SlideShare uma empresa Scribd logo

P1, mac and pac vector

Transferir como PPTX, PDF
P
Promila Sheoran

Recombinant DNA Technology

Ciências
1 de 22
P1, PAC & MAC Vectors Promila Sheoran Ph.D. Biotechnology GJU S&T Hisar
P1 Vector • P1 is a bacteriopahge that infects Escherichia coli and some other bacteria. When undergoing a lysogenic cycle the phage genome exists as a plasmid in the bacterium unlike other phages (e.g. the lambda phage) that integrate into the host DNA. •The P1 phage has gained research interest because it can be used to transfer DNA from one bacterial cell to another in a process known as transduction. •As it replicates during its lytic cycle it captures fragments of the host chromosome. If the resulting viral particles are used to infect a different host the captured DNA fragments can be integrated into the new host's genome. •This method of in vivo genetic engineering was widely used for many years and is still used today, though to a lesser extent. P1 can also be used to create the P1- derived artificial chromosome cloning vector which can carry relatively large fragments of DNA.
P1 Vector •P1 encodes a site-specific recombinase, Cre, that is widely used to carry out cell- specific or time-specific DNA recombination by flanking the target DNA with loxP sites. •To overcome some of the shortcomings of the cosmid and yeast cloning systems and to provide an alternative system to clone large molecular weight DNAs, a bacteriophage P1 cloning system has been developed. •The P1 system permits the cloning, isolation, and recovery of DNA inserts as large as 100 kbp with an efficiency that is intermediate between that of cosmids and YACs.
Construction of P1 Vector The construction and structure of the two P1 cloning vectors pNS358 and pNS582 are described in Fig. The starting plasmid is pBS69. It contains two directly repeated P1 loxP recombination sites flanking the pBR322 bla (amp') gene and multicopy replicon on one side, and the S. cerevisiae LEU2 gene on the other. To construct the P1 cloning vectors the P1 packaging site was first inserted as a 450-bp Xho I/Sal I fragment at the unique Xho I site in the ampr domain of the vector. The aminoglycoside 3'-phosphotransferase (kanr) gene from Tn903 was then inserted as a 1.3-kbp Acc I fragment into the unique Cla I site in the LEU2 gene. The P1 plasmid maintenance region containing plasmid replicon and partition systems was then inserted as a 7.2-kbp Kpn I fragment at the unique Kpn I site.
To complete the construction of pNS358, a polylinker containing unique BamHI, Xba I, NotI, Sal I, and SnaBI sites was inserted at the unique BamHI site. pNS358 was converted to pNS582 by inserting the P1 lytic replicon as a 2-kbp Hpa I fragment into the unique SnaBI site of pNS358. The activity of that replicon is regulated by the lac operon promoter. A final vector used, pNS582tetl4, is one in which the polylinker in pNS582 is replaced by the tetracycline resistance (tet) gene from pBR322. pNS582tetl4 contains unique BamHI and Sal I restriction sites located in tet.
P1 Cloning Vectors pNS358 and pNS582 Each of these vectors consists of two domains that are flanked by P1 loxP recombination sites that are oriented in the same direction. Recombination between these sites mediated by the P1 Cre recombinase separates the two domains of the vector into discrete circles. One of the domains of the vector has the pBR322 plasmid ampr gene, the pBR322 multicopy replicon, and the P1 pac site. The latter was oriented so as to direct packaging counterclockwise on the vector. The second vector domain contains a P1 plasmid replicon, a kanr gene from Tn903, and a polylinker cloning site containing unique BamHI, SnaBI, Sal I, Not I, and Xba I sites. pNS582 differs from pNS358 in that it contains a lac promoter-regulated P1 lytic replicon in the kanr domain of the vector.
An in Vitro P1 Packaging System •Bacteriophage P1 packages DNA by a headful mechanism. The process is initiated when P1-encoded pacase proteins recognize and cleave pac in the phage DNA. • The DNA on one side of that cleavage is then packaged into an empty phage prohead. •Once the head has been filled, a second DNA cleavage event (the headful cut) occurs that separates the DNA inside of the head from that outside of the head. • The headful cleavage is not sequence specific. •Phage tails are then added to the filled heads to complete particle formation. Note that in this process pac is cleaved only during the initiation of packaging and not at its termination. • Thus, the two ends of the packaged DNA are different.
In Vitro Packaging of Vector DNA •To assess the efficiency of the in vitro packaging reaction, pNS582 vector DNA was cleaved at one of the restriction sites in the polylinker, ligated to produce concatemers consisting of 3-10 vector units, and that DNA was then packaged in vitro. •The phage produced generate 2 x 106 kanr transformants per /microgram of vector used when the infected strain (NS2974) contains the Cre recombinase. • If the infected strain does not contain Cre (JM109) then the yield of kan' transformants is reduced -50-fold. •Presumably, Cre-mediated recombination between loxP sites is necessary to cyclize the infecting linear DNA so that it can be faithfully maintained in the transformed cells.
Products generated by the packaging of various ligated products A. Singly digested vector DNA was ligated to form a long concatemer. Packaging of that DNA into large P1 heads followed by the infection of a Cre' strain cyclizes the DNA between IoxP sites and produces compatible kanr and ampr domain plasmids. B. Vector DNA was ligated to small insert DNA to generate a mixed concatemer. Headful packaging of that DNA from a pac site produces an ampr domain plasmid and three kanr plasmids. Two of those contain different, small inserts and the third does not. The kanr plasmids are incompatible and, therefore, segregate away from each other into separate cells. (C) A single large insert was ligated between two vector molecules. Headful packaging of that DNA generates only a kanr plasmid with the large insert.
Conclusion •The size of the DNA that is cloned in the P1 vector is determined by the headful size of P1 (110-115 kbp of DNA) and by the amount of DNA between any two directly repeated loxP sites in the ligated concatemer. • If the inserted DNA fragment is >100 kbp, then the distance between loxP sites in the kanr domain of the plasmid will be greater than a P1 headful, and the packaged DNA will not contain two loxP sites. • When that DNA is injected into a Cre-containing host, it will not be cyclized and, therefore, will not be recoverable as a kanr transformant. • If the inserted DNA fragment is smaller than 100 kb it can be packaged between loxP sites and will be cyclized and recovered after injection.
PAC vectors •Phage artificial chromosome or P1-derived artificial chromosome (PAC) is a form of chromosome derived through biological manipulation and it originates from a ‘phage’ instead of a ‘plasmid’, as seen in the construction of many other artificial chromosomes. •Genomic libraries constructed in the original Bacterial Artificial Chromosome (BAC) and P1 Artificial Chromosome (PAC) cloning systems were very useful for completion of the Human Genome Project. •Libraries constructed in these vector systems were used to generate physical maps of all twenty three-chromosome pairs and served as the templates for DNA sequencing. •PACs can accommodate larger inserts of DNA than a plasmid or many other types of vectors. Sometimes, the number of inserts can be as high as 300 kilobase paires.
Construction of PACs through electroporation: •During the construction of PACs, P1 phage containing cells will undergo a process known as ‘electroporation’, which will increase the permeability of the cell membrane and allow DNA material to enter the cell and couple with the existing DNA. •This process will give rise to PACs and from there onwards, the PACs can replicate within the cell through ‘lysogeny’, without destructing the cell or incorporating into rest of the chromosomes.
Construction of PAC vector pJCPAC-Mam2 The PAC vector pJCPAC-Mam2 is a 23 kilobase (kb) shuttle vector that is highly versatile and useful for functional studies in human tissue culture cell lines. pJCPAC-Mam2 contains the P1 single- copy replicon for low copy expression and a multi-copy lytic replicon under the control of the lac repressor for high copy expression in Escherichia coli, wild type and mutant loxP sites for generation of bidirectional nested deletions in any clone of interest and the Epstein Barr Virus (EBV) latent replication origin oriP, the Epstein Barr Nuclear Antigen 1 (EBNA1) gene, and a puromycin-resistance gene for propagation in mammalian cells.
Uses of PACs: •PACs are in high demand when it comes to cloning important biomedical sequences, which are essential for many scientific functions. •One of its main uses is the genome analysis and map based cloning of complex plants and animals, which requires isolation of large pieces of DNA rather than smaller segments. •Furthermore, PAC based cloning is useful in the study of ‘phage therapy’ and in scientific studies focusing on how antibiotics act on a particular bacteria. •Although there are other forms of artificial chromosomes which can accommodate more base pairs than PACs, relative user friendliness of these vectors makes it a popular choice among many biomedical researchers.
Mammalian Artificial Chromosomes (MAC) Vector •Chromosomes in eukaryotes have evolved as vehicles for nuclear genes and have developed specialized nucleoprotein structures for this purpose, some of them are centromeres, telomeres and origin of replication. •Alphoid arrays are found at all human centromeres and consist of a 171 bp monomer organized in higher order repeats encompassing 0.5-5 Mb. •They have been considered the best candidate for the specific DNA requirement for centromere function.
•MAC formation was observed following transfection of a 100 kb yeast artificial chromosome (YAC) containing alphoid sequence from chromosome 21 with uniform higher order repeats and frequent CENP-B boxes, a conserved motif binding the CENP-B protein. •The YAC had been retrofitted with terminal human telomere sequence, but no other human DNA was included. •This YAC construct generated cell lines containing MACs at frequencies ranging from 10 to 100% cells.
•A human artificial chromosome (HAC) is a mini-chromosome that is constructed artificially in human cells. Using its own self-replicating and segregating systems, a HAC can behave as a stable chromosome that is independent from the chromosomes of host cells. The essential elements for chromosome maintenance and transmission are the following three regions: (1) the “replication origin,” from which the duplication of DNA begins, (2) the “centromere,” which functions in proper chromosome segregation during cell division, and (3) the “telomere,” which protects the ends of linear chromosomes.
•The particular DNA sequences specifying the replication origin and centromere were unresolved in higher eukaryotes such as mammals. •The research group of Tsuneko Okazaki, Ph.D., the founder of Chromo Research, investigated these sequences and succeeded in building a HAC with type I alphoid DNA from human chromosome 21. • HAC, which is maintained as an extra chromosome, duplicates synchronously with host cell chromosomes at each host cell division and is transmitted stably to daughter cells.
Production of HAC by bottom-up construction strategies Tsuneko Okazaki and her collaborators discovered that HACs were frequently generated de novo in the human fibroblast cell line HT1080 upon introduction of precursor DNA constructs in YACs or BACs. These YACs or BACs contained up to 70 kilobases of human α-satellite (alphoid) DNA derived from human chromosome 21, as well as marker genes and, in the case of YAC constructs, telomere sequences at both DNA ends. •A HAC can be detected by FISH analysis as a “mini-chromosome” generated by multimerization of the introduced DNA. A HAC made from a YAC is linear with telomeric structures, whereas a HAC generated from a BAC is circular and lacks telomeres. •Dr. Okazaki’s findings revealed an important principal: “type I alphoid DNA with frequent CENP-B boxes is necessary for de novo centromere/kinetochore formation.”
•On the basis of these results, Chromo Research scientists were the first to reproducibly manufacture HACs. •The “bottom-up construction” strategy of Chromo Research involves the de novo construction of HACs by introducing necessary DNA elements for the maintenance of chromosome function into cells. • On the other hand, “top-down construction” refers to the truncation of natural chromosomes into smaller sizes by using targeting vectors containing telomeric sequences.
Various useful applications •In bottom-up construction, multimerization of transfected DNA occurs during HAC formation. Thus, HACs that contain transgenes are generated de novo from precursor BAC or YAC vectors that contain the transgene and an alphoid array in separate vectors. •A HAC can carry a site-directed insertion system. Because a transgene (cDNA or genomic DNA) can be inserted at a certain position in this HAC, the transgene in the HAC can be expressed in mammalian cells in a promoter-dependent manner under the desired stable control. •Microcell-mediated chromosome transfer (MMCT) enables HACs to be transferred into various cell types and maintained stably. HACs can be transferred into mouse embryonic stem cells by MMCT, so a transgenic mouse containing exogenous genes can be readily created. The establishment of a reliable method to create a transgenic animal will enable HAC vector utilization for gene therapy and regenerative medicine.
Thank You

