Cleavage in animals
DRSANJUKTADAS
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Jul 09, 2021
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About This Presentation
Developmental Biology for UG course Lifesciences
Slide Content
CLEAVAGE IN ANIMALS
By
DR. SANJUKTA DAS
DR. KHANGEMBAM CHERITA DEVI
DEPARTMENT OF ZOOLOGY
KIRORI MAL COLLEGE, UNIVERSITY OF DELHI
By
DR. SANJUKTA DAS
DR. KHANGEMBAM CHERITA DEVI
DEPARTMENT OF ZOOLOGY
KIRORI MAL COLLEGE, UNIVERSITY OF DELHI
What is
Cleavage?
•It is the first embryological stage in life cycle of all metazoans.
•It follows fertilization process and is a dynamic event.
•It lays the ground for the next stage of embryogenesis that is
Blastula.
•It refers to repeated mitotic divisions of the fertilized egg into
large number of cells.
•The cell division occurs in rapid succession.
•The cell products of cleavage is called as blastomeres.
Cleavage?
•It is the first embryological stage in life cycle of all metazoans.
•It follows fertilization process and is a dynamic event.
•It lays the ground for the next stage of embryogenesis that is
Blastula.
•It refers to repeated mitotic divisions of the fertilized egg into
large number of cells.
•The cell division occurs in rapid succession.
•The cell products of cleavage is called as blastomeres.
Characteristics of
Cleavage division
Like a mitotic division cleavage involves nuclear division (Karyokinesis) followed by
cytoplasmic division (Cytokinesis) producing smaller nucleated cells called blastomeres.
The first cleavage of zygote divides it in to 2 blastomeres. Then two blastomeres
undergo cleavage to form 4, 8,16, 32 and so on.
The rate of cell divisions during cleavage is very fast.
The cell-cycle duration in cleavage is short as compared to somatic cell cycle duration.
[This is due to absence of gap phases (G1 and G2)]
Thus, cleavage is initially biphasic consisting of S(synthetic phase) and M ( Mitotic
phase).
Cleavage starts from animal pole and extends towards vegetal pole.
Cleavage division
Like a mitotic division cleavage involves nuclear division (Karyokinesis) followed by
cytoplasmic division (Cytokinesis) producing smaller nucleated cells called blastomeres.
The first cleavage of zygote divides it in to 2 blastomeres. Then two blastomeres
undergo cleavage to form 4, 8,16, 32 and so on.
The rate of cell divisions during cleavage is very fast.
The cell-cycle duration in cleavage is short as compared to somatic cell cycle duration.
[This is due to absence of gap phases (G1 and G2)]
Thus, cleavage is initially biphasic consisting of S(synthetic phase) and M ( Mitotic
phase).
Cleavage starts from animal pole and extends towards vegetal pole.
Fig.Increaseincellnumberinfrogduetocleavage(betweentheblastulastageand
thebeginningofgastrulation)—AfterSze1953.
Increase in blastomere numbers in early development of frog (Rana pipiens)
thebeginningofgastrulation)—AfterSze1953.
Increase in blastomere numbers in early development of frog (Rana pipiens)
Outcomes of
Cleavage
Increase in cell numbers of the embryo.
Generation of many copies of genome.
Segregation of cytoplasmic contents into blastomeres.
Volume of embryo does not change, hence
blastomeres become smaller.
Increase in the nucleocytoplasmic ratio (ratio of
nuclear volume to cytoplasmic volume).
Cytoplasmicvolumedoesnotincrease,ratherlarge
volumeofcytoplasmisdividedintosmaller
blastomeresformedduetocleavage.
Cleavage
Increase in cell numbers of the embryo.
Generation of many copies of genome.
Segregation of cytoplasmic contents into blastomeres.
Volume of embryo does not change, hence
blastomeres become smaller.
Increase in the nucleocytoplasmic ratio (ratio of
nuclear volume to cytoplasmic volume).
Cytoplasmicvolumedoesnotincrease,ratherlarge
volumeofcytoplasmisdividedintosmaller
blastomeresformedduetocleavage.
Significance of Cleavage
It contributes to multicellularity of metazoans at an early stage of metazoan development.
It sets the stage for the future embryonic processes.
