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Committee Meeting April 24 th 2014 Characterizing epigenetic variation in the Pacific oyster (Crassostrea gigas) Claire Olson School of Aquatic and Fishery.

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Presentation on theme: "Committee Meeting April 24 th 2014 Characterizing epigenetic variation in the Pacific oyster (Crassostrea gigas) Claire Olson School of Aquatic and Fishery."— Presentation transcript:

1 Committee Meeting April 24 th 2014 Characterizing epigenetic variation in the Pacific oyster (Crassostrea gigas) Claire Olson School of Aquatic and Fishery Sciences University of Washington

2 Committee Meeting Outline  Overview of Master’s thesis chapters  Research Update  Future steps  Timeline and progress

3 Goals Characterize distribution of DNA methylation Identify potential functions of DNA methylation

4 Understanding epigenetic variation in the oyster  Chapter 1: Characterizing genome-wide DNA methylation patterns in a single cell type  Correlation with gene expression patterns  Chapter 2: DNA methylation during oyster early development  Heritability vs. Individual variability

5 Chapter 1: Genome-wide methylation Determine genome-wide methylation patterns Whole Genome Bisulfite Sequencing (WGBS) Male gonad tissue: genome wide scale, single base pair resolution Unmethylated C to U (sequenced as T) Differentiate between SNPs from bisulfite conversion CH 3 ACGCTCAG A C G T T C A G Bisulfite treatment + sequencing CH 3

6 Chapter 1: Genome-wide methylation Whole Transcriptome Shotgun Sequencing Methylation vs expression patterns in a single cell type Relationship between gene expression and promoter methylation RNA extracted from gonad tissue Sequence on Illumina Gene expression data for 17,093 genes Create cDNA library Enrich for mRNA AAAAA

7 Chapter 1: Genome-wide methylation Coverage for 7.64 million CpGs Overall 15% genome methylation Methylation primarily in intragenic regions No methylation in mitochondrial genome Positive association between methylation status and expression Methylation involved in gene regulatory activity

8 Chapter 1: Genome-wide methylation Distribution of methylation ratios DNA methylation is dispersed throughout the oyster genome

9 Chapter 1: Genome-wide methylation Methylated CpGs Introns Non-methylated CpGs mRNA Exons

10 Methylation occurring predominantly in intragenic regions (expressed portions and introns) Exons Introns Other Methylated CpGsAll CpGs Distribution of methylation within genomic regions

11

12 Chapter 1: methylation vs expression

13 Characterization of methylation in a single cell type Methylation only observed in CpG motifs Lack of methylation in oyster mtDNA 15% overall genome methylation Intermediate level Methylation not variable between tissue types DNA methylation predominantly in exons and introns Likely association between methylation status and gene expression Chapter 1: Summary

14 Chapter 2: DNA methylation and oyster development Characterize methylation landscape ID potential functions of DNA methylation throughout various stages of oyster development Sperm, eggs and Larvae

15 Chapter 2: Developmental methylation Sperm and larvae methylome 2 males strip spawned, fertilized eggs from one female Sperm & eggs frozen Larvae collected 3 days and 5 days post-fertilization

16 Chapter 2: Developmental methylation Day 3Day 5 Tank 3 Tank 1 Sperm (+ Eggs) Male 1Male 3

17 Chapter 2: Developmental methylation Sperm: single cell type (removes bias of cell-specific methylation) Larvae: significant changes in tissue-specific gene expression occurring

18 Chapter 2: Developmental methylation Genes Male 1 coverage Female coverage Larv3 Day 5 Larv3 Day 3 Larv1 Day 5 Larv1 Day 3 Male 3 Male 1 Female

19 Methylation profiles among sperm and larvae 40,654 common loci Larv3 Day 5 Larv3 Day 3 Larv1 Day 5 Larv1 Day 3 Male 3 Male 1 Chapter 2: Developmental methylation

20 Male 3 Larv3 Day 3 Larv3 Day 5 Larv1 Day 3Larv1 Day 5 Male 1

21 Chapter 2: Developmental methylation Male 1 Larv1 Day 5 Larv1 Day 3 Larv3 Day 3 Larv3 Day 5 Male 3

22 Chapter 2: Developmental methylation Male 1 Male 3 Larv1Day3 Larv1Day5 Larv3Day3 Larv3Day5

23 Chapter 2: Summary Overall methylation levels similar for sperm and larvae samples ~ 12%-17% genome methylation Similar spermatozoa and larvae methylation profiles

24 Future steps Examine hypo/hyper methylated regions from sperm and larvae samples Identification of DMRs

25 MS Timeline

26 Courses to date QSCI 482: Statistical Inference (Fall 2012) FISH 510: Topics: Local Adaptation (Spring 2013) FISH 521: Research Proposal Writing (Winter 2013) FISH 522: Hot Topics (Fall 2012) FISH 510: Topics: Endangered Species Act (Spring 2014) Additional coursework: FISH 541: Environmental Physiology (Fall 2012) FISH 546: Bioinformatics (Winter 2013) FISH 552: R Programming (Fall 2013) FISH 554: Beautiful Graphics in R (Winter 2014) TA experience FISH 310: Biology of Shellfish (Spring 2013 and 2014) FISH 546: Environmental Physiology (Fall 2013)

27 Understanding epigenetic variation in the oyster  Chapter 1: Characterizing genome-wide DNA methylation patterns in a single cell type  Correlation with gene expression patterns  Chapter 2: DNA methylation during oyster early development  Heritability vs. Individual variability

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