Ti plasmid derived vector system

Slides:

Advertisements

Similar presentations

T-DNA Mutagenesis Purpose: Determine gene function to produce better plants for society.

Advertisements

Section H Cloning Vectors

Inducible Expression of an Agrobacterium rhizogenes Gene Required for DNA Transfer to Plants Josh Cuperus, Larry Hodges, Walt Ream Department of Microbiology.

Plant Genetic Transformation. All stable transformation methods consist of three steps: Delivery of DNA into a single plant cell. Integration of the DNA.

Genetic Engineering of Plants BIT 220 End of Chapter 22.

Lecture 8 Genetic Engineering. Medically important substances produced by genetic engineering Human Insulin- used to treat diabetes Past: extracted insulin.

Cloning Promoters Kelli Henry April 27, 2009.

Making Transgenic Plants and Animals Why? 1.Study gene function and regulation 2.Making new organismic tools for other fields of research 3.Curing genetic.

Cloning vectors “The introduction of a foreign DNA into a host cell in many cases requires the use of a vector. Vectors are DNA molecules used to transfer.

Mutations of the alternate start signal for the Galls protein in Agrobacterium rhizogenes Henry McNett Dr. Walt Ream Department of Microbiology.

Purification of a Secreted Agrobacterium rhizogenes Protein(GALLS) Required for Gene Transfer to Plants Josh Cuperus, Larry Hodges, Dr. Walt Ream Department.

T-DNA Mutagenesis and Plant Genetic Engineering Purpose: Determine gene function to produce better plants for society.

Agrobacterium rhizogenes GALLS Protein and Crown Galls Jason Neal-McKinney Dr. Walt Ream Department of Microbiology.

Plasmids and Vectors Instructor Supplement to pGlo Bacterial Transformation.

Cloning and Vector Chapter 3 Instructor : Prof. Myoung-Dong Kim T: 6458, Room 411, Ag. Bld #3.

Transformation/Transfection

Lecture 10 Chapter 7 Recombinant DNA, Vector Design and Construction Neal Stewart.

Agrobacterium tumefaciens

1 GENE TRANSFER AND GENETIC ENGINEERING CHAPTER 8.

Restriction enzymes (endonucleases)

Genetic Transformation of Plants: Methods and Approaches to Develop Transgenic plants.

Section H: Cloning VectorsYang Xu, College of Life Sciences Section H Host and Vector H1 E.coli/Plasmid Vectors H2 E.coli/Bacterophage Vectors H3 Yeast/YAC.

Cloning and rDNA (II) Dr. Abdulaziz Almalik

Section H Cloning Vectors.

Selecting Cells with Plasmid Vector b Many cells will not take up plasmid during transformation b Cells with plasmid can be identified because original.

TOPICS IN (NANO) BIOTECHNOLOGY Lecture 6 30th October, 2006 PhD Course.

Making transgenic plants 1.Identify and clone DNA sequence encoding desired protein into suitable vector = DNA molecule that allows sequence to be propagated.

Chapter 18-Genetic Engineering of Plants: Methodology

PLANT VECTORS REKHA PULICHERLA

Plant transformation II Neal Stewart

Chapter 13 Genetic Engineering

IV Cell Transformation Recombinant DNA Host Cell DNA Target gene Modified Host Cell DNA.

Cloning Vectors Section H H1 Design of plasmid vectors H2 Bacteriophage vectors H3 Cosmids H4 YAC H5 Eukaryotic vectors.

Agrobacterium intro and plan 1. intro This slide deck is the result of my conversations with Chris and our discussions at iGEM meetings. One of the best.

Fundamentals of Biotechnology Lecture #07. Bacterial Artificial Chromosomes Many vectors which are popularly used for DNA cloning in bacterial cells contain.

Plant Tissue Culture collection of techniques used to maintain or grow plant cells, tissues, or organs under sterile conditions mostly used to produce.

Relationship between Genotype and Phenotype

Chapter 10 Gene Isolation and Manipulation

Transformation Movement of DNA into bacteria Can use plasmid as vector

Plasmids and Vectors Aims:

Gene delivery techniques

Genetic Engineering Genetic engineering involves the manipulation of organism genes. The central tool is the recombinant DNA technique. - to isolate a.

Cell Transformation Recombinant DNA Host Cell DNA Target gene Modified Host Cell DNA.

B. Tech. (Biotechnology) III Year V th Semester

PGLO Bacterial Genetics. E. Coli structure.

Transgenic plants.

Plant Genetic Manipulation

Genetic Engineering of Plants Must get DNA: 1.into the cells 2.integrated into the genome (unless using transient expression assays) 3.expressed (everywhere.

VECTORS: TYPES AND CHARACTERISTICS

Plant transformation Introduction of individual gene(s) of interest into plant genome Genetic modification with or without integration May include regeneration.

Dr. A.K. Saha Professor Department of Zoology University of Rajshahi

Recombinant DNA and Gene Cloning

E.Coli AS MODERN VECTOR.

V Cell Transformation Recombinant DNA Host Cell DNA Target gene

Plant Genetic Transformation

Strain & Vector for use Wei ZHENG 8th, Jul, 2008.

Bacterial Genetic Variation

Chapter 10 – Genetic Engineering of Plants: Methodology

13-3 Cell Transformation Interactive pgs. 329.

Chapter 13.3 Cell Transformation.

Copyright Pearson Prentice Hall

Chapter 14 Extrachromosomal Replication

C58 attached to the surface of carrot cells

Copyright Pearson Prentice Hall

DNA Recombinant Technology

Agrobacterium tumefaciens

Copyright Pearson Prentice Hall

Cell Transformation.

Gene transfer to plants – vectors and strategies

E.Coli AS MODERN VECTOR.

Presentation transcript:

Ti plasmid derived vector system Lecture 3 Ti plasmid derived vector system

Ti Plasmid T-DNA region DNA between L and R borders is transferred to plant as ssDNA; T-DNA encoded genes can be substituted by target genes Tumor- producing genes Opine catabolism Virulence region ORI

Ti-plasmid based vectors Binary systems Co-integrated vectors Needs 3 vectors Needs 2 vectors: Disarmed Ti plasmid capable for infection Disarmed Ti plasmid with gene of interest (no vir genes) Helper vector for infection (with vir genes) Form co-integrated plasmid after homologous recombination on T-DNA Intermediate vector with T-region and gene of interest (transferred by conjugation) Helper vector for transfer of intermediate plasmid into A.tum

Co-integrated vectors (hybrid ti-plasmids) Right now rarely used DISADVANTAGES: 1) Long homologies required between the Ti plasmid and the E. coli plasmids (pBR322 based Intermediate vectors) making them difficult to engineer and use 2) Relatively inefficient gene transfer compared to the binary vecto

Ti plasmid vector systems are often working as binary vectors T DNA region removed Gene of interest Plant selectable marker HELPER plasmid Disarmed Ti plasmid Virulence region Bacterial selectable marker ori for A. tum ori for A. tumefaciens ori for E.coli DISADVANTAGE: Depending on the orientation, plasmids with two different origins of replication may be unstable in E. coli ADVANTAGE: small vectors are used, which increases transfer efficiency from E. coli to Agrobacterium. No intermolecular recombination is needed