SlideShare a Scribd company logo

Mapping of origins of replication

Download as PPTX, PDF
G
GOPAL KUMBHANI

fee

Education
1 of 26
Mapping of origins of replication BY GOPAL M. KUMBHANI M. SC BIOTECHNOLOGY (SEM-1) 1
Contents:-  Basics about replication  Why we are doing mapping of origins of replication  Methods for mapping origins  References 2
What is replication?  It is a process which make a synthesis of new DNA strands.  So, the process, It means that it should start from some site. So, There is a question about from where DNA replication is start?  The answer is ORIGINS OF REPLICATION 3
 It is a particular sequence in a genome from which replication is initiated 4
 Mostly replication is performed in bidirectional. In rare no. of prokaryotes have unidirectional type of replication. 5
6  The genome size of the eukaryotes is very large. So, if they want to make fast replication at that time bidirectional replication is important.  Also eukaryotes have multiple origins of replication because of this reason.  Replication start at an origin by separating the two strands of DNA duplex.  Each of the parent strand then act as template to synthesize a complementary daughter strand.
7
 This model of replication in which a parental duplex give rise to two daughter duplexes each containing one original parental strand & one new strand is called semiconservative mode of replication.  The point at which replication occur is called replication fork or also called as growing point.  A replication fork moves from the starting point which is known as origin.  In bidirectional replication, two replication forks are formed. They proceed away from the origin in opposite directions.  In unidirectional replication, one replication fork leaves the origin & proceed forward along the DNA. 8
9
Why we do mapping of origins of replication?  Scientists had information about DNA replication but they didn’t know about the site from where replication is start.  So, they started mapping of origins of replication to find the location of origin in the whole genome.  Scientists first found replication origins in brewer’s yeast(saccharomyces cerevisiae)  Using traditional molecular approaches, scientists found only about 10% of the origins(30 of about 400) predicted to function in the yeast genome. 10
 In prokaryotic cells, there is only one point of origin and replication is occurs in two opposing directions at the same time, and takes place in the cell cytoplasm.  In Eukaryotic cells on the other hand, have multiple points of origin, and use unidirectional replication within the nucleus of the cell.  In prokaryotes one or two origins are present but in eukaryotic cell multiple origins are present.  So, mapping of eukaryotic origins is harder than the prokaryotic cells. 11
Mapping of origins of replication can be done by Autoradiography & 2-D Gel Electrophoresis  There are many authore methods are available to identify origins . 1)Electrophoresis 2)Microarray 3)Single-Standard DNA detection 4)DNA-Protein interaction at initial stage 5)Autoradiography 6)Electron microscopy 12
 The choice of method depends upon the whether the DNA is a defined molecule or undefined region of a cellular genome. 1) With a defined linear molecule,  we can use electron microscopy to measure the distance of each end of the bubble from the end of the DNA that have bubbles of different sizes.  If replication is unidirectional, only one of the end will move. The other is fixed origin. So, It is easy to find the location of origin in unidirectional replication in defined molecule. 13
 If replication is bidirectional, both end will move; the origin is the point midway between them. 2) With undefined regions of large genomes,  Two successive pulse of labeled nucleotides can detect DNA replication.  Traditionally this was performed with radioactive DNA precursors.  However, recent advances in fluorescence labeling methods have been made.  Due to its simplicity this approach is become a system of choice. 14
 This shows the pattern of bidirectional replication generated by initial labeling of DNA resulting in green DNA; the addition of a second fluorescent label generates yellow DNA. 15
2-D Gel electrophoresis For Mapping Origins  In 1987, Brewer and Fangman introduced the use of two- dimensional agarose gels (2-D gels) to map origins of replication.  This technique was used to show that ARSs(autonomously replicating sequences) act as initiation sites for DNA replication in living cells.  DNA isolated from rapidly proliferating cells is digested with a restriction endonuclease.  The fragment produced are resolved by neutral 2-D gel electrophoresis. 16
 In this technique restriction fragments of replicating DNA are electrophored in a 1st dimension that separates by size & 2nd dimension (run perpendicular to the first) that separates by the shape.  Once electrophoresis is complete, the DNA molecules are transferred to nitrocellulose & detect by southern blotting.  The most unusual structures migrate slowly in the first dimension. 17
18
 Molecules that contains an origin of replication form bubble shaped replication intermediate that migrate even more slowly in the 1st dimension than Y shaped molecules in which no origin is present. 19
 molecules that have just initiated replication are smaller and will move fast in the first dimension. They will also have a small replication bubble, and hence they will move fast in the second dimension.  However, those with more extensive replication will have a larger bubble. These molecules are larger, and thus move more slowly in the first dimension, but importantly, the larger bubbles will move even more slowly in the second dimention, since they have the greater deviation from linearity. This generates a characteristic "bubble arc" on the two- dimensional gel. 20
21
22
 When a replication fork is passively generated from an origin of replication that is outside the fragment, the Y-shaped replication intermediates generate a Y-arc 23
24
REFRENCES  Lewin’s GENES X – Krebs, Goldstein, Kilpatrick [Page no:265-268]  Molecular biology of the gene(5th edition) – Watson, Levine, Losick [Page no:214-216]  Research article on method for mapping DNA replication origins by Loretta D. Spotila and Joel A. Huberman 25
26

