《植物生物学》课程教学资源（文献资料）Top 3 Theories of Shoot Apical Meristem_Plants

2020/2/13Top3Theories of Shoot Apical Meristem|PlantsNavigationTop 3 Theories of ShootApical Meristem / PlantsArticle Sharedby Prateeksha LADVERTISEMENTS:Label-freecellanalysisin3DHoloMonitor? uses nothing but lighttobuild,measure andanalyseyoursinglecellsin3D.The following points highlight the topthree theories ofshoot apical meristem.The theories are: 1. Apical CellTheory 2. Histogen Theory 3. Tunica-Corpus Theory.1. Apical Cell Theory:Nageli in 1944 advocated this theory.According to thistheory the apical meristem consists of a single apical cell(also called apical initial) and this cell is interpreted as the‘structural andfunctionalunitofapicalmeristem'.Thecellis very large and is shaped like an inverted pyramid.The apical cell is tetrahedral in shape and has three or fourcuttingfacesamongwhichsinglefaceisdirectedupwardandtherestpointsdownward.Thesideof apical cellthat isdirected upward istriangularor square in shape and forms apart of the outer surface of the shoot apex (Fig.7.7).1/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 1/17 Navigation Top 3 Theories of Shoot Apical Meristem | Plants Article Shared by ADVERTISEMENTS: The following points highlight the top three theories of shoot apical meristem. The theories are: 1. Apical Cell Theory 2. Histogen Theory 3. Tunica-Corpus Theory. 1. Apical Cell Theory: Nageli in 1944 advocated this theory. According to this theory the apical meristem consists of a single apical cell (also called apical initial) and this cell is interpreted as the ‘structural and functional unit of apical meristem’. The cell is very large and is shaped like an inverted pyramid. The apical cell is tetrahedral in shape and has three or four cutting faces among which single face is directed upward and the rest points downward. The side of apical cell that is directed upward is triangular or square in shape and forms a part of the outer surface of the shoot apex (Fig. 7.7). Label-free cell analysis in 3D HoloMonitor® uses nothing but light to build, measure and analyse your single cells in 3D

2020/2/13Top 3Theories of Shoot Apical Meristem|PlantsDicalcellFigure7.7A.Diagram showing an apical cell of leptosporangiatefern and its derivatives that are formed in helicalsuccessionThenew cells arenumberedas 1&2.B.Diagramshowing apacketofcells formedbyanapicalcellbydivisionandsubdivision.Thecuttingfacesofapicalcelldivideinanorderlyfashionthat is in helical succession. The cell divides by anasymmetricdivision;asaresultanarrowandflatcellisformed.Thenextdivision of theapical cell is alsoasymmetric. This type of asymmetric division is repeated inthe downwardly pointed faces of the apical cell.As a result all cutting faces have their daughter cells.Thedaughter cells also divide and form large packet of cells. Thepacket ofcells differentiates and forms different segments ofshoot. So the apical cell is regarded as a reserve of onegeneticallysoundcell'.A single apical cell composing an apical meristem is presentin vascular cryptogams.After the discovery of solitary apicalcell in vascular cryptogams, it was supposed that such apicalmeristem might exist in higher plants as well.Later extensiveinvestigationsrefutedtheuniversaloccurrence of solitary apical cell in a meristem. In higherplantstheapicalcelltheorywasreplacedbytheconceptthatthe different parts of a plant bodyhave independent origin.So the apical cell theory was later superseded by histogentheory.2.Histogen Theory:ADVERTISEMENTS:2/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 2/17 The cutting faces of apical cell divide in an orderly fashion that is in helical succession. The cell divides by an asymmetric division; as a result a narrow and flat cell is formed. The next division of the apical cell is also asymmetric. This type of asymmetric division is repeated in the downwardly pointed faces of the apical cell. As a result all cutting faces have their daughter cells. The daughter cells also divide and form large packet of cells. The packet of cells differentiates and forms different segments of shoot. So the apical cell is regarded as ‘a reserve of one genetically sound cell’. A single apical cell composing an apical meristem is present in vascular cryptogams. After the discovery of solitary apical cell in vascular cryptogams, it was supposed that such apical meristem might exist in higher plants as well. Later extensive investigations refuted the universal occurrence of solitary apical cell in a meristem. In higher plants the apical cell theory was replaced by the concept that the different parts of a plant body have independent origin. So the apical cell theory was later superseded by histogen theory. 2. Histogen Theory: ADVERTISEMENTS:

