- The partnership combines mosquito® and Fragment Analyzer™ platforms to reduce cost, maximize throughput and improve quality of NGS library preparation.
- Stanford University teams published the novel high-throughput library prep workflows for single-cell RNA sequencing (scRNA-Seq) in Cell1 and Nature Scientific Data2.
Cambridge, UK, and Ankeny, IA, USA, 29th March 2017: TTP Labtech Ltd. is a global leader in the design and development of automated instrumentation and consumables for life science applications. Advanced Analytical Technologies, Inc. (AATI) is the award-winning manufacturer of Fragment Analyzer™ and FEMTO Pulse™ automated systems for nucleic acid sizing and quantity analysis. The Fragment Analyzer INFINITY™ model integrates within robotic cells for complete 24+ hour automation. The companies have signed a co-marketing agreement to support joint solutions that miniaturize and optimize high-throughput next-generation sequencing (NGS) library preparation workflows.
The new NGS methods, published by Stanford researchers in Cell (Loh and Chen, et al., 2016) and Nature Scientific Data (Koh and Sinha, et al., 2016), combine the versatile
TTP Labtech mosquito® automated low-volume liquid handlers with Advanced Analytical’s Fragment Analyzer™. The approach overcomes challenges associated with high-throughput single-cell sequencing. Combined use of the mosquito and Fragment Analyzer systems enables scale with cost-efficiency, accuracy, and precision.
Rahul Sinha, PhD, Prof. Irving Weissman Lab, Stanford University, said: “This semi-automated, robust SMART-seq2 workflow for single-cell RNA-seq has reduced our hands-on time from two weeks to a couple of days, while increasing the accuracy and lowering the cost. The AATI Fragment Analyzer and TTP Labtech’s mosquito X1 and mosquito HTS have been essential for this new workflow.”
The Stanford team’s mapping of stem cell differentiation along multiple mesodermal lineages required preparation of miniaturized RNA-Seq libraries from nearly a thousand single-cells, a demanding task that would have been difficult to achieve without high-throughput instrumentation and nanolitre-scale liquid handling. TTP Labtech’s mosquito liquid handlers leverage precise and accurate true-positive displacement technology. The mosquito X1 and HTS were used to prepare input plates for the Fragment Analyzer, automate cDNA normalization and generate low-volume Nextera® XT sequencing libraries in 384-well format. Efficient and accurate quantification and quality analysis on the AATI Fragment Analyzer was essential for the large-scale scRNA-Seq application.
Jonathan Hagopian, PhD, Director of Business Development at Advanced Analytical, said: “This partnership with TTP Labtech is enabling high-throughput NGS discovery with robust miniaturization and accurate quantification on the Fragment Analyzer. The low-volume liquid handling capabilities of the mosquito also empower novel applications with ultra-sensitive analysis on our new FEMTO Pulse system.”
Klaus Hentrich, Genomics Product Manager at TTP Labtech, added: “Precise nanolitre scale liquid handling combined with accurate high-sensitivity quantification is key for miniaturizing NGS library prep. TTP Labtech and Advanced Analytical instruments, together, provide powerful cost-effective genomics workflow solutions.”
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About TTP Labtech
TTP Labtech designs and manufactures robust, reliable and easy-to-use solutions for sample management, liquid handling and multiplexed detection in drug discovery and genomics. We enable life scientists, through collaboration, deep application knowledge and leading engineering, to accelerate research and make a difference together. Our essential tools include state-of-the-art solutions developed for high throughput compound and biologics screening (acumen® Cellista, mirrorball® and fully validated consumables such as sol-R™ beads and plates),flexible sample management workflows from ambient to -800C (comPOUND®, arktic®, lab2lab), and unique low-volume liquid handling for genomics, compound screening and protein crystallography (mosquito® X1, mosquito® HTS, mosquito® Crystal, mosquito® LCP, mosquito® HV, dragonfly® crystal and dragonfly® discovery and a full range of validated consumables such as tips and plates).
About Advanced Analytical Technologies https://www.aati-us.com/
Advanced Analytical Technologies, Inc. (AATI) develops, manufactures, and markets low and high-throughput automated analysis systems. The company’s instrument platforms optimize and accelerate complex workflows for basic science and commercial applications in life-science industries including genomics, molecular diagnostics, pharmaceuticals, healthcare, biotechnology, synthetic biology, biofuels, and agriculture. AATI’s product portfolio has instruments for parallel analysis of DNA, RNA, pharmaceutical compounds, proteins, and post-translational modifications using capillary electrophoresis (CE) with fluorescence and UV detection. The Fragment Analyzer™, Fragment Analyzer INFINITY™, and FEMTO Pulse™ are automated systems for sizing and concentration analysis of various DNA and RNA samples including genomic DNA, NGS libraries, CRISPR mutations, dsDNA fragments, PCR amplicons, microsatellite SSR, RFLP, total RNA, mRNA, small and microRNA, single-cell and cell-free isolates. Advanced Analytical has facilities in Ankeny, Iowa, USA, Heidelberg, Germany, and Paris, France.
- Kyle M. Loh*, Angela Chen*, Pang Wei Koh, Tianda Z. Deng, Rahul Sinha, Jonathan M. Tsai, Amira A. Barkal, Kimberle Y. Shen, Rajan Jain, Rachel M. Morganti, Ng Shyh-Chang, Nathaniel B. Fernhoff, Benson M. George, Gerlinde Wernig, Rachel E.A. Salomon, Zhenghao Chen, Hannes Vogel, Jonathan A. Epstein, Anshul Kundaje, William S. Talbot, Philip A. Beachy, Lay Teng Ang^, Irving L. Weissman^; Mapping the pairwise choices leading from pluripotency to human bone, heart, and other mesoderm cell types. Cell, 166:451-467, 2016.
- Pang Wei Koh*, Rahul Sinha*, Amira A. Barkal, Rachel M. Morganti, Angela Chen, Irving L. Weissman^, Lay Teng Ang^, Anshul Kundaje^ & Kyle M. Loh^; An atlas of transcriptional, chromatin accessibility, and surface marker changes in human mesoderm development. Nature Scientific Data, 3:160109, 2016.