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Genomics of Gene Regulation
Genomic and Proteomic Approaches to Heart, Lung, Blood and Sleep Disorders
Jackson Laboratories
Ross Hardison
September 9, 2008
Heritable variation in gene regulation
“Simple” Mendelian traits, e.g. thalassemias
Variation in expression is common in normal individuals
Variation in expression may be a major contributor to complex traits (including heart, lung, blood and sleep disorders)
Deletions of noncoding DNA can affect gene expression
Forget and Hardison, Chapter in Disorders of Hemoglobin, 2nd edition
Substitutions in promoters can affect expression
Forget and Hardison, Chapter in Disorders of Hemoglobin, 2nd edition
Variation of gene expression among individuals
• Levels of expression of many genes varies in humans (and other species)
• Variation in expression is heritable• Determinants of variability map to discrete genomic intervals• Often multiple determinants• Points to an abundance of cis-regulatory variation in the human
genome• "We predict that variants in regulatory regions make a greater
contribution to complex disease than do variants that affect protein sequence" Manolis Dermitzakis, ScienceDaily– Microarray expression analyses of 3554 genes in 14 families
• Morley M … Cheung VG (2004) Nature 430:743-747
– Expression analysis of EBV-transformed lymphoblastoid cells from all 270 individuals genotypes in HapMap
• Stranger BE … Dermitzakis E (2007) Nature Genetics 39:1217-1224
Risk loci in noncoding regions
(2007) Science 316: 1336-1341
DNA sequences involved in regulation of gene transcription
Protein-DNA interactions
Chromatin effects
Specific DNA sequences bind proteins that recruit transcriptional machinery
Maston G, Evans S and Green MR (2006) Annu Rev Genomics Hum Genetics 7:29-59
Distinct classes of regulatory regions
Maston G, Evans S and Green M (2006) Annu Rev Genomics Hum Genetics 7:29-59
Act in cis, affecting expression of a gene on the same chromosome.
Cis-regulatory modules (CRMs)
CRMs are clusters of specific binding sites for transcription factors
Hardison (2002) on-line textbook Working with Molecular Genetics http://www.bx.psu.edu/~ross/
Silent and repressed chromatin
Hardison (2002) on-line textbook Working with Molecular Genetics http://www.bx.psu.edu/~ross/
Transcription initiation and pausing
General transcription initiation factors, GTIFs
Assemble on promoter
Repressors bindto negative controlelements
Basal and activated transcription
Activators bind to enhancers
Histone modifications modulate chromatin structure
http://www.imt.uni-marburg.de/bauer/images/fig2.jpg Uta-Maria Bauer
H3K27me3H3K4me2, 3
Biochemical features of DNA in CRMs
Pol IIaPol II
Coactivators
Accessible to cleavage: DNase hypersensitive site
Bound by specific transcription factors
Associated with RNA polymerase and general transcription factors
Nucleosomes with histone modifications:Acetylation of H3 and H4Methylation of H3K4
Clusters of binding site motifs
Examples of genome-wide data on CRM features
• RNA polymerase II, preinitiation complex– IMR90 cells: Kim TH …Ren B (2005) Nature 436: 876-880
• Start sites for transcription– Carninci et al. (2006) Nature Genetics 38:626-635
• Histone modifications– T cells: Roh ... Zhao K (2006) PNAS 103:15782-15878
• Insulator protein CTCF– Primary fibroblasts: Kim TH … Ren B (2007) Cell 128:1231-1245
• DNase hypersensitive sites– CD4+ T cells: Boyle… Crawford G (2008) Cell 132:311-322
• Many datastreams: ENCODE project– Birney et al. (2007) Nature 477:799-816
Chromatin immunoprecipitation: Greatly enrich for DNA occupied by a protein
Elaine Mardis (2007) Nature Methods 4: 613-614
ChIP-chip: High throughput mapping of DNA sequences occupied by protein
http://www.chiponchip.org Bing Ren’s lab
Enrichment of sequence tags reveals function
Barbara Wold & Richard M Myers (2008) “Sequence Census Methods” Nature Methods 5:19-21
Genomic features at T2D risk variants
Overlap of SNP rh564398 with DHS suggests a role in transcriptional regulation,but overlap with an exon of a noncoding RNA suggests a role in post-transcriptionalregulation. Different hypotheses to test in future work.
