- [세미나 안내] Young Investigators Seminar (2017.4.13 11:00 양승만세미나실)
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- 2017-04-07 15:51:11|
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안녕하세요,
생명화학공학과에서 아래와
같이 Young Investigators Seminar를 개최하오니 많은 참석 바랍니다.
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아 래 -
◥ Speaker: Dr. GiWon
Shin (Stanford School of Medicine)
◥ Date: 13 Apr,
2017 (Thu) 11:00
◥ Place: Seminar
room 1 (#1101) @ W1-3 Bldg.
◥ Title: CRISPR-Cas9-targeted
fragmentation and selective sequencing enable massively parallel microsatellite
analysis
◥ Abstract:
Microsatellites,
also referred to as short tandem repeats (STRs) are multiallelic in terms of
germline variation and have higher mutation rate than single nucleotide
polymorphisms (SNPs). Because of the highly polymorphic nature, microsatellites
are the most popular and versatile genetic marker with many applications
including forensics DNA fingerprinting and population genetics. In addition,
mutations in microsatellites are common in cancers that lack DNA mismatch
repair mechanism, and the microsatellite instability is one of the key
diagnostic marker to predict prognosis and treatment response. Despite their importance,
however, the analysis of microsatellites is challenging regardless of the
methods that is used. In particular, the analysis with current next generation
sequencing methods is limited by the following: i) only the reads which
encompass an entire microsatellite locus are informative; ii) PCR amplification
during library preparation can introduce artificial “stutter” mutations that
confound accurate genotyping; iii) microsatellites’ repetitive motifs
complicate traditional alignment methods and lead to mapping errors. To address
all of these issues, we developed STR sequencing (STR-Seq), a novel sequencing
technology that generates STR-spanning reads for thousands of microsatellites.
In this study, we demonstrate
simultaneous analysis of more than 2,000 microsatellites and their proximal
SNPs. Particularly, STR-Seq uses paired-end sequencing reads to physically link
microsatellite and SNP genotypes. Unlike other targeted sequencings, STR-Seq
employs targeted in vitro CRISPR-Cas9 fragmentation, which provides
extraordinary efficiency in capturing the informative DNA molecules that span
the entire repetition as well as the flanking sequences. Target-selective
primers enable massively parallel, targeted sequencing of large microsatellite
sets. The technology eliminates PCR stutter noise because no post-capture
amplification is required. Moreover, a novel bioinformatics pipeline eliminates
artifacts from alignments and accurately quantifies microsatellite motifs and
associated SNPs. Overall, STR-Seq has higher throughput, improved accuracy and
provides a greater number of informative haplotypes compared to other
microsatellite analysis approaches. With these new features, STR-Seq can
identify a 0.1% minor genome fraction in a DNA mixture composed of different,
unrelated samples. This technology has extraordinary resolution in
differentiating mixed genotypes and has enormous potential in forensics,
population genetics, and cancer diagnosis.
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