All Are Ancient Practices Of Genetic Engineering Except

All Are Ancient Practices Of Genetic Engineering Except

theses are ancient practices of genetic engineering except

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1. theses are ancient practices of genetic engineering except


Thesis is an ancient practice of genetic engineering except? In incomplete questions, this is in tenth grade biology lessons. The problem should be

Things that are included in genetic engineering except?

A. hybridization

B. inbreeding

C. recombinant technology

D. selective breeding

Then the answer is C recombinant technology. This is because recombinant technology is not included in the field of biological genetics.

Explanation

Genetic engineering based on recombination was pioneered in 1973 by American biochemists Stanley N. Cohen and Herbert W. Boyer, who were among the first to cut DNA into fragments, rejoin different fragments, and insert the new genes into E. coli bacteria, which then reproduced.

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2. 8. All are ancient practices of genetic engineering exceptA. hybridizationB. inbreeding C. recombinant technology D. selective breeding​


C recombinanr technology

3. which is not ancient practice of genetic engeneering ?​


Answer:

That is my clue I hope it helps


4. this refers to the process of manipulating genes for practical purpose a. genetic engineering b. ligase c. karyotyping d. plasmid​


A.

i have no explanations

realy i don't have one


5. is a genetic disease a result of genetic engineering?


Answer:

Today genetic engineering is used in fighting problems such as cystic fibrosis, diabetes, and several other diseases. Another deadly disease now being treated with genetic engineering is the "bubble boy" disease (Severe Combined Immunodeficiency).

Explanation:

pa brainlest po


6. What are the two types of genetic modification in genetic engineering?​


Answer:

Traditional genetic modification methods that have been employed—particularly for microbial starter cultures—include selection, mutagenesis, conjugation, and protoplast fusion, the last of which is analogous to somatic hybridization in plant systems.

Explanation:

hope it helps pa heart mga Luvs ❤️

Answer:

Genetic Engineering

1.Accessing the Germline of Animals. Germline refers to the lineage of cells that can be genetically traced from parent to offspring. ... 2.Transfection. ...

3.Retroviral Vectors. ...

4.Transposons. ...

5.Knock-In and Knock-Out Technology.


7. Individual/Brainly AppActivity #4 Genetic Engineering1.) Discribe Genetic Engineering & its Beginning Including The First Persons Involved.2. Why Scientists Do Genetic Engineering?3. Illustrate (Drawing w/Labes) How Genetic Engineering Is Being Done In Lab Though DNA insertion.4. Highlight or list the benefits & risks of genetic Engineering.5. Do You Support Genetic Engineering? Support Your Answer.​


Answer:

1.1) Genetic engineering, also known as genetic modification, is a technique that modifies an organism's DNA using technologies developed in labs. This could entail altering a single base pair (A-T or C-G), erasing a section of DNA, or incorporating new DNA.

1.2) Stanley N. Cohen and Herbert W. Boyer, two American biochemists who were among the first to break DNA into pieces, reconnect various parts, and introduce the new genes into E, invented genetic engineering based on recombination in 1973. coli bacteria then multiplied.

2. Because one particular gene can be inserted via genetic engineering. By doing this, additional genes carrying undesirable features are avoided. Additionally, genetic engineering hastens the process of developing novel foods with desirable characteristics.

3. It's on the images. But u can change or research.

4.

This are the list

-It permits a faster pace of growth.

-A longer life span may result from it.

-It is possible to develop particular qualities.

-New goods could be produced. ..

Increased yields are . ...

The local water supply is less at risk. ...

It has been an established scientific method for millennia.


8. process of genetic engineering


DNA extraction is the first step in the genetic engineering process. In order to work with DNA, scientists must extract it from the desired organism. A sample of an organism containing the gene of interest is taken through a series of steps to remove the DNA.

9. in some issues regarding genetic engineering are you in favor thats all our crops or animals will undergo in it?​


Answer:

no

Explanation:

it may make it really unhealthy for us. but at some point it will give as a higher rate of satisfaction.


10. difference among genetic engineering and genetic manipulation?​


Answer:

Genetic engineering, also called genetic modification or genetic manipulation, is the direct manipulation of an organism's genes using biotechnology. ... As well as inserting genes, the process can be used to remove, or "knock out", genes. The new DNA can be inserted randomly, or targeted to a specific part of the genome.