GATA-1 occupancy in erythroid cells
GATA-1 is required for erythroid maturation
Aria Rad, 2007 http://commons.wikimedia.org/wiki/Image:Hematopoiesis_(human)_diagram.png
MEP Hematopoietic stem cell
Commonmyeloidprogenitor
Myeloblast
Basophil
Commonlymphoidprogenitor
Neutrophil
Eosinophil
Monocyte, macrophage
GATA-1G1E cells
G1E-ER4 cells
GATA-1 occupancy over a large chromosomal region
----( )---- Ahsp
enhancer
ChIP: antibody to GATA-1chip: NimbleGen high density tiling arrayYong Cheng, Lou Dore,…Xinmin Zhang, Roland Green, Mitch Weiss, R.H.
ChIP-chip for GATA-1 at Hbb locus
GATA-1 ChIP-chip hits localize to targets of this transcription factor
GATA-1
Almost all sites occupied by GATA-1 have the consensus binding site motif WGATAR
• Of the 63 validated ChIP-chip hits, 60 (95%) have at least one WGATAR motif
– Other 3 have AGATAT, GGATAT, CGATAG, …– Of 6000 randomly chosen DNA intervals of 500bp from the 66Mb, 3886 (65%)
have a WGATAR motif– Occupied sites are about 1.4-fold enriched for the motif
• GATA-1 discriminates exquisitely among available sites– Only 94 out of 78,013 potential sites (500bp interval with at least one WGATAR)
are occupied– About 1 in 1000 intervals are occupied– Indicates exquisite specificity of the ChIP-chip data (<99%)
DNA segments occupied by GATA-1 were tested for enhancer activity on transfected plasmids
Occupiedsegments
Some of the DNA segments occupied by GATA-1 are active as enhancers
Comparative genomics for predicting CRMs
• Sometimes high quality data on biochemical signatures of CRMs is not available
• Use sequence properties of CRMs for prediction• Clusters of binding site motifs for transcription factors
– Low specificity - MANY false positives
• Deep conservation of noncoding DNA sequences, from humans to fish or chicken – Low sensitivity - less than 5% of CRMs show signs of constraint across
vertebrates
• Conservation of clusters of transcription factor binding sites in mammals
• Conservation patterns that distinguish CRMs from neutral DNA
Finding clusters of binding sites for transcription factors
• Resources and servers for finding transcription factor binding sites (TFBSs)– TRANSFAC http://www.gene-regulation.com/
– JASPAR http://jaspar.cgb.ki.se/cgi-bin/jaspar_db.pl
– TESS http://www.cbil.upenn.edu/cgi-bin/tess/tess
– MOTIF (GenomeNet) http://motif.genome.jp/
– MatInspector http://www.genomatix.de/
Finding known motifs in a query sequence
MatInspector at http://www.genomatix.de/K. Cartharius et al. (2006) MatInspector and beyond: promoter analysis based on transcription factor binding sites. Bioinformatics 21:2933-2942. Genomatix Software GmbH, Munchen, Germany
Query: an enhancer in SOX61356 bp
About 1 in 4 bp is the start of a TFBS match!
Three modes of evolution
Negative and positive selection observed at different phylogenetic distances
:
phastCons score identifies conserved DNA segments
Siepel et al. 2005, Genome Research
Ultraconserved elements = UCEs
• At least 200 bp with no interspecies differences– Bejerano et al. (2004) Science 304:1321-1325
– 481 UCEs with no changes among human, mouse and rat
– Also conserved between out to dog and chicken
– More highly conserved than vast majority of coding regions
• Most do not code for protein – Only 111 out of 481overlap with protein-coding exons
– Some are developmental enhancers.