Recomendados

cDNA Library
cDNA LibrarycDNA Library
cDNA LibrarySyed Muhammad Khan
 
lambda cloning vector
lambda cloning vectorlambda cloning vector
lambda cloning vectorNOMI KhanS
 
Artificial chromosomes
Artificial chromosomesArtificial chromosomes
Artificial chromosomesDarshana Ajith
 
Cosmid
CosmidCosmid
CosmidSwati Pawar
 
Screening and selection of recombinants
Screening and selection of recombinants Screening and selection of recombinants
Screening and selection of recombinants Kristu Jayanti College
 
Complementary DNA (cDNA) Libraries
Complementary DNA (cDNA) LibrariesComplementary DNA (cDNA) Libraries
Complementary DNA (cDNA) LibrariesRamesh Pothuraju
 
bacterial artificial chromosome & yeast artificial chromosome
bacterial artificial chromosome & yeast artificial chromosomebacterial artificial chromosome & yeast artificial chromosome
bacterial artificial chromosome & yeast artificial chromosomeashapatel676
 
Shuttle vector
Shuttle vectorShuttle vector
Shuttle vectorkishoreGupta17
 

Recomendados

cDNA Library
cDNA LibrarycDNA Library
cDNA LibrarySyed Muhammad Khan
 
lambda cloning vector
lambda cloning vectorlambda cloning vector
lambda cloning vectorNOMI KhanS
 
Artificial chromosomes
Artificial chromosomesArtificial chromosomes
Artificial chromosomesDarshana Ajith
 
Cosmid
CosmidCosmid
CosmidSwati Pawar
 
Screening and selection of recombinants
Screening and selection of recombinants Screening and selection of recombinants
Screening and selection of recombinants Kristu Jayanti College
 
Complementary DNA (cDNA) Libraries
Complementary DNA (cDNA) LibrariesComplementary DNA (cDNA) Libraries
Complementary DNA (cDNA) LibrariesRamesh Pothuraju
 
bacterial artificial chromosome & yeast artificial chromosome
bacterial artificial chromosome & yeast artificial chromosomebacterial artificial chromosome & yeast artificial chromosome
bacterial artificial chromosome & yeast artificial chromosomeashapatel676
 
