Title: DNA methylation and epigenetics
1DNAmethylation and epigenetics
2Epigenetics
- Mitoticaly and/or meioticaly heritable changes in
gene function, which are not based on changes in
primary DNA sequence - MechanismDNA methylation
- histon modifications (acetylation,
methylation,..) - Regulation of gene expression in development,
parental imprinting - Transgene and transpozone silencing,
- Paramutations,
- Conformational changes in chromatin (keeping
heterochromatin)
3Mechanism of DNA mathylation
- in Eukaryots metylation of cytosin on C5(also
adenin in bacteria)
H
H
H
H
O
N
N
H
N
N
N
T
C
C
SAM
N
H2O - NH3
O
N
O
N
O
thymine
cytosine
5-methyl cytosine
hot spot of mutagenesis
4DNA methylation target sequences
- both symmetric (palindromatic) sekvence and
asymmetric sequences 5 -------CG-------CNG---
-------C---C------G--C---- 3 3
-------GC-------GNC----------G---G------C--G----
5 Symmetric methylation pattern easily kept
after replication hemimethylated state
signal for maintainance methylation -----CG--
---------- CNG-----------C------- ---------CG
---- -----G C-------------G
NC-----------G ------- ---------G
C---- -----CG -------------CNG
-----------C-------- -----GC-------------GNC-
----------G-------- Asymmetric after
replication de novo methylation (by another
signal)
5DNA methylation in Eukaryots
- Non-methylated DNA Saccharomyces cerevisiae,
- Drosophila, Caenorhabditis, .
- mammals 3-8 cytosine residues, CpG sequences
- plants 25-30 cytosine residues ( genome size)
- Mainly in repetitive heterochromatinic regions
- (non-methylated islands of gene rich DNA in large
genomes)
6Genom Arabidopsis - statistics
7Analysis of DNA methylation in Arabidopsis
Strong methylation in heterochromatin near
centromeras MetC even in coding sequences of
expressed genes! Metylation in promotors of
developmentally regulated genes
8Analysis of methylation in Arabidopsis Chromosom
e epigenetic landscape
9DNA methylation maintainance and de novo
Maintainance symmetric hemimethylated state
- chromatin state (histon modifications)
de novo both symmetric and asymmetric
(changes in methylation) maintainance
methylation of asymmetric sequences -
chromatin state (histon modifications) -
siRNA (RNA directed DNA metylation)
10Plant cytosine 5-methyltransferases in
Arabidopsis min. 10 genes in 4 families
MET (metyltransferase) CMT (chromomethyltransferas
e) DRM (domain rearranged methyltransferase) At5g2
5480 - related to mammalian Dnmt2 ?
11 MET family - MET1 (ddm2, met1), MET2a,
MET2b, (MET3) - related to mammalian Dnmt1 -
maintainance methylation of symmetric CG -
asociated with replication - involvement of
nucleosom remodeling complex
12- CMT family
- CMT3,(CMT1), CMT2
- - unique for plants
- related to mammalian Dnmt1 chromodomain
- (interacting with chromatin) - chromomethyltransfe
rase - activity associated with methylation of histon
H3K9 - - maintainance methylation of CNG and certain
asymmetric seq.
13- DRM family
- - DRM2 (DRM1)
- - related to mammalian Dnmt3, but with rearranged
domains, - domain rearranged methyltransferase
- - de novo methylation of all sequences (CG, CNG,
asymmetric) - maintainance methylation of asymetric and CNG
- regulation of gene expression, silencing
- Targed sequences determined by presence of
homologous - siRNA
14RNA directed DNA methylation
NRPD nuclear RNA polymerases RDR RNA
dependent RNA polymerase DCL dicer-like protein
AGO4 ARGONAUTE DRM de novo metyltransferase DR
D chromatin remodelling protein
siRNA (24 nt) probably interact with nascent
ssRNA during transcription!!!
15Cytosine demethylation
1) Through replication without maintainance
methylation 2) DNA demethylases (cytosin and
methanol), DNA glykosylases (cleaving out
metylcytosine, replaced by cytosine) DME1
DEMETER parental imprinting (endosperm)
ROS1 REPRESSOR OF SILENCING somatic cells If
and where is the methylation state kept by
simultaneous action of methyltransferases and
demethylases is under discussion.
16Methylation mutants
Total decrease in 5metC (decrease in DNA
methylation) selection based on sensitivity of
repetitive centromeric sequences to
restriction by enzymes sensitive to DNA
mathylation ddm2 ddm1 symmetric
CG symmetric CG a CNG Mutation in gene for
SWI2/SNF2-like
protein MET1 - nukleosom remodelling
complex
17Phenotype of mutation in MET1 and DDM1
- - similar
- developmental alterations (flowering, shapes of
flowers, leaves, fertility, .) - u ddm1 phenotype observed after several
generations of selfpolination (gradual loss of
methylation pattern) - demethylation and activation of silenced genes
and transposons - local hypermethylation and silencing
-
18Methylation mutants
Decreased methylation in asymmetric
sequences drm1, drm2 double mutant loss of
de novo methylation of asymmetric and some
CNG cmt3 loss of maintainance methylation
of CNG and some asymetric Strong phenotype
connected with developmental alterations observed
only in triple mutant in all three genes (?
partial redundancy)
19Methylation mutants
- Reactivation of expression of silenced gene
- - both ddm mutants decreased methylation
- - hog1 decreased methylation
- mom1, sil1, sil2 no change in methylation!!
