organellar genome and organellar inheritence
TRANSCRIPT
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Organellar Genome and OrganellarInheritance
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History of Organellar Genome
1962
Ris and Plaut
First demonstrated presence of DNA in
chloroplast
1963Nass and Co
worker
Proved the existence of DNA in
mitochondrion
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Organellar Genome
CHLOROPLAST DNAMITOCHONDRIAL DNA
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Important features of Organellar DNA
Replicates both in chloroplast and mitochondria in a
semi-conservative fashion.
Liable to mutation.
They are expressed and inherited separately from
nuclear genes.
All aerobic animal and plant cells.
They are transcribed and translated within the
organelles.
Uni-parental inheritance is observed.
Present in multiple copies in each organelle. cp-DNA-
20-40 copies per chloroplast. ~4 copies per
mitochondria (E.g.: Yeast).
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End
osymbiotic
Theor
yOrigin
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Why Endosymbiotic Theory considered true…..
New mitochondria and plastids
are formed only through a
process similar to binary fission.
Both mitochondria and plastids
contain DNA that is similar to that
of bacteria (both in their size and
their having a circular form).
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Continue…..
These organelles' ribosomes are like those found in
bacteria (70S).
Proteins of organelle origin, like those of bacteria,
use N-formyl methionine as the initiating amino acid.
Much of the internal structure and biochemistry
of plastids, for instance the presence of thylakoids
and particular chlorophylls, is very similar to that of
cyanobacteria.
Mitochondria have several enzymes and transport
systems similar to those of bacteria.
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1) Found in chloroplast and
mitochondria.
2) Usually circular except in
ciliate protozoa, where it is
linear.
3) Synthesis continues
throughout cell cycle.
1) Found in chromosomes.
2) Linear in eukaryotes and
circular in prokaryotes.
3) Synthesis occurs onlyduring interphase.
Difference Between Organellar DNA and Nuclear DNA
Organellar DNA Nuclear DNA
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U C A G
U PhePheLeuLeu
SerSerSerSer
TyrTyrStopStop
CysCysStopTrp
UCAG
C LeuLeuLeuLeu
ProProProPro
HisHisGlnGln
ArgArgArgArg
UCAG
A IleIleIleInitiation Codon/Met
(f-Met during initiation)
ThrThrThrThr
AsnAsnLysLys
SerSerArgArg
UCAG
G ValValValVal
AlaAlaAlaAla
AspAspGluGlu
GlyGlyGlyGly
UCAG
Ambiguity in the Genetic Code in chloroplast and mitochondria
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U C A G
U PhePheLeuLeu
SerSerSerSer
TyrTyrStopStop
CysCysStop(Trp)Trp
UCAG
C LeuLeuLeu(Thr)Leu
ProProProPro
HisHisGlnGln
ArgArgArgArg
UCAG
A IleIleIleInitiation Codon/Met
ThrThrThrThr
AsnAsnLys(Asn)Lys
SerSerArg(Ser/Termination)Arg(Termination)
UCAG
G ValValValVal
AlaAlaAlaAla
AspAspGluGlu
GlyGlyGlyGly
UCAG
Changes found in mitochondrial genetic code
Met-Initiation/Met-elongation
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Mitochondrial Genome
Mitochondria DNA Characteristics
May be circular or linear.
Size: varies from ~16.5kb to ~100kb.
mt-genome shows larger variation in
size compared to that of chloroplast.
In higher plants, mt-DNA has short
homologous sequences, recombination
within which generates smaller, sub-
genomic circles present with the full
genome.
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In most animals the two strands of mt-DNA have different
densities, so they are called the H (heavy) and L (light) strands.
Both strands encode genes, although more are on the H
strand.
mt-DNA codes for rRNAs, tRNAs and protein molecules
(mainly protein subunits for respiration)
No structural DNA proteins are associated with mt-DNA.
Within mitochondria are nucleoid regions, each of which
contains several copies of the mitochondrial chromosome.
Yeast has between 4 and 5 mtDNA molecules per nucleoid,
and each mitochondrion has 10 to 30 nucleoids.
Continue…..
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A short region (1121 bp), called
the D loop (D = “displacement”), is
a DNA triple helix: there are 2
overlapping copies of the H
strand.
The D loop is the site where
most of replication and
transcription is controlled.
Genes are tightly packed, with
almost no non-coding DNA outside
of the D loop.
Continue…..
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Human mitochondrial genes contain no introns, although introns
are found in the mitochondria of other groups (plants, for instance).
Generally, mitochondrial DNA encodes:
tRNAs
rRNAs
Protein subunits, including:
Cytochrome C biogenesis
Polypeptides of cytochrome oxidase.
NADH dehydrogenase.
ATPase.
Continue…..
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semi-conservative
relies on mitochondrion-specific
DNA polymerases.
The origin of replication for the
H strand is in the D loop, and it
is initiated by an RNA primer
generated from the L strand
transcript.
After the new H strand is about
2/3 complete, the L strand origin
of replication is uncovered.
Replication of mt-DNA
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The L strand origin is on the old H
strand; it is “uncovered” when the
old H strand is displaced by the
DNA polymerase synthesizing the
new H strand.
