Fragment Analyzer

Eliminate Sample Quality Control Bottlenecks to Obtain Reliable Results Faster


The Agilent Fragment Analyzer systems employ several unique design features to alleviate common quality control choke points. These features include, increased instrument availability, flexible and dependable operations, and customizable runs helping you reach results faster.

Using automated parallel capillary electrophoresis, the Fragment Analyzer systems offer nucleic acid quality control for a range of applications, including NGS libraries and cfDNA QC. Simple sample preparation, automated operation, and intuitive analysis software contribute to efficient and accurate measurement.

There are three models, varying only in throughput, to fit the needs of any lab.
 

5200 Fragment Analyzer System

5300 Fragment Analyzer System

5400 Fragment Analyzer System


Medium throughput system for labs
running 12-96 samples one to three
times per day.
High-throughput system for labs
running one to two 96-well plates up
to three times per day.
Ultrahigh-throughput system for
robotic automation running more than
two 96-well plates per day.



 

Take Advantage of the Benefits of Automated Parallel Electrophoresis


A smooth workflow helps reduce user stress and increase efficiency. The Fragment Analyzer systems offer many workflow advantages to users of all types. Whether you run a dozen or hundreds of samples per day, you will experience an intuitive instrument designed with the user in mind.
 


Easy set up and programming allows you to use your time efficiently.


– Unattended operation provides additional time for concentrating on other tasks

– Two gel capacity enables seamless switching between applications

– Single dilution of a sample simplifies run preparation

– No daily array handling and room-temperature stable reagents minimize hands on time


Easily adapt to changes in your workflow with flexible options.


– Maximize for speed or resolution of individual samples by choosing a shorter or longer array

– Minimize wait times with the capability to program additional sample trays during active runs

– Intuitive software allows changing the priority of runs in the queue

– Extend separation time during a run for more thorough sample analysis


Identify samples suitable for your applications with quality data.


– Quality metrics for RNA (RQN) and genomic DNA (GQN) remove subjective quality calls

– Reliable smear analysis delivers accurate molarity calculations

– See clear results with separation resolution as good as 3 bp

– DNA and RNA input concentration ranges cover two orders of magnitude to provide a wide dynamic range



 

Features of the Fragment Analyzer Systems


The Fragment Analyzer systems were designed to improve the efficiency of quality control workflows while keeping researchers in mind. Key instrument features mean you can perform analysis unattended, helping you minimize time to results. These features also allow a smoother transition between the needs of multiple researchers improving your lab’s efficiency.
 


 

Key Features of the Capillary Arrays


The capillary array is the basis of the Fragment Analyzer systems. Once filled with gel, voltage is applied to first inject, then move DNA and RNA samples through individual capillaries in a sizedependent manner. As the fragments pass the detection window, a sensitive Charged Coupled Device (CCD) detector captures the size and concentration levels of the fragments which are then displayed in ProSize data analysis software.
 


Suitable for RNA and DNA


Every capillary array can reliably separate DNA and RNA samples. This capability reduces system preparation time and allows users to switch between RNA and DNA samples with ease.


Prioritize separation resolution or separation time


Capillary arrays are available in different lengths. Shorter capillaries offer faster separation times but reduce separation resolution. Longer capillaries offer slower separation times and improved separation resolution, allowing you to choose what is important.

Low maintenance


Durable design and construction allow the capillary array to be stored on the instrument. Automated maintenance tasks including cleaning and conditioning, reducing the need for array handling.



 

Perform Reliable Quality Control for Any Application


Applications including NGS, PCR, cfDNA, and many others need accurate nucleic acid assessment for optimal performance. Whether you are verifying the quality of your sample as a first step, determining the size of your fragments during your workflow, or confirming your results, you need efficient and reliable quality control methods for all your applications. With a broad range of kits, a Fragment Analyzer system allows you to assess diverse applications in one instrument.
 



 

Sizing Range and Input Concentration of DNA Kits


With both qualitative and quantitative DNA kits, the Fragment Analyzer systems can assess various DNA sample subtypes. The qualitative DNA kits are ideal for fragment analysis, offering accurate sizing of small and large fragments as well as relative quantification. Use of the quantitative kits enables the separation and assessment of samples as diverse as small DNA fragments and high-molecular weight genomic DNA.
 



 

Assess a Broad Range of Nucleic Acid Types with the Fragment Analyzer Systems


The broad range of kits available for the Fragment Analyzer systems allow you to qualify and quantify DNA and RNA samples such as plasmids, genomic DNA, total RNA, small RNA, CRISPR edits, large DNA fragments, and much more. The quantitative kits provide measurements of both sample size (bp or nt) and concentration. Similarly, the qualitative DNA kits offer accurate sizing and provide relative quantification.
 