Explanation: hope it helps

Answer:

Actually, genetic engineering and genetic manipulation were the same.

Explanation:

Genetic Engineering, also called genetic modification or genetic manipulation, is the direct manipulation of an organism's genes using biotechnology.

Its the same, little one.


11. what are engineering techniques? (genetic engineering) ​


Answer:

The engineering method (also known as engineering design) is a systematic approach used to reach the desired solution to a problem. There are six steps (or phases): idea, concept, planning, design, development, and launch from problem definition to desired result


12. are all products of genetic engineering beneficial?​


Answer:

Genetically engineered foods are just as safe as conventional foods. In the United States, labeling of genetically engineered foods is not required by the FDA. This is because there has been no significant difference found in nutrition or safety.

Hello new member po ako ano po Gagarin dito

13. Give and expound one particular reason why practicing genetic engineering is harmful. ​


Answer:GM crops could be harmful, for example toxins from the crops have been detected in some people's blood. GM crops could cause allergic reactions in people. Pollen produced by the plants could be toxic and harm insects that transfer it between plants.

Explanation:hi buddy hope it helps


14. Define Genetic Engineering. What is the role of genetic engineering to human life? pinsengsler​


Answer:

Today genetic engineering is used in fighting problems such as cystic fibrosis, diabetes, and several other diseases.

Today genetic engineering is used in fighting problems such as cystic fibrosis, diabetes, and several other diseases. Another deadly disease now being treated with genetic engineering is the "bubble boy" disease (Severe Combined Immunodeficiency).

Today genetic engineering is used in fighting problems such as cystic fibrosis, diabetes, and several other diseases. Another deadly disease now being treated with genetic engineering is the "bubble boy" disease (Severe Combined Immunodeficiency).Human genetic engineering relies heavily on science and technology.

Explanation:

GODBLESS


15. 4. It is a type of genetic engineering that include mapping, studying genetic interaction and genetic coding.a. Applied genetic engineering b. Chemical genetic engineering c. Analytic engineering d. GeneticEngineering​


Answer:

D.Genetic Engineering

Explanation:

HOPE IT HELP


16. II. Research Work in paragraph form. What is Genetic Engineering? Describe the steps and explain how genetic engineering helpful to human. Give at least 5 examples of products of Genetic Engineering​


Answer:

Genetic engineering is accomplished in three basic steps. These are (1) The isolation of DNA fragments from a donor organism; (2) The insertion of an isolated donor DNA fragment into a vector genome and (3) The growth of a recombinant vector in an appropriate host.Apr 7, 2008


17. what is the Practical Use of genetic engineering during COVID-19 pandemic essayNONSENSE REPORT!!​


Answer:

( Don't worry, There are no longer Nonsense Answer makers in this app. So Enjoy!)

The COVID-19 pandemic has dramatically changed the way of life for many people all around the world. Scientists and medical professionals are desperately trying to find ways to combat this virus, and genetic engineering is playing a crucial role in this search.

In genetic engineering, genes from one organism are inserted into another organism in order to create new, more efficient and productive organisms. For example, scientists have been able to reduce the amount of pollen in food plants, produce more effective medicine, and create new crops with higher yields. With the onset of the pandemic, scientists are utilizing this same technology in order to create and distribute more efficient vaccines, treatments, and tests.

By introducing genes from the virus into bacteria, scientists can create a much more focused and precise vaccine than before, which likewise reduces the time and cost of producing vaccines. Furthermore, genetic engineering can be used to create tests that are more selective and effective in detecting the virus. With this technique, tests can now detect infections much faster and with greater sensitivity than traditional methods.

Lastly, genetic engineering can be used to produce antibodies, proteins, and other medicines that are effective against the virus. These drugs can be used to treat the symptoms of COVID-19 and reduce the risk of death for those with severe cases.

Overall, the practical uses of genetic engineering during the COVID-19 pandemic are numerous. By utilizing this technology, scientists are making more efficient vaccines, tests, and medications while also reducing the time and cost of production. As a result, the world can begin to heal more quickly and more effectively, making the most out of this challenging period.


18. what is genetic engineering?​


Answer:

Genetic engineering, also called genetic modification or genetic manipulation, is the direct manipulation of an organism's genes using biotechnology.