Shuttle vector
Shuttle vectorShuttle vector
Shuttle vectorkishoreGupta17
 
TRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTSTRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTSAmbica Parthasarathi
 
pUC18 vector
pUC18 vector pUC18 vector
pUC18 vector Kristu Jayanti College
 
Pac vector ppt
Pac vector ppt Pac vector ppt
Pac vector ppt Pronabjyoti Mahatta
 
Bacteriophage vectors
Bacteriophage vectorsBacteriophage vectors
Bacteriophage vectorspriyanka raviraj
 
Gene library
Gene libraryGene library
Gene libraryDelince Samuel
 
Dna sequencing
Dna sequencingDna sequencing
Dna sequencingRachana Tiwari
 
Synthesis of c dna
Synthesis of c dnaSynthesis of c dna
Synthesis of c dnaDUVASU
 
Selection and screening of recombinant clones
Selection and screening of recombinant clones Selection and screening of recombinant clones
Selection and screening of recombinant clones neeru02
 
Viruses as vector, binary, shuttle vector
Viruses as vector, binary, shuttle vectorViruses as vector, binary, shuttle vector
Viruses as vector, binary, shuttle vectorPromila Sheoran
 
Genomic library construction
Genomic library constructionGenomic library construction
Genomic library constructionGurvinder Kaur
 
Chemical method of transformation
Chemical method of transformation Chemical method of transformation
Chemical method of transformation Kristu Jayanti College
 
P br322
P br322P br322
P br322Vidya Kalaivani Rajkumar
 
P uc vectors
P uc vectorsP uc vectors
P uc vectorsVidya Kalaivani Rajkumar
 
Ti plasmid
Ti plasmidTi plasmid
Ti plasmidArunima Sur
 
ti plasmid
ti plasmidti plasmid
ti plasmidAkshay Pareek
 
Linker, Adaptor, Homopolymeric Tailing & Terminal Transferase
Linker, Adaptor, Homopolymeric Tailing & Terminal TransferaseLinker, Adaptor, Homopolymeric Tailing & Terminal Transferase
Linker, Adaptor, Homopolymeric Tailing & Terminal TransferaseUtsa Roy
 
Blue white screening
Blue white screening Blue white screening
Blue white screening LisaSam11
 
Restriction-Modification system, Types of Restriction enzymes
Restriction-Modification system, Types of Restriction enzymesRestriction-Modification system, Types of Restriction enzymes
Restriction-Modification system, Types of Restriction enzymesKamaraj College of Engineering & Technology, Virudhunagar
 
Shuttle vector - a plasmid vector used in rDNA technology.
Shuttle vector - a plasmid vector used in rDNA technology. Shuttle vector - a plasmid vector used in rDNA technology.
Shuttle vector - a plasmid vector used in rDNA technology. neeru02
 
cDNA Library Construction
cDNA Library ConstructioncDNA Library Construction
cDNA Library ConstructionStella Evelyn
 
Yeast Artificial Chromosomes (YACs)
Yeast Artificial Chromosomes (YACs)Yeast Artificial Chromosomes (YACs)
Yeast Artificial Chromosomes (YACs)Amna Jalil
 
Artificial Vectors
Artificial VectorsArtificial Vectors
Artificial VectorsArindam Ghosh
 

Mais conteúdo relacionado

Mais procurados

Synthesis of c dna
Synthesis of c dnaSynthesis of c dna
Synthesis of c dnaDUVASU
 
Selection and screening of recombinant clones
Selection and screening of recombinant clones Selection and screening of recombinant clones
Selection and screening of recombinant clones neeru02
 
Viruses as vector, binary, shuttle vector
Viruses as vector, binary, shuttle vectorViruses as vector, binary, shuttle vector
Viruses as vector, binary, shuttle vectorPromila Sheoran
 
Genomic library construction
Genomic library constructionGenomic library construction
Genomic library constructionGurvinder Kaur
 
Linker, Adaptor, Homopolymeric Tailing & Terminal Transferase
Linker, Adaptor, Homopolymeric Tailing & Terminal TransferaseLinker, Adaptor, Homopolymeric Tailing & Terminal Transferase
Linker, Adaptor, Homopolymeric Tailing & Terminal TransferaseUtsa Roy
 
Blue white screening
Blue white screening Blue white screening
Blue white screening LisaSam11
 
Shuttle vector - a plasmid vector used in rDNA technology.
Shuttle vector - a plasmid vector used in rDNA technology. Shuttle vector - a plasmid vector used in rDNA technology.
Shuttle vector - a plasmid vector used in rDNA technology. neeru02
 
cDNA Library Construction
cDNA Library ConstructioncDNA Library Construction
cDNA Library ConstructionStella Evelyn
 

Mais procurados (20)

TRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTSTRANSPOSABLE ELEMENTS
TRANSPOSABLE ELEMENTS
 
pUC18 vector
pUC18 vector pUC18 vector
pUC18 vector
 
Pac vector ppt
Pac vector ppt Pac vector ppt
Pac vector ppt
 
Bacteriophage vectors
Bacteriophage vectorsBacteriophage vectors
Bacteriophage vectors
 
Gene library
Gene libraryGene library
Gene library
 
Dna sequencing
Dna sequencingDna sequencing
Dna sequencing
 
Synthesis of c dna
Synthesis of c dnaSynthesis of c dna
Synthesis of c dna
 
Selection and screening of recombinant clones
Selection and screening of recombinant clones Selection and screening of recombinant clones
Selection and screening of recombinant clones
 
Viruses as vector, binary, shuttle vector
Viruses as vector, binary, shuttle vectorViruses as vector, binary, shuttle vector
Viruses as vector, binary, shuttle vector
 
Genomic library construction
Genomic library constructionGenomic library construction
Genomic library construction
 
Chemical method of transformation
Chemical method of transformation Chemical method of transformation
Chemical method of transformation
 
P br322
P br322P br322
P br322
 
P uc vectors
P uc vectorsP uc vectors
P uc vectors
 
Ti plasmid
Ti plasmidTi plasmid
Ti plasmid
 
ti plasmid
ti plasmidti plasmid
ti plasmid
 
Linker, Adaptor, Homopolymeric Tailing & Terminal Transferase
Linker, Adaptor, Homopolymeric Tailing & Terminal TransferaseLinker, Adaptor, Homopolymeric Tailing & Terminal Transferase
Linker, Adaptor, Homopolymeric Tailing & Terminal Transferase
 
Blue white screening
Blue white screening Blue white screening
Blue white screening
 
Restriction-Modification system, Types of Restriction enzymes
Restriction-Modification system, Types of Restriction enzymesRestriction-Modification system, Types of Restriction enzymes
Restriction-Modification system, Types of Restriction enzymes
 
Shuttle vector - a plasmid vector used in rDNA technology.
Shuttle vector - a plasmid vector used in rDNA technology. Shuttle vector - a plasmid vector used in rDNA technology.
Shuttle vector - a plasmid vector used in rDNA technology.
 
