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Looking to buy the best Aes Environmental PCR System for sale? Get Quotes sends your requirements to expert suppliers in Australia so you get personalised quotes to compare PCR System prices, specifications, features and terms then choose the one that’s right for you. Also compare servicing, consumables and reviews, so you can buy with confidence.
AES Environmental | Air Filtration and Pollution Control AES Environmental has manufacturing capabilities in both its main headquarters and in local branches across Australia. The advantage of this local manufacture is fast lead times and flexibility to make non-standard products as required.
Our Warehousing operations in each branch maintain stock of the high-demand filter products such as standard-size panel filters, replacement ...
A PCR (polymerase chain reaction) system is a laboratory technique used to amplify a specific DNA sequence. It works by using a DNA template, primers (short DNA sequences that bind to the template), and a DNA polymerase enzyme to repeatedly copy and amplify the target DNA sequence. The process involves cycles of heating and cooling to denature the DNA, anneal the primers, and extend the new DNA strands. The resulting amplified DNA can then be analyzed for various purposes, such as genetic testing or disease diagnosis.
What are the different types of PCR systems available in the market?
There are several types of PCR systems available in the market, including:
Standard PCR: This is the most basic type of PCR system that amplifies a specific DNA sequence using primers and a DNA polymerase enzyme.
Real-time PCR: This type of PCR system allows for the detection and quantification of DNA in real-time as the reaction is occurring.
Reverse transcription PCR (RT-PCR): This type of PCR system is used to amplify RNA sequences by first converting them into complementary DNA (cDNA) using reverse transcriptase enzyme.
Digital PCR: This type of PCR system partitions a sample into thousands of individual reactions, allowing for the detection and quantification of rare DNA sequences.
Nested PCR: This type of PCR system involves two rounds of amplification, with the second round using primers that are nested within the first set of primers.
Multiplex PCR: This type of PCR system allows for the amplification of multiple DNA sequences simultaneously using multiple sets of primers.
Hot-start PCR: This type of PCR system involves the use of modified DNA polymerase enzymes that are inactive at room temperature, preventing non-specific amplification during the initial stages of the reaction.
What are the key features to consider when buying a PCR system?
When buying a PCR system, there are several key features to consider:
Throughput: The number of samples that can be processed at once is an important consideration. Some systems can process only a few samples at a time, while others can handle hundreds.
Speed: The time it takes to run a PCR cycle can vary between systems. Some systems can complete a cycle in less than 30 minutes, while others may take several hours.
Accuracy: The accuracy of the system is critical, as even small errors can lead to inaccurate results. Look for systems with high accuracy and precision.
Sensitivity: The sensitivity of the system is also important, as it determines the lowest amount of DNA or RNA that can be detected. Look for systems with high sensitivity if you need to detect low levels of nucleic acids.
Flexibility: Some systems are designed for specific applications, while others are more flexible and can be used for a variety of PCR applications. Consider your specific needs when choosing a system.
User-friendliness: The ease of use of the system is also an important consideration. Look for systems with intuitive interfaces and easy-to-follow protocols.
Cost: PCR systems can vary widely in price, so it's important to consider your budget when choosing a system. However, keep in mind that cheaper systems may not offer the same level of accuracy, sensitivity, or throughput as more expensive systems.
What is the price range of PCR systems in Australia?
However, based on my research, the price range of PCR systems in Australia can vary depending on the brand, model, and features. Generally, PCR systems can range from a few thousand dollars to tens of thousands of dollars. It is best to consult with a supplier or manufacturer for the most accurate and up-to-date pricing information.
What is the warranty and after-sales support offered by the manufacturer?
The warranty and after-sales support offered by the manufacturer refers to the guarantee and assistance provided by the company after the purchase of a product. The warranty typically covers defects in materials and workmanship for a certain period of time, while after-sales support includes services such as technical support, repairs, and replacements. The length and terms of the warranty and after-sales support vary depending on the manufacturer and the product. It is important to review the warranty and after-sales support before making a purchase to ensure that the product is backed by a reliable and comprehensive guarantee.
What are the consumables required for running a PCR system, and how much do they cost?
The consumables required for running a PCR system include PCR reagents (such as Taq polymerase, dNTPs, and buffer), PCR tubes, PCR plates, and PCR primers. The cost of these consumables can vary depending on the supplier and the quantity purchased. For example, a 500-unit pack of Taq polymerase can cost around $200, while a pack of 1,000 PCR tubes can cost around $50. The cost of PCR primers can also vary depending on the length and complexity of the sequence, but can range from $0.10 to $0.50 per base pair. Overall, the cost of consumables for running a PCR system can range from a few hundred to a few thousand dollars depending on the size and complexity of the experiment.
What is the throughput capacity of the PCR system?
The throughput capacity of a PCR system can vary depending on the model and specifications of the instrument. It is best to consult the manufacturer's specifications or contact their customer support for more information.
What is the turnaround time for getting results from a PCR system?
The turnaround time for getting results from a PCR system can vary depending on the specific system and the type of test being performed. However, in general, PCR tests can provide results within a few hours to a few days. Rapid PCR tests can provide results in as little as 15-30 minutes, while standard PCR tests may take several hours or even days to complete. Factors that can affect the turnaround time include the complexity of the test, the number of samples being processed, and the availability of testing resources.
What are the applications of PCR systems in research and diagnostics?
PCR (polymerase chain reaction) systems have a wide range of applications in research and diagnostics. Some of the key applications include:
Gene expression analysis: PCR can be used to study gene expression patterns in different tissues and under different conditions.
Disease diagnosis: PCR can be used to detect the presence of pathogens in clinical samples, such as viruses and bacteria.
Genetic testing: PCR can be used to detect genetic mutations associated with inherited diseases.
Forensic analysis: PCR can be used to analyze DNA samples in criminal investigations and paternity testing.
Environmental monitoring: PCR can be used to detect and quantify microorganisms in environmental samples, such as water and soil.
Food safety testing: PCR can be used to detect the presence of foodborne pathogens in food products.
Overall, PCR systems have revolutionized the field of molecular biology and have become an essential tool in both research and diagnostics.
What are the regulatory requirements for using a PCR system in Australia?
In Australia, the regulatory requirements for using a PCR system depend on the intended use of the system. If the PCR system is used for diagnostic purposes, it must comply with the regulations set by the Therapeutic Goods Administration (TGA). This includes obtaining a medical device registration and complying with the requirements for quality control, labeling, and advertising. If the PCR system is used for research purposes, it must comply with the regulations set by the Office of the Gene Technology Regulator (OGTR). This includes obtaining a license for dealing with genetically modified organisms (GMOs) and complying with the requirements for containment, monitoring, and reporting. Additionally, all PCR systems must comply with the Australian Standards for laboratory testing and accreditation.
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