The 96-Well Full-skirt PCR Plates are made from high-quality polypropylene, which is a durable and resistant material.
Part No. | Description | Package | Size/Case | CBM/Case | GW/Case (kg) |
PCRP-10FS | 0.1ml 96-well Full-skirt, qPCR plates, clear | 10pcs/box, 10box/case | 47*29*14cm | 0.0191 | 2.63 |
PCRP-20FSR | 0.2ml 96-well Full-skirt, qPCR plates, white base, clear wells | 10pcs/box, 10box/case | 47*29*14cm | 0.0191 | 2.63 |
PCRP-20FSR-W | 0.2ml 96-well Full-skirt, qPCR plates, white base, white wells | 10pcs/box, 10box/case | 47*29*14cm | 0.0191 | 2.63 |
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1. Genotyping: These PCR plates are ideal for performing genotyping assays, allowing for simultaneous amplification and analysis of multiple DNA samples in a high-throughput manner.
2. Gene Expression Analysis: The 96-well format of these plates is well-suited for gene expression analysis, including reverse transcription PCR (RT-PCR). With the ability to process multiple samples at once, researchers can efficiently profile gene expression patterns and study gene regulation mechanisms.
3. Cloning: The Full-skirt PCR Plates are excellent tools for PCR amplification during cloning experiments. They offer a reliable platform for replicating and amplifying DNA fragments of interest for further manipulation.
4. PCR Amplifications: With their flat bottom and raised skirt, these plates provide optimal conditions for performing various PCR amplifications, including endpoint PCR and quantitative PCR (qPCR).
5. High-throughput Screening: The 96-well format, compatibility with automated systems, and validation for high-throughput applications make these plates well-suited for screening large compound libraries, conducting drug discovery research, or performing high-throughput functional genomics studies.
6. Next-Generation Sequencing (NGS) Library Preparation: The compatibility of full skirt PCR plate with automated liquid handling systems makes them useful for NGS library preparation workflows.
7. SNP Genotyping: These plates are commonly used for single nucleotide polymorphism (SNP) genotyping, which is of great importance in genetic studies, pharmacogenomics, and disease association studies.
8. DNA/RNA Library Preparation: These PCR plates are often employed in DNA or RNA library preparation for various downstream applications, such as sequencing, microarray analysis, or gene expression profiling.
9. Real-time PCR (qPCR): The 96-well format and well-characterized thermal properties of these plates make them suitable for real-time PCR applications, offering precise and quantitative analysis of gene expression, copy number variations, or microbial detection.
10. Molecular Diagnostics: The consistent and reliable performance of these PCR plates makes them valuable tools in molecular diagnostic workflows, including pathogen detection, genetic disease screening, or identification of genetic variants associated with drug response.
1. 96-well full-skirt PCR plates allow for better temperature control during PCR reactions since they have a larger surface area than other types of PCR plates.
2. They also provide greater evaporation protection, ensuring that reactions remain consistent.
3. The larger surface area also ensures better thermal conductivity, enhancing the accuracy of the PCR results.
4. The full-skirt design allows for easier handling and cleaning.
5. They are also more economical since they allow for the use of smaller amounts of PCR reagents.
The 96-Well Full-skirt PCR Plates are made from high-quality polypropylene, which is a durable and resistant material.
Yes, these plates are specifically designed to be compatible with automated liquid handling systems and robotic platforms, making sample processing more efficient and streamlined.
Yes, these plates can be securely sealed using various types of heat-sealing films or adhesive seals to prevent sample evaporation or cross-contamination during storage or thermal cycling.
Yes, besides the standard 96-well format, these plates are also available in other well formats such as 384-well or 1536-well, allowing researchers to choose the size that best suits their experimental needs.
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