cDNA Library Construction
cDNA Library ConstructioncDNA Library Construction
cDNA Library Construction
 

Destaque

Yeast Artificial Chromosomes (YACs)
Yeast Artificial Chromosomes (YACs)Yeast Artificial Chromosomes (YACs)
Yeast Artificial Chromosomes (YACs)Amna Jalil
 
Vectores yacs,ba cs y pacs
Vectores yacs,ba cs y pacsVectores yacs,ba cs y pacs
Vectores yacs,ba cs y pacsBarbara Martinez
 
MICROBIAL BIOTECHNOLOGY
MICROBIAL BIOTECHNOLOGYMICROBIAL BIOTECHNOLOGY
MICROBIAL BIOTECHNOLOGYPankaj Bhatt
 
Plant transformation methods
Plant transformation methodsPlant transformation methods
Plant transformation methodsMohammed Sami
 
SYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONs
SYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONsSYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONs
SYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONskundan Jadhao
 
Synthetic chromosome seminar
Synthetic chromosome seminarSynthetic chromosome seminar
Synthetic chromosome seminarpoornima R N
 
Gene delivery System
Gene delivery SystemGene delivery System
Gene delivery SystemNupur Gupta
 
Expression vector, baculovirus expression vector
Expression vector, baculovirus expression vectorExpression vector, baculovirus expression vector
Expression vector, baculovirus expression vectorPromila Sheoran
 
Yeast Artificial Chromosome (YAC)
Yeast Artificial Chromosome (YAC)Yeast Artificial Chromosome (YAC)
Yeast Artificial Chromosome (YAC)Amna Jalil
 
VIRAL VECTORS FOR GENE TRANSFER
VIRAL VECTORS FOR GENE TRANSFERVIRAL VECTORS FOR GENE TRANSFER
VIRAL VECTORS FOR GENE TRANSFERANKUR SHARMA
 
Pbr322 and puc8 plasmids
Pbr322 and puc8 plasmids Pbr322 and puc8 plasmids
Pbr322 and puc8 plasmidsZohaib HUSSAIN
 
GENE TRANSFER TECHNIQUES
GENE TRANSFER TECHNIQUESGENE TRANSFER TECHNIQUES
GENE TRANSFER TECHNIQUESsavvysahana
 
Plant transformation vectors and their types
Plant transformation vectors and their typesPlant transformation vectors and their types
Plant transformation vectors and their typesZahra Naz
 

Destaque (20)

Yeast Artificial Chromosomes (YACs)
Yeast Artificial Chromosomes (YACs)Yeast Artificial Chromosomes (YACs)
Yeast Artificial Chromosomes (YACs)
 
Artificial Vectors
Artificial VectorsArtificial Vectors
Artificial Vectors
 
Vectores yacs,ba cs y pacs
Vectores yacs,ba cs y pacsVectores yacs,ba cs y pacs
Vectores yacs,ba cs y pacs
 
MICROBIAL BIOTECHNOLOGY
MICROBIAL BIOTECHNOLOGYMICROBIAL BIOTECHNOLOGY
MICROBIAL BIOTECHNOLOGY
 
Plant transformation methods
Plant transformation methodsPlant transformation methods
Plant transformation methods
 
PAC
PACPAC
PAC
 
SYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONs
SYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONsSYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONs
SYNTHETIC CHROMOSOME PLATFORMs IN PLANTS: CONCEPTS & APPLICATIONs
 
Synthetic chromosome seminar
Synthetic chromosome seminarSynthetic chromosome seminar
Synthetic chromosome seminar
 
Gene delivery System
Gene delivery SystemGene delivery System
Gene delivery System
 
Expression vector, baculovirus expression vector
Expression vector, baculovirus expression vectorExpression vector, baculovirus expression vector
Expression vector, baculovirus expression vector
 
ANIMAL CLONING VECTOR
ANIMAL CLONING VECTORANIMAL CLONING VECTOR
ANIMAL CLONING VECTOR
 
Yeast Artificial Chromosome (YAC)
Yeast Artificial Chromosome (YAC)Yeast Artificial Chromosome (YAC)
Yeast Artificial Chromosome (YAC)
 
Vectors in biotechnolgy
Vectors in biotechnolgyVectors in biotechnolgy
Vectors in biotechnolgy
 
Cósmidos clonación vectorial
Cósmidos clonación vectorial Cósmidos clonación vectorial
Cósmidos clonación vectorial
 
VIRAL VECTORS FOR GENE TRANSFER
VIRAL VECTORS FOR GENE TRANSFERVIRAL VECTORS FOR GENE TRANSFER
VIRAL VECTORS FOR GENE TRANSFER
 
Pbr322 and puc8 plasmids
Pbr322 and puc8 plasmids Pbr322 and puc8 plasmids
Pbr322 and puc8 plasmids
 
Gene delivery system
Gene delivery systemGene delivery system
Gene delivery system
 
GENE TRANSFER TECHNIQUES
GENE TRANSFER TECHNIQUESGENE TRANSFER TECHNIQUES
GENE TRANSFER TECHNIQUES
 
Plant transformation vectors and their types
Plant transformation vectors and their typesPlant transformation vectors and their types
Plant transformation vectors and their types
 
Methods of Gene Transfer
Methods of Gene TransferMethods of Gene Transfer
Methods of Gene Transfer
 

Semelhante a P1, mac and pac vector

Recombinant DNA Technology- Study of cloning vectors.pptx
Recombinant DNA Technology- Study of cloning vectors.pptxRecombinant DNA Technology- Study of cloning vectors.pptx
Recombinant DNA Technology- Study of cloning vectors.pptxPoonam Patil
 
MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage )
MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage ) MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage )
MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage ) Amany Elsayed
 
Extrachromosomal replication of DNA
Extrachromosomal replication of DNAExtrachromosomal replication of DNA
Extrachromosomal replication of DNALubnaSSubair
 
Dna library lecture-Gene libraries and screening
Dna library lecture-Gene libraries and screening Dna library lecture-Gene libraries and screening
Dna library lecture-Gene libraries and screening Abdullah Abobakr
 
Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.
Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.
Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.Ambika Prajapati
 
Cloning vector series 1
Cloning vector series 1Cloning vector series 1
Cloning vector series 1kishoreGupta17
 
Phagemid and bac vectors
Phagemid and bac vectorsPhagemid and bac vectors
Phagemid and bac vectorsPromila Sheoran
 
Dna library CONSTRUCTION
Dna library CONSTRUCTIONDna library CONSTRUCTION
Dna library CONSTRUCTIONMSCW Mysore
 
dna-cloning- transformation.ppt
dna-cloning- transformation.pptdna-cloning- transformation.ppt
dna-cloning- transformation.pptssuser880f82
 
B.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCR
B.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCRB.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCR
B.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCRRai University
 
Plasmids(microbiology)
Plasmids(microbiology)Plasmids(microbiology)
Plasmids(microbiology)IndrajaDoradla
 
genetic_engineering__unit_3__lecture_1.ppt
genetic_engineering__unit_3__lecture_1.pptgenetic_engineering__unit_3__lecture_1.ppt
genetic_engineering__unit_3__lecture_1.pptUmehabiba502674
 