2020/2/13Top 3Theories of Shoot Apical Meristem| Plants广告XLabel-freecellanalysisin3DHoloMonitor? uses nothingbut lighttobuild,measure andanalyseyoursingle cells in 3D.Hanstein in 1868 put forward histogen theory (histogenmeanstissuebuilder)Accordingtothistheorythetissues ofaplantbodyoriginatefromamass ofmeristemwherethefollowing three (histogens)can be distinguished(Fig.7.8):Dermatogen-PeriblemlarnHistogenFigure7.8Schematic diagram ofshootapexaccordingtoHistogentheory(a)Dermatogen:(InGreekmeaningskin).Itistheoutermostlayerofthemeristem.Itgives risetoepidermisesofrootand stem.(b)Periblem:(In Greek meaning clothing). This region occurs internal todermatogen but peripheral to plerome.This histogen isdestinedtoformcortexofrootand shootandinnertissuesofleaves.It surroundsplerome.(c) Plerome:(In Greek meaning that this fills).This region gives rise tovascular cylinder of stem and root including pith. It is thecentral coreofstemandrootandthecellscomposingthiszone are very irregular. This region is enveloped by avariable number of mantle-like layers which are representedby dermatogen and periblem.ADVERTISEMENTS:3/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 3/17 Hanstein in 1868 put forward histogen theory (histogen means tissue builder). According to this theory the tissues of a plant body originate from a mass of meristem where the following three (histogens) can be distinguished (Fig. 7.8): (a) Dermatogen: (In Greek meaning skin). It is the outermost layer of the meristem. It gives rise to epidermises of root and stem. (b) Periblem: (In Greek meaning clothing). This region occurs internal to dermatogen but peripheral to plerome. This histogen is destined to form cortex of root and shoot and inner tissues of leaves. It surrounds plerome. (c) Plerome: (In Greek meaning that this fills). This region gives rise to vascular cylinder of stem and root including pith. It is the central core of stem and root and the cells composing this zone are very irregular. This region is enveloped by a variable number of mantle-like layers which are represented by dermatogen and periblem. ADVERTISEMENTS: Label-free cell analysis in 3D HoloMonitor® uses nothing but light to build, measure and analyse your single cells in 3D

2020/2/13Top 3Theories of Shoot Apical Meristem|Plants告XNewbrowserbasedAccordingtoHansteindermatogen,periblem andpleromearise from independent initials of the apical meristem.Laterinvestigationsrevealthatthesub-divisionsdermatogen,periblemandpleromehavenouniversal application due to the following tworeasons:(i)Ingymnospermandangiospermthereexistsnocleardistinctionbetweenperiblemandplerome(ii)TherespectiverolesofthethreehistogenscannotbedemonstratedADVERTISEMENTS:广告XRNASequencingServiceRNA-seqandDataAnalysisCompetitivepriceforRNA-Seg,ATAC-seq,WES,WGS,andChiPseg.fcontactus!quickbiology.comOPENThe main weakness of Hanstein's concept was to assignspecific destinies of histogens. The histogens -dermatogen,periblem and plerome are committal and respectfully giverisetoepidermis,cortexandstele.Laterthistheorywassuperseded bytunica-corpus theory because the zones arenoncommittal.Though histogen theory is rejected it is still regarded asclassic'duetothefactthat Hanstein regarded shootandrootapexasacompositeunitconsistingofdifferentgroupsofhistogens and thehistogens differedfundamentallyfromeach other producing different tissues.It is to note that4/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 4/17 According to Hanstein dermatogen, periblem and plerome arise from independent initials of the apical meristem. Later investigations reveal that the sub-divisions — dermatogen, periblem and plerome have no universal application due to the following two reasons: (i) In gymnosperm and angiosperm there exists no clear distinction between periblem and plerome. (ii) The respective roles of the three histogens cannot be demonstrated. ADVERTISEMENTS: The main weakness of Hanstein’s concept was to assign specific destinies of histogens. The histogens — dermatogen, periblem and plerome are committal and respectfully give rise to epidermis, cortex and stele. Later this theory was superseded by tunica- corpus theory because the zones are noncommittal. Though histogen theory is rejected it is still regarded as ‘classic’ due to the fact that Hanstein regarded shoot and root apex as a composite unit consisting of different groups of histogens and the histogens differed fundamentally from each other producing different tissues. It is to note that RNA Sequencing Service RNA-seq and Data Analysis Competitive price for RNA-Seq, ATAC-seq, WES, WGS, and ChIP seq. Please contact us! quickbiology.com OPEN

