"In genetic modifications, DNA inserted can come from _____ ." any organism containing the DNA of...
"In genetic modifications, DNA inserted can come from _____ ."
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any organism containing the DNA of interest |
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only the same plasmid as the vector |
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only the same species as the vector |
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only the same species as the host |
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only the same phylum as the plasmid vector |
Homework Answers
Answer: Any organism containing the DNA of interest
In genetic modification experiments, DNA can be taken from any organism.
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"In genetic modifications, DNA inserted can come from _____
."
any organism containing the DNA of...
Question 7 Which of the following is not a characteristic of biofilms O iron deficiency O...
Question 7 Which of the following is not a characteristic of biofilms O iron deficiency O antibiotic resistance hydrogel O quorum sensing nutrient sharing Question 8 cDNA can be made in the laboratory from O mRNA O eukaryotic DNA ODNA library O through cloning transformation Question 9 "In genetic modifications, DNA inserted can come from O any organism containing the DNA of interest only the same plasmid as the vector O only the same species as the vector O only...
the genetic blueprint of an organism is referred to as i A scientist wishes to genetically...
the genetic blueprint of an organism is referred to as i
A scientist wishes to genetically engineer E. coli bacteria so that it will contain the green fluorescent protein (GFP) gene. Which of the following protocol outlines would the scientist use to accomplish this task? ОА Insert GFP gene into corn expression cassette; insert expression cassette into plasmid vector; insert plasmid vector into Agrobacterium tumefaciens bacteria; allow bacteria to infect corn plant; GFP gene inserted into com cell genome. ....
RECOMBINANT DNA: PLASMID VECTOR engineering is the direct manipulation of an organism's DNA using nology. To...
RECOMBINANT DNA: PLASMID VECTOR engineering is the direct manipulation of an organism's DNA using nology. To begin the recombinant DNA process, scientists must first ide at codes for the production of the protein they want to manufacture. One is to go backwards from the amino acid sequence of the desired protein to ide sequence of the gene. After scientists have identified the gene, they m it. Restriction enzymes or endonucleases from bacterial cells are key in th ia produce restriction...
1. Why do plasmid vectors contain a polylinker? So that the plasmid can be cut into...
1. Why do plasmid vectors contain a polylinker? So that the plasmid can be cut into many small fragments to be inserted in the region of interest To allow the plasmid to survive on antibiotic media To find a restriction enzyme site that is useful for inserting the fragment of interest Multiple cut sites are required for the DNA fragment to be inserted. 2.What does blue color mean in blue-white screening with pUC18? The DNA fragment was successfully inserted into...
LAB17 Genetic Engineering of Bacteria Problem Is it possible to transfer the allele for resistance to...
LAB17 Genetic Engineering of Bacteria Problem Is it possible to transfer the allele for resistance to the antibiotic ampicillin into a bacterial cell? Objectives After completing this lab, the student will be able to: 1. Demonstrate micropipetting and sterile pipetting techniques for handling and transferring bacteria and plasmid DNA. 2. Maintain sterile conditions for culturing bacterial cells. 3. Inoculate bacteria into flasks, culture tubes, or agar plates. 4. Culture isolated individual colonies from an agar plate to form genetically identical...
LAB Genetic Engineering of Bacteria Problem Is it possible to transfer the allele for resistance to...
LAB Genetic Engineering of Bacteria Problem Is it possible to transfer the allele for resistance to the antibiotic ampicillin into a bacterial cell? Objectives After completing this lab, the student will be able to: 1. Demonstrate micropipetting and sterile pipetting techniques for handling and transferring bacteria and plasmid DNA. 2. Maintain sterile conditions for culturing bacterial cells. 3. Inoculate bacteria into flasks, culture tubes, or agar plates. 4. Culture isolated individual colonies from an agar plate to form genetically identical...
Bacterial cells, such as E. coli, are surrounded by a fluid plasma membrane and enclosed by...
Bacterial cells, such as E. coli, are surrounded by a fluid plasma membrane and enclosed by a rigid cell wall that protects the cell from damage. You will recall that there is no nuclear envelope in prokaryotic cells, but rather a “nucleoid region” with a single chromosome that is continuous (circular), not linear, as in eukaryotes. All of the genes required for basic survival and reproduction are found in the main chromosome. In addition to the main chromosomes, some DNA...
Match each term with its definition. Each term or definition is used only once. Aflatoxin A....
Match each term with its definition. Each term or definition is used only once. Aflatoxin A. The group of Gram-positive bacteria generating lactic acid as the major end product of their fermentive metabolism Anoxic Biotype Bioluminescence B. Taxonomic category of related organisms, usually containing several species; the first name of an organism C. Evolutionary relatedness of organisms D. Isolated from Agrobacterium tumefaciens, it allows those organisms to cause tumors in plants; a derivative in the Binomial System of Nomenclature is...
