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In-vitro Mutagenesis01:16

In-vitro Mutagenesis

To learn more about the function of a gene, researchers can observe what happens when the gene is inactivated or “knocked out,” by creating genetically engineered knockout animals. Knockout mice have been particularly useful as models for human diseases such as cancer, Parkinson’s disease, and diabetes.
Reproductive Cloning01:27

Reproductive Cloning

Reproductive cloning is the process of producing a genetically identical copy—a clone—of an entire organism. While clones can be produced by splitting an early embryo—similar to what happens naturally with identical twins—cloning of adult animals is usually done by a process called somatic cell nuclear transfer (SCNT).
Somatic Cell Nuclear Transfer
In SCNT, an egg cell is taken from an animal and its nucleus is removed, creating an enucleated egg. Then a somatic cell—any cell that is not a sex...
Mutation, Gene Flow, and Genetic Drift01:09

Mutation, Gene Flow, and Genetic Drift

In a population that is not at Hardy-Weinberg equilibrium, the frequency of alleles changes over time. Therefore, any deviations from the five conditions of Hardy-Weinberg equilibrium can alter the genetic variation of a given population. Conditions that change the genetic variability of a population include mutations, natural selection, non-random mating, gene flow, and genetic drift (small population size).Mechanisms of Genetic VariationThe original sources of genetic variation are mutations,...
Plant Breeding and Biotechnology01:59

Plant Breeding and Biotechnology

Crop cultivation has a long history in human civilization, with records showing the cultivation of cereal plants beginning at around 8000 BC. This early plant breeding was developed primarily to provide a steady supply of food.
Conservative Site-specific Recombination and Phase Variation02:53

Conservative Site-specific Recombination and Phase Variation

Because the DNA segments are cut and reorganized in a direction-specific manner, site-specific recombination has emerged as an efficient genetic engineering technique. Flippase and Cyclization recombinases or Flp and Cre, respectively, are two members of the tyrosine recombinase family derived from bacteriophages, that are used to mediate site-specific DNA insertions, deletions, and targeted expression of proteins in mammalian cell lines.
The recognition sites for Cre recombinase called LoxP...
Reproductive Cloning01:27

Reproductive Cloning

Reproductive cloning is the process of producing a genetically identical copy—a clone—of an entire organism. While clones can be produced by splitting an early embryo—similar to what happens naturally with identical twins—cloning of adult animals is usually done by a process called somatic cell nuclear transfer (SCNT).
Somatic Cell Nuclear Transfer
In SCNT, an egg cell is taken from an animal and its nucleus is removed, creating an enucleated egg. Then a somatic cell—any cell that is not a sex...

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Related Experiment Video

Updated: Jul 10, 2026

Single Droplet Digital Polymerase Chain Reaction for Comprehensive and Simultaneous Detection of Mutations in Hotspot Regions
08:23

Single Droplet Digital Polymerase Chain Reaction for Comprehensive and Simultaneous Detection of Mutations in Hotspot Regions

Published on: September 25, 2018

Breeder reactors in france.

C P Zaleski

    Science (New York, N.Y.)
    |April 11, 1980
    PubMed
    Summary
    This summary is machine-generated.

    France is developing breeder reactors to ensure future energy security, with the Super Phenix Mark I nearing operation. This advanced nuclear technology shows a favorable outlook for future commercialization.

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    Area of Science:

    • Nuclear energy
    • Reactor technology
    • Energy policy

    Background:

    • France's energy program heavily relies on nuclear power.
    • Anticipated natural uranium supply issues before 2020 necessitate alternative solutions.
    • A strategic three-stage development program for breeder reactors is underway.

    Purpose of the Study:

    • To outline France's breeder reactor development program.
    • To highlight the significance of the Super Phenix Mark I reactor.
    • To assess the future competitiveness and commercial viability of breeder technology.

    Main Methods:

    • Description of France's multi-stage breeder reactor development strategy.
    • Focus on the Super Phenix Mark I as a near-commercial demonstration.
    • Analysis of factors influencing breeder reactor economic competitiveness.

    Main Results:

    • The Super Phenix Mark I is scheduled for power operation in 1983.
    • Preliminary designs for commercial breeder plants are in progress.
    • The overall outlook for breeder reactor technology is considered favorable.

    Conclusions:

    • France is proactively addressing future energy needs through advanced nuclear technology.
    • Breeder reactors, exemplified by Super Phenix, represent a key component of France's long-term energy strategy.
    • Despite some uncertainties, breeder reactors are poised for future commercial deployment.