12 7 2 david a ray -3 -8myweb.ttu.edu/daray/posters_etc/dray_ttu_nov2014.pdf · te activity is...
TRANSCRIPT
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Department of Biological SciencesTexas Tech University
David A Ray-8
-3
2
7
12
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The Ray laboratory Genome evolution on a broad taxonomic scale Transposable elements (TEs)
TE dynamics and small RNAs TEs, genomic innovation and miRNAs piRNAs and defense against TEs
Other ongoing projects Questions
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Model taxa are great but…▪ Inbreeding▪ Taxonomic diversity▪ ‘Real world’ experience
How applicable are the findings from model taxa to the broader world?▪ Genome-level questions▪ Taxonomically meaningful clades▪ In the ‘real world’
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DNA sequences with the ability to relocate within a genome
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Pol II or III transcription
Reverse transcription and insertion
1. Usually a single copy or a few ‘master’ copies
2. Transcription to an RNA intermediate
3. Reverse transcription and integration
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Double strand break in donor DNA
Transposon w/ ORF
Pol II transcription
Transposase
Translation
Donor
Target
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TEs have been implicated in numerous aspects of genome evolution, diversity, functionality.
“A substantial proportion of … eutherian-specific CNEs arose from sequence inserted by transposable elements, pointing to transposons as a major creative force in the evolution of mammalian gene regulation.” - Mikkelson et al., 2007.
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The Ray laboratory Genome evolution on a broad taxonomic scale Transposable elements (TEs)
TE dynamics and small RNAs TEs, genomic innovation and miRNAs piRNAs and defense against TEs
Other ongoing projects Questions
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TEs are powerful mutagens and their impact must be reduced….
but they also represent valuable sources of potential innovation.
TEs and miRNAs
TEs and piRNAs
But before I can tell you those stories, I have to tell you this story.
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Vesper bats Second most species rich mammalian family (44
genera, ~400 species) World wide distribution Simple, non-descript phenotypes Simmons (1998) – no defining, derived morphological feature
unites Vespertilionidae. Myotis lucifugus, M. davidii, M. brandtii, & Eptesicus
fuscus
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Lack & Van De Bussche (2010)Hoofer et al. (2003)
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No other mammalian genome so far examined has similar Class II activity levels…
that includes other bat families
human
armadillo
hedgehog
mouse
rabbit
vesper bat
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Prosimians
HumanMacaque
100100 6565 4040 MYMY2525~150~150 //
MouseRat
Dog
Vesper bats
Non-vesper bats
00
Marmoset
29 fam.74K copies
11 fam.23K copies
85 fam.284K copies
~ 20 fam.231K copies
25 fam.49K copies
23 fam.47K copies
5 fam. 7K copies
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DNA transposons form natural hairpins and are frequently exapted as miRNAs Maruspials – Devor et al. (2009) Primates – Piriyapongsa et al. (2007) Humans – Ahn et al. (2013)
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DNA transposons have been recently active in vesper bats DNA transposons have been exapted as miRNAs in other mammals Have DNA transposons been exapted as miRNAs in vesper bats? If so, what impacts are associated? Myotis lucifugus – unavailable Eptesicus fuscus – Another vespertilionid, genome draft released in 2012, TE
landscape is mapped, local
CHAPTER III
E. fuscus M. lucifugus
Genome contributions by TEs, <40 my
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To whom to we compare?
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No other mammalian genome so far examined has similar Class II activity levels
human
armadillo
hedgehog
mouse
rabbit
vesper bat
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Sequenced the small RNA repertoires of dog, horse and Eptesicus.Sequenced the transcriptome from the same taxa.Identified putative miRNAs and their potential target transcripts
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323
212
388
341
Novel miRNAsNovel
miRBase
Eptesicus
661
Dog Horsen = 661 n = 535 n = 729
TE derived miRNAsClass I
Class II
Non-TE356
138
165 62
460
13 55
39
635
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Dog 184 (2.2/MY) 44 (0.5/MY)Horse 339 (4.1/MY) 56 (0.7/MY)Eptesicus 396 (4.8/MY) 242 (3.0/MY)
miRNAs TE derived
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Artibeus & Miniopterus do not contain DNA transposons Pritham & Feschotte (2007), Ray et al. (2007, 2008), Thomas et al. (2011), Pagan et al. (2012)
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Have DNA transposons been exapted as miRNAs in vesper bats?
Sho ‘nuff
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Target genes identified for 38 bat specific miRNAs
Categorization of GO terms reveals enrichment for:Transcription
• 22 genes, P=0.0000068, FDR=0.01• 11 DNA transposon derived miRNAs
Ubiquitin dependent protein catabolism• 7 genes, P=0.0001, FDR=0.1• 2 DNA transposon derived miRNAs
Some DNA transposon derived miRNAs appear to be functional in regulating transcription
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Ex: TE thrust, Epi-Transposon, Horizontal transfer, CASP
DNA transposon derived miRNAs coincides with vespertilionid diversification.
Thus, miRNA formation via DNA transposon activity is a potential explanatory mechanism for the diversification of Vespertilionidae and worth further investigation.