Semelhante a P1, mac and pac vector (20)

Artificial chromosomes
Artificial chromosomesArtificial chromosomes
Artificial chromosomes
 
Recombinant DNA Technology- Study of cloning vectors.pptx
Recombinant DNA Technology- Study of cloning vectors.pptxRecombinant DNA Technology- Study of cloning vectors.pptx
Recombinant DNA Technology- Study of cloning vectors.pptx
 
Dna cloning intro
Dna cloning introDna cloning intro
Dna cloning intro
 
MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage )
MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage ) MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage )
MULTIPLE CLONING SITE and BACTERIOPHAGE LAMBDA (λ - phage )
 
Cloning Vector.pptx
Cloning Vector.pptxCloning Vector.pptx
Cloning Vector.pptx
 
Cloning vectors
Cloning vectorsCloning vectors
Cloning vectors
 
Extrachromosomal replication of DNA
Extrachromosomal replication of DNAExtrachromosomal replication of DNA
Extrachromosomal replication of DNA
 
Dna library lecture-Gene libraries and screening
Dna library lecture-Gene libraries and screening Dna library lecture-Gene libraries and screening
Dna library lecture-Gene libraries and screening
 
Bacteriophage
BacteriophageBacteriophage
Bacteriophage
 
Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.
Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.
Gene Cloning Vectors - Plasmids, Bacteriophages and Phagemids.
 
Cloning vector series 1
Cloning vector series 1Cloning vector series 1
Cloning vector series 1
 
Phagemid and bac vectors
Phagemid and bac vectorsPhagemid and bac vectors
Phagemid and bac vectors
 
Dna library CONSTRUCTION
Dna library CONSTRUCTIONDna library CONSTRUCTION
Dna library CONSTRUCTION
 
dna-cloning- transformation.ppt
dna-cloning- transformation.pptdna-cloning- transformation.ppt
dna-cloning- transformation.ppt
 
Vectors
Vectors Vectors
Vectors
 
B.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCR
B.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCRB.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCR
B.Tech Biotechnology II Elements of Biotechnology Unit 3 RDT & PCR
 
Vectors.pptx
Vectors.pptx Vectors.pptx
Vectors.pptx
 
Plasmids(microbiology)
Plasmids(microbiology)Plasmids(microbiology)
Plasmids(microbiology)
 
Genetic Engineering
Genetic EngineeringGenetic Engineering
Genetic Engineering
 
genetic_engineering__unit_3__lecture_1.ppt
genetic_engineering__unit_3__lecture_1.pptgenetic_engineering__unit_3__lecture_1.ppt
genetic_engineering__unit_3__lecture_1.ppt
 

Mais de Promila Sheoran

How to write a research proposal
How to write a research proposalHow to write a research proposal
How to write a research proposalPromila Sheoran
 
Bio business and biosafety
Bio business and biosafetyBio business and biosafety
Bio business and biosafetyPromila Sheoran
 
Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...
Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...
Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...Promila Sheoran
 
Chromosome walking jumping transposon tagging map based cloning
Chromosome walking jumping transposon tagging map based cloningChromosome walking jumping transposon tagging map based cloning
Chromosome walking jumping transposon tagging map based cloningPromila Sheoran
 
Genomic and c dna library
Genomic and c dna libraryGenomic and c dna library
Genomic and c dna libraryPromila Sheoran
 
Dna sequencing techniques
Dna sequencing techniquesDna sequencing techniques
Dna sequencing techniquesPromila Sheoran
 
Organochemical gene synthesis, blotting techniques
Organochemical gene synthesis, blotting techniques Organochemical gene synthesis, blotting techniques
Organochemical gene synthesis, blotting techniques Promila Sheoran
 
Cloning and expression vectors
Cloning and expression vectorsCloning and expression vectors
Cloning and expression vectorsPromila Sheoran
 
Molecular mechanism of suppression, somatic mutations
Molecular mechanism of suppression, somatic mutationsMolecular mechanism of suppression, somatic mutations
Molecular mechanism of suppression, somatic mutationsPromila Sheoran
 
Molecular mechanism of spontaneous mutations
Molecular mechanism of spontaneous mutationsMolecular mechanism of spontaneous mutations
Molecular mechanism of spontaneous mutationsPromila Sheoran
 
Molecular mechanism of induced mutations
Molecular mechanism of induced mutationsMolecular mechanism of induced mutations
Molecular mechanism of induced mutationsPromila Sheoran
 
Tetrad analysis, positive and negative interference, mapping through somatic ...
Tetrad analysis, positive and negative interference, mapping through somatic ...Tetrad analysis, positive and negative interference, mapping through somatic ...
Tetrad analysis, positive and negative interference, mapping through somatic ...Promila Sheoran
 
Molecular mechanism of recombination, post meiotic segregation
Molecular mechanism of recombination, post meiotic segregationMolecular mechanism of recombination, post meiotic segregation
Molecular mechanism of recombination, post meiotic segregationPromila Sheoran
 

Mais de Promila Sheoran (20)

Tumor immunology
Tumor immunologyTumor immunology
Tumor immunology
 
Molecular evolution
Molecular evolutionMolecular evolution
Molecular evolution
 
How to write a research proposal
How to write a research proposalHow to write a research proposal
How to write a research proposal
 
Bio business and biosafety
Bio business and biosafetyBio business and biosafety
Bio business and biosafety
 
Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...
Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...
Genomics: Organization of Genome, Strategies of Genome Sequencing, Model Plan...
 
Gene concept
Gene conceptGene concept
Gene concept
 
Pcr
PcrPcr
Pcr
 
Lcr and molecular probe
Lcr and molecular probeLcr and molecular probe
Lcr and molecular probe
 
Chromosome walking jumping transposon tagging map based cloning
Chromosome walking jumping transposon tagging map based cloningChromosome walking jumping transposon tagging map based cloning
Chromosome walking jumping transposon tagging map based cloning
 
Genomic and c dna library
Genomic and c dna libraryGenomic and c dna library
Genomic and c dna library
 
Gene isolation methods
Gene isolation methodsGene isolation methods
Gene isolation methods
 
Dna sequencing techniques
Dna sequencing techniquesDna sequencing techniques
Dna sequencing techniques
 
Organochemical gene synthesis, blotting techniques
Organochemical gene synthesis, blotting techniques Organochemical gene synthesis, blotting techniques
Organochemical gene synthesis, blotting techniques
 
Cloning and expression vectors
Cloning and expression vectorsCloning and expression vectors
Cloning and expression vectors
 
Molecular mechanism of suppression, somatic mutations
Molecular mechanism of suppression, somatic mutationsMolecular mechanism of suppression, somatic mutations
Molecular mechanism of suppression, somatic mutations
 
Molecular mechanism of spontaneous mutations
Molecular mechanism of spontaneous mutationsMolecular mechanism of spontaneous mutations
Molecular mechanism of spontaneous mutations
 
Molecular mechanism of induced mutations
Molecular mechanism of induced mutationsMolecular mechanism of induced mutations
Molecular mechanism of induced mutations
 
Dna repair
Dna repairDna repair
Dna repair
 
Tetrad analysis, positive and negative interference, mapping through somatic ...
Tetrad analysis, positive and negative interference, mapping through somatic ...Tetrad analysis, positive and negative interference, mapping through somatic ...
Tetrad analysis, positive and negative interference, mapping through somatic ...
 