19. All of the following are ways on how human adapt to environmental changes, EXCEPT: A. Genetic Change B. Developmental Adjustments C. Acclimatization and cultural practices D. Use of obsolete technology ​


QUESTION

All of the following are ways on how human adapt to environmental changes, EXCEPT:

CHOICES

A. Genetic Change

B. Developmental Adjustments

C. Acclimatization and cultural practices

D. Use of obsolete technology

ANSWER

>>> A

A. Genetic change - It's alises from a normal process in which genetic material is rearranged as a cell is getting ready to divide.

B. Developmental Adjustments - A long term change in an organism growth or biochemical process during development that occusion response to environmental conditions.

C. Acclimatization and cultural practices- Related to culture, custom, tradition and environment.

D. Use of obsolete technology - It's refers to outdated technology which ultimately changes the environmental.

#LearnWithBrainly


20. genetic engineering​


Answer:

Genetic engineering is the process of using recombinant DNA (rDNA) technology to alter the genetic makeup of an organism. Traditionally, humans have manipulated genomes indirectly by controlling breeding and selecting offspring with desired traits.

1. Starter Bacterial cell

2. Plasmids extracted

3. Section of DNA cut by restriction enzymes

4. Using restriction enzymes

5. DNA section has sticky ends,with sticky ends

6.  Modified plasmids put back into the bacterial cells

7. Bacteria multiply producing insulin

8. Insulin extracted from bacteria

Explanation: Sana po makatulong


21. what is genetic engineering


Genetic engineering is a study for mixing the genes of animals.It can be useful in agricultural matters too.It's like combining a two things to form one extraordinary things.

Example:

A frog with wings.

-There is no impossible things we can make in genetic engineering

A guavapple (Guava+Apple)

-we can taste the food with two differend kind.

22. All of the following are ways on how human adapt to environmental changes, EXCEPT: A. Genetic Change B. Developmental Adjustments C. Acclimatization and cultural practices D. Use of obsolete technology​


Answer:

Letter C

Explanation:

pa brainliest

.


23. Genetic EngineeringMethods to modifyReplacementof genesCreates geneticallymodifiedProducts ofGeneticengineeringAdvantagesof GeneticengineeringDisadvantagesof Geneticengineering​


Hope it helps
#Carryonlearning

24. Where is genetic engineering consider as common and essential practice A. Gene Splicing B. Biotechnology C. Biodiversity D. Community​


Answer:A. Gene SplicingExplanation:#carry on learning

Answer:

A

thanks me later and god bless


25. 1.what is the significant role of DNA in genetic engineering?2.How is genetic engineering done?3.How do you compare genetic engineering from traditional breeding?4.Which would you prefer,genetic engineering or traditional breeding?why?​


1. We can possibly change the structure, function, or activity of proteins and enzymes by modifying DNA.

2. There are three main processes to genetic engineering. The isolation of DNA fragments from a donor organism, the insertion of an isolated donor DNA fragment into a vector genome, and the development of a recombinant vector in an appropriate host are the three steps.

3. Selection is the mainstay of traditional breeding, which employs natural sexual and asexual reproduction mechanisms while Genetic engineering involves inserting genetic material into cells using a gene gun or other direct gene introduction methods, or a specially built bacterial vehicle, a process that does not occur naturally.

4. Genetic engineering because genetic engineering aids in the creation of new foods with desired characteristics faster than traditional breeding.

Answer:

1.Therefore, by manipulating DNA, we can potentially modify the structure, function, or activity of proteins and enzymes, which are the final products of gene expression. This concept forms the basis of many genetic engineering techniques such as recombinant protein production and protein engineering.

2.Genetic engineering is accomplished in three basic steps. These are (1) The isolation of DNA fragments from a donor organism; (2) The insertion of an isolated donor DNA fragment into a vector genome and (3) The growth of a recombinant vector in an appropriate host.

3.Conventional breeding relies primarily on selection, using natural processes of sexual and asexual reproduction. Genetic engineering utilizes a process of insertion of genetic material, via a gene gun or other direct gene introduction methods, or by a specially designed bacterial truck, which does not occur in nature.