Diversification TE Activity
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Million Years Million Years
Perc
ent o
f gen
ome
MyotisEptesicus
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Million Years Million Years
Myotis
Eptesicus
25 SpeciesSplit from sister genus ~15 MYA
103-113 SpeciesSplit from sister genus 16.2 MYA
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Lineage specific DNA transposon activity in the early vesper bats have been exapted into the miRNA pathway
miRNAs are enriched for involvement in transcription
miRNA exaptation coincides with a period of rapid radiation
Suggests a mechanism to explain rapid diversification
Can a similar pattern be observed in other example taxa?
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The Ray laboratory Genome evolution on a broad taxonomic scale Transposable elements (TEs)
TE dynamics and small RNAs TEs, genomic innovation and miRNAs piRNAs and defense against TEs
Other ongoing projects Questions
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Some TEs can transfer horizontally to unrelated genomes, thereby invading new ‘habitats’
TEs can cause significant genome instability
How do genomes protect themselves against new TE invasions and TE activity?
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piRNAs (PIWI-interacting RNAs)• No defining structural features• ~24-32 nucleotides long• 5’ U bias in first position• Organized in clusters• Expressed in a developmentally regulated mannerPIWI proteins• Members of the Argonaute gene family• RNA binding • Endonuclease / slicer activities • Most abundant in male germ cells• Responsible for gene silencing • Cleaves RNA transcripts • Can methylate DNA• Use piRNAs as guides
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How do genomes protect themselves against new TE invasions and TE activity?
Genomic piRNA clusters can act as TE traps, recruiting novel TEs as sources of piRNAs
The ‘ping-pong’ cycle can modulate the strength of the piRNA response so that it matches the TE challenge
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Transcription of active TE (sense transcript)
Genomic TE locus
Ping-pong model
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Transcription of active TE (sense transcript)
Genomic TE locus
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
1° processing
Ping-pong model
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Transcription of active TE (sense transcript)
Genomic TE locus
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
1° processing
Targeting of complementary
transcriptPUAGGCAUUGCAUGGGCAUUAAGCUGGAC
1°piRNA/MILI complex5’..GUCCCGAAAUUGCGUCCAGCUUAAUGCCCAUGCAAUGCCUACGAUGGAACGUCCGCAAGUU..3’
Ping-pong model
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Transcription of active TE (sense transcript)
Genomic TE locus
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
1° processing
Targeting of complementary
transcriptPUAGGCAUUGCAUGGGCAUUAAGCUGGAC
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MILI complex
1°piRNA/MILI complex5’..GUCCCGAAAUUGCGUCCAGCUUAAUGCCCAUGCAAUGCCUACGAUGGAACGUCCGCAAGUU..3’
Ping-pong model
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Transcription of active TE (sense transcript)
Genomic TE locus
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
1° processing
Targeting of complementary
transcriptPUAGGCAUUGCAUGGGCAUUAAGCUGGAC
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MILI complex
1°piRNA/MILI complex5’..GUCCCGAAAUUGCGUCCAGCUUAAUGCCCAUGCAAUGCCUACGAUGGAACGUCCGCAAGUU..3’ pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MIWI2 complex
Nuclear translocation and methylation-induced
TE silencing
Ping-pong model
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Transcription of active TE (sense transcript)
Genomic TE locus
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
1° processing
Targeting of complementary
transcriptPUAGGCAUUGCAUGGGCAUUAAGCUGGAC
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MILI complex
1°piRNA/MILI complex
5’..AACUUGCGGACGUUCCAUCGUAGGCAUUGCAUGGGCAUUAAGCUGGACGCAAUUUCGGGAC..3’
5’..GUCCCGAAAUUGCGUCCAGCUUAAUGCCCAUGCAAUGCCUACGAUGGAACGUCCGCAAGUU..3’
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MILI complex
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU2°piRNA/MIWI2 complex
Nuclear translocation and methylation-induced
TE silencing
Targeting of complementary
transcript
Ping-pong model
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Transcription of active TE (sense transcript)
Genomic TE locus
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
1° processing
Targeting of complementary
transcriptPUAGGCAUUGCAUGGGCAUUAAGCUGGAC
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MILI complex
1°piRNA/MILI complex
5’..AACUUGCGGACGUUCCAUCGUAGGCAUUGCAUGGGCAUUAAGCUGGACGCAAUUUCGGGAC..3’
PUAGGCAUUGCAUGGGCAUUAAGCUGGAC1°piRNA/MILI complex
5’..GUCCCGAAAUUGCGUCCAGCUUAAUGCCCAUGCAAUGCCUACGAUGGAACGUCCGCAAGUU..3’
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU
2°piRNA/MILI complex
pGCAAUGCCUAGCAUGGAACGUCCGCAAGU2°piRNA/MIWI2 complex
Nuclear translocation and methylation-induced
TE silencing
Targeting of complementary
transcript
Ping-pong model
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TE activity is variable among mammals Analyze and compare the TE landscape/activity and piRNA
repertoire from three non-model Laurasiatherians Test specific predictions of the ping-pong model piRNAs would be expected to preferentially target younger TEs TEs that are actively transcribed should elicit much more robust
piRNA response
What about DNA transposons, which lack an RNA intermediate? Are they also targeted by piRNAs? Do they feed the ping-pong cycle?