Recommended

Charging of tRNA, Aminoacyl tRNA Synthetases
Charging of tRNA, Aminoacyl tRNA Synthetases Charging of tRNA, Aminoacyl tRNA Synthetases
Charging of tRNA, Aminoacyl tRNA Synthetases J K COLLEGE,PURULIA
 
Rolling circle model
Rolling circle modelRolling circle model
Rolling circle modelTamanna Syeda
 
Rolling Circle Replication ppt
Rolling Circle Replication pptRolling Circle Replication ppt
Rolling Circle Replication pptthirupathiSathya
 
Suppressor mutation
Suppressor mutationSuppressor mutation
Suppressor mutationDeepika Rana
 
Properties of dna
Properties of dnaProperties of dna
Properties of dnafiresea
 
Dna replication
Dna replicationDna replication
Dna replicationAvishek Majumder
 
Replication in prokaryotes
Replication in prokaryotesReplication in prokaryotes
Replication in prokaryotesBahauddin Zakariya University lahore
 
Deciphering of the genetic code
Deciphering of the genetic codeDeciphering of the genetic code
Deciphering of the genetic codeIndrajaDoradla
 

Recommended

Charging of tRNA, Aminoacyl tRNA Synthetases
Charging of tRNA, Aminoacyl tRNA Synthetases Charging of tRNA, Aminoacyl tRNA Synthetases
Charging of tRNA, Aminoacyl tRNA Synthetases J K COLLEGE,PURULIA
 
Rolling circle model
Rolling circle modelRolling circle model
Rolling circle modelTamanna Syeda
 
Rolling Circle Replication ppt
Rolling Circle Replication pptRolling Circle Replication ppt
Rolling Circle Replication pptthirupathiSathya
 
Suppressor mutation
Suppressor mutationSuppressor mutation
Suppressor mutationDeepika Rana
 
Properties of dna
Properties of dnaProperties of dna
Properties of dnafiresea
 
Dna replication
Dna replicationDna replication
Dna replicationAvishek Majumder
 
Replication in prokaryotes
Replication in prokaryotesReplication in prokaryotes
Replication in prokaryotesBahauddin Zakariya University lahore
 
Deciphering of the genetic code
Deciphering of the genetic codeDeciphering of the genetic code
Deciphering of the genetic codeIndrajaDoradla
 
Polyadenylation
PolyadenylationPolyadenylation
PolyadenylationEmaSushan
 
Post Transcriptional Modifications
Post Transcriptional ModificationsPost Transcriptional Modifications
Post Transcriptional ModificationsSrishti Pandey
 
Dna supercoiling and role of topoisomerases
Dna supercoiling and role of topoisomerasesDna supercoiling and role of topoisomerases
Dna supercoiling and role of topoisomerasesYashwanth B S
 