4.Conventional breeding relies primarily on selection, using natural processes of sexual and asexual reproduction. Genetic engineering utilizes a process of insertion of genetic material, via a gene gun or other direct gene introduction methods, or by a specially designed bacterial truck, which does not occur in nature.(You can choose between GENETIC ENGINEERING & TRADITIONAL BREEDING)

26. In the practice of genetic engineering on what particular aspect can we set boundaries or limitations? why?​


Answer:

NHGRI uses the term "genome editing" to describe techniques used to modify DNA in the genome. Other groups also use the term "gene editing." In general, these terms are used interchangeably.

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Some of the benefits of genetic engineering in agriculture are to increase crop yields, reduce food or drug production costs, reduce the need for pesticides, improve nutrients and food quality, fight diseases and insect pests, improve food security, and bring benefits to the world's growing population.


27. genetic engineering has​


pano to idelete sorry ayaw kasi ma send Yung sagot


28. Genetic engineering may also be called as new genetics


Answer:

Genetic engineering, also called genetic modification or genetic manipulation, is the direct manipulation of an organism's genes using biotechnology. It is a set of technologies used to change the genetic makeup of cells, including the transfer of genes within and across species boundaries to produce improved or novel organisms. New DNA is obtained by either isolating and copying the genetic material of interest using recombinant DNA methods or by artificially synthesising the DNA. A construct is usually created and used to insert this DNA into the host organism. The first recombinant DNA molecule was made by Paul Berg in 1972 by combining DNA from the monkey virus SV40 with the lambda virus. As well as inserting genes, the process can be used to remove, or "knock out", genes. The new DNA can be inserted randomly, or targeted to a specific part of the genome.

An organism that is generated through genetic engineering is considered to be genetically modified (GM) and the resulting entity is a genetically modified organism (GMO). The first GMO was a bacterium generated by Herbert Boyer and Stanley Cohen in 1973. Rudolf Jaenisch created the first GM animal when he inserted foreign DNA into a mouse in 1974. The first company to focus on genetic engineering, Genentech, was founded in 1976 and started the production of human proteins. Genetically engineered human insulin was produced in 1978 and insulin-producing bacteria were commercialised in 1982. Genetically modified food has been sold since 1994, with the release of the Flavr Savr tomato. The Flavr Savr was engineered to have a longer shelf life, but most current GM crops are modified to increase resistance to insects and herbicides. GloFish, the first GMO designed as a pet, was sold in the United States in December 2003. In 2016 salmon modified with a growth hormone were sold.

Genetic engineering has been applied in numerous fields including research, medicine, industrial biotechnology and agriculture. In research GMOs are used to study gene function and expression through loss of function, gain of function, tracking and expression experiments. By knocking out genes responsible for certain conditions it is possible to create animal model organisms of human diseases. As well as producing hormones, vaccines and other drugs, genetic engineering has the potential to cure genetic diseases through gene therapy. The same techniques that are used to produce drugs can also have industrial applications such as producing enzymes for laundry detergent, cheeses and other products.

The rise of commercialised genetically modified crops has provided economic benefit to farmers in many different countries, but has also been the source of most of the controversy surrounding the technology. This has been present since its early use; the first field trials were destroyed by anti-GM activists. Although there is a scientific consensus that currently available food derived from GM crops poses no greater risk to human health than conventional food, GM food safety is a leading concern with critics. Gene flow, impact on non-target organisms, control of the food supply and intellectual property rights have also been raised as potential issues. These concerns have led to the development of a regulatory framework, which started in 1975. It has led to an international treaty, the Cartagena Protocol on Biosafety, that was adopted in 2000. Individual countries have developed their own regulatory systems regarding GMOs, with the most marked differences occurring between the US and Europe.

Explanation:

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29. Why is it more practical to use microorganisms like bacteria or yeast in Genetic engineering?


Answer:

Bacteria were the first organisms to be genetically modified in the laboratory, due to the relative ease of modifying their chromosomes. This ease made them important tools for the creation of other GMOs. ... The large number of custom plasmids make manipulating DNA excised from bacteria relatively easy.


30. What is to be manipulated to achieve genetic engineering?A. DNAC. RNAB. genesD. all of the choices​


Answer:

D

Explanation:

Sure na tama kasi it's all connected

D all of the choices all of the choices because


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