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How do you use desired results in a sentence?
We did not obtain the desired results.
What does desired requirements mean?
A specific requirement desired by man kind.
What is the role of cloning in genetic engineering?
Genetic enginering is the transfer of DNA from one organism to another. By doing this organisms can be produced that have useful traits. For example, the human gene for insulin was put into bacteria, resulting in the production of a bacteria that produced insulin as a waste product. This break through allowed us to produce large quantities of human insulin for dibetics.
A general scheme for genetic engineering is?
obtain DNA with the desired gene, cut the DNA into pieces, copy the pieces of DNA, identify copies of the desired gene, and transfer the desired gene to the recipient organism. for Plato the answer is A. not B. C. or D.
What are the advantages and disadvantages of artificial twinning?
Artificial twinning, or the process of creating genetically identical organisms, has several advantages, including the ability to produce multiple organisms with desired traits, which can enhance agricultural productivity and support conservation efforts. However, disadvantages include ethical concerns surrounding cloning, potential health issues in cloned organisms, and reduced genetic diversity, which can make populations more vulnerable to diseases and environmental changes. Additionally, the process can be expensive and technically challenging.
The cloning of many genes in hopes that at least one of the colonies of clones will contain the desired gene is referred to as the?
shotgun approach.
The cloning of many genes in hopes that at least one of the colonies of clones will contain the desired gene is referred to as?
shotgun approach
What is the role of Cloning Vector in recombinant DNA technology?
A cloning vector is a DNA molecule used to carry a foreign DNA fragment into a host cell for replication. It serves as a vehicle for the insertion of DNA fragments and allows for the propagation of recombinant DNA. Cloning vectors typically contain sequences for replication, selection, and insertion of foreign DNA.
How do you attain desired characteristics through cloning?
Through cloning, an organism with desired characteristics can be replicated by producing genetically identical copies. This is achieved by taking the nucleus of a somatic cell from the original organism and transferring it into an egg cell that has had its nucleus removed. The resulting clone will have the exact genetic makeup of the original organism, inheriting its desired characteristics.
How cloning is used in cattle breeding?
Cloning is used in cattle breeding by taking an embryo of a donor cow (being a female of top breeding quality) and making it into a copy of that cow with the same desired qualities. Cloning is also naturally done by producing fraternal twins in cattle.
Why does cloning tend to pass on desired traits more efficiently than sexual reproduction?
Cloning produces genetically identical copies of an organism, so the offspring inherits all the desirable traits of the parent. In sexual reproduction, offspring inherit a mix of genes from both parents, increasing the variability of traits and potentially diluting the desired characteristics. This makes cloning more effective at preserving and passing on specific traits.
Why would cloning be useful?
Cloning can be useful for reproducing desired traits in plants and animals, such as disease resistance or high crop yield. It can also be beneficial for preserving endangered species or producing genetically identical organisms for research purposes. Additionally, cloning can help in the medical field by creating tissues or organs for transplantation.
Pros of cloning?
Some potential benefits of cloning include the ability to produce genetically identical animals for research purposes, such as studying genetic diseases and developing new medical treatments. Cloning can also be used in agriculture to replicate desired traits in plants and animals, leading to increased food production and crop resilience. Additionally, cloning may offer a way to preserve endangered species and genetic diversity.
What ten reasons why cloning is good?
Cloning can help in studying and treating genetic diseases. It can aid in preserving endangered species by creating genetically identical individuals. Cloning can be used in agriculture to produce crops with desired traits. It offers a way to create genetically modified organisms for various purposes. Cloning can serve as a tool for regenerative medicine and tissue replacement. It provides insights into understanding development and cell behavior. Cloning can potentially produce organs for transplantation. It allows for the study of genetic diversity and its impact on traits. Cloning can contribute to advancements in biotechnology and pharmaceuticals. It provides a method for replicating valuable research animals.
Does cloning involve meiosis?
No, cloning does not involve meiosis. Cloning typically involves a process called somatic cell nuclear transfer, where the nucleus of a somatic cell is transferred into an enucleated egg cell to create an identical genetic copy of the original organism, bypassing meiosis.
How is cloning used in agriculture?
Cloning in agriculture is used to replicate high-quality plants or animals with desirable traits, such as disease resistance or high yield. This technique allows farmers to produce uniform crops or livestock that exhibit the desired characteristics, leading to increased productivity and efficiency in agricultural operations. Additionally, cloning can help in preserving endangered species or rare breeds that are at risk of extinction.
Differences of cloning and selective breeding?
Cloning involves creating an exact genetic copy of an organism, while selective breeding involves choosing specific individuals with desired traits to breed together. Cloning results in a genetically identical organism, while selective breeding produces offspring with a mix of traits from the parents. Cloning is a more precise process with limited genetic variation, whereas selective breeding allows for more genetic diversity.
