FI:IV110/IV114 Projekt z bioinformatiky
 a systémové biologie Monika Čechová, Matej Lexa @biomonika, @matej_lexa My motivation: Answering biological questions using next-generation sequencing data ● Course requirements ● Project proposals ● Nanopore sequencing: collaboration with the Institute of Biophysics of the Czech Academy of Sciences ● Introduction to the Nanopore sequencing and its applications ● Hands-on exercise: species identification Detekce kontaminací ● Dr. Lucie Grodecká a Dr. Roman Hobza Nanopore sequencing https://www.gatc-biotech.com/fileadmin/_processed_/ 
 csm_Sanger_sequencing_illustration_small_898122494c.jpg Nanopore https://www.scienceinschool.org/content/ decoding-dna-pocket-sized-sequencer Nanopore ●Introduction (3 mins) ○ https://www.youtube.com/watch? v=GUb1TZvMWsw https://twitter.com/MakovaLab Real-time surveillance Sequencing the station: Investigation aims to identify unknown microbes in space https://phys.org/news/2017-04-sequencing-station-aims-unknown- microbes.html https://nanoporetech.com/resource-centre/posters/dna-sequencing-microgravity-international-space- station-iss-using-minion https://flxlexblog.wordpress.com/2016/07/08/ developments-in-high-throughput-sequencing-july-2016- edition/ Long-read sequencing ● Sample quality ● Library preparation (size selection, repair) ● Protocols ● Sequencing throughput ● Multiplexing Budgeting is important: get yourself familiar with the cost of reagents and sequencing! There’s always a trade-off. Long-read applications Long reads 1. Transcriptome (isoforms) 2. Assembly (PacBio HiFi + ultra-long Nanopore reads) 3. Epigenetic modifications 1. RNA sequencing with Nanopore https://nanoporetech.com/applications/rna-sequencing 2. Linear assembly of the RP11 Y centromere 3. Nanopore sequencing meets epigenetics Figure 1 | DNA methylation can be read out directly by nanopore sequencing. Single-stranded DNA alters ionic current in a sequence-dependent manner as it passes through a pore (left), with methylated bases highlighted with red and blue tags. The raw current signal (right) indicates small changes due to methylation that a new set of algorithms can robustly interpret. Schatz, M. Nanopore sequencing meets epigenetics. Nat Methods 14, 347–348 (2017). https://doi.org/10.1038/ nmeth.4240 Error profiles RS Harris, M Cechova, KD Makova. Noise-Cancelling Repeat Finder: Uncovering tandem repeats in error-prone long-read sequencing data. BIOINFORMATICS, 2019. Cechovaetal.,2019 Harrisetal.,2019 We demonstrated that orthogonal technologies (such as Illumina, Nanopore, and PacBio) are generally concordant in distinguishing between highly and lowly abundant repeated motifs. The visualization of sequencing errors https://www.pacb.com/blog/igv-3-improves-support-pacbio-long-reads/ Metagenomics ● https://nanoporetech.com/resource-centre/snow-sledges-and-sequencing- grid-metagenomics-polar-expedition Read until https://nanoporetech.com/resource-centre/read-until-adaptive-sampling Hands-on exercise: species identification ● Go to the folder: https://is.muni.cz/auth/el/fi/podzim2021/IV110/data/fast5/ ● Download three files in .fast5 format ● Identify the species(s) of origin ● Upload your results into Odevzdávarna Fast5 format: https://medium.com/@shiansu/a-look-at-the-nanopore-fast5- format-f711999e2ff6