023): 155--162
Authors: Kondo, Naoto and Masuda, Yuki and Nakayama, Yoshiaki and Shimizu, Ryohei and Tanigaki, Takumi and Yasui, Yuri and Itoh, Nobuyuki and Konishi, Morichika
Journal: BPB Reports (2023): 155--162
Adipocytes promote pancreatic cancer migration and invasion through fatty acid metabolic reprogramming
Authors: Cai, Zhiwei and Li, Yang and Ma, Mingjian and Wang, Longxiang and Wang, Hongwei and Liu, Meng and Jiang, Chongyi
Journal: Oncology Reports (2023): 1--14
Authors: Cai, Zhiwei and Li, Yang and Ma, Mingjian and Wang, Longxiang and Wang, Hongwei and Liu, Meng and Jiang, Chongyi
Journal: Oncology Reports (2023): 1--14
References
View all 72 references: Citation Explorer
DNA binding, antioxidant, cytotoxicity (MTT, lactate dehydrogenase, NO), and cellular uptake studies of structurally different nickel(II) thiosemicarbazone complexes: synthesis, spectroscopy, electrochemistry, and X-ray crystallography
Authors: Prabhakaran R, Kalaivani P, Huang R, Poornima P, Vijaya Padma V, Dallemer F, Natarajan K.
Journal: J Biol Inorg Chem (2013): 233
Authors: Prabhakaran R, Kalaivani P, Huang R, Poornima P, Vijaya Padma V, Dallemer F, Natarajan K.
Journal: J Biol Inorg Chem (2013): 233
A lactate dehydrogenase ELISA-based assay for the in vitro determination of Plasmodium berghei sensitivity to anti-malarial drugs
Authors: Orjuela-Sanchez P, Duggan E, Nolan J, Frangos JA, Carvalho LJ.
Journal: Malar J (2012): 366
Authors: Orjuela-Sanchez P, Duggan E, Nolan J, Frangos JA, Carvalho LJ.
Journal: Malar J (2012): 366
Association of degree and type of edema in posterior reversible encephalopathy syndrome with serum lactate dehydrogenase level: initial experience
Authors: Gao B, Liu FL, Zhao B.
Journal: Eur J Radiol (2012): 2844
Authors: Gao B, Liu FL, Zhao B.
Journal: Eur J Radiol (2012): 2844
Towards improved prognostic scores predicting survival in patients with brain metastases: a pilot study of serum lactate dehydrogenase levels
Authors: Nieder C, Marienhagen K, Dalhaug A, Norum J.
Journal: ScientificWorldJournal (2012): 609323
Authors: Nieder C, Marienhagen K, Dalhaug A, Norum J.
Journal: ScientificWorldJournal (2012): 609323
Adult-onset multiple acyl CoA dehydrogenation deficiency associated with an abnormal isoenzyme pattern of serum lactate dehydrogenase
Authors: Sugai F, Baba K, Toyooka K, Liang WC, Nishino I, Yamadera M, Sumi H, Fujimura H, Nishikawa Y.
Journal: Neuromuscul Disord (2012): 159
Authors: Sugai F, Baba K, Toyooka K, Liang WC, Nishino I, Yamadera M, Sumi H, Fujimura H, Nishikawa Y.
Journal: Neuromuscul Disord (2012): 159
Page updated on November 21, 2024
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