Sample Preparation
Homogenization
Heating and Mixing
Electrophoresis and Blotting
Polyacrylamide Gel Electrophoresis
Agarose Gel Electrophoresis
Western Blotting
Power Supplies
PCR & qPCR Thermal Cycler
Thermal Cycler (PCR)
Real-time Thermal Cycler (qPCR)
PCR Workstations & Cabinets
UVP BioImaging Systems
Molecular Spectroscopy
Lab Equipment
Ultraviolet Products
Hybridization Ovens
UVP Incubator
UV Crosslinkers
UVP Benchtop Transilluminators
Thermal Mixers
Electrophoresis & Blotting
Thermostats
View All
Fume hood
Laminar Airflow
Biosafety Cabinet
Autoclave
Centrifuge
pH Meter
Shaker & Mixer
Orbital Shaking Incubator
BOD Incubator
Heating Oven
Water Purification System
Aermax - Air Purification
Medical Oxygen Concetrators
Hygiene Solution
-150°C Cryogenic Freezer
-86°C Ultra Low Temp Freezer
-40°C Low Temp Freezer
-18 ~ -25°C Biomedical Freezer
-20°C Biomedical Freezer
4° ± 1°C Blood Bank Refrigerators
2~8°C Pharma Refrigerators
2~8°C ICE Lined Refrigerators
-25°C ~ + 4°C Mobile Freezer/Collers
20~24°C Blood Platelet Incubators
Ice Machines
Coldrooms
Mortuary Chambers
Biosafety labs are the places where the prevention of large-scale biological entities is done. It is performed to get rid of the loss due to the accumulation of large types of biological species which have the potential to alter the results of an experiment. Any lab experiment related to the Life science industry, chemical reaction, or diagnostic test, consists of water. Here, the lab water plays a major role. Without water(Pure Water), the experiments cannot be performed further. The lab water purification system in India has also implemented such a system of pure water to ensure good results in biosafety labs.
In biosafety labs, there is a strict environment in which lab water is used from the water distillation unit for the laboratory. Pure water is needed for all types of purposes in a laboratory. It has various applications which are well performed in biosafety labs with utmost importance. The Lab water has unquestionable importance in a biosafety lab which helps in sustaining the favorable environment.
It all depends on the type of research you do for yourself or your organization. The type of biosafety level is all determined by the type of work you want to do. The various biosafety levels (BSL-1, BSL-2, BSL-3, BSL-4) are designed to make your task easy. Another factor that determines the type of biosafety level is the lab water. The pure water category is also necessary to execute your lab experiments with ease. All kinds of scientific research are performed with the help of pure water from a lab water purification system. However, the lab water does not get that much recognition as other biosafety lab equipment. It is still the unsung hero among the various biosafety lab components. The significance of pure water is all acclaimed in several journals which depict its uses and applications in biosafety laboratories.
Lab water has great applications in biosafety labs. The water is needed to perform various experiments with ease. As lab experiments are highly sensitive, they require a continuous environment for the same. For this purpose, the lab water comes to play. Lab water helps in obtaining a perfect result out of an experiment on its sensitivity. Lab water Purifier serve this purpose efficiently.
Following are some of the areas or prospects of biosafety labs where lab water performs a major role:
Without the use of pure water or lab water, very few experiments can be performed. Almost every type of lab experiment is performed with the association of lab water. The favorable physical and chemical properties of lab water make it more desirable for lab experiments. The water itself is considered as the “ Universal Solvent”, which dissolves almost everything. Pure water can be obtained through any water purification system for laboratory use with ease. Water is the only liquid form that has the potential of dissolving any substance other than any solvent in nature. Some biochemistry experiments are only performed in an aqueous medium.
In the case of organic solvents, water fails to dissolve them because of its polar nature which gives the way to testify the presence of organic materials. Biosafety labs execute a vast number of experiments daily which needs lab water. Although water does not dissolve organic materials, it can dissolve when pure water is superheated to the temperature of 200 Degree Celsius. This property adds extra points to the importance of water in biosafety labs. Every lab water system comprises the production of pure water which can later be used in wider applications of biosafety labs.
Applications Of Lab Water in Dissolution areas:
Pure water is considered one of the essential reagents of biosafety labs that enable many lab experiments. Pure water can be easily obtained through a water distillation unit for the laboratory at lower prices than any other solvents.
After dissolution, the pure water finds its significance in ultra-sensitive analytics of biosafety labs. These analyses rely on pure water to result in fuelling cutting-edge science. The experiments which are carried out in biosafety labs within the sensitivity realm are the most vulnerable ones. It should be tackled very sensibly to get good results. In this scenario, pure water comes into action which helps in giving out the analysis result accurately. The pure water for this is obtained through the water purification system for laboratory use.
Techniques that include such analytical sensitivity are:
With these techniques, biologists and researchers explore the world of chemical and biological systems in detail. The researchers access this exploration through the help of pure water only. The above techniques include pure water obtained from a lab water purification system. With the advent of pure water, the researchers are also able to trace ultrapure substances in the mediums ranging from <1ppm concentrations.
To achieve ultra-sensitivity in biosafety labs, pure water is the most important reagent. It provides the researchers a control system over their lab experiments. For example, researchers can control the type of dissolved substances and can retain the exact concentrations of the solutes also at the same time. This all control leads to higher experimental reproducibility which enhances the lab work. In this instance, pure water also works as fuel for this type of biosafety lab experiment.
Most Molecular Biology experiments are due to the sensitivity of it. This sensitivity of the experiment calls for the involvement of pure water from the lab water system. With pure water, the experiment results are found to be reliable and reproducible. For example, the generation of RNA and DNA is a challenging term, with failed out sequences, double sequences, etc. the large dye blots can alter this recognition which is rectified by the pure water addition. In addition to this, pure water also accounts for low contamination of the mediums used in biosafety labs.
The excess of salts in the medium can hinder your experiments in biosafety labs which are controlled by pure water obtained by a laboratory water purifier. Contamination can be a real confounding factor that can surely alter the experimental results. In such a case, pure water focuses on the sensitivity of the medium and hence, produces good results.
The polymerase chain reaction is the base of any life science biosafety lab experiment. This pioneer lab experiment also uses pure water in abundance to produce great results. The technique takes several hours to finish its work, in which lab water is mixed to get the amplified results.
Like any other reactions in biosafety labs, a polymerase chain reaction is also sensitive. DNA, enzymes, and ions are all subject to sensitivity which is well sustained by lab water. From the first step of DNA hybridization to the cloning one, the pure water makes up the medium for PCR. Without the right amount and type of pure water, PCR cannot be performed swiftly and easily. Perhaps, to fix the agarose gel in the technique, lab water is required in good amounts.
Biosafety labs also execute diagnostic tests that cannot be performed by normal water. Due to the contaminants of normal tap water, it becomes difficult to trace the elements or test the samples. These contaminants can be :
To perform such diagnostic tests, the biosafety labs have a water distillation unit for laboratory. In such units, the researchers can obtain pure water to perform the diagnostic tests. Pure water hence, helps in diagnostic tests also. Some microbiological tests are also performed by the usage of pure water in biosafety labs.
Conclusion
Pure water or Lab water is essential for performing biosafety lab experiments that include molecular biology techniques, diagnostic tests, dissolution experiments, ultra-sensitivity experiments. The biosafety labs have a lot of important reagents, but pure water is the most important one. Pure water has great significance in biosafety labs which should be handled properly to get better results.