Increasing the nucleocytolasmic ratio–ratio of nuclear vol to cytoplasmic vol. , critical
cellular parameter is necessary for efficient turnover of RNA and Protein.
In certain embryos as that of Xenopus and Drosophila, it has been shown that increase in
nucleocytoplasmic ratio is crucial in timing the activation of certain genes.
Rapid cleavage reduces the risk of predation when the embryo remains immobile
It contributes to multicellularity of metazoans at an early stage of metazoan development.
It sets the stage for the future embryonic processes.
Increasing the nucleocytolasmic ratio–ratio of nuclear vol to cytoplasmic vol. , critical
cellular parameter is necessary for efficient turnover of RNA and Protein.
In certain embryos as that of Xenopus and Drosophila, it has been shown that increase in
nucleocytoplasmic ratio is crucial in timing the activation of certain genes.
Rapid cleavage reduces the risk of predation when the embryo remains immobile
Pattern and types of Cleavage : Yolk distribution and amount
Animal forms differ in their cleavage patterns-the relative sizes of blastomeres
and their configuration are different.
Pattern of cleavage is established by amount of yolk and its distribution
Types of egg based on the amount of yolk
•Microlecithal egg: small /little amount of yolk. e.g., Marsupials
•Mega/Macrolecithal egg: Large amount of yolk e.g., some fishes, reptile and bird
•Alecithal egg: absence of yolk. e.g., human egg
Animal forms differ in their cleavage patterns-the relative sizes of blastomeres
and their configuration are different.
Pattern of cleavage is established by amount of yolk and its distribution
Types of egg based on the amount of yolk
•Microlecithal egg: small /little amount of yolk. e.g., Marsupials
•Mega/Macrolecithal egg: Large amount of yolk e.g., some fishes, reptile and bird
•Alecithal egg: absence of yolk. e.g., human egg
Types of Egg and Types of Cleavage: Animals' eggs are characterised and classified in terms of amount
of yolk and its distribution. Presence ofyolkalso signifies the polarity of egg.
Type of cleavage Pattern of cleavage Animals
Isolecithal
Little yolk , Evenly distributed
Holoblastic
Egg completely cleaved
Radial
Bilateral
Spiral
Rotational
Echinoderms
Ascidians
Molluscs
Mammals
Mesolecithal
Moderate amount
Of yolk, mostly in vegetal
Hemisphere
Telolecithal
Large of amount
Of yolk except for blastodisc at
animal pole
Holoblastic
Meroblastic
Egg incompletely
Cleaved
Radial
Discoidal
Blastomeres
Form disc on
yolk
Amphibians
Most fishes
Birds
Reptiles
Centrolecithal
Yolk concentrated in centre of the
egg
Meroblastic Superficial Insects and other arthropods
of yolk and its distribution. Presence ofyolkalso signifies the polarity of egg.
Type of cleavage Pattern of cleavage Animals
Isolecithal
Little yolk , Evenly distributed
Holoblastic
Egg completely cleaved
Radial
Bilateral
Spiral
Rotational
Echinoderms
Ascidians
Molluscs
Mammals
Mesolecithal
Moderate amount
Of yolk, mostly in vegetal
Hemisphere
Telolecithal
Large of amount
Of yolk except for blastodisc at
animal pole
Holoblastic
Meroblastic
Egg incompletely
Cleaved
Radial
Discoidal
Blastomeres
Form disc on
yolk
Amphibians
Most fishes
Birds
Reptiles
Centrolecithal
Yolk concentrated in centre of the
egg
Meroblastic Superficial Insects and other arthropods
Types of cleavage
Based on the amount of yolk the cleavage is
complete or partial
A)Holoblastic–Completecleavage–inthiscase
thecleavageplanecompletelypassesthroughthe
eggbisectingitintotwoblastomeres.
•So,theholoblasticcleavageresultsinthe
formationoftwoequalsizeblastomeres.
B)Meroblastic–Incompletecleavage–Inthis
casetheyolkdoesimpedethecompletedivision
oftheegg
Fig. Holoblastic cleavage Fig. Meroblastic cleavage
Based on the amount of yolk the cleavage is
complete or partial
A)Holoblastic–Completecleavage–inthiscase
thecleavageplanecompletelypassesthroughthe
eggbisectingitintotwoblastomeres.