Eukaryotic transcription
Eukaryotic transcriptionEukaryotic transcription
Eukaryotic transcriptionPranavathiyani G
 
Translation in eukaryotes
Translation in eukaryotesTranslation in eukaryotes
Translation in eukaryotesPraveen Garg
 
Fidelity of DNA replication
Fidelity of DNA replication Fidelity of DNA replication
Fidelity of DNA replication AnuKiruthika
 
Denaturation and renaturation of dna
Denaturation and renaturation of dnaDenaturation and renaturation of dna
Denaturation and renaturation of dnapunya08
 
RNA editing
RNA editingRNA editing
RNA editingTenzin t
 
Transposition
TranspositionTransposition
Transpositionswethamohan17
 
Post transcriptional modification ( splicing mechanisms)
Post transcriptional modification ( splicing mechanisms)Post transcriptional modification ( splicing mechanisms)
Post transcriptional modification ( splicing mechanisms)Bahauddin Zakariya University lahore
 
TRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTSTRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTSAmbica Parthasarathi
 
Translation in Prokaryotes and Eukaryotes
Translation in Prokaryotes and EukaryotesTranslation in Prokaryotes and Eukaryotes
Translation in Prokaryotes and EukaryotesShiv Nadar University
 
DNA Denaturation and Renaturation, Cot curves
DNA Denaturation and Renaturation, Cot curvesDNA Denaturation and Renaturation, Cot curves
DNA Denaturation and Renaturation, Cot curvesAbhishek Bhargav
 
Rolling Circle Model of DNA Replication
Rolling Circle Model of DNA ReplicationRolling Circle Model of DNA Replication
Rolling Circle Model of DNA ReplicationThe University of the Punjab, Lahore, Punjab, Pakistan
 
LEVELS OF CHROMATIN ORGANIZATION
LEVELS OF CHROMATIN ORGANIZATIONLEVELS OF CHROMATIN ORGANIZATION
LEVELS OF CHROMATIN ORGANIZATIONAnu Sreejith
 
Topoisomerase
Topoisomerase Topoisomerase
Topoisomerase aishwarya suresh
 
Nuclear export of mRNA
Nuclear export of mRNANuclear export of mRNA
Nuclear export of mRNAADITIBAGDI
 
Topoisomerases
TopoisomerasesTopoisomerases
TopoisomerasesKalpesh Nakarani
 
Types of Mutation :- Frameshift, Reversion and Spontaneous
Types of Mutation :- Frameshift, Reversion and SpontaneousTypes of Mutation :- Frameshift, Reversion and Spontaneous
Types of Mutation :- Frameshift, Reversion and SpontaneousDvane Coutinho
 
Transposable elements
Transposable elementsTransposable elements
Transposable elementsSai Kiran Munagala
 
DNAreplication.pdf
DNAreplication.pdfDNAreplication.pdf
DNAreplication.pdfMohamed Alashram
 
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATIONDNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATIONaanitadanappanavar
 

More Related Content

What's hot

Polyadenylation
PolyadenylationPolyadenylation
PolyadenylationEmaSushan
 
Post Transcriptional Modifications
Post Transcriptional ModificationsPost Transcriptional Modifications
Post Transcriptional ModificationsSrishti Pandey
 
Dna supercoiling and role of topoisomerases
Dna supercoiling and role of topoisomerasesDna supercoiling and role of topoisomerases
Dna supercoiling and role of topoisomerasesYashwanth B S
 
Translation in eukaryotes
Translation in eukaryotesTranslation in eukaryotes
Translation in eukaryotesPraveen Garg
 
Fidelity of DNA replication
Fidelity of DNA replication Fidelity of DNA replication
Fidelity of DNA replication AnuKiruthika
 
Denaturation and renaturation of dna
Denaturation and renaturation of dnaDenaturation and renaturation of dna
Denaturation and renaturation of dnapunya08
 
RNA editing
RNA editingRNA editing
RNA editingTenzin t
 
Translation in Prokaryotes and Eukaryotes
Translation in Prokaryotes and EukaryotesTranslation in Prokaryotes and Eukaryotes
Translation in Prokaryotes and EukaryotesShiv Nadar University
 
