Ferris Genomics stands at the forefront of genomic sequencing with its Adaptive Molecular Reaction Assembly (AMRA) technology. This innovative process represents a significant leap forward in whole genome sequencing, offering unprecedented efficiency and cost savings in library preparation. Developed by a team of seasoned experts, AMRA technology is designed to meet the rigorous demands of modern breeding programs, facilitating the development of more productive and resilient plants and animals.
The Adaptive Molecular Reaction Assembly (AMRA) technology streamlines genomic sequencing with a microfluidic approach. This efficient method allows for more cost-effective data collection, enabling more sequencing for the same investment, which is particularly beneficial for large-scale breeding programs. The flexible design of the AMRA technology ensures compatibility with a wide range of genomic samples and reagents, minimizing consumable use and maximizing resource efficiency.
Key Features
The Adaptive Molecular Reaction Assembly (AMRA) technology is a key feature, streamlining genomic sequencing with a microfluidic approach. This innovative method allows for more efficient library preparation, reducing the time and resources required for whole genome sequencing. The microfluidic miniaturization contributes to the high reaction efficiency and reduces the risk of contamination.
Another significant feature is the droplet-based process, which enables high-throughput, contamination-free reactions in a stable environment. This process ensures the integrity of the samples and provides reliable results for genomic research and breeding applications. The 'addition-only' steps in the library preparation offer flexibility, allowing researchers to customize the process according to their specific needs.
The high reaction efficiency of AMRA technology leads to balanced libraries and high-quality DNA/RNA extractions. This ensures that the sequencing data is accurate and representative of the sample, improving the reliability of downstream analysis. Additionally, the service offers a rapid turnaround of 5-10 days from sample collection to data return, enabling timely decision-making in breeding programs.
Technical Specifications
| Specification | Value |
|---|---|
| Technology | Adaptive Molecular Reaction Assembly (AMRA) |
| Sample Compatibility | Broad range of plant and animal genomes |
| Output | High-quality DNA/RNA extractions, balanced libraries |
| Service Turnaround | 5-10 days |
| Reaction Type | Droplet-based |
| Throughput | High |
| Reaction Efficiency | High |
| Process | Addition-only steps |
Use Cases & Applications
Ferris Genomics AMRA is used in various applications, including genomic research, development of resilient and productive plants and animals, and predictive breeding. For example, researchers can use AMRA to identify genes associated with drought tolerance in crops, enabling the development of more resilient varieties. Breeders can leverage AMRA to accelerate the breeding process by accurately predicting the performance of offspring based on their genomic profiles.
Another application is in livestock breeding, where AMRA can be used to identify animals with superior traits, such as disease resistance or higher milk production. This allows breeders to select the best animals for breeding, improving the overall productivity and health of the herd. Furthermore, AMRA can be used for whole-genome sequencing, skim sequencing, and genotype imputation, providing a comprehensive understanding of the genetic makeup of plants and animals.
AMRA also facilitates the customized development of genomics-driven breeding programs. By providing efficient and cost-effective sequencing data, it enables breeders to make informed decisions based on genetic information, leading to faster and more effective breeding outcomes. This is particularly valuable for row crops and specialty crops, where genetic improvement can significantly impact yield and quality.
Strengths & Weaknesses
| Strengths ✅ | Weaknesses ⚠️ |
|---|---|
| Cost-effective whole genome sequencing library preparation | Pricing information is not publicly available |
| High-throughput, contamination-free reactions due to droplet-based process | Requires specialized equipment and expertise for operation |
| Flexible library preparation with 'addition-only' steps | Dependent on the quality of input samples |
| Rapid turnaround time of 5-10 days | Integration with existing bioinformatics pipelines may require customization |
| Compatible with a broad range of plant and animal genomes |
Benefits for Farmers
Ferris Genomics AMRA offers several benefits for farmers, including time savings, cost reduction, and yield improvement. By providing rapid and efficient sequencing data, it accelerates the breeding process, allowing farmers to develop improved varieties more quickly. The cost-effective nature of the technology enables farmers to conduct more sequencing within the same budget, leading to better-informed breeding decisions. This ultimately results in higher yields and improved crop quality, increasing profitability for farmers.
Integration & Compatibility
The sequencing data generated by Ferris Genomics AMRA can be integrated with various bioinformatics pipelines and breeding management systems. This allows farmers and researchers to analyze the data and make informed decisions about breeding strategies. The technology is compatible with a wide range of plant and animal genomes, making it suitable for various farming operations. The data can be used to predict the performance of offspring, select the best animals for breeding, and develop customized breeding programs.
Frequently Asked Questions
| Question | Answer |
|---|---|
| How does this product work? | Ferris Genomics AMRA uses Adaptive Molecular Reaction Assembly (AMRA) technology, a microfluidic approach that streamlines genomic sequencing. This droplet-based process enables high-throughput, contamination-free reactions for efficient library preparation and high-quality DNA/RNA extractions. |
| What is the typical ROI? | The technology aims for cost-effective whole genome sequencing library preparation, enabling more sequencing for the same investment. This leads to potential cost savings in breeding programs and genomic research. |
| What setup is required? | Ferris Genomics AMRA offers a service, so the setup involves sample collection and shipment. The company handles the library preparation and sequencing processes. |
| What maintenance is needed? | As a service, there is no maintenance required by the user. Ferris Genomics handles all maintenance and upkeep of their AMRA technology. |
| Is training required to use this? | No specific training is required, as Ferris Genomics AMRA provides a complete service. Users receive the sequencing data and analysis. |
| What systems does it integrate with? | The sequencing data generated by Ferris Genomics AMRA can be integrated with various bioinformatics pipelines and breeding management systems for further analysis and decision-making. |
| What types of samples are compatible with AMRA? | AMRA technology is compatible with a broad range of plant and animal genomes, offering flexibility for various research and breeding applications. |
| What is the turnaround time for receiving sequencing data? | The service turnaround is typically 5-10 days from sample collection to data return, providing rapid results for timely decision-making. |
Pricing & Availability
Pricing information is not publicly available. However, the technology aims for cost-effective whole genome sequencing library preparation. Factors that can affect pricing include the scale of the project, the type of samples, and any custom analysis requirements. Contact us via the Make inquiry button on this page.
Support & Training
Ferris Genomics AMRA provides comprehensive support and training to ensure users can effectively utilize the sequencing data. This includes assistance with data analysis, interpretation, and integration with existing breeding programs. The company offers ongoing support to address any questions or concerns that may arise during the research or breeding process.