•So,theholoblasticcleavageresultsinthe
formationoftwoequalsizeblastomeres.
B)Meroblastic–Incompletecleavage–Inthis
casetheyolkdoesimpedethecompletedivision
oftheegg
Fig. Holoblastic cleavage Fig. Meroblastic cleavage
Types of Holoblastic Cleavage: Radial , Bilateral and Spiral
cleavage
i. Radial type of cleavage
•It is found in echinoderms
•The plane of first division is meridional passing through the
main axis.
•The second division is also meridional but at right angle to
the first division.
•Thus, the first four blastomeres all lie side by side.
•The third division is at right angles to the first two divisions.
•Ifeachoftheblastomeresoftheuppertierlieoverthe
correspondingblastomeresofthelowertier,thepattern
oftheblastomeresisradiallysymmetrical.
•E.g. Sea Cucumber Fig.Radialcleavagewithalmostequalsize
blastomeresinseacucumber(after
SelenkafromKorschelt,1936)
cleavage
i. Radial type of cleavage
•It is found in echinoderms
•The plane of first division is meridional passing through the
main axis.
•The second division is also meridional but at right angle to
the first division.
•Thus, the first four blastomeres all lie side by side.
•The third division is at right angles to the first two divisions.
•Ifeachoftheblastomeresoftheuppertierlieoverthe
correspondingblastomeresofthelowertier,thepattern
oftheblastomeresisradiallysymmetrical.
•E.g. Sea Cucumber Fig.Radialcleavagewithalmostequalsize
blastomeresinseacucumber(after
SelenkafromKorschelt,1936)
ii. BilateralCleavage
•ItisfoundinAscidians.
•Theeggsofascidianshaveanteroposteriorpolaritybesides
animalandvegetalpolarityduetoasymmetricaldistributionof
cytoplasmiccomponents.
•Thefirstcleavageismeridional,andthesecondisalsomeridional
againbutitdoesnotpassthroughthecentre;slightlyposterior
beingparalleltotheanimal-vegetalaxisresultingintheformation
oftwolargeblastomereandtwosmallattheposteriorside.
•Atthispoint,cleavagehasonlyoneplane,themedianplane,so
theembryoisbilaterallysymmetrical.Subsequentcleavagemakes
thebilateralarrangementofblastomeresmorepronounced.
A
B
C
Fig. Bilateral Cleavage in Ascidians
•ItisfoundinAscidians.
•Theeggsofascidianshaveanteroposteriorpolaritybesides
animalandvegetalpolarityduetoasymmetricaldistributionof
cytoplasmiccomponents.
•Thefirstcleavageismeridional,andthesecondisalsomeridional
againbutitdoesnotpassthroughthecentre;slightlyposterior
beingparalleltotheanimal-vegetalaxisresultingintheformation
oftwolargeblastomereandtwosmallattheposteriorside.
•Atthispoint,cleavagehasonlyoneplane,themedianplane,so
theembryoisbilaterallysymmetrical.Subsequentcleavagemakes
thebilateralarrangementofblastomeresmorepronounced.
A
B
C
Fig. Bilateral Cleavage in Ascidians
iii. Spiral cleavage
•In this type all the blastomeres of the upper tier are shifted in
the same direction in relation to the blastomeres of the lower
tier , so that they come to lie not over the corresponding
vegetal blastomeres , but over the junction between each two
of the vegetal blastomeres.
•This arrangement comes about not as a result of secondary
shifting of the blastomeres , but because of oblique positions
of the mitotic spindles, so that from the start the two daughter
cells do not lie one above the other.
•The four spindles during the third cleavage are arranged in sort
of a spiral. This type of cleavage is therefore called the spiral
type of cleavage.
E.g. Annelids, Molluscs , Nemerteansand some of the
Planarians ( the Polycladida).
Fig. Spiral cleavage in Mollusc
•In this type all the blastomeres of the upper tier are shifted in
the same direction in relation to the blastomeres of the lower
tier , so that they come to lie not over the corresponding
vegetal blastomeres , but over the junction between each two
of the vegetal blastomeres.
•This arrangement comes about not as a result of secondary
shifting of the blastomeres , but because of oblique positions
of the mitotic spindles, so that from the start the two daughter
cells do not lie one above the other.