2020/2/13Top3Theories of Shoot Apical Meristem|PlantsHansteinvisualizedthislongbeforewhentheconceptofgeneandDNAwasestablished.The present-day concept is that the different zones in theshoot apex arefundamentally sameand capableofproducing all tissues.It is the position in the meristem thatdeterminesthedestinyofderivatives.Thisisduetothefactthat in zones some genes are activated and others arerepressed resulting in the production of different tissues.3.Tunica-Corpus Theory:Schmidt in 1924 postulated tunica-corpus theory on thebasis of studies of shoot apices of angiosperm.This theoryisconcerned with planes of cell division in the apex. Incontrasttoapical cell theoryandhistogentheorytunica-corpus theoryis applicable only to shoot apex and not toroot. Schmidt distinguishes two tissue zones in the shootapex and termed them as tunica and corpus.ADVERTISEMENTS:一告XNewbrowserbaMajority of angiosperm shoot apex exhibits tunicaconsisting of two layers of cells and corpus (Fig. 7.9A).Researchers designate the layers as Li, L2 and L3 to denoterespectivelyouterlayeroftunica,innerlayer oftunicaandcorpus.Plasmodesmata exist between the cells of tunica and corpus.It isthought that plasmodesma controlsthegene expressionthatleadstotheformation of protoderm,ground meristemandprovasculartissue.5/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 5/17 Hanstein visualized this long before when the concept of gene and DNA was established. The present-day concept is that the different zones in the shoot apex are fundamentally same and capable of producing all tissues. It is the position in the meristem that determines the destiny of derivatives. This is due to the fact that in zones some genes are activated and others are repressed resulting in the production of different tissues. 3. Tunica-Corpus Theory: Schmidt in 1924 postulated tunica- corpus theory on the basis of studies of shoot apices of angiosperm. This theory is concerned with planes of cell division in the apex. In contrast to apical cell theory and histogen theory tunica￾corpus theory is applicable only to shoot apex and not to root. Schmidt distinguishes two tissue zones in the shoot apex and termed them as tunica and corpus. ADVERTISEMENTS: Majority of angiosperm shoot apex exhibits tunica consisting of two layers of cells and corpus (Fig. 7.9A). Researchers designate the layers as L1, L2 and L3 to denote respectively outer layer of tunica, inner layer of tunica and corpus. Plasmodesmata exist between the cells of tunica and corpus. It is thought that plasmodesma controls the gene expression that leads to the formation of protoderm, ground meristem and provascular tissue

2020/2/13Top3Theories of Shoot Apical Meristem|PlantsTwo-layeredtuniceCorouLeafprimordiunticericinRibPeripheralBAmeristemregionFigure 7.9A.Diagram ilustrating thetunica-corpus organizationin dicotyledonous shoot apex.Arrows indicate thedirection of cell formation in apical meristemB.Schematicrepresentationof anticlinal (-division wall perpendicular to surface)andpericlinal (adivisionwallparalleltocircumference)division.i. Tunica:ADVERTISEMENTS:Newbrowserbased3UnTunica istheperipheral tissue zoneof shootapex.Itconsistsofone or more peripheral layers of cells.Dicotyledonsexhibitonetofivelayersofcellsintunica;twolayersofcellsare represented bylargest number of species.Monocotyledons have one to four layers of cells in tunica;one and two layered tunica predominates in it. One singlelayeredtunicaistermedasmonostratose.Manylayeredtunicaistermed asmultistratose.Xanthorrhoeamediashows eighteen layered tunica.Tunica is characterized in having anticlinal plane of celldivision, i.e., the division wall is laid down perpendicular tothe surface. This division reflects to the surface growth inthe apex. As a result tunica grows as a sheet but not inthickness.To increase in thickness a tunica cell will have to undergocell division with periclinal wall, i.e. the cell