ATP test: Difference between revisions
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==1st generation testing ''vs''. 2nd generation testing== |
==1st generation testing ''vs''. 2nd generation testing== |
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1st generation ATP tests are derived from [[hygiene]] monitoring uses where samples are relatively free of interferences. 2nd Generation tests are specifically designed for water, [[wastewater]] and industrial applications where, for the most part, samples contain a variety of components that can interfere with the ATP assay. |
1st generation ATP tests are derived from [[hygiene]] monitoring uses where samples are relatively free of interferences. 2nd Generation tests are specifically designed for water, [[wastewater]] and industrial applications where, for the most part, samples contain a variety of components that can interfere with the ATP assay. |
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==How ATP is measured== |
==How ATP is measured== |
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* [[Extracellular]] ATP – ATP located outside of biological cells that has been released from dead or stressed organisms. |
* [[Extracellular]] ATP – ATP located outside of biological cells that has been released from dead or stressed organisms. |
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Accurate measurement of these two types of ATP is critical to utilizing ATP-based measurements. Being able to accurately measure these different types of ATP offers the ability to assess biological health and activity, and subsequently control water and [[wastewater]] processes. |
Accurate measurement of these two types of ATP is critical to utilizing ATP-based measurements. Being able to accurately measure these different types of ATP offers the ability to assess biological health and activity, and subsequently control water and [[wastewater]] processes. |
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==See also== |
==See also== |
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==External links== |
==External links== |
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* [http://www.academy.luminultra.com/images/stories/docs/TLD-science-of-atp-monitoring.pdf The Science Behind ATP Monitoring.] |
* [http://www.academy.luminultra.com/images/stories/docs/TLD-science-of-atp-monitoring.pdf The Science Behind ATP Monitoring.] |
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==References== |
==References== |
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{{reflist|2}} |
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[[Category:Microbiology]] |
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[[Category:Microbiology techniques]] |
[[Category:Microbiology techniques]] |
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[[Category:Environmental chemistry]] |
[[Category:Environmental chemistry]] |
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Revision as of 23:37, 26 April 2012
 | This article needs additional citations for verification. (October 2009) |
The ATP test is a process of rapidly measuring actively growing microorganisms through detection of adenosine triphosphate, or ATP.
ATP testing method
ATP is a molecule found in and around living cells, and as such it gives a direct measure of biological concentration and health. ATP is quantified by measuring the light produced through its reaction with the naturally-occurring firefly enzyme luciferase using a luminometer. The amount of light produced is directly proportional to the amount of living organisms present in the sample.
ATP tests can be used to:
- Control biological treatment reactors
- Guide biocide dosing programs
- Determine drinking water cleanliness
- Manage fermentation processes
- Assess soil activity
- Determine corrosion / deposit process type
- Measure equipment or product sanitation
1st generation testing vs. 2nd generation testing
1st generation ATP tests are derived from hygiene monitoring uses where samples are relatively free of interferences. 2nd Generation tests are specifically designed for water, wastewater and industrial applications where, for the most part, samples contain a variety of components that can interfere with the ATP assay.
How ATP is measured
Within a water sample containing microorganisms, there are two types of ATP:
- Intracellular ATP – ATP contained within living biological cells.
- Extracellular ATP – ATP located outside of biological cells that has been released from dead or stressed organisms.
Accurate measurement of these two types of ATP is critical to utilizing ATP-based measurements. Being able to accurately measure these different types of ATP offers the ability to assess biological health and activity, and subsequently control water and wastewater processes.