•The four spindles during the third cleavage are arranged in sort
of a spiral. This type of cleavage is therefore called the spiral
type of cleavage.
E.g. Annelids, Molluscs , Nemerteansand some of the
Planarians ( the Polycladida).
Fig. Spiral cleavage in Mollusc
Types of Meroblastic cleavage: Discoidal and Superficial Cleavge
i. Discoidal cleavage
•This type of cleavage is found in many birds, reptiles and fishes that have
telolecithal eggs .
•Because of the presence of large amount of yolk the cytoplasm remains in
the form of a disc ,,called blastodisc ,above the yolk in the animal pole.
•Initially all the cleavage planes are vertical and all the blastomeres lie in
one plane only.
•The cleavage furrow begins to form at the animal pole, but instead of
bisecting the egg completely , it stops at the yolk.
•With more number of cleavage including horizontal ones the blastomeres
become arranged over the uncleavedyolk in the form of a patch of cells.
Fig. discoidal cleavage of hen’s egg (surface view)
i. Discoidal cleavage
•This type of cleavage is found in many birds, reptiles and fishes that have
telolecithal eggs .
•Because of the presence of large amount of yolk the cytoplasm remains in
the form of a disc ,,called blastodisc ,above the yolk in the animal pole.
•Initially all the cleavage planes are vertical and all the blastomeres lie in
one plane only.
•The cleavage furrow begins to form at the animal pole, but instead of
bisecting the egg completely , it stops at the yolk.
•With more number of cleavage including horizontal ones the blastomeres
become arranged over the uncleavedyolk in the form of a patch of cells.
Fig. discoidal cleavage of hen’s egg (surface view)
ii. Superficial cleavage
•ThistypeofcleavageisfoundinInsectshavingcentrolecithal
egg.
•thecleavagestartswhenthenucleusisinthecentreoftheegg
surroundedbysmallamountofcytoplasm.
•Thekaryokinesishappenswithoutcytokinesis.
•Thusmultiplenumberofnucleiareformedallremaininginthe
undividedcentralmassofcytoplasm..
•Thenthenucleistartmovingawayfromthecentreandeach
nucleusgetsurroundedbyasmallamountofcentralcytoplasm
.Andstartmovingtowardthesurfaceoftheegg,asaresultthe
surfacelayeroftheembryobecomesyncytiumwithnumerous
nucleiinanundividedlayerofcytoplasm,thenthecytoplasmget
subdividedformingrealcells.
Fig. Superficial cleavage in
insects
•ThistypeofcleavageisfoundinInsectshavingcentrolecithal
egg.
•thecleavagestartswhenthenucleusisinthecentreoftheegg
surroundedbysmallamountofcytoplasm.
•Thekaryokinesishappenswithoutcytokinesis.
•Thusmultiplenumberofnucleiareformedallremaininginthe
undividedcentralmassofcytoplasm..
•Thenthenucleistartmovingawayfromthecentreandeach
nucleusgetsurroundedbyasmallamountofcentralcytoplasm
.Andstartmovingtowardthesurfaceoftheegg,asaresultthe
surfacelayeroftheembryobecomesyncytiumwithnumerous
nucleiinanundividedlayerofcytoplasm,thenthecytoplasmget
subdividedformingrealcells.
Fig. Superficial cleavage in
insects
Mechanism Cleavage –formation of cleavage furrow
•Thecleavagepatternofanembryo,therelativesizeandspatial
arrangementofitsblastomereiscontrolledmostdirectlybythe
positioningofcleavagefurrow.
•Cleavage begins from animal pole and then extends to the vegetal pole.
•In holoblastic cleavage, cleavage furrow constricts like tightening belts
around the entire cell.
•In eggs that undergo meroblastic, cleavage furrows begin as infoldings of
the egg plasma membrane at the animal pole.
•Thecleavagepatternofanembryo,therelativesizeandspatial
arrangementofitsblastomereiscontrolledmostdirectlybythe
positioningofcleavagefurrow.
•Cleavage begins from animal pole and then extends to the vegetal pole.
•In holoblastic cleavage, cleavage furrow constricts like tightening belts
around the entire cell.
•In eggs that undergo meroblastic, cleavage furrows begin as infoldings of
the egg plasma membrane at the animal pole.
Contractile Ring
•Themechanicalagentforcleavageiscontractilering.