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Sequenced the small RNA repertoires of dog, horse and Eptesicus.Identified putative piRNAsMapped the putative piRNAs and their TE counterparts
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EptFus1
0
0.5
1
0 10 20 30 40 50
0
0.5
1
0 10 20 30 40 50
0
0.5
1
0 10 20 30 40 50
DNA
LTR
LINE
SINE
% o
f gen
ome
MY ago
TE activity < 50 mya
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Dog Horse Bat
Total 65.8 69.4 18.3Collapsed 5.6 8.4 2.624-32 bp 4.8 7.2 2.0Mapped 2.7 (62%) 4.0 (55%) 1.3 (65%)
Single mappers 2.6 (53%) 3.5 (47%) 1.1 (55%)
0
0.8
1.6
15 17 19 21 23 25 27 29 31 33 35
U G C A
0
0.6
1.2
15 17 19 21 23 25 27 29 31 33 350
1.25
2.5
15 17 19 21 23 25 27 29 31 33 35
x106x106 x105
piRNA length
Leng
th a
bund
ance
Dog Horse Bat
All values in millions
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0
0.05
0.1
0.15
0.2
0.25
0 5 10 15 200
0.050.1
0.150.2
0.250.3
0 5 10 15 20
0
0.1
0.2
0.3
0.4
0.5
0 5 10 15 20
5-UACAGGACUACGGAUAGACACGAG-3
3-GACAGCCUGAUCAAAUGUCCUGAU-5
5-CUGUCGGACUAGUUUACAGGACUACGGAUAGACACGAG-3
Overlap length
frequ
ency
BatHorseDog
Primary piRNA
Secondary piRNA
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Dog
Horse
Bat
-8
-3
2
7
12
-8
-3
2
7
12
-8
-3
2
7
12
5’ ORF1 ORF2 3’
0
0.5
1
0 20 40
0
0.5
1
0 20 40
0
0.5
1
0 20 40
LINE
% o
f gen
ome
MY ago
LINE activity < 50 mya
piRNAs should map more densely to TEs that have more recent
activity in the genome
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Some nice correlations in
some cases but not all
More recently active elements should correlate with increased
ping-pong pairs
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TE terminology has been sloppy Accumulation ≠ activity Accumulation = successful insertion of a transcribed
retrotransposon or the successful duplicative integration of a DNA transposon
Activity = rate of transcription
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0
0.5
1
0 10 20 30 40 500
0.5
1
0 10 20 30 40 50
0
0.5
1
0 10 20 30 40 50
% o
f gen
ome
SINE accumulation < 50 mya
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Generally, the more actively expressed elements are targeted by PIWIs and piRNA. However, Similar levels of SINE expression in dog and horse, yet
higher piRNA densities in horse SINEs Historical/current abundance of TEs may not reflect
current TE expression Instead, abundance of TEs may reflect the differential
success of piRNAs in silencing TEs
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The Ray laboratory Genome evolution on a broad taxonomic scale Transposable elements (TEs)
TE dynamics and small RNAs TEs, genomic innovation and miRNAs piRNAs and defense against TEs
Other ongoing projects Questions
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The International Crocodilian Genomes Working Group (ICGWG) Director – David Ray Genome Assembly/Analysis – Ed Green Education Outreach – Ed Braun
www.crocgenomes.org Objectives:
Draft genomes of Alligator mississippiensis, Crocodylus porosus, and Gavialis gangeticus
Annotation based on transcriptome data, de novo transposable element analyses, and comparison to other vertebrates
Resources free to the crocodilian and broader genomics communities to facilitate research
Coordinate research associated with the overall project and other researchers to avoid duplication of effort
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Full genome assemblies for three crocodilians Among vertebrates, crocodilians have some of the slowest rates
of molecular change
bird
s
frog
s
coel
ocan
th bird
s
mam
mal
s
croc
odili
ans
turt
les
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Among vertebrates, crocodilians have some of the slowest rates of molecular change Multiple whole genome alignments that included 23
species’ genomes
Crocodile vs. alligator▪ 93% identity across the genome▪ 90 my divergence▪ 93% identity b/t human and macaque▪ 23 my divergence
Genome pair Percent ID
Alligator, crocodile 92.9%
Crocodile, gharial 95.7%
Alligator, gharial 93.4%
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• Evolution of insect TE control• Within an explicit phylogenetic context….
• Do piRNA repertoires track TE landscapes?• Is argonaute gene family evolution related to
historical TE activity?
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Graduate students Neal Platt Mike Vandewege Heidi Pagan Christine Lavoie
Postdoctoral associates Meganathan Ramakodi Neal Platt
Co-PIs Federico Hoffmann ICGWG members
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http://www.myweb.ttu.edu/darayhttp://www.crocgenomes.org