3 Ways Technology is Used Monitor Microbes

3 Ways Technology is Used Monitor Microbes

Microbes test kits are designed for testing situations, and a variety of companies use the solutions in a typical kit to pinpoint organisms in water and food. By using technology and microbial enzymes, scientists are able to strategically engineer test kits that can detect the most common micro organisms. Although there are many organisms that contaminate food and water, the process of monitoring substances in a safe manner is simple, as the latest microbes kits use practical reagents to detect harsh micro organisms.


Cytochrome oxidase is an enzyme that’s found in many areas throughout a rural environment. Scientists use technology to gather this enzyme in order to lower cytochrome C levels in water. When cytochrome oxidase is used strategically, it effectively transfers electrons until they have molecular oxygen properties. Then, the lowered cytochrome oxidase enzyme transfers everything to an active form.

Oxidase is a practical microbe detection solution because it takes advantage of molecular oxygen. When there is enough molecular oxygen in water, oxidase enzymes are able to reduce organic substances.


E.coli is used to pinpoint Esherichia coli, which is commonly found in contaminated water. This substance detects Esherichia coli by pinpointing two specific enzymes that are produced from E. coli strains. B-D glucuronidase is one of the main strains, and trytophanase is the other E.coli substance. When E.coli is used in a contaminated environment, it pinpoints B-D glucuronidase activity, which is a simple process since B-D glucuronidase has certain properties that attract E.coli. Enterobacteriaceae is also detected during the process; this substance is found in nearly 95 percent of E-coli strains. Besides E.coli, there are only two other substances that can detect enterobacteriaceae; these substances are shigella and salmonella.

When scientists use technology to detect microbes with E.coli, they consider tryphanase activity. This strategy is beneficial since tryphanase is found in 99 percent of typical E.coli strains.


Indole helps scientists and microbe defense teams determine whether or not a micro organism can successfully convert a tryptophan substance into indole. Tryptophan microbe defense routines are important because the substance is commonly found in products that have ammonia and pryuvic acid. Indole is a very efficient solution because it generates a reaction by interacting with tryptophanse in an enzyme system. When indole solutions are used to detect microbes in large batches, the process monitoring various levels of contamination is easy since the tryptophan produces a colorful reaction when it combines with 4-dimethylaminobenzaldehyde.

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