•Formationofcontractileringtakesplaceduringcleavagesinceafter
cleavageitdisappears.
•Underconfocalmicroscope,contractileringappearasdistinctbandof
0.1µmwide.
•Itismadeupofactinandmyosinfilamentthatliebelowtheplasma
membrane.
•Thepositionofthecontractileringatthesameplanepreviously
occupiedbythemetaphaseplate.Hence,itisperpendiculartothe
axisofmitoticspindles.
•Themechanicalagentforcleavageiscontractilering.
•Formationofcontractileringtakesplaceduringcleavagesinceafter
cleavageitdisappears.
•Underconfocalmicroscope,contractileringappearasdistinctbandof
0.1µmwide.
•Itismadeupofactinandmyosinfilamentthatliebelowtheplasma
membrane.
•Thepositionofthecontractileringatthesameplanepreviously
occupiedbythemetaphaseplate.Hence,itisperpendiculartothe
axisofmitoticspindles.
Cleavage furrow: the contraction of contractile ring generates cleavage furrow
Under electron microscope, cleavage furrows show a thin, dense layer
beneath the plasma membrane, consisting of a bundle of actin and myosin
filaments.
The filaments of the contractile ring are anchored to proteins embedded in
the plasma membrane, so that constriction of the ring causes the
membrane to furrow.
The force exerted by the contractile ring is most likely generated by the
sliding of the actin and myosin filaments past one another , a mechanism
similar to the action of these proteins in muscle contraction.
Cleavage furrowbegins from the animal pole extends towards vegetal
pole.
Furrow
Under electron microscope, cleavage furrows show a thin, dense layer
beneath the plasma membrane, consisting of a bundle of actin and myosin
filaments.
The filaments of the contractile ring are anchored to proteins embedded in
the plasma membrane, so that constriction of the ring causes the
membrane to furrow.
The force exerted by the contractile ring is most likely generated by the
sliding of the actin and myosin filaments past one another , a mechanism
similar to the action of these proteins in muscle contraction.
Cleavage furrowbegins from the animal pole extends towards vegetal
pole.
Furrow
MBT: Mid Blastula Transition
•MBTrepresentsthelatestageofcleavage.
•WhentheembryoentersMBTstage,somenewpropertiesareaddedto
thecleavageofembryo.
•Duringthisphase,cleavagetransitionsfromsynchronouscleavageto
asynchronouscleavage.
•Initiallythecellcycleofcleavageisbiphasic,but,withtheonsetofMBTG1
andG2phasesareaddedtothecellcycle.
•DurationofcellcyclegetselongatedinMBT.
•Asthecytoplasmiccomponentsareusedupduringcleavage,theembryo
nucleusbegintosynthesizecellularcomponentstowardsMBT.
•ThenewmRNAsaretranscribed.Someofthese,encodestheproteins
necessaryforgastrulationinthelaterstage.
•MBTrepresentsthelatestageofcleavage.
•WhentheembryoentersMBTstage,somenewpropertiesareaddedto
thecleavageofembryo.
•Duringthisphase,cleavagetransitionsfromsynchronouscleavageto
asynchronouscleavage.
•Initiallythecellcycleofcleavageisbiphasic,but,withtheonsetofMBTG1
andG2phasesareaddedtothecellcycle.
•DurationofcellcyclegetselongatedinMBT.
•Asthecytoplasmiccomponentsareusedupduringcleavage,theembryo
nucleusbegintosynthesizecellularcomponentstowardsMBT.
•ThenewmRNAsaretranscribed.Someofthese,encodestheproteins
necessaryforgastrulationinthelaterstage.
References
•Analysis of Biological Development; Second Edition by Klaus Kalthoff
•Developmental biology ; Tenth edition by Scott F. Gilbert
•Foundations of Embryology; Sixth Edition by Bruce M Carlson
•An Introduction to Embryology; fourth Edition by B.I. Balinsky
•Pictures from Common Creative licences
•Analysis of Biological Development; Second Edition by Klaus Kalthoff
•Developmental biology ; Tenth edition by Scott F. Gilbert
•Foundations of Embryology; Sixth Edition by Bruce M Carlson
•An Introduction to Embryology; fourth Edition by B.I. Balinsky
•Pictures from Common Creative licences
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