Molecular mechanism of recombination, post meiotic segregation
Molecular mechanism of recombination, post meiotic segregationMolecular mechanism of recombination, post meiotic segregation
Molecular mechanism of recombination, post meiotic segregation
 

Último

PSYCHOSOCIAL NEEDS. in nursing II sem pptx
PSYCHOSOCIAL NEEDS. in nursing II sem pptxPSYCHOSOCIAL NEEDS. in nursing II sem pptx
PSYCHOSOCIAL NEEDS. in nursing II sem pptxSuji236384
 
Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....
Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....
Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....muralinath2
 
300003-World Science Day For Peace And Development.pptx
300003-World Science Day For Peace And Development.pptx300003-World Science Day For Peace And Development.pptx
300003-World Science Day For Peace And Development.pptxryanrooker
 
pumpkin fruit fly, water melon fruit fly, cucumber fruit fly
pumpkin fruit fly, water melon fruit fly, cucumber fruit flypumpkin fruit fly, water melon fruit fly, cucumber fruit fly
pumpkin fruit fly, water melon fruit fly, cucumber fruit flyPRADYUMMAURYA1
 
FAIRSpectra - Enabling the FAIRification of Spectroscopy and Spectrometry
FAIRSpectra - Enabling the FAIRification of Spectroscopy and SpectrometryFAIRSpectra - Enabling the FAIRification of Spectroscopy and Spectrometry
FAIRSpectra - Enabling the FAIRification of Spectroscopy and SpectrometryAlex Henderson
 
Grade 7 - Lesson 1 - Microscope and Its Functions
Grade 7 - Lesson 1 - Microscope and Its FunctionsGrade 7 - Lesson 1 - Microscope and Its Functions
Grade 7 - Lesson 1 - Microscope and Its FunctionsOrtegaSyrineMay
 
Digital Dentistry.Digital Dentistryvv.pptx
Digital Dentistry.Digital Dentistryvv.pptxDigital Dentistry.Digital Dentistryvv.pptx
Digital Dentistry.Digital Dentistryvv.pptxMohamedFarag457087
 
GBSN - Microbiology (Unit 2)
GBSN - Microbiology (Unit 2)GBSN - Microbiology (Unit 2)
GBSN - Microbiology (Unit 2)Areesha Ahmad
 
Zoology 5th semester notes( Sumit_yadav).pdf
Zoology 5th semester notes( Sumit_yadav).pdfZoology 5th semester notes( Sumit_yadav).pdf
Zoology 5th semester notes( Sumit_yadav).pdfSumit Kumar yadav
 
The Mariana Trench remarkable geological features on Earth.pptx
The Mariana Trench remarkable geological features on Earth.pptxThe Mariana Trench remarkable geological features on Earth.pptx
The Mariana Trench remarkable geological features on Earth.pptxseri bangash
 
Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...
Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...
Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...Silpa
 
Velocity and Acceleration PowerPoint.ppt
Velocity and Acceleration PowerPoint.pptVelocity and Acceleration PowerPoint.ppt
Velocity and Acceleration PowerPoint.pptRakeshMohan42
 
Climate Change Impacts on Terrestrial and Aquatic Ecosystems.pptx
Climate Change Impacts on Terrestrial and Aquatic Ecosystems.pptxClimate Change Impacts on Terrestrial and Aquatic Ecosystems.pptx
Climate Change Impacts on Terrestrial and Aquatic Ecosystems.pptxDiariAli
 
Asymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 b
Asymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 bAsymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 b
Asymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 bSérgio Sacani
 
Factory Acceptance Test( FAT).pptx .
Factory Acceptance Test( FAT).pptx .Factory Acceptance Test( FAT).pptx .
Factory Acceptance Test( FAT).pptx .Poonam Aher Patil
 
Pulmonary drug delivery system M.pharm -2nd sem P'ceutics
Pulmonary drug delivery system M.pharm -2nd sem P'ceuticsPulmonary drug delivery system M.pharm -2nd sem P'ceutics
Pulmonary drug delivery system M.pharm -2nd sem P'ceuticssakshisoni2385
 
module for grade 9 for distance learning
module for grade 9 for distance learningmodule for grade 9 for distance learning
module for grade 9 for distance learninglevieagacer
 
POGONATUM : morphology, anatomy, reproduction etc.
POGONATUM : morphology, anatomy, reproduction etc.POGONATUM : morphology, anatomy, reproduction etc.
POGONATUM : morphology, anatomy, reproduction etc.Silpa
 

Último (20)

PSYCHOSOCIAL NEEDS. in nursing II sem pptx
PSYCHOSOCIAL NEEDS. in nursing II sem pptxPSYCHOSOCIAL NEEDS. in nursing II sem pptx
PSYCHOSOCIAL NEEDS. in nursing II sem pptx
 
Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....
Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....
Human & Veterinary Respiratory Physilogy_DR.E.Muralinath_Associate Professor....
 
300003-World Science Day For Peace And Development.pptx
300003-World Science Day For Peace And Development.pptx300003-World Science Day For Peace And Development.pptx
300003-World Science Day For Peace And Development.pptx
 
Site Acceptance Test .
Site Acceptance Test .Site Acceptance Test .
Site Acceptance Test .
 
pumpkin fruit fly, water melon fruit fly, cucumber fruit fly
pumpkin fruit fly, water melon fruit fly, cucumber fruit flypumpkin fruit fly, water melon fruit fly, cucumber fruit fly
pumpkin fruit fly, water melon fruit fly, cucumber fruit fly
 
FAIRSpectra - Enabling the FAIRification of Spectroscopy and Spectrometry
FAIRSpectra - Enabling the FAIRification of Spectroscopy and SpectrometryFAIRSpectra - Enabling the FAIRification of Spectroscopy and Spectrometry
FAIRSpectra - Enabling the FAIRification of Spectroscopy and Spectrometry
 
Grade 7 - Lesson 1 - Microscope and Its Functions
Grade 7 - Lesson 1 - Microscope and Its FunctionsGrade 7 - Lesson 1 - Microscope and Its Functions
Grade 7 - Lesson 1 - Microscope and Its Functions
 
Digital Dentistry.Digital Dentistryvv.pptx
Digital Dentistry.Digital Dentistryvv.pptxDigital Dentistry.Digital Dentistryvv.pptx
Digital Dentistry.Digital Dentistryvv.pptx
 
GBSN - Microbiology (Unit 2)
GBSN - Microbiology (Unit 2)GBSN - Microbiology (Unit 2)
GBSN - Microbiology (Unit 2)
 
Zoology 5th semester notes( Sumit_yadav).pdf
Zoology 5th semester notes( Sumit_yadav).pdfZoology 5th semester notes( Sumit_yadav).pdf
Zoology 5th semester notes( Sumit_yadav).pdf
 
The Mariana Trench remarkable geological features on Earth.pptx
The Mariana Trench remarkable geological features on Earth.pptxThe Mariana Trench remarkable geological features on Earth.pptx
The Mariana Trench remarkable geological features on Earth.pptx
 
Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...
Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...
Locating and isolating a gene, FISH, GISH, Chromosome walking and jumping, te...
 
