Sage Blog

Get a Glimpse of the New HLS Instrument at ASHG 2016

The Sage Science team is heading to Vancouver this week for the annual meeting of the American Society of Human Genetics. ASHG is the biggest genomics meeting we attend each year, and it never fails to deliver on its promise of top-notch science and compelling speakers.

We’re especially enthusiastic about this meeting because it’ll be the first time we show off our newest instrument, the HLS platform, in booth #732. Though this is just a sneak peek as development continues, we anticipate launching the instrument soon and thought ASHG attendees would enjoy getting a glimpse.

The HLS platform (short for HMW Library System) will allow scientists to purify ultra high molecular weight DNA directly from cells for the increasing number of applications that require it, such as long-read sequencing or long-range genomics. Working with large DNA fragments has become a lost art in the era of short-read sequencing. But with the rise of PacBio and Oxford Nanopore sequencers, 10x Genomics synthetic long reads, and optical maps from BioNano Genomics and other providers, it’s clear that users need a solution for handling DNA that’s hundreds of kilobases or even megabases long.

We built the HLS instrument to address this need. At launch, it will be able to purify DNA from about 50 Kb to 2 Mb in length, directly from blood samples, cell lines, or bacterial cultures. In our hands, the elutions yield more than a microgram — plenty of DNA for de novo genome sequencing, droplet digital PCR, and other long-range genomics applications. Initially, users will perform purification on the HLS instrument followed by traditional library prep, but in the future we aim to incorporate library prep directly into the system. We’re also already working on targeted genomic fragment extraction using CRISPR/Cas9 as a later-stage application for the HLS instrument.

To learn more about how the system works, check out this blog post or poster. If you’ll be at ASHG, we hope you stop by the booth to check it out!

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At the University of Florida, SageELF Delivers Better Sizing for ddRAD-seq and Long-Read Pipelines

moragaClients of the NextGen DNA Sequencing core at the University of Florida in Gainesville rely on Scientific Director David Moraga Amador to find and validate the best technologies for their projects. In addition to bringing in the best sequencers, that means hunting for sample prep methods and instruments that make downstream results more reliable and reproducible.

For scientists using a custom ddRAD-seq protocol with Illumina sequencing, the core lab team recommended SageELF, which performs whole-sample fractionation and splits input DNA by size into 12 contiguous fractions. These clients had been coming to the lab with libraries that were challenging to sequence cleanly because of their wide size distribution. “These libraries often look very ugly: they have a broad range size distribution, multiple peaks, and they’re very difficult to quantitate,” Moraga Amador says. “Fragments might go from hundreds of base pairs to ten thousand base pairs.” To address the problem, the team began running these libraries on the SageELF and delivering fractions back to users with a TapeStation analysis of fragment size; the clients then choose which to advance to sequencing. “Our users love the fact that these peaks are so sharp, the sequencing output is predictable, and the quality metrics are improved,” he says. “Now we have five or six groups doing this routinely.”

Years before that, Moraga Amador had become a Sage Science customer when he introduced the PacBio sequencing platform to his core lab and brought in a BluePippin to increase average read lengths. When the SageELF launched more recently, he saw an opportunity to maintain the precise size selection he was used to while making more of each sample.

With BluePippin, Moraga Amador and his team used the high-pass protocol for long-read sequencing (PacBio RS II), collecting all fragments longer than a certain size. The smaller fragments were tossed out as part of the size selection process. With SageELF, he can use the whole sample, allocating each fraction to the part of the project where it will have the most value. “All of those fractions are good,” Moraga Amador says. “They turn into very sharp fractions and they sequence beautifully on the instrument.” SageELF lets his team size DNA up to 30 Kb, fitting nicely with the requirements for the PacBio instrument.

Moraga Amador says the device is also useful for PacBio Iso-Seq projects, where protocols require binning DNA by size prior to sequencing. “With the SageELF we just do one single run and collect all the fragments for our samples, and then pool the fragments of like size,” he says. “The key for us is doing a single run so we don’t waste any of the sample.” SageELF allows his team to generate the needed fractions from much less sample DNA than if they had to size each fraction individually.

