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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...
Cleavage and Blastulation01:33

Cleavage and Blastulation

After a large-single-celled zygote is produced via fertilization, the process of cleavage occurs while zygotes travel through the uterine tube. Cleavage is a mitotic cell division that does not result in growth. With each round of successive cell division, daughter cells get increasingly smaller.
Clathrin Coated Vesicles01:12

Clathrin Coated Vesicles

Clathrin-coated vesicles use endocytosis to transport receptors and lysosomal hydrolases from the Golgi to the lysosome in the late secretory pathway. Clathrin-mediated endocytosis was the first described endocytic process, and Clathrin-coated vesicles remain one of the most well-studied transport vesicles. The molecular machinery that generates clathrin-coated vesicles comprises over 50 proteins that precisely coordinate vesicle formation. Cell surface receptors concentrated in indented sites...
Cloning of Dolly the Sheep01:08

Cloning of Dolly the Sheep

The first successfully cloned mammal was Dolly, a sheep, born on 5th July 1996 at Roslin Institute, Scotland. The cloned sheep was named after the American singer Dolly Parton. Dolly lived for seven years and died of respiratory complications, which is speculated to be due to the actual age of her DNA. Because the DNA in cloned cells belongs to an older individual,  the cloned individual’s life expectancy may be affected. Indeed, analysis of Dolly’s DNA revealed shorter telomeres than other...
Clamper Circuit01:14

Clamper Circuit

A clamper circuit, also known as a DC restorer, represents a specialized variant of the rectifier circuit, notable for its method of taking the output across the diode rather than the capacitor. This configuration lends to several distinctive applications, particularly in handling square wave inputs.
Within this circuit, the diode's orientation prompts the capacitor to charge up to the level of the most negative peak of the input signal. Upon reaching this state, the diode ceases to conduct,...
Portland Cement01:21

Portland Cement

Portland cement is the essential binding ingredient in concrete, made from finely ground materials including lime, iron, silica, and alumina. Lime is derived primarily from limestone, marble, marl, seashells, and clays, which also supply iron and alumina, while silica is sourced from sand, chalk, and bauxite. Contemporary manufacturing of Portland cement is a significant source of carbon dioxide emissions, prompting research into reducing its content in concrete through alternative...

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Related Experiment Video

Updated: Jun 16, 2026

A Simple Critical-sized Femoral Defect Model in Mice
09:41

A Simple Critical-sized Femoral Defect Model in Mice

Published on: March 15, 2015

15.7K

Jess M. Clough.

Jess M Clough

    Angewandte Chemie (International Ed. in English)
    |September 18, 2025
    PubMed
    Summary
    This summary is machine-generated.

    This research focuses on designing advanced polymeric materials. The goal is to create materials with enhanced durability and resistance to failure, leading to longer-lasting products.

    Related Experiment Videos

    Last Updated: Jun 16, 2026

    A Simple Critical-sized Femoral Defect Model in Mice
    09:41

    A Simple Critical-sized Femoral Defect Model in Mice

    Published on: March 15, 2015

    15.7K

    Area of Science:

    • Materials Science
    • Polymer Chemistry

    Background:

    • Understanding material degradation is crucial for developing durable products.
    • Current polymeric materials often face limitations in longevity and failure resistance.

    Purpose of the Study:

    • To investigate the fundamental properties of polymers.
    • To explore novel approaches for enhancing polymer durability.
    • To design polymeric materials with improved resistance to failure.

    Main Methods:

    • Utilizing Thin-Layer Chromatography (TLC) principles for problem deconstruction.
    • Applying advanced polymer synthesis techniques.
    • Conducting failure analysis and performance testing on designed materials.

    Main Results:

    • Successfully identified key factors influencing polymer failure.
    • Developed novel polymer compositions exhibiting superior durability.
    • Demonstrated a significant increase in material lifespan under stress conditions.

    Conclusions:

    • The designed polymeric materials show great promise for applications requiring high durability.
    • This research contributes to the development of longer-lasting and more reliable materials.
    • Future work will focus on scaling up production and diverse application testing.