Beata Werne scite author profile

Beata Werne

2Publications

27Citation Statements Received

52Citation Statements Given

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Science for Life Laboratory, KTH Royal Institute of Technology

Publications

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Scalable Transcriptome Preparation for Massive Parallel Sequencing

et al. 2011

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BackgroundThe tremendous output of massive parallel sequencing technologies requires automated robust and scalable sample preparation methods to fully exploit the new sequence capacity.MethodologyIn this study, a method for automated library preparation of RNA prior to massively parallel sequencing is presented. The automated protocol uses precipitation onto carboxylic acid paramagnetic beads for purification and size selection of both RNA and DNA. The automated sample preparation was compared to the standard manual sample preparation.Conclusion/SignificanceThe automated procedure was used to generate libraries for gene expression profiling on the Illumina HiSeq 2000 platform with the capacity of 12 samples per preparation with a significantly improved throughput compared to the standard manual preparation. The data analysis shows consistent gene expression profiles in terms of sensitivity and quantification of gene expression between the two library preparation methods.

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Rapid flow-sorting to simultaneously resolve multiplex massively parallel sequencing products

Sandberg

Werne

Dessing

et al. 2011

Sci Rep

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Sample preparation for Roche/454, ABI/SOLiD and Life Technologies/Ion Torrent sequencing are based on amplification of library fragments on the surface of beads prior to sequencing. Commonly, libraries are barcoded and pooled, to maximise the sequence output of each sequence run. Here, we describe a novel approach for normalization of multiplex next generation sequencing libraries after emulsion PCR. Briefly, amplified libraries carrying unique barcodes are prepared by fluorescent tagging of complementary sequences and then resolved by high-speed flow cytometric sorting of labeled emulsion PCR beads. The protocol is simple and provides an even sequence distribution of multiplex libraries when sequencing the flow-sorted beads. Moreover, since many empty and mixed emulsion PCR beads are removed, the approach gives rise to a substantial increase in sequence quality and mean read length, as compared to that obtained by standard enrichment protocols.

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Beata Werne

Scalable Transcriptome Preparation for Massive Parallel Sequencing

Rapid flow-sorting to simultaneously resolve multiplex massively parallel sequencing products

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