DNA Denaturation and Renaturation, Cot curves
DNA Denaturation and Renaturation, Cot curvesDNA Denaturation and Renaturation, Cot curves
DNA Denaturation and Renaturation, Cot curvesAbhishek Bhargav
 
LEVELS OF CHROMATIN ORGANIZATION
LEVELS OF CHROMATIN ORGANIZATIONLEVELS OF CHROMATIN ORGANIZATION
LEVELS OF CHROMATIN ORGANIZATIONAnu Sreejith
 
Nuclear export of mRNA
Nuclear export of mRNANuclear export of mRNA
Nuclear export of mRNAADITIBAGDI
 
Types of Mutation :- Frameshift, Reversion and Spontaneous
Types of Mutation :- Frameshift, Reversion and SpontaneousTypes of Mutation :- Frameshift, Reversion and Spontaneous
Types of Mutation :- Frameshift, Reversion and SpontaneousDvane Coutinho
 

What's hot (20)

Polyadenylation
PolyadenylationPolyadenylation
Polyadenylation
 
Post Transcriptional Modifications
Post Transcriptional ModificationsPost Transcriptional Modifications
Post Transcriptional Modifications
 
Dna supercoiling and role of topoisomerases
Dna supercoiling and role of topoisomerasesDna supercoiling and role of topoisomerases
Dna supercoiling and role of topoisomerases
 
Eukaryotic transcription
Eukaryotic transcriptionEukaryotic transcription
Eukaryotic transcription
 
Translation in eukaryotes
Translation in eukaryotesTranslation in eukaryotes
Translation in eukaryotes
 
Fidelity of DNA replication
Fidelity of DNA replication Fidelity of DNA replication
Fidelity of DNA replication
 
Denaturation and renaturation of dna
Denaturation and renaturation of dnaDenaturation and renaturation of dna
Denaturation and renaturation of dna
 
RNA editing
RNA editingRNA editing
RNA editing
 
Transposition
TranspositionTransposition
Transposition
 
Post transcriptional modification ( splicing mechanisms)
Post transcriptional modification ( splicing mechanisms)Post transcriptional modification ( splicing mechanisms)
Post transcriptional modification ( splicing mechanisms)
 
TRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTSTRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTS
 
Translation in Prokaryotes and Eukaryotes
Translation in Prokaryotes and EukaryotesTranslation in Prokaryotes and Eukaryotes
Translation in Prokaryotes and Eukaryotes
 
DNA Denaturation and Renaturation, Cot curves
DNA Denaturation and Renaturation, Cot curvesDNA Denaturation and Renaturation, Cot curves
DNA Denaturation and Renaturation, Cot curves
 
Rolling Circle Model of DNA Replication
Rolling Circle Model of DNA ReplicationRolling Circle Model of DNA Replication
Rolling Circle Model of DNA Replication
 
LEVELS OF CHROMATIN ORGANIZATION
LEVELS OF CHROMATIN ORGANIZATIONLEVELS OF CHROMATIN ORGANIZATION
LEVELS OF CHROMATIN ORGANIZATION
 
Topoisomerase
Topoisomerase Topoisomerase
Topoisomerase
 
Nuclear export of mRNA
Nuclear export of mRNANuclear export of mRNA
Nuclear export of mRNA
 
Topoisomerases
TopoisomerasesTopoisomerases
Topoisomerases
 
Types of Mutation :- Frameshift, Reversion and Spontaneous
Types of Mutation :- Frameshift, Reversion and SpontaneousTypes of Mutation :- Frameshift, Reversion and Spontaneous
Types of Mutation :- Frameshift, Reversion and Spontaneous
 
Transposable elements
Transposable elementsTransposable elements
Transposable elements
 

Similar to Mapping of origins of replication

DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATIONDNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATIONaanitadanappanavar
 
Various model of DNA replication
Various model of DNA replicationVarious model of DNA replication
Various model of DNA replicationEmaSushan
 