wall will have tobe laid down parallel to surface (Fig. 7.9B). Normally,periclinal division does not occur in tunica where anticlinaldivision predominates except at the point oforigin of leafprimordium and axillarybud.6/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 6/17 i. Tunica: ADVERTISEMENTS: Tunica is the peripheral tissue zone of shoot apex. It consists of one or more peripheral layers of cells. Dicotyledons exhibit one to five layers of cells in tunica; two layers of cells are represented by largest number of species. Monocotyledons have one to four layers of cells in tunica; one and two layered tunica predominates in it. One single layered tunica is termed as monostratose. Many layered tunica is termed as multistratose. Xanthorrhoea media shows eighteen layered tunica. Tunica is characterized in having anticlinal plane of cell division, i.e., the division wall is laid down perpendicular to the surface. This division reflects to the surface growth in the apex. As a result tunica grows as a sheet but not in thickness. To increase in thickness a tunica cell will have to undergo cell division with periclinal wall, i.e. the cell wall will have to be laid down parallel to surface (Fig. 7.9B). Normally, periclinal division does not occur in tunica where anticlinal division predominates except at the point of origin of leaf primordium and axillary bud

2020/2/13Top 3Theories of Shoot Apical Meristem|PlantsIn multistratose tunica eachlayer arisesfrom separateinitialspresentintheshootapex.Theindependenceregarding origin among different layers of tunica andbetween tunica and corpus is strongly supported withtheresults of investigation by the use of periclinal chimeras.Such chimera in aplantbody exhibitslayerswithdifferentchromosomenumbers.Suchdifferencescanbetracedfrompromeristem through continuous cell lineages to similardifferences in the derivatives of promeristem.Promeristem may be induced to develop cytochimeras bytreatingthe shootapexwith colchicine.Colchicineinducespolyploidy in the cell(s) or layer(s) of promeristem and it ispossible to relate the polyploid cell(s)/layer(s) to theirprogeny in the mature plant body. Using this technique itwas determined that outermost layer of tunica gives rise toepidermis whereas the inner layers donate cells to formothertissues.[Cytochimera: Chimaera, also spelt as chimera, refers aplant or plant organ having tissues of varied genetic originlyingadjacentto one another.In someplantthemeristematic region consists of at leasttwo populations ofcells that differ in their chromosome numbers.The chimeraof this plant is recognizable only at the cytological level andtermed as cytochimera.Usuallytwotypes of chimera are recognized:() Sectoral ormericlinal chimera-where thetwopopulations of cells arearranged in sectors on thecircumferencearoundthe axis ofthemeristem.(2) Periclinal chimera - where the two populations of cellsare arranged in different layers parallel to the surface ofapical meristem.Li,that is theouterlayer oftunica,iscommonlydestinedtoformtheepidermisofalltheleavesand stem formed by the shoot and it is revealed on analyzingthe periclinal chimera.Shoot apices are induced to form cytochimeras to study thefunction of Li, L2 and L3 layers. Treating the shoot apexwith colchicine does this.The alkaloid colchicine,a chemicalmutagen, is obtained from theplant Colchicumautumnale.Colchicine has the propertyto disruptthe spindle7/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 7/17 In multistratose tunica each layer arises from separate initials present in the shoot apex. The independence regarding origin among different layers of tunica and between tunica and corpus is strongly supported with the results of investigation by the use of periclinal chimeras. Such chimera in a plant body exhibits layers with different chromosome numbers. Such differences can be traced from promeristem through continuous cell lineages to similar differences in the derivatives of promeristem. Promeristem may be induced to develop cytochimeras by treating the shoot apex with colchicine. Colchicine induces polyploidy in the cell(s) or layer(s) of promeristem and it is possible to relate the polyploid cell(s)/Iayer(s) to their progeny in the mature plant body. Using this technique it was determined that outermost layer of tunica gives rise to epidermis whereas the inner layers donate cells to form other tissues. [Cytochimera: Chimaera, also spelt as