- Silencing of gene expression is not neccessarily
connected with DNA methylation (remember also
species without methylation)
20Analysis of methylation
- Direct
- spektrophotometric, HPLC
- - metC
- anti metC antibodies (in situ on chromosoms )
- - localization of metC rich regions of
chromosoms - Restriction endonucleases
- - detection of metC on certain position
- hydrogensulphite sequencing
- - determination of C and metC in certain PCR
amplicon - Indirect e.g. reactivation of silenced genes
21Restriction endonucleases
A -----------C CGG-----------------------
------------CmetCGG--------------------------C
CGG---------------------- B -----------C
CGG-----------------------------------C
CGG--------------------------C
CGG---------------------- -
restriction PCR primer
electrophoresis, Southern
PCR,
electrophoresis
A B
A B
22Hydrogensulphite sequencing
(NaHSO3) 1. denaturation ---------C---------C--
------CC---C------C------------C-- 2.
Modification of Cyt to Ura (5metC remains
unchanged) ---------C---------U--------UU---C-----
-U------------U-- 3. PCR, sequencing original
sequence ---------C---------C--------CC---C------C
------------C-- ---------G---------G--------GG---G
------G------------G-- modified
sequence ---------C---------U--------UU---C------U
------------U-- ---------G---------A--------AA---G
------A------------A--
23Demethylation of DNA
- - 5-azacytidine inhibition of MET1
- - dihydroxypropyladenine (DHPA) reduced levels
of SAM - (antisense) inactivation of MET1, DDM1, CMT3,
-
-
24Mutagenesis connected with methylation
C T
replication reparation
T
A
New gene evolution duplication, methylation,
mutation, new function, reactivation,
25Steric effects of DNA methylation
Modified DNA double helix
modulation of histon
modifications Altered interaction of associated
proteins - regulators of transcription -
proteins responsible for structure and
modifications of chromatine
26MBD proteins (metyl-CpG-binding
domain) Compression of chromatin Interaction
with histon modifying proteins (HDAC)
27DNA methylation and chromatin state
interconnections
- correlation between hypermethylation, late
replication and histon hypoacethylation - methylation is heritable signal for histon
deacethylation and chromatin condensation - similar phenotype of mutants with blocked DNA
methylation (met1) and histon deacethylation
(AtHD1) - - methylation of H3K9 (KYP) signal for
methylation of CNG - - methylation of H3K4 typical for euchromatin
(active DNA)
28Posttranslational modifications of histons
histon methyl transferases KYP H3K9
met histon demethylases histon
acetyltransferases histon deacetylases histon
kinases a phosphfatases, Complexity of histon
code exceeds complexity of genetic code
29(No Transcript)
30Role of DNA methylation
- heritable modulation of transcription
(predominantly methylation of promoters) - - defence against invasive DNA (transposons)
- - regulation of gene expression (ontogenesis,
diferenciation, cell memory) - - parental imprinting
-
- modulation of chromatin structure
- - timing of DNA replication
- - regulation of homologous recombination
(meiosa) - tool of evolution
- - polyploid plant genomes (large changes in
methylation) - - new genes (mutagenesis)
31- Pharental imprinting
- different epigenetic modification (methylation)
of alels inherited from mother and father gamete
(different expression in zygote hemizygous
state) - in Angiosperms and mammals (parallel evolution)
- role in keeping balaced embryo nutrition
(endosperm growth) in the mother organism - demethylation
- or methylation
- of certain genes
- (aleles from certain
- pharent)
- in endospern
- (? not in embryo
- as in mammals)
32Transgene silencing
Pozition effect (location on chromosom, character
of neighboring sequences) - heterochromatin -
MARs a SARs (mitosis/scaffold associated/attached
regions) Homology Dependent Gene Silencing
- siRNAs
33Homology Dependent Gene Silencing
- TranscriptionalGeneSilencing no transcription
(promotor methylation) - PostTGS mRNA not
translated to protein - PTGS can exchange to TGS!
- Induction of silencing
- dsRNA (sense antisense RNA, hairpin, RdRP)
()
()
(-)
(RdRP RNA dependent RNA pol.)
34siRNA formation
Signal dsRNA Cleavage of dsRNA DICER
(DICER-like) Efector siRNA in complex
with ARGONAUTE
35Gene Silencing - dsRNA formation
36Homology Dependent Gene Silencing
PTGS degradation of mRNA (interference with
translation) TGS RNA dependent DNA methylation
37Gene Silencing systemic transport of siRNAs
38Epigenetic regulation of gene expression in plant
development
- - miRNA (21 nt)
- encoded as pre miRNA (cleaved by DCL1
DICER-LIKE) - in Arabidopsis more than 100 well characterized
- (in total probably thousands ???)
- targets regulatory proteins
- e.g. transcription factors, components of
ubiquitination - pathway,
39miRNAs in plant development
Inhibited expression of certain miRNA
40miRNAs in plant development
Expression of miRNA-resistant variants of target
genes (the same protein encoded by different
nucleotide sequence)