1.) What does “exonuclease” activity mean Which enzyme important fo.pdf
1.) What does “exonuclease” activity mean Which enzyme important fo.pdf1.) What does “exonuclease” activity mean Which enzyme important fo.pdf
1.) What does “exonuclease” activity mean Which enzyme important fo.pdfnaveenkumar29100
 
Telomerase replication
Telomerase replicationTelomerase replication
Telomerase replicationArchana Shaw
 
Dna replication part i
Dna replication part iDna replication part i
Dna replication part iICHHA PURAK
 
Replication of molecule of life
Replication of molecule of lifeReplication of molecule of life
Replication of molecule of lifeSohelAnsari12
 
Replication of DNA in Prokaryotes.pptx
Replication of DNA in Prokaryotes.pptxReplication of DNA in Prokaryotes.pptx
Replication of DNA in Prokaryotes.pptxPriyanckaArora2
 
ORGANELLAR GENOME AND ORGANELLAR INHERITENCE
ORGANELLAR GENOME AND ORGANELLAR INHERITENCEORGANELLAR GENOME AND ORGANELLAR INHERITENCE
ORGANELLAR GENOME AND ORGANELLAR INHERITENCERanjan Kumar
 
Dna replication in prokaryotes
Dna replication in prokaryotesDna replication in prokaryotes
Dna replication in prokaryotesBIYYANI SUMAN
 
replication and transcription of DNA.pptx
replication and transcription of DNA.pptxreplication and transcription of DNA.pptx
replication and transcription of DNA.pptxKavithaAnandhan2
 
DNA REPLICATION IN PROKARYOTES.pptx
DNA REPLICATION IN PROKARYOTES.pptxDNA REPLICATION IN PROKARYOTES.pptx
DNA REPLICATION IN PROKARYOTES.pptxMahendraPrakash6
 

Similar to Mapping of origins of replication (20)

DNAreplication.pdf
DNAreplication.pdfDNAreplication.pdf
DNAreplication.pdf
 
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATIONDNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
DNA REPLICATION IN PROKARYOTES INITIATION ELONGATION AND TERMINATION
 
MODELS OF REPLICATION
MODELS OF REPLICATIONMODELS OF REPLICATION
MODELS OF REPLICATION
 
Various model of DNA replication
Various model of DNA replicationVarious model of DNA replication
Various model of DNA replication
 
DNA Replication
DNA ReplicationDNA Replication
DNA Replication
 
E.coli replication
E.coli replicationE.coli replication
E.coli replication
 
1.) What does “exonuclease” activity mean Which enzyme important fo.pdf
1.) What does “exonuclease” activity mean Which enzyme important fo.pdf1.) What does “exonuclease” activity mean Which enzyme important fo.pdf
1.) What does “exonuclease” activity mean Which enzyme important fo.pdf
 
Telomerase replication
Telomerase replicationTelomerase replication
Telomerase replication
 
Dna replication part i
Dna replication part iDna replication part i
Dna replication part i
 
Replication of molecule of life
Replication of molecule of lifeReplication of molecule of life
Replication of molecule of life
 
Replication of DNA in Prokaryotes.pptx
Replication of DNA in Prokaryotes.pptxReplication of DNA in Prokaryotes.pptx
Replication of DNA in Prokaryotes.pptx
 
ORGANELLAR GENOME AND ORGANELLAR INHERITENCE
ORGANELLAR GENOME AND ORGANELLAR INHERITENCEORGANELLAR GENOME AND ORGANELLAR INHERITENCE
ORGANELLAR GENOME AND ORGANELLAR INHERITENCE
 
Dna replication in prokaryotes
Dna replication in prokaryotesDna replication in prokaryotes
Dna replication in prokaryotes
 
Gene mapping and its sequence
Gene mapping and its sequenceGene mapping and its sequence
Gene mapping and its sequence
 
replication and transcription of DNA.pptx
replication and transcription of DNA.pptxreplication and transcription of DNA.pptx
replication and transcription of DNA.pptx
 