chimera, refers a plant or plant organ having tissues of varied genetic origin lying adjacent to one another. In some plant the meristematic region consists of at least two populations of cells that differ in their chromosome numbers. The chimera of this plant is recognizable only at the cytological level and termed as cytochimera. Usually two types of chimera are recognized: (1) Sectoral or mericlinal chimera — where the two populations of cells are arranged in sectors on the circumference around the axis of the meristem. (2) Periclinal chimera — where the two populations of cells are arranged in different layers parallel to the surface of apical meristem. L1, that is the outer layer of tunica, is commonly destined to form the epidermis of all the leaves and stem formed by the shoot and it is revealed on analyzing the periclinal chimera. Shoot apices are induced to form cytochimeras to study the function of L1, L2 and L3 layers. Treating the shoot apex with colchicine does this. The alkaloid colchicine, a chemical mutagen, is obtained from the plant Colchicum autumnale. Colchicine has the property to disrupt the spindle

2020/2/13Top 3Theories of Shoot Apical Meristem|Plantsmicrotubules formed during mitosis.The drug colchicine isapplied tothe shoot tips byslowtrickling or as paint.The treatment temporarily blocks mitosis.The cells that arein metaphase stage cannot complete chromosomemovement duetothefailure ofspindle mechanismbut theother events ofmitosis do continue.As a resultnuclei areformed withtetraploid chromosomenumbers.Thencolchicine was washed out and the meristems were allowedto continue cell division.Staining properties of nucleus can recognize thedescendents of tetraploid cell.Using this technique itbecomes possible to find that the LI layer, i.e. the outermostlayergives riseto the epidermis ofa leaf and theinner layersdonate cells to form mesophyll and vascular tissues.InstemsLIgivesrisetoepidermis andtherestformsthecortexand vasculartissue.InDaturatheshootapiceswereexperimentally induced to develop cytochimera.The apicesexhibited that thecells of LI,L2 and L3layershad nucleiwith chromosome number respectfully 8n, 2n and 2n; 4n,2n and 4n, and 2n, 8n and 4n].It is the anticlinal plane of cell division that characterizestunica. In maize, certain grasses like Agropyron repens andChlorogalum pomeridianum (Liliaceae) etc.periclinaldivisions areobserved in tunica.This led anatomists tomodifythe'strictness of definition of the tunica'.One viewregards that the tunica should include onlythose layer(s)that exhibit- anticlinal plane of division. If any inner layer(s)of tunica show periclinal division they are to be assigned tocorpus.Other workerstreattunica in a very loose sense and regardthat the inner layer(s) may divide periclinally. So to avoiddiscrepancies the term mantle was proposed in a loose senseinstead of tunica. Corpus was replaced by the term core.Mantleoverarches core.Popham and Chan (195o)advocated the mantle and core concept in the shoot apexand theydid not take into account to the planes of celldivision.Cytologically two zones are recognized in the tunica thoughall cells exhibit the same anticlinal cell division. The firstzoneiscentralapicalzoneandthesecondoccursbetweenthecentralapicalzoneandleaf primordium8/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 8/17 microtubules formed during mitosis. The drug colchicine is applied to the shoot tips by slow trickling or as paint. The treatment temporarily blocks mitosis. The cells that are in metaphase stage cannot complete chromosome movement due to the failure of spindle mechanism but the other events of mitosis do continue. As a result nuclei are formed with tetraploid chromosome numbers. Then colchicine was washed out and the meristems were allowed to continue cell division. Staining properties of nucleus can recognize the descendents of tetraploid cell. Using this technique it becomes possible to find that the LI layer, i.e. the outermost layer gives rise to the epidermis of a leaf and the inner layers donate cells to form mesophyll and vascular tissues. In stems LI gives rise to epidermis and the rest forms the cortex and vascular tissue. In Datura the shoot apices were experimentally induced to develop cytochimera. The apices exhibited that the cells of LI, L2 and L3 layers had nuclei with chromosome number respectfully 8n, 2n and 2n; 4n, 2n and 4n, and 2n, 8n and 4n]. It is the anticlinal plane