Transformation (genetics)

	Email		Print
	Bookmark		Link

Transformation (genetics)

In molecular biology

Molecular biology

Molecular biology is the study of biology at a molecule level. The field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry....
, transformation is the genetic

Introduction to genetics

Genetics studies how living organisms inherit features from their ancestors – for example, children often look like their parents. Genetics tries to identify which features are inherited, and work out the details of how these features are passed from generation to generation....
alteration of a cell

Cell (biology)

The cell is the structural and functional unit of all known Life organisms. It is the smallest unit of an organism that is classified as living, and is often called the building bricks of life....
resulting from the uptake, genomic incorporation, and expression of foreign gene

Gene

DNA

Deoxyribonucleic acid is a nucleic acid that contains the genetics instructions used in the development and functioning of all known living organisms and some viruses....
).

Separate terms are used for genetic alterations resulting from introduction of DNA by viruses ("transduction

Transduction (genetics)

Transduction is the process by which DNA is transferred from one bacterium to another by a virus. It also refers to the process whereby foreign DNA is introduced into another cell via a viral vector....
") or by cell-cell contact between bacteria ("conjugation

Bacterial conjugation

Bacterial conjugation is the transfer of genetic material between bacteria through direct cell-to-cell contact. Discovered in 1946 by Joshua Lederberg and Edward Tatum, conjugation is a mechanism of horizontal gene transfer—as are Transformation and Transduction —although these mechanisms do not involve cell-to-cell contact....
"). Transformation of eukaryotic cells in tissue culture

Tissue culture

Tissue culture is the growth of biological tissue and/or cell separate from the organism. This is typically facilitated via use of a liquid, semi-solid, or solid growth medium, such as broth or agar....
is usually called transfection

Transfection

Transfection is the process of introducing nucleic acids into cells by non-viral methods . The term transformation is preferred to describe non-viral DNA transfer in bacteria and non-animal eukaryotic cells such as fungus, algae and plants....
.

RNA

RNA

Ribonucleic acid is a type of molecule that consists of a long chain of nucleotide units. Each nucleotide consists of a nucleobase, a ribose sugar, and a phosphate....
may also be transferred into cells using similar methods, but this does not normally produce heritable change and so is not true transformation.

tic material taken in from the environment is added to a part of the bacterial DNA.

Discussion

Ask a question about 'Transformation (genetics)'

Start a new discussion about 'Transformation (genetics)'

Answer questions from other users

Full Discussion Forum

Encyclopedia

In molecular biology

Molecular biology

Introduction to genetics

Cell (biology)

Gene

DNA

Transduction (genetics)

Bacterial conjugation

Tissue culture

Transfection

RNA

Process

Genetic material taken in from the environment is added to a part of the bacterial DNA. The DNA may also replace an existing gene or part of it from the genome of the bacteria, thus resulting in loss of the activity of that gene.

History

Transformation was first demonstrated in 1928 by Frederick Griffith

Frederick Griffith

Frederick Griffith was a United Kingdom medical officer and genetics. In 1928, in what is today known as Griffith's experiment, he discovered what he called a transforming principle, which is today known to be DNA....
, an English bacteriologist searching for a vaccine against bacterial pneumonia. Griffith discovered that a non-virulent strain of Streptococcus pneumoniae
Streptococcus pneumoniae

Streptococcus pneumoniae, or pneumococcus, is a Gram-positive, Hemolysis diplococcus aerotolerant anaerobe and a member of the genus Streptococcus....
could be transformed into a virulent one by exposure to strains of virulent S. pneumoniae that had been killed with heat. In 1944 it was demonstrated that the transforming factor was genetic, when Oswald Avery

Oswald Avery

Oswald Theodore Avery was a Canadian-born United States physician and medicine researcher. The major part of his career was spent at the Rockefeller University Hospital in New York City....
, Colin MacLeod

Colin MacLeod

Colin Munro MacLeod was a Canadian-American geneticist....
, and Maclyn McCarty

Maclyn McCarty

Maclyn McCarty was an United States geneticist.Maclyn McCarty, who devoted his life as a physician-scientist to studying infectious disease organisms, was best known for his part in the monumental discovery that DNA, rather than protein, constituted the chemical nature of a gene....
showed gene

Gene

A gene is the basic unit of heredity in a living organism. All living things depend on genes. Genes hold the information to build and maintain their cell and pass genetic trait to offspring....
transfer in S. pneumoniae. Avery, Macleod and McCarty called the uptake and incorporation of DNA by bacteria "transformation."