Dna replication bio ii
Dna replication bio iiDna replication bio ii
Dna replication bio ii
 
Replication
ReplicationReplication
Replication
 
0.PDF
0.PDF0.PDF
0.PDF
 
DNA replication
DNA replication DNA replication
DNA replication
 
DNA REPLICATION IN PROKARYOTES.pptx
DNA REPLICATION IN PROKARYOTES.pptxDNA REPLICATION IN PROKARYOTES.pptx
DNA REPLICATION IN PROKARYOTES.pptx
 

Recently uploaded

Framing an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdf
Framing an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdfFraming an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdf
Framing an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdfUjwalaBharambe
 
Incoming and Outgoing Shipments in 1 STEP Using Odoo 17
Incoming and Outgoing Shipments in 1 STEP Using Odoo 17Incoming and Outgoing Shipments in 1 STEP Using Odoo 17
Incoming and Outgoing Shipments in 1 STEP Using Odoo 17Celine George
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)eniolaolutunde
 
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxOrganic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxVS Mahajan Coaching Centre
 
Alper Gobel In Media Res Media Component
Alper Gobel In Media Res Media ComponentAlper Gobel In Media Res Media Component
Alper Gobel In Media Res Media ComponentInMediaRes1
 
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️9953056974 Low Rate Call Girls In Saket, Delhi NCR
 
Crayon Activity Handout For the Crayon A
Crayon Activity Handout For the Crayon ACrayon Activity Handout For the Crayon A
Crayon Activity Handout For the Crayon AUnboundStockton
 
CELL CYCLE Division Science 8 quarter IV.pptx
CELL CYCLE Division Science 8 quarter IV.pptxCELL CYCLE Division Science 8 quarter IV.pptx
CELL CYCLE Division Science 8 quarter IV.pptxJiesonDelaCerna
 
DATA STRUCTURE AND ALGORITHM for beginners
DATA STRUCTURE AND ALGORITHM for beginnersDATA STRUCTURE AND ALGORITHM for beginners
DATA STRUCTURE AND ALGORITHM for beginnersSabitha Banu
 
internship ppt on smartinternz platform as salesforce developer
internship ppt on smartinternz platform as salesforce developerinternship ppt on smartinternz platform as salesforce developer
internship ppt on smartinternz platform as salesforce developerunnathinaik
 
Proudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptxProudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptxthorishapillay1
 
Solving Puzzles Benefits Everyone (English).pptx
Solving Puzzles Benefits Everyone (English).pptxSolving Puzzles Benefits Everyone (English).pptx
Solving Puzzles Benefits Everyone (English).pptxOH TEIK BIN
 
KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...
KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...
KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...M56BOOKSTORE PRODUCT/SERVICE
 
Painted Grey Ware.pptx, PGW Culture of India
Painted Grey Ware.pptx, PGW Culture of IndiaPainted Grey Ware.pptx, PGW Culture of India
Painted Grey Ware.pptx, PGW Culture of IndiaVirag Sontakke
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxGaneshChakor2
 
How to Make a Pirate ship Primary Education.pptx
How to Make a Pirate ship Primary Education.pptxHow to Make a Pirate ship Primary Education.pptx
How to Make a Pirate ship Primary Education.pptxmanuelaromero2013
 
Enzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdf
Enzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdfEnzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdf
Enzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdfSumit Tiwari
 

Recently uploaded (20)

Framing an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdf
Framing an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdfFraming an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdf
Framing an Appropriate Research Question 6b9b26d93da94caf993c038d9efcdedb.pdf
 
Incoming and Outgoing Shipments in 1 STEP Using Odoo 17
Incoming and Outgoing Shipments in 1 STEP Using Odoo 17Incoming and Outgoing Shipments in 1 STEP Using Odoo 17
Incoming and Outgoing Shipments in 1 STEP Using Odoo 17
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)
 
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxOrganic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
 
Alper Gobel In Media Res Media Component
Alper Gobel In Media Res Media ComponentAlper Gobel In Media Res Media Component
Alper Gobel In Media Res Media Component
 
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
 
Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝
Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝
Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝
 