of cell division that characterizes tunica. In maize, certain grasses like Agropyron repens and Chlorogalum pomeridianum (Liliaceae) etc. periclinal divisions are observed in tunica. This led anatomists to modify the ‘strictness of definition of the tunica’. One view regards that the tunica should include only those layer(s) that exhibit- anticlinal plane of division. If any inner layer(s) of tunica show periclinal division they are to be assigned to corpus. Other workers treat tunica in a very loose sense and regard that the inner layer(s) may divide periclinally. So to avoid discrepancies the term mantle was proposed in a loose sense instead of tunica. Corpus was replaced by the term core. Mantle overarches core. Popham and Chan (1950) advocated the mantle and core concept in the shoot apex and they did not take into account to the planes of cell division. Cytologically two zones are recognized in the tunica though all cells exhibit the same anticlinal cell division. The first zone is central apical zone and the second occurs between the central apical zone and leaf primordium

2020/2/13Top3Theories of Shoot Apical Meristem|PlantsThecentralapicalzoneconsistsofoneorfewinitialcellsthat are larger and contain large nuclei and vacuoles thanthecellsofthesecondzone.Thecellsofthesecondzonearesmall and more darkly staining than the cells ofthe firstzone.In contrasttofirst zone periclinal division may occurinthe secondzoneclosetotheleaf primordium in additiontoanticlinaldivision.The main function of tunica is to give rise epidermis.Sometimestheinnerlayersoftunicaform cortexandvascular tissue.i.Corpus:Corpus is the inner tissue zone of shoot apex. It consists ofcellsthat are several cell layers deep.Tunica overarchescorpus.Meristematic tissues composingthis zone are largerthan tunica.The initial cells of corpus occur belowthetunica. They are orderly arranged in contrast to haphazardlyarranged cells in the mass of corpus. So the initials of corpusaredifficulttodifferentiatefromthe initialsoftunica.The initials arise independently and not related to tunica.Theinitial cellsdividepericlinallyandthederivativesdivideto form the core of the shoot apex. In the division ofderivativecellsthereisnodefiniteorientationofcellwallformation,ie.cellsdivideinall planes.Asaresulttheshootapex increases in volume.Generallycorpus is destined togive rise cortex and vascular tissue.Usually corpus is not homogeneous. It consists of severalzones.ThezonesareillustratedbyPopham(1952)intheusual angiosperm type. In this type the meristem iscomposed of tunica and corpus. The tunica consists of oneor more layers of cells that overlie the corpus.The corpusis composed ofthreezones:(a) Central mother cells -the uppermost zone of corpus.(b) Pith-rib meristem that occurs belowthe central mothercell zone.(c) Flank meristem (also called peripheral meristem) thatsurroundsboth centralmothercell zone andpith-ribmeristem. The peripheral zone is shaped like a truncatedhollow cone.9/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 9/17 The central apical zone consists of one or few initial cells that are larger and contain large nuclei and vacuoles than the cells of the second zone. The cells of the second zone are small and more darkly staining than the cells of the first zone. In contrast to first zone periclinal division may occur in the second zone close to the leaf primordium in addition to anticlinal division. The main function of tunica is to give rise epidermis. Sometimes the inner layers of tunica form cortex and vascular tissue. ii. Corpus: Corpus is the inner tissue zone of shoot apex. It consists of cells that are several cell layers deep. Tunica overarches corpus. Meristematic tissues composing this zone are larger than tunica. The initial cells of corpus occur below the tunica. They are orderly arranged in contrast to haphazardly arranged cells in the mass of corpus. So the initials of corpus are difficult to differentiate from the initials of tunica. The initials arise independently and not related to tunica. The initial cells divide periclinally and the derivatives divide to form the core of the shoot apex. In the division of derivative cells there is no definite orientation of cell wall formation, i.e. cells divide in all planes. As a result the shoot apex increases in volume. Generally corpus is destined to give rise cortex and vascular tissue. Usually corpus is not homogeneous. It consists of several zones. The zones are illustrated by Popham (1952) in the usual angiosperm type. In this type the meristem is composed of tunica and corpus. The tunica consists of one or more layers of cells that overlie the corpus. The corpus is composed of three zones: (a) Central mother cells —the uppermost zone of corpus. (b) Pith-rib meristem that occurs below the central mother cell zone. (c) Flank meristem (also called peripheral meristem) that surrounds both central mother cell zone and pith-rib meristem. The peripheral zone is shaped like a truncated hollow cone