Mechanisms

Bacteria

Bacteria transformation may be referred to as a stable genetic change brought about by taking up naked DNA

Naked DNA

Naked DNA is histone-free DNA that is passed from cell to cell during a gene transfer process called transformation or transfection. In transformation , purified or naked DNA is taken up by the recipient cell which will give the recipient cell a new characteristic or phenotype....
(DNA without associated cells or proteins), and competence

Competence

Competence is the ability to perform a specific task, action or function successfully. Incompetence is its opposite.*Competence , the ability of a cell to take up DNA...
refers to the state of being able to take up exogenous DNA from the environment. Two different forms of competence should be distinguished: natural and artificial.

Natural competence

Some bacteria (around 1% of all species) are naturally capable of taking up DNA under laboratory conditions; many more may be able to take it up in their natural environments. Such species carry sets of genes specifying the cause of the machinery for bringing DNA across the cell's membrane or membranes.

Artificial competence

Artificial competence is not encoded in the cell's genes. Instead it is induced by laboratory procedures in which cells are passively made permeable to DNA, using conditions that do not normally occur in nature.

Chilling cells in the presence of divalent

Divalent

In chemistry, divalent anions are atoms or radicals with 2 additional electrons when compared to their elemental state ; for instance, S2- is the sulfide anion....
cations such as Ca²⁺ (in CaCl₂

Calcium chloride

Calcium chloride, CaCl2, is a common Salt . It behaves as a typical ionic halide, and is solid at room temperature. It has several common applications such as brine for refrigeration plants, ice and dust control on roads, and in concrete....
) prepares the cell membrane to become permeable to plasmid DNA

Plasmid

File:plasmid .svgA plasmid is an extra-chromosomal DNA molecule separate from the chromosome which is capable of replicating independently of the chromosomal DNA....
. Cells are incubated on ice with the DNA and then briefly heat shocked (eg 42 °C for 30–120 seconds), which causes the DNA to enter the cell. This method works very well for circular plasmid DNAs. An excellent preparation of competent cells will give ~10⁸ colonies per microgram of plasmid. A poor preparation will be about 10⁴/µg or less. Good non-commercial preps should give 10⁵ to 10⁶ transformants per microgram of plasmid.

The method usually does not work well for linear molecules such as fragments of chromosomal DNA, probably because exonuclease

Exonuclease

Exonucleases are enzymes that cleave nucleotides one at a time from an end of a polynucleotide chain. These enzymes hydrolyze phosphodiester bonds from either the 3' or 5' terminus of a polynucleotide molecule....
enzymes in the cell rapidly degrade linear DNA. However, cells that are naturally competent are usually transformed more efficiently with linear DNA than with plasmids.

Electroporation

Electroporation

Electroporation, or electropermeabilization, is a significant increase in the electrical conductivity and permeability of the cell membrane caused by an externally applied electrical field....
is another way to make holes in bacterial (and other) cells, by briefly shocking them with an electric field

Electric field

In physics, the space surrounding an electric charge or in the presence of a time-varying magnetic field has a property called an electric field ....
of 10-20kV

Volt

The volt is the SI SI derived unit of electric potential difference or electromotive force, commonly known as voltage. It is named in honor of the Lombard physicist Alessandro Volta , who invented the voltaic pile, possibly the first chemical battery ....
/cm. Plasmid DNA can enter the cell through these holes. This method is amenable to use with large plasmid DNA. Natural membrane-repair mechanisms will rapidly close these holes after the shock.

Plasmid transformation

In order to persist and be stably maintained in the cell, a plasmid DNA molecule must contain an origin of replication

Origin of replication

The origin of replication is a particular sequence in a genome at which replication is initiated. This can either be DNA replication in living organisms such as prokaryotes and eukaryotes, or RNA replication in RNA viruses, such as double-stranded RNA viruses....
, which allows it to be replicated in the cell independently of the chromosome. Because transformation usually produces a mixture of rare transformed cells and abundant non-transformed cells, a method is needed to identify the cells that have acquired the plasmid. Plasmids used in transformation experiments will usually also contain a gene giving resistance to an antibiotic that the intended recipient strain of bacteria is sensitive to. Cells able to grow on media containing this antibiotic will have been transformed by the plasmid, as cells lacking the plasmid will be unable to grow.