Crayon Activity Handout For the Crayon A
Crayon Activity Handout For the Crayon ACrayon Activity Handout For the Crayon A
Crayon Activity Handout For the Crayon A
 
CELL CYCLE Division Science 8 quarter IV.pptx
CELL CYCLE Division Science 8 quarter IV.pptxCELL CYCLE Division Science 8 quarter IV.pptx
CELL CYCLE Division Science 8 quarter IV.pptx
 
DATA STRUCTURE AND ALGORITHM for beginners
DATA STRUCTURE AND ALGORITHM for beginnersDATA STRUCTURE AND ALGORITHM for beginners
DATA STRUCTURE AND ALGORITHM for beginners
 
internship ppt on smartinternz platform as salesforce developer
internship ppt on smartinternz platform as salesforce developerinternship ppt on smartinternz platform as salesforce developer
internship ppt on smartinternz platform as salesforce developer
 
Proudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptxProudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptx
 
9953330565 Low Rate Call Girls In Rohini Delhi NCR
9953330565 Low Rate Call Girls In Rohini Delhi NCR9953330565 Low Rate Call Girls In Rohini Delhi NCR
9953330565 Low Rate Call Girls In Rohini Delhi NCR
 
TataKelola dan KamSiber Kecerdasan Buatan v022.pdf
TataKelola dan KamSiber Kecerdasan Buatan v022.pdfTataKelola dan KamSiber Kecerdasan Buatan v022.pdf
TataKelola dan KamSiber Kecerdasan Buatan v022.pdf
 
Solving Puzzles Benefits Everyone (English).pptx
Solving Puzzles Benefits Everyone (English).pptxSolving Puzzles Benefits Everyone (English).pptx
Solving Puzzles Benefits Everyone (English).pptx
 
KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...
KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...
KSHARA STURA .pptx---KSHARA KARMA THERAPY (CAUSTIC THERAPY)————IMP.OF KSHARA ...
 
Painted Grey Ware.pptx, PGW Culture of India
Painted Grey Ware.pptx, PGW Culture of IndiaPainted Grey Ware.pptx, PGW Culture of India
Painted Grey Ware.pptx, PGW Culture of India
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptx
 
How to Make a Pirate ship Primary Education.pptx
How to Make a Pirate ship Primary Education.pptxHow to Make a Pirate ship Primary Education.pptx
How to Make a Pirate ship Primary Education.pptx
 
Enzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdf
Enzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdfEnzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdf
Enzyme, Pharmaceutical Aids, Miscellaneous Last Part of Chapter no 5th.pdf
 