Velocity and Acceleration PowerPoint.ppt
Velocity and Acceleration PowerPoint.pptVelocity and Acceleration PowerPoint.ppt
Velocity and Acceleration PowerPoint.ppt
 
Climate Change Impacts on Terrestrial and Aquatic Ecosystems.pptx
Climate Change Impacts on Terrestrial and Aquatic Ecosystems.pptxClimate Change Impacts on Terrestrial and Aquatic Ecosystems.pptx
Climate Change Impacts on Terrestrial and Aquatic Ecosystems.pptx
 
Asymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 b
Asymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 bAsymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 b
Asymmetry in the atmosphere of the ultra-hot Jupiter WASP-76 b
 
Factory Acceptance Test( FAT).pptx .
Factory Acceptance Test( FAT).pptx .Factory Acceptance Test( FAT).pptx .
Factory Acceptance Test( FAT).pptx .
 
Pulmonary drug delivery system M.pharm -2nd sem P'ceutics
Pulmonary drug delivery system M.pharm -2nd sem P'ceuticsPulmonary drug delivery system M.pharm -2nd sem P'ceutics
Pulmonary drug delivery system M.pharm -2nd sem P'ceutics
 
module for grade 9 for distance learning
module for grade 9 for distance learningmodule for grade 9 for distance learning
module for grade 9 for distance learning
 
Clean In Place(CIP).pptx .
Clean In Place(CIP).pptx .Clean In Place(CIP).pptx .
Clean In Place(CIP).pptx .
 
POGONATUM : morphology, anatomy, reproduction etc.
POGONATUM : morphology, anatomy, reproduction etc.POGONATUM : morphology, anatomy, reproduction etc.
POGONATUM : morphology, anatomy, reproduction etc.
 