– Nonexonic UCEs tend to cluster in introns or in vicinity of genes encoding transcription factors regulating development
– 88 are more than 100 kb away from an annotated gene; may be distal enhancers
Intronic UCE in SOX6 enhances expression in melanocytes in transgenic mice
Pennacchio et al., http://enhancer.lbl.gov/
UCEsTested UCEs
Distinctive divergence rates for different types of functional DNA sequences
pTRRs: putative transcriptional regulatory region; likely CRMs
Sites identified as occupied by sequence-specific transcription factors based on high-throughput chromatin immunoprecipitation assayed by hybridization to high density tiling arrays of genomic DNA= ChIP-chip
Genes likely regulated by clade-specific pTRRs are enriched for distinctive functions
310
450
91
173
Millions ofyears
Percentage of pTRRs that align no further than:
Primates: 3%
Eutherians: 71%
Marsupials: 21%
Tetrapods: 4%
Vertebrates: 1%
David King
Enriched GO categories
q-value for FDR
Immune response
Protease inhibition
Mitosis and cell cycle
Transcriptional regulation
0.0006
0.0005
0.0005
0.004
0.012Ion transport
King, Taylor, et al. (2007) Genome Research
Conservation of TFBSs between species
• Servers to find conserved matches to factor binding sites– Comparative genomics at Lawrence Livermore http://www.dcode.org/
• zPicture and rVista• Mulan and multiTF• ECR browser
– Consite http://mordor.cgb.ki.se/cgi-bin/CONSITE/consite• Conserved TFBSs are available for some assemblies of human genome at UCSC Genome
Browser
Binding site for GATA-1
Clusters of conserved TFBSs: PReMods
Blanchette et al. (2006) Genome Research
http://genomequebec.mcgill.ca/PReMod/
ESPERREvolutionary and Sequence Pattern
Extraction through Reduced Representation
Taylor et al. (2006) Genome Research 16:1596-1604
ESPERR: a different approach
• Don’t assume a database of known binding motifs • Don’t assume strict conservation of the important
sequence signals • Instead, use alignments of validated examples to
learn sequence and evolutionary patterns that characterize a class of elements
• Machine learning approach to discriminate functional classes of DNA based on patterns in alignments
Regulatory potential (RP) to distinguish functional classes
Good performance of ESPERR for gene regulatory regions (RP)
-1
Predicted cis-Regulatory Modules (preCRMs) Around Erythroid Genes
- Gene is known to respond to the restoration of GATA-1 in an erythroid cell line - DNA segment with positive regulatory potential (RP) score - DNA segment contains at least one match to the GATA-1 binding site (WGATAR) that is preserved in multiple mammalian lineages Wang et al. (2006) Genome Research 16: 1480-1492
Examples of validated preCRMs
Validation status for 99 tested fragments
cc = consensus binding site motif is conserved and matches the consensus in multiple mammalian lineagescnc = binding site motif has a mismatch from the consensus but is conserved
Wang et al. (2006) Genome Research 16: 1480-1492
preCRMs with High RP and Conserved Consensus GATA-1 Tend To Be Validated
Accurate prediction of a GATA-1 responsive enhancer for miR-144, 451
A
Dore L, Amigo JD et al. (2008) PNAS 105:3333-3338.
Constraint on a binding site motif in an occupied DNA segment strongly correlates with enhancement
Cheng et al. (2008) revised manuscript submitted
Comparative genomics signals suggestive of CRMs around T2D risk variants
Summary: Genomics of Gene Regulation
• Genetic determinants of variation in expression levels may contribute to complex traits - phenotype is not just determined by coding regions
• Biochemical features associated with cis-regulatory modules are being determined genome-wide for a range of cell types.
• These can be used to predict CRMs, but occupancy does not necessarily mean that the DNA is actively involved in regulation.
• Comparative genomics is a complementary approach to predicting CRMs.
• Evolutionary preservation of binding site motifs within regions containing other indicators of CRMs (e.g. regulatory potential or protein occupancy) is a good predictor of function.
Many thanks …
Alignments, chains, nets, browsers, ideas, …Webb Miller, Jim Kent, David Haussler
RP scores and other bioinformatic input:Francesca Chiaromonte, James Taylor
Funding from NIDDK, NHGRI, Huck Institutes of Life Sciences at PSU
Erythroid cell biology and biochemistry:Mitch Weiss, Gerd Blobel, Barry Paw
Yong Cheng, Demesew Abebe, Christine Dorman, …, Ying Zhang, David King, Swathi Ashok Kumar