Mapping of origins of replication

  • 1. Mapping of origins of replication BY GOPAL M. KUMBHANI M. SC BIOTECHNOLOGY (SEM-1) 1
  • 2. Contents:-  Basics about replication  Why we are doing mapping of origins of replication  Methods for mapping origins  References 2
  • 3. What is replication?  It is a process which make a synthesis of new DNA strands.  So, the process, It means that it should start from some site. So, There is a question about from where DNA replication is start?  The answer is ORIGINS OF REPLICATION 3
  • 4.  It is a particular sequence in a genome from which replication is initiated 4
  • 5.  Mostly replication is performed in bidirectional. In rare no. of prokaryotes have unidirectional type of replication. 5
  • 6. 6  The genome size of the eukaryotes is very large. So, if they want to make fast replication at that time bidirectional replication is important.  Also eukaryotes have multiple origins of replication because of this reason.  Replication start at an origin by separating the two strands of DNA duplex.  Each of the parent strand then act as template to synthesize a complementary daughter strand.
  • 7. 7
  • 8.  This model of replication in which a parental duplex give rise to two daughter duplexes each containing one original parental strand & one new strand is called semiconservative mode of replication.  The point at which replication occur is called replication fork or also called as growing point.  A replication fork moves from the starting point which is known as origin.  In bidirectional replication, two replication forks are formed. They proceed away from the origin in opposite directions.  In unidirectional replication, one replication fork leaves the origin & proceed forward along the DNA. 8
  • 9. 9
  • 10. Why we do mapping of origins of replication?  Scientists had information about DNA replication but they didn’t know about the site from where replication is start.  So, they started mapping of origins of replication to find the location of origin in the whole genome.  Scientists first found replication origins in brewer’s yeast(saccharomyces cerevisiae)  Using traditional molecular approaches, scientists found only about 10% of the origins(30 of about 400) predicted to function in the yeast genome. 10
  • 11.  In prokaryotic cells, there is only one point of origin and replication is occurs in two opposing directions at the same time, and takes place in the cell cytoplasm.  In Eukaryotic cells on the other hand, have multiple points of origin, and use unidirectional replication within the nucleus of the cell.  In prokaryotes one or two origins are present but in eukaryotic cell multiple origins are present.  So, mapping of eukaryotic origins is harder than the prokaryotic cells. 11
  • 12. Mapping of origins of replication can be done by Autoradiography & 2-D Gel Electrophoresis  There are many authore methods are available to identify origins . 1)Electrophoresis 2)Microarray 3)Single-Standard DNA detection 4)DNA-Protein interaction at initial stage 5)Autoradiography 6)Electron microscopy 12
  • 13.  The choice of method depends upon the whether the DNA is a defined molecule or undefined region of a cellular genome. 1) With a defined linear molecule,  we can use electron microscopy to measure the distance of each end of the bubble from the end of the DNA that have bubbles of different sizes.  If replication is unidirectional, only one of the end will move. The other is fixed origin. So, It is easy to find the location of origin in unidirectional replication in defined molecule. 13
  • 14.  If replication is bidirectional, both end will move; the origin is the point midway between them. 2) With undefined regions of large genomes,  Two successive pulse of labeled nucleotides can detect DNA replication.  Traditionally this was performed with radioactive DNA precursors.  However, recent advances in fluorescence labeling methods have been made.  Due to its simplicity this approach is become a system of choice. 14
  • 15.  This shows the pattern of bidirectional replication generated by initial labeling of DNA resulting in green DNA; the addition of a second fluorescent label generates yellow DNA. 15
  • 16. 2-D Gel electrophoresis For Mapping Origins  In 1987, Brewer and Fangman introduced the use of two- dimensional agarose gels (2-D gels) to map origins of replication.  This technique was used to show that ARSs(autonomously replicating sequences) act as initiation sites for DNA replication in living cells.  DNA isolated from rapidly proliferating cells is digested with a restriction endonuclease.  The fragment produced are resolved by neutral 2-D gel electrophoresis. 16
  • 17.  In this technique restriction fragments of replicating DNA are electrophored in a 1st dimension that separates by size & 2nd dimension (run perpendicular to the first) that separates by the shape.  Once electrophoresis is complete, the DNA molecules are transferred to nitrocellulose & detect by southern blotting.  The most unusual structures migrate slowly in the first dimension. 17
  • 18. 18
  • 19.  Molecules that contains an origin of replication form bubble shaped replication intermediate that migrate even more slowly in the 1st dimension than Y shaped molecules in which no origin is present. 19
  • 20.  molecules that have just initiated replication are smaller and will move fast in the first dimension. They will also have a small replication bubble, and hence they will move fast in the second dimension.  However, those with more extensive replication will have a larger bubble. These molecules are larger, and thus move more slowly in the first dimension, but importantly, the larger bubbles will move even more slowly in the second dimention, since they have the greater deviation from linearity. This generates a characteristic "bubble arc" on the two- dimensional gel. 20
  • 21. 21
  • 22. 22
  • 23.  When a replication fork is passively generated from an origin of replication that is outside the fragment, the Y-shaped replication intermediates generate a Y-arc 23
  • 24. 24
  • 25. REFRENCES  Lewin’s GENES X – Krebs, Goldstein, Kilpatrick [Page no:265-268]  Molecular biology of the gene(5th edition) – Watson, Levine, Losick [Page no:214-216]  Research article on method for mapping DNA replication origins by Loretta D. Spotila and Joel A. Huberman 25
  • 26. 26