2020/2/13Top 3Theories of Shoot Apical Meristem|PlantsThe component cells of tunica and corpus differ in size,shape, plane of cell division and topographyUltrastructurally each zone is composed of cells that havecharacteristic architectures as is revealed by quantitativetechniques.Merits oftunica-corpus theory:i. It deals with one thing, i.e. planes of cell division. As aresult the description ofmeristem becomes precise.ii. It has topographical value in the studies of developmentof different tissue system in plants.ii. The destiny of derivatives of corpus is notpredetermined.iv.The derivatives ofthe zones are not rigid like histogentheory.v.It explains clearlythegrowthpattern intheshoot apexofangiospermvi. It enables to understand the development of leaves astheyarise closetoapex.vi.The specific variation in the number of tunica layers maybe of taxonomic significance, e.g.grasses.Tunica-corpus organization of shoot apical meristem isobserved in angiosperm only.Cryptogams and majority ofgymnosperm do not exhibit tunica- corpus organization.They do not have any stable surface layer that divides onlybyanticlinal division.Araucaria and Ephedra havea singlestable surfacelayerthatdivides onlyby anticlinaldivision.Thus they exhibit tunica-corpus pattern.Tunica-corpustheoryis noncommittal regarding the ultimate destiny ofcell-lineages. In present-day concept all cells in the shootapex with tunica-corpus organization are fundamentallysame and have equal potentiality.In corpus the cells ofperipheral zoneandpith-ribmeristemarealsosameastheyowetheiroriginfromcentralmothercellzone.But during differentiation some genes are repressed andothersareactivated resulting intheproductionofdifferenttissues.It is thought that if some how or means the cells ofperipheralmeristem zoneof corpus istransferred tothe10/17www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015

2020/2/13 Top 3 Theories of Shoot Apical Meristem | Plants www.biologydiscussion.com/shoot-system/top-3-theories-of-shoot-apical-meristem-plants/69015 10/17 The component cells of tunica and corpus differ in size, shape, plane of cell division and topography. Ultrastructurally each zone is composed of cells that have characteristic architectures as is revealed by quantitative techniques. Merits of tunica-corpus theory: i. It deals with one thing, i.e. planes of cell division. As a result the description of meristem becomes precise. ii. It has topographical value in the studies of development of different tissue system in plants. iii. The destiny of derivatives of corpus is not predetermined. iv. The derivatives of the zones are not rigid like histogen theory. v. It explains clearly the growth pattern in the shoot apex of angiosperm. vi. It enables to understand the development of leaves as they arise close to apex. vii. The specific variation in the number of tunica layers may be of taxonomic significance, e.g. grasses. Tunica-corpus organization of shoot apical meristem is observed in angiosperm only. Cryptogams and majority of gymnosperm do not exhibit tunica- corpus organization. They do not have any stable surface layer that divides only by anticlinal division. Araucaria and Ephedra have a single stable surface layer that divides only by anticlinal division. Thus they exhibit tunica-corpus pattern. Tunica-corpus theory is noncommittal regarding the ultimate destiny of cell-lineages. In present-day concept all cells in the shoot apex with tunica-corpus organization are fundamentally same and have equal potentiality. In corpus the cells of peripheral zone and pith-rib meristem are also same as they owe their origin from central mother cell zone. But during differentiation some genes are repressed and others are activated resulting in the production of different tissues. It is thought that if some how or means the cells of peripheral meristem zone of corpus is transferred to the