Figure 1. Mixed PCR fragments (201 bp and 204 bp) analyzed on the dsDNA 905 Reagent kit (1-500 bp) using the long 55 cm array on the 5200 Fragment Analyzer system. The two fragments are clearly defined demonstrating the high resolution capabilities on these Fragment Analyzer systems.
Figure 2. Short-read NGS library separated using the HS NGS Fragment kit (p/n DNF-474) on the 5200 Fragment Analyzer system. NGS library contaminants, including primer and adapter dimers, are quickly identified as peaks near the lower marker on library electropherograms.
 
Figure 3. Genomic DNA separated using the Genomic DNA 50 kb kit (p/n DNF-467) on the 5200 Fragment Analyzer system. This sample has a Genomic Quality Number of 7.9 with a user-defined threshold of 10,000 bp (blue line).
Figure 4. 15,000 bp DNA fragment separated using the HS Large Fragment 50 kb kit (p/n DNF-464) on the 5200 Fragment Analyzer system. Large DNA fragments of all origins can be separated on these systems.



 

Sizing Range and Input Concentration of RNA Kits


The RNA kits available for the Fragment Analyzer systems cover a broad range of sample types. Kits are available to assess samples from microRNA to total RNA. Concentration ranges for every kit cover two orders of magnitude, minimizing the amount of dilutions you must do for sample preparation.
 
Figure 1. Total RNA sample separated using the HS RNA kit (p/n DNF-472) on the 5200 Fragment Analyzer system. The RNA Property Summary offers further insight into individual samples, reporting the RQN, concentration, and rRNA ratios.
Figure 2. Small RNA sample separated using the Small RNA kit (p/n DNF-470) on the 5200 Fragment Analyzer system. Small RNA and microRNA concentrations and the percent mircoRNA are reported in the RNA Property Summary.



 

Key Aspects of ProSize Data Analysis Software


ProSize data analysis software is a robust, validated software package that simplifies the identification and analysis of nucleic acid fragments and smears. Designed with researchers in mind, ProSize software automatically calculates fragment size and quantification displaying the data in multiple formats. Reduce subjective assessment for certain DNA and RNA samples with custom quality metrics. ProSize data analysis software allows you to easily share data with coworkers with options to export run files in PDF and CSV formats.
 



 

Quality Metric Scoring with ProSize


The RNA Quality Number (RQN), Genomic Quality Number (GQN), and DNA Quality Number (DQN), were designed for use in ProSize data analysis software to allow for easy analysis of total RNA, gDNA, and sheared DNA quality, respectively. RQN calculates a quality score taking into account the entire electropherogram from the small RNA region to the ratio of the ribosomal peaks. This allows ProSize to assign an RQN based on a scale of 1 to 10, where 1 represents completely degraded RNA and 10 represents intact RNA. ProSize calculates a GQN or DQN value based on the fraction of total DNA sample concentration that lies above a user defined threshold value. The threshold value or size (bp), can be varied depending on the requirements of the specific application. RQN, GQN, and DQN allow for independent objective quality analysis that users can rely on for assessing all sample types.
 
Figure 1. Universal mouse reference total RNA separated on the Agilent Fragment Analyzer system with the HS RNA kit (p/n DNF-472). Sample at 0 (black) and 8 (red) minutes at 70°C. RQN = 9.6 & 6.2, respectively.
Figure 2. Genomic DNA analyzed on the Agilent Fragment Analyzer system with the Genomic DNA 50 kb kit
(p/n DNF-467). GQN 10 kb = 8.8.



 

How to Use the Fragment Analyzer Systems


Performing QC on a Fragment Analyzer system is easy, prepare the instrument, load your samples, select method, start your run, and walk away until you are ready to analyze the results. The systems are low maintenance and allow you to automate maintenance tasks, such as capillary conditioning, to run before or after separations. This ability to analyze samples unattended means your QC is on your schedule.
 

Step 1: Prepare Instrument


Load gel and conditioning solution,
change inlet buffer, and empty waste draw/bottle.

Step 2: Load Sample


Load your runs with just a single
dilution and 2 µL of sample per well.

Step 3: Choose Method


Select your method from the
dropdown menu and enter any notes
for the run.
                                                             




                                                 

Step 4: Start Runs


Queue up to 288 samples and walk
away.

Step 5: Analyze Results


Process separation data with
ProSize data analysis software.