Please match the terms on the left with descriptions on the right to review terminology and...
Please match the terms on the left with descriptions on the right to review terminology and concepts that have arisen from completion of human and model organism genome sequences. (Not all terms have a match.) gene desert Genes in two different species that arose from the same gene In the species' common ancestor. Skipped protein domain Gones that arose by duplication within a single species, often within the same chromosome paralogous genes gene family A discreto functional unit encoded by...
1. Molecular cloning has made it possible to take a DNA fragment from nuclear DNA, containing...
1. Molecular cloning has made it possible to take a DNA fragment from nuclear DNA, containing an entire gene, and insert it into a cloning plasmid just behind a phage promoter. This means that the cloned gene can be transcribed in a test tube using a commercially available phage RNA polymerase protein. If you were to use agarose gel electrophoresis to separate RNA according to size, would the RNA produced in the test tube show any differences with RNA from...
Question 7 Which of the following is not a characteristic of biofilms O iron deficiency O antibiotic resistance hydrogel O quorum sensing nutrient sharing Question 8 cDNA can be made in the laboratory from O mRNA O eukaryotic DNA ODNA library O through cloning transformation Question 9 "In genetic modifications, DNA inserted can come from O any organism containing the DNA of interest only the same plasmid as the vector O only the same species as the vector O only...
the genetic blueprint of an organism is referred to as i
A scientist wishes to genetically engineer E. coli bacteria so that it will contain the green fluorescent protein (GFP) gene. Which of the following protocol outlines would the scientist use to accomplish this task? ОА Insert GFP gene into corn expression cassette; insert expression cassette into plasmid vector; insert plasmid vector into Agrobacterium tumefaciens bacteria; allow bacteria to infect corn plant; GFP gene inserted into com cell genome. ....
RECOMBINANT DNA: PLASMID VECTOR engineering is the direct manipulation of an organism's DNA using nology. To begin the recombinant DNA process, scientists must first ide at codes for the production of the protein they want to manufacture. One is to go backwards from the amino acid sequence of the desired protein to ide sequence of the gene. After scientists have identified the gene, they m it. Restriction enzymes or endonucleases from bacterial cells are key in th ia produce restriction...
LAB17 Genetic Engineering of Bacteria Problem Is it possible to transfer the allele for resistance to the antibiotic ampicillin into a bacterial cell? Objectives After completing this lab, the student will be able to: 1. Demonstrate micropipetting and sterile pipetting techniques for handling and transferring bacteria and plasmid DNA. 2. Maintain sterile conditions for culturing bacterial cells. 3. Inoculate bacteria into flasks, culture tubes, or agar plates. 4. Culture isolated individual colonies from an agar plate to form genetically identical...
LAB Genetic Engineering of Bacteria Problem Is it possible to transfer the allele for resistance to the antibiotic ampicillin into a bacterial cell? Objectives After completing this lab, the student will be able to: 1. Demonstrate micropipetting and sterile pipetting techniques for handling and transferring bacteria and plasmid DNA. 2. Maintain sterile conditions for culturing bacterial cells. 3. Inoculate bacteria into flasks, culture tubes, or agar plates. 4. Culture isolated individual colonies from an agar plate to form genetically identical...
Bacterial cells, such as E. coli, are surrounded by a fluid plasma membrane and enclosed by a rigid cell wall that protects the cell from damage. You will recall that there is no nuclear envelope in prokaryotic cells, but rather a “nucleoid region” with a single chromosome that is continuous (circular), not linear, as in eukaryotes. All of the genes required for basic survival and reproduction are found in the main chromosome. In addition to the main chromosomes, some DNA...
Match each term with its definition. Each term or definition is used only once. Aflatoxin A. The group of Gram-positive bacteria generating lactic acid as the major end product of their fermentive metabolism Anoxic Biotype Bioluminescence B. Taxonomic category of related organisms, usually containing several species; the first name of an organism C. Evolutionary relatedness of organisms D. Isolated from Agrobacterium tumefaciens, it allows those organisms to cause tumors in plants; a derivative in the Binomial System of Nomenclature is...
Please match the terms on the left with descriptions on the right to review terminology and concepts that have arisen from completion of human and model organism genome sequences. (Not all terms have a match.) gene desert Genes in two different species that arose from the same gene In the species' common ancestor. Skipped protein domain Gones that arose by duplication within a single species, often within the same chromosome paralogous genes gene family A discreto functional unit encoded by...
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