The SageELF system was easy to set up and start running, Moraga Amador notes. “It didn’t take a lot of practice,” he says, noting that the team set up the instrument themselves with a little phone support from Sage Science. For most projects, there’s no tinkering required to get the results they expect. “There is very little optimization we have to do if we follow the instrument recommendations,” he adds.

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Poster: Better Cell-Free DNA Analysis with Pippin + Rubicon Genomics

Recently we blogged about the rise of cell-free DNA studies, and how precise size selection is one tool that can help researchers isolate DNA of interest for further analysis (such as sorting out fetal from maternal genetic material).

At the AGBT Precision Health meeting in Scottsdale, Ariz., last month, we teamed up with Rubicon Genomics to present a poster demonstrating how our technologies can be used together to generate better results from cell-free DNA studies. (If you were at the meeting, it was poster #107.)

For this work, we performed pre-library size selection using the Pippin Prep to separate fragments 160 bp and larger (since that’s about the size of the mononucleosomal unit) from smaller fragments, which are typically the ones scientists want to analyze for cancer or prenatal studies. After sizing, we prepared libraries for sequencing using Rubicon Genomics’ ThruPLEX® Plasma-Seq kit, which is designed for low-input samples from plasma and liquid biopsies like cfDNA. Libraries were also prepared and analyzed without size selection so we could see how much of a difference that step made.

Even though we started with less than 1 ng of size-selected material, we were able to produce highly diverse libraries that were significantly enriched for cell-free DNA fragments between 60 bp and 120 bp. That enrichment did not happen for libraries prepared without size selection. This graph of insert size distribution shows how clearly delineated the shorter fragments were when size selection was used.


While Pippin Prep was used for this project, Sage customers can use PippinHT as well to perform what we call “low-pass” sizing — that is, removing everything larger than a certain size. We look forward to seeing how our users deploy automated size selection technology to enhance their cell-free DNA studies.

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Size Selection Has Utility for Cell-Free DNA Studies

The rise of research studies and diagnostic tests looking at cell-free DNA — particularly fetal DNA in a mother’s bloodstream — has happened with astonishing speed. Prenatal genetic testing, for instance, has already supplanted many invasive clinical tests such as amniocentesis or chorionic villus sampling. Cell-free DNA is now considered an important source of information about cancer, and will no doubt have many other applications as we learn more about it.

These studies are particularly interesting to us because isolating cell-free DNA involves accurate size selection. Foundational research has consistently found that cell-free fetal DNA is shorter than cell-free maternal DNA: this early study determined that fetal DNA was less than 300 bp, while maternal DNA was larger than 1 Kb, while another study reported a dominant peak of about 160 bp for fetal DNA.

A more recent publication explored various methods of analyzing fragment sizes for a study of cell-free fetal DNA. With paired-end sequencing as well as basic electrophoresis (sizes were read with a Bioanalyzer), the scientists were able to distinguish maternal from fetal DNA. With extremely specific findings of fragment size, they were also able to detect some cases of fetal chromosomal aneuploidy just by observing size aberrations.

We’re excited about the possibilities of applying automated DNA size selection to cell-free DNA studies. Other methods of size selection have not been terribly successful due to the yield challenge; DNA derived from a fetus or tumor is already such a small proportion of DNA in these samples. But with a platform like ours, which significantly boosts yield compared to other sizing techniques, we think there is great potential for enhancing cell-free DNA research.

We’re presenting a poster on this topic at the AGBT Precision Health meeting right now. If you’re attending the conference, check out poster #107 — and if not, we’ll have more details on our blog next week.

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Where Illumina Users Gather, Great Science Is on Display

The Sage team is pleased to be sponsoring the slate of upcoming Illumina user group meetings. We’ve attended many of these events over the years, and they’re excellent venues that showcase truly impressive work from the company’s broad customer base. We learn something new at each meeting we attend!

Sage instruments are important for a number of applications related to Illumina sequencing, from Nextera library preparation and PCR-free libraries to paired-end and mate-pair libraries. For more details on specific applications, check out this resource page.

For a good sense of how Illumina users are applying our Pippin family of automated DNA size selection platforms, don’t miss our frequently updated list of citations from peer-reviewed literature. And if you’ll be at the user group meetings or other upcoming genomics conferences, please stop by the Sage booth! We’d love to meet you and learn more about your research.

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