Another marker, used for identifying E. coli cells that have acquired recombinant plasmids, is the lacZ gene, which codes for ß-galactosidase

Beta-galactosidase

?-galactosidase is a hydrolase enzyme that catalyst the hydrolysis of ?-galactosides into monosaccharides. substrate s of different ?-galactosidases include ganglioside GM1, lactosylceramides, lactose, and various glycoproteins....
. Because ß-galactosidase is a homo-tetramer

Tetramer

A tetramer is a protein with four subunits . There are homo-tetramers such as glutathione S-transferase or single-strand binding protein, dimers of hetero-dimers such as haemoglobin , and hetero-tetramers, where each subunit is different....
, with each monomer made up of one lacZ-a and one lacZ-? protein, if only one of the two requisite proteins is expressed in the resulting cell, no functional enzyme will be formed. Thus, if a strain of E. coli without lacZ-a in its genome is transformed using a plasmid containing the missing gene fragment, transformed cells will produce ß-galactosidase, while untransformed cells will not, as they are only able to produce the omega half of the monomer. In this type of transformation, the polylinker

Multiple cloning site

A multiple cloning site , also called a polylinker, is a short segment of DNA which contains many restriction sites - a standard feature of engineered plasmids....
region of the plasmid lies in the lacZ-a gene fragment, meaning that successfully produced recombinant plasmids will have the desired gene inserted somewhere within lacZ-a. When this disrupted gene fragment is expressed by E. coli, no usable lacZ-a protein is produced, and therefore no usable ß-galactosidase is formed. When grown on media containing the colorless, modified galactose sugar X-gal

X-gal

X-gal is an organic compound consisting of galactoside linked to indole....
, colonies that are able to metabolize the substrate (and that have therefore been transformed, but not by recombinant plasmids) will appear blue in color; colonies that are not able to metabolize the substrate (and that have therefore been transformed by recombinant plasmids) will appear white.

Plants

A number of mechanisms are available to transfer DNA into plant cells:

Agrobacterium
Agrobacterium

Agrobacterium is a genus of Gram-negative bacteria that uses horizontal gene transfer to cause tumors in plants. Agrobacterium tumefaciens is the most commonly studied species in this genus....
mediated transformation is the easiest and most simple plant transformation. Plant tissue (often leaves) is cut into small pieces, eg. 10x10mm, and soaked for 10 minutes in a fluid containing suspended Agrobacterium. Some cells along the cut will be transformed by the bacterium, that inserts its DNA into the cell. Placed on selectable rooting and shooting media, the plants will regrow. Some plants species can be transformed just by dipping the flowers into suspension of Agrobacterium and then planting the seeds in a selective medium. Unfortunately, many plants are not transformable by this method.
Particle bombardment
Gene gun

The gene gun or the Biolistic Particle Delivery System, originally designed for plant transformation , is a device for injecting cells with genetics information....
: Coat small gold or tungsten particles with DNA and shoot them into young plant cells or plant embryos. Some genetic material will stay in the cells and transform them. This method also allows transformation of plant plastids. The transformation efficiency is lower than in agribacterial mediated transformation, but most plants can be transformed with this method.
Electroporation
Electroporation

Electroporation, or electropermeabilization, is a significant increase in the electrical conductivity and permeability of the cell membrane caused by an externally applied electrical field....
: make transient holes in cell membranes using electric shock; this allows DNA to enter as described above for Bacteria.
Viral transformation
Viral transformation

Viral transformation most commonly refers to the virus-induced malignant transformation of an animal cell in a body or cell culture. In molecular biology, the term may also refer to the transfection of DNA into a host cell using a viral vector....
(transduction
Transduction (genetics)

Transduction is the process by which DNA is transferred from one bacterium to another by a virus. It also refers to the process whereby foreign DNA is introduced into another cell via a viral vector....
): Package the desired genetic material into a suitable plant virus and allow this modified virus to infect the plant. If the genetic material is DNA, it can recombine with the chromosomes to produce transformant cells. However genomes of most plant viruses consist of single stranded RNA which replicates in the cytoplasm of infected cell. For such genomes this method is a form of transfection
Transfection

Transfection is the process of introducing nucleic acids into cells by non-viral methods . The term transformation is preferred to describe non-viral DNA transfer in bacteria and non-animal eukaryotic cells such as fungus, algae and plants....
and not a real transformation, since the inserted genes never reach the nucleus of the cell and do not integrate into the host genome. The progeny of the infected plants is virus free and also free of the inserted gene.

Animals

Introduction of DNA into animal cells is usually called transfection

Transfection