关于举办“ 高通量测序深度应用与数据分析”高级培训班

第一天

生物信息学介绍 

生物信息学介绍与前沿技术动态

DNA测序技术的进化

1、 第一代测序技术：Sanger测序原理

2、 第二代测序技术：Illumina，454, Ion Torrent原理

3、 第三代测序技术：PacBio, Hellicos原理

4、 第四代测序技术: Oxford NanoPore原理

5、 其他技术Hybridization based methods (NabSys)

High throughput Sequencing for various biological problems

2.1 RNA Transcription

1. Chromatin Isolation by RNA Purification (ChIRP-Seq)

2.  Global Run-on Sequencing (GRO-Seq)

3. Ribosome Profiling Sequencing (Ribo-Seq)

4. RNA Immunoprecipitation Sequencing (RIP-Seq)

5. High-Throughput Sequencing of CLIP cDNA library (HITS-CLIP)

6. Crosslinking and Immunoprecipitation Sequencing (CLIP-Seq)

7. Photoactivatable Ribonucleoside–Enhanced Crosslinking and Immunoprecipitation (PAR-CLIP)

8. Individual Nucleotide Resolution CLIP (iCLIP)

9. Native Elongating Transcript Sequencing (NET-Seq)

10. Targeted Purification of Polysomal mRNA (TRAP-Seq)

11. Crosslinking, Ligation, and Sequencing of Hybrids (CLASH-Seq)

12. Parallel Analysis of RNA Ends Sequencing (PARE-Seq)

13. Genome-Wide Mapping of Uncapped Transcripts (GMUCT)

14. Transcript Isoform Sequencing (TIF-Seq)

15. Paired-End Analysis of TSSs (PEAT)

RNA Structure

1. Selective 2’-Hydroxyl Acylation Analyzed by Primer Extension Sequencing (SHAPE-Seq)

2. Parallel Analysis of RNA Structure (PARS-Seq)

3. Fragmentation Sequencing (FRAG-Seq)

4. CXXC Affinity Purification Sequencing (CAP-Seq)

5. Alkaline Phosphatase, Calf Intestine-Tobacco Acid Pyrophosphatase Sequencing (CIP-TAP)

6. Inosine Chemical Erasing Sequencing (ICE)

7. m6A-Specific Methylated RNA Immunoprecipitation Sequencing (MeRIP-Seq)

第二天

1. Whole-Transcript Amplification for Single Cells (Quartz-Seq)

2. Designed Primer–Based RNA Sequencing (DP-Seq)

3. Switch Mechanism at the 5’ End of RNA Templates (Smart-Seq)

4. Switch Mechanism at the 5’ End of RNA Templates Version 2 (Smart-Seq2)

5. Unique Molecular Identifiers (UMI)

6. Cell Expression by Linear Amplification Sequencing (CEL-Seq)

7. Single-Cell Tagged Reverse Transcription Sequencing (STRT-Seq)

2.3.  Low-Level RNA Detection, Digital RNA Sequencing

8. Whole-Transcript Amplification for Single Cells (Quartz-Seq)

9. Designed Primer–Based RNA Sequencing (DP-Seq)

10. Switch Mechanism at the 5’ End of RNA Templates (Smart-Seq)

11. Switch Mechanism at the 5’ End of RNA Templates Version 2 (Smart-Seq2)

12. Unique Molecular Identifiers (UMI)

13. Cell Expression by Linear Amplification Sequencing (CEL-Seq)

14. Single-Cell Tagged Reverse Transcription Sequencing (STRT-Seq)

2.4.  Low-Level DNA Detection

1. Single-Molecule Molecular Inversion Probes (smMIP)

2. Multiple Displacement Amplification (MDA)

3. Multiple Annealing and Looping–Based Amplification Cycles (MALBAC)

4. Oligonucleotide-Selective Sequencing (OS-Seq)

5. Duplex Sequencing (Duplex-Seq)

2.5.  DNA Methylation

1. Bisulfite Sequencing (BS-Seq)

2. Post-Bisulfite Adapter Tagging (PBAT)

3. Tagmentation-Based Whole Genome Bisulfite Sequencing (T-WGBS)

4. Oxidative Bisulfite Sequencing (oxBS-Seq)

5. Tet-Assisted Bisulfite Sequencing (TAB-Seq)

6. Methylated DNA Immunoprecipitation Sequencing (MeDIP-Seq)

7. Methylation-Capture (MethylCap)

8. Methyl-Binding-Domain–Capture (MBDCap)

9. Reduced-Representation Bisulfite Sequencing (RRBS-Seq)

2.6.  DNA-Protein Interactions

1. DNase l Hypersensitive Sites Sequencing (DNase-Seq)

2. MNase-Assisted Isolation of Nucleosomes Sequencing (MAINE-Seq)

3. Chromatin Immunoprecipitation Sequencing (ChIP-Seq)

4. Formaldehyde-Assisted Isolation of Regulatory Elements (FAIRE-Seq)

5. Assay for Transposase-Accessible Chromatin Sequencing (ATAC-Seq)

2.7. Chromatin Interaction Analysis by Paired-End Tag Sequencing (ChIA-PET)

6. Chromatin Conformation Capture (Hi-C/3C-Seq)

7. Circular Chromatin Conformation Capture (4-C or 4C-Seq)

8. Chromatin Conformation Capture Carbon Copy (5-C)

第三天

2.8.  Sequence Rearrangements

1. Retrotransposon Capture Sequencing (RC-Seq)

2. Transposon Sequencing (Tn-Seq)

3. Translocation-Capture Sequencing (TC-Seq)

Data analysis （part 1）：data pre-processing

4. 

3. Data analysis （part 1）：data pre-processing

3.1 evaluation of data quality 数据分析

Data format，fasta，fastq，quality value，gff3

3.2 Data cleanup

Quality filter, trimmer, clipper

Data analysis （part 2）：reference free analyses，无参转录组分析

4.1 Analysis of Differential Expressed Gene （DEGs）

4.2 Abundance estimation using RSEM

4.3 Differential expression analysis using EdgeR

4.4 Explore the results (cummerbund)

4.5 MA plot, Volcano plot, False Discovery Rate (FDR)

4.6 hierarchical two-way clustering, pairwise sample-distance, gene expression profiles.

Data analysis （part 3）：reference based analyses，有参转录组分析

4.7 Mapping reads to the reference (tophat)

4.8 Assemble mapped reads (cufflinks)

4.9 Merge sample-specific assemblies (cuffmerge)

4.10 Analysis of Differentially Expressed Gene （DEGs）

4.11 Identify DEGs (cuffdiff)

4.12 Explore the results (cummerbund)

Data analysis （part 4）：from gene list to gene function，基因功能注释

4.13 File format for annotation information: GFF3

4.14 Annotation

4.15 Homology search (BLAST+/SwissProt/Uniref90)

4.16 Protein domain identification (HMMER/PFAM)

4.17 Protein signal peptide and transmembrane domain prediction (singalP/tmHMM)

4.18 Comparing to currently curated annotation databases

4.19 Functional annotation chart

4.20Functional annotation clusterin

Lab

Lab1: Connection to cloudlab using Putty

Lab2: File transfer between cloudlab and local computer using filezilla

Lab3: Linux commands

Lab4: Reads quality evaluation: fastqc

Lab5a: Reads quality control: fastx tool kit

Lab5b: Processing the mapping file: samtool

Lab6: Reference free analysis: Tuxedo package

Lab7: Reference based analysis: Trinity package

Lab8: Annotation: Trinnotate

Lab9: Enrichment analysis using DAVID