The L strand origin folds into a loop
structure, which acts as a primer,
and replication of the L strand
begins.
It involves no proof-reading and
DNA replication occurs throughout
the cell cycle.
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Diversity of mitochondrial genomes
Diversity Animal Fungi Plants
Size 14kb - 42kb 17kb - 180kb 184kb - 2,400kb
Non-coding DNA Very Low Variable Very High
Mutation rate High Low Very Low
Recombination /
Introns
Universal genetic code
Mostly
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Map
of
the
ge
nes
in m
ito
cho
nd
rial
DN
A
of
hu
man
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Characteristics of Chloroplast DNA
Double-stranded
Chloroplasts contain naked circular DNA.
Circular, super coiled, and generally not
associated with any proteins.
Size: Varies. 85kb (Codium fragile) to
2000kb (Acetabularia sp.).
CHLOROPLAST GENOME
Larger than mitochondrial genomes (80-600 Kb in length),
Each chloroplast contains 10-60 (sometimes 100) copies of its
genome.
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cp-DNA contains mostly inverted repeats.
In higher plants cp-DNA 10-24kb long,
two identical copies per genome as an
inverted repeat.
Machinery for cp-DNA replication
provided by nuclear genes.
Many chloroplasts contain introns which
form 2 classes.
1)Introns of tRNA located on anti-
codon loop.
2)Introns present in protein encoding
genes.
Continue…..
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GC content of cp DNA differs
greatly from that of the nuclear
and mitochondrial
cpDNA (36%)
nuclear(64%) and
mitochondrial DNA (71%),
This allows cpDNA to be
isolated by CsCl equilibrium
density gradient
centrifugation.
The number of copies of cpDNA varies from species to species.
In all cases there are multiple copies per chloroplast, and these
copies are found in nucleoid regions that are also present in multiple
copies.
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The mechanisms of cpDNA replication are unknown.
Chloroplast ribosomes are distinct from mitochondrial ribosomes.
Translation proceeds in a manner similar to prokaryotes.
The chloroplast genome contains genes for
Chloroplasts.
rRNAs.
tRNAs.
Some ribosomal proteins.
RNA polymerase subunits.
Translation factors.
Proteins involved in photosynthesis.
Continue…..
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Org
aniz
atio
ns
of
the
ch
loro
pla
st g
en
om
e
of
rice
(O
ryza
sa
tiva
)
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Diagram depicts communication between the nucleus, chloroplast and mitochondrion
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History of Organellar Inheritance
1908
Correns
First presented the evidence for
cytoplasmicinheritance in
Mirabilis jalapa
1924
Jenkins
Described the
iojap leaf
variegation in
maize
1933
Rhodes
Described CMS in Maize
1908
Baur
First presented the evidence for
cytoplasmicinheritance in Pelargonium
zonale
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ORGENELLAR INHERITANCE
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Difference Between Organellar Inheritance and Mendelian inheritance
Organellar Inheritance Mendelian inheritance 1) Governed by Nuclear genes 1) Governed by orgenellar genes
2) Exhibits distinct segregation pattern
2) Does not exhibits distinct segregation pattern
3) Reciprocal differences are not observed
3) Reciprocal differences areobserved
4) Does not show maternal effects 4) Show maternal effects
5) Genes can be easily mapped 5) Mapping is difficult
6) Nuclear genes are associated with chromosomes
7) Plasma genes are associated with either cpDNA or mtDNA.
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Important features of Organellar Inheritance
Reciprocal
differences-
As orgenellar
genome from
only one parent,
generally the
female parent
are transmitted
(Uni-parental
inheritance)
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Important features of OrganellarInheritance
Lack of Segregation
Irregular Segregation in Biparental Inheritance
Somatic Segregation
Association with Organellar DNA
Mutagenesis
Lack of Association with A Parasite, Symbiont
or Virus
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Carl Correns (1908) studied the inheritance of
leaf variegation called ‘albomaculatus’ in the
four O clock plant Mirabilis jalapa.
PLASTID INHERITANCE
Mixed chloroplasts
White/green
Mutant chloroplast
White
non-photosynthetic
Normal chloroplast
Green
photosynthetic
Variegated-shoot phenotypes in four o’clocks
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Plas
tid S
tudy
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Crosses between Oenothera muricata and
Oenothera hookeri.
Iojap in maize- three types of leaves.
Green, Iojap (green and white stripes) and
white.
Zebrina- white and green sectors in leaves.
Some other examples of plastid inheritance are
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Inheritance pattern governed by mt-DNA is termed as
mitochondrial inheritance.
Examples of Mitochondrial inheritance are as follows:-
Cytoplasmic Male Sterility in plants-Maize,
Sorghum..etc
Pokyness in Neurospora.
Petite in Yeast.
MITOCHONDRAL INHERITANCE
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Role cytoplasmic organelles in transmission of
characters.
Role in mapping of chloroplast and mitochondrial
genome.
Role of cytoplasmic male sterility.
Mutation of chloroplast-DNA and mitochondrial-DNA
leads to generation of new variants.
mt-DNA is used for the study of human evolution
SIGNIFICANCE IN PLANT BREEDING
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