P1, mac and pac vector

  • 1. P1, PAC & MAC Vectors Promila Sheoran Ph.D. Biotechnology GJU S&T Hisar
  • 2. P1 Vector • P1 is a bacteriopahge that infects Escherichia coli and some other bacteria. When undergoing a lysogenic cycle the phage genome exists as a plasmid in the bacterium unlike other phages (e.g. the lambda phage) that integrate into the host DNA. •The P1 phage has gained research interest because it can be used to transfer DNA from one bacterial cell to another in a process known as transduction. •As it replicates during its lytic cycle it captures fragments of the host chromosome. If the resulting viral particles are used to infect a different host the captured DNA fragments can be integrated into the new host's genome. •This method of in vivo genetic engineering was widely used for many years and is still used today, though to a lesser extent. P1 can also be used to create the P1- derived artificial chromosome cloning vector which can carry relatively large fragments of DNA.
  • 3. P1 Vector •P1 encodes a site-specific recombinase, Cre, that is widely used to carry out cell- specific or time-specific DNA recombination by flanking the target DNA with loxP sites. •To overcome some of the shortcomings of the cosmid and yeast cloning systems and to provide an alternative system to clone large molecular weight DNAs, a bacteriophage P1 cloning system has been developed. •The P1 system permits the cloning, isolation, and recovery of DNA inserts as large as 100 kbp with an efficiency that is intermediate between that of cosmids and YACs.
  • 4. Construction of P1 Vector The construction and structure of the two P1 cloning vectors pNS358 and pNS582 are described in Fig. The starting plasmid is pBS69. It contains two directly repeated P1 loxP recombination sites flanking the pBR322 bla (amp') gene and multicopy replicon on one side, and the S. cerevisiae LEU2 gene on the other. To construct the P1 cloning vectors the P1 packaging site was first inserted as a 450-bp Xho I/Sal I fragment at the unique Xho I site in the ampr domain of the vector. The aminoglycoside 3'-phosphotransferase (kanr) gene from Tn903 was then inserted as a 1.3-kbp Acc I fragment into the unique Cla I site in the LEU2 gene. The P1 plasmid maintenance region containing plasmid replicon and partition systems was then inserted as a 7.2-kbp Kpn I fragment at the unique Kpn I site.
  • 5. To complete the construction of pNS358, a polylinker containing unique BamHI, Xba I, NotI, Sal I, and SnaBI sites was inserted at the unique BamHI site. pNS358 was converted to pNS582 by inserting the P1 lytic replicon as a 2-kbp Hpa I fragment into the unique SnaBI site of pNS358. The activity of that replicon is regulated by the lac operon promoter. A final vector used, pNS582tetl4, is one in which the polylinker in pNS582 is replaced by the tetracycline resistance (tet) gene from pBR322. pNS582tetl4 contains unique BamHI and Sal I restriction sites located in tet.
  • 6. P1 Cloning Vectors pNS358 and pNS582 Each of these vectors consists of two domains that are flanked by P1 loxP recombination sites that are oriented in the same direction. Recombination between these sites mediated by the P1 Cre recombinase separates the two domains of the vector into discrete circles. One of the domains of the vector has the pBR322 plasmid ampr gene, the pBR322 multicopy replicon, and the P1 pac site. The latter was oriented so as to direct packaging counterclockwise on the vector. The second vector domain contains a P1 plasmid replicon, a kanr gene from Tn903, and a polylinker cloning site containing unique BamHI, SnaBI, Sal I, Not I, and Xba I sites. pNS582 differs from pNS358 in that it contains a lac promoter-regulated P1 lytic replicon in the kanr domain of the vector.
  • 7. An in Vitro P1 Packaging System •Bacteriophage P1 packages DNA by a headful mechanism. The process is initiated when P1-encoded pacase proteins recognize and cleave pac in the phage DNA. • The DNA on one side of that cleavage is then packaged into an empty phage prohead. •Once the head has been filled, a second DNA cleavage event (the headful cut) occurs that separates the DNA inside of the head from that outside of the head. • The headful cleavage is not sequence specific. •Phage tails are then added to the filled heads to complete particle formation. Note that in this process pac is cleaved only during the initiation of packaging and not at its termination. • Thus, the two ends of the packaged DNA are different.
  • 8. In Vitro Packaging of Vector DNA •To assess the efficiency of the in vitro packaging reaction, pNS582 vector DNA was cleaved at one of the restriction sites in the polylinker, ligated to produce concatemers consisting of 3-10 vector units, and that DNA was then packaged in vitro. •The phage produced generate 2 x 106 kanr transformants per /microgram of vector used when the infected strain (NS2974) contains the Cre recombinase. • If the infected strain does not contain Cre (JM109) then the yield of kan' transformants is reduced -50-fold. •Presumably, Cre-mediated recombination between loxP sites is necessary to cyclize the infecting linear DNA so that it can be faithfully maintained in the transformed cells.
  • 9. Products generated by the packaging of various ligated products A. Singly digested vector DNA was ligated to form a long concatemer. Packaging of that DNA into large P1 heads followed by the infection of a Cre' strain cyclizes the DNA between IoxP sites and produces compatible kanr and ampr domain plasmids. B. Vector DNA was ligated to small insert DNA to generate a mixed concatemer. Headful packaging of that DNA from a pac site produces an ampr domain plasmid and three kanr plasmids. Two of those contain different, small inserts and the third does not. The kanr plasmids are incompatible and, therefore, segregate away from each other into separate cells. (C) A single large insert was ligated between two vector molecules. Headful packaging of that DNA generates only a kanr plasmid with the large insert.
  • 10. Conclusion •The size of the DNA that is cloned in the P1 vector is determined by the headful size of P1 (110-115 kbp of DNA) and by the amount of DNA between any two directly repeated loxP sites in the ligated concatemer. • If the inserted DNA fragment is >100 kbp, then the distance between loxP sites in the kanr domain of the plasmid will be greater than a P1 headful, and the packaged DNA will not contain two loxP sites. • When that DNA is injected into a Cre-containing host, it will not be cyclized and, therefore, will not be recoverable as a kanr transformant. • If the inserted DNA fragment is smaller than 100 kb it can be packaged between loxP sites and will be cyclized and recovered after injection.
  • 11. PAC vectors •Phage artificial chromosome or P1-derived artificial chromosome (PAC) is a form of chromosome derived through biological manipulation and it originates from a ‘phage’ instead of a ‘plasmid’, as seen in the construction of many other artificial chromosomes. •Genomic libraries constructed in the original Bacterial Artificial Chromosome (BAC) and P1 Artificial Chromosome (PAC) cloning systems were very useful for completion of the Human Genome Project. •Libraries constructed in these vector systems were used to generate physical maps of all twenty three-chromosome pairs and served as the templates for DNA sequencing. •PACs can accommodate larger inserts of DNA than a plasmid or many other types of vectors. Sometimes, the number of inserts can be as high as 300 kilobase paires.
  • 12. Construction of PACs through electroporation: •During the construction of PACs, P1 phage containing cells will undergo a process known as ‘electroporation’, which will increase the permeability of the cell membrane and allow DNA material to enter the cell and couple with the existing DNA. •This process will give rise to PACs and from there onwards, the PACs can replicate within the cell through ‘lysogeny’, without destructing the cell or incorporating into rest of the chromosomes.
  • 13. Construction of PAC vector pJCPAC-Mam2 The PAC vector pJCPAC-Mam2 is a 23 kilobase (kb) shuttle vector that is highly versatile and useful for functional studies in human tissue culture cell lines. pJCPAC-Mam2 contains the P1 single- copy replicon for low copy expression and a multi-copy lytic replicon under the control of the lac repressor for high copy expression in Escherichia coli, wild type and mutant loxP sites for generation of bidirectional nested deletions in any clone of interest and the Epstein Barr Virus (EBV) latent replication origin oriP, the Epstein Barr Nuclear Antigen 1 (EBNA1) gene, and a puromycin-resistance gene for propagation in mammalian cells.
  • 14. Uses of PACs: •PACs are in high demand when it comes to cloning important biomedical sequences, which are essential for many scientific functions. •One of its main uses is the genome analysis and map based cloning of complex plants and animals, which requires isolation of large pieces of DNA rather than smaller segments. •Furthermore, PAC based cloning is useful in the study of ‘phage therapy’ and in scientific studies focusing on how antibiotics act on a particular bacteria. •Although there are other forms of artificial chromosomes which can accommodate more base pairs than PACs, relative user friendliness of these vectors makes it a popular choice among many biomedical researchers.
  • 15. Mammalian Artificial Chromosomes (MAC) Vector •Chromosomes in eukaryotes have evolved as vehicles for nuclear genes and have developed specialized nucleoprotein structures for this purpose, some of them are centromeres, telomeres and origin of replication. •Alphoid arrays are found at all human centromeres and consist of a 171 bp monomer organized in higher order repeats encompassing 0.5-5 Mb. •They have been considered the best candidate for the specific DNA requirement for centromere function.
  • 16. •MAC formation was observed following transfection of a 100 kb yeast artificial chromosome (YAC) containing alphoid sequence from chromosome 21 with uniform higher order repeats and frequent CENP-B boxes, a conserved motif binding the CENP-B protein. •The YAC had been retrofitted with terminal human telomere sequence, but no other human DNA was included. •This YAC construct generated cell lines containing MACs at frequencies ranging from 10 to 100% cells.
  • 17. •A human artificial chromosome (HAC) is a mini-chromosome that is constructed artificially in human cells. Using its own self-replicating and segregating systems, a HAC can behave as a stable chromosome that is independent from the chromosomes of host cells. The essential elements for chromosome maintenance and transmission are the following three regions: (1) the “replication origin,” from which the duplication of DNA begins, (2) the “centromere,” which functions in proper chromosome segregation during cell division, and (3) the “telomere,” which protects the ends of linear chromosomes.
  • 18. •The particular DNA sequences specifying the replication origin and centromere were unresolved in higher eukaryotes such as mammals. •The research group of Tsuneko Okazaki, Ph.D., the founder of Chromo Research, investigated these sequences and succeeded in building a HAC with type I alphoid DNA from human chromosome 21. • HAC, which is maintained as an extra chromosome, duplicates synchronously with host cell chromosomes at each host cell division and is transmitted stably to daughter cells.
  • 19. Production of HAC by bottom-up construction strategies Tsuneko Okazaki and her collaborators discovered that HACs were frequently generated de novo in the human fibroblast cell line HT1080 upon introduction of precursor DNA constructs in YACs or BACs. These YACs or BACs contained up to 70 kilobases of human α-satellite (alphoid) DNA derived from human chromosome 21, as well as marker genes and, in the case of YAC constructs, telomere sequences at both DNA ends. •A HAC can be detected by FISH analysis as a “mini-chromosome” generated by multimerization of the introduced DNA. A HAC made from a YAC is linear with telomeric structures, whereas a HAC generated from a BAC is circular and lacks telomeres. •Dr. Okazaki’s findings revealed an important principal: “type I alphoid DNA with frequent CENP-B boxes is necessary for de novo centromere/kinetochore formation.”
  • 20. •On the basis of these results, Chromo Research scientists were the first to reproducibly manufacture HACs. •The “bottom-up construction” strategy of Chromo Research involves the de novo construction of HACs by introducing necessary DNA elements for the maintenance of chromosome function into cells. • On the other hand, “top-down construction” refers to the truncation of natural chromosomes into smaller sizes by using targeting vectors containing telomeric sequences.
  • 21. Various useful applications •In bottom-up construction, multimerization of transfected DNA occurs during HAC formation. Thus, HACs that contain transgenes are generated de novo from precursor BAC or YAC vectors that contain the transgene and an alphoid array in separate vectors. •A HAC can carry a site-directed insertion system. Because a transgene (cDNA or genomic DNA) can be inserted at a certain position in this HAC, the transgene in the HAC can be expressed in mammalian cells in a promoter-dependent manner under the desired stable control. •Microcell-mediated chromosome transfer (MMCT) enables HACs to be transferred into various cell types and maintained stably. HACs can be transferred into mouse embryonic stem cells by MMCT, so a transgenic mouse containing exogenous genes can be readily created. The establishment of a reliable method to create a transgenic animal will enable HAC vector utilization for gene therapy and regenerative medicine.