How would you expect the lanes on a gel to differ if you cut the same...

How would you expect the lanes on a gel to differ if you cut the same...

How would you expect the lanes on a gel to differ if you cut the same DNA with each type of enzyme and why? (3)

Restriction enzymes, also known as restriction endonucleases, are enzymes that cut a DNA molecule at a...

Restriction enzymes, also known as restriction endonucleases, are enzymes that cut a DNA molecule at a particular place. They are essential tools for recombinant DNA technology. The enzyme "scans" a DNA molecule, looking for a particular sequence, usually of four to six nucleotides. Once it finds this recognition sequence, it stops and cuts the strands. This is known as enzyme digestion. On double stranded DNA the recognition sequence is on both strands, but runs in opposite directions. This allows the...

Imagine you have a plasmid and you cut it with three different restriction enzymes (enzymes 1,...

Imagine you have a plasmid and you cut it with three different restriction enzymes (enzymes 1, 2, 3). You then run these fragments through a gel and get this separation. (10 pts) Label the positive and negative terminals on this gel with a (+) and (-) sign. If you were working with a single plasmid, how many cut sites did restriction enzyme 1 have? Explain? When creating a gel, we stain it with Ethidium Bromide or Gel Red. What is...

why would you want your restriction enzyme to cut as close as possible to the insulin...

why would you want your restriction enzyme to cut as close as possible to the insulin gene without cutting into it?

If you do a PCR reaction with DNA from a person who is heterozygous for a...

If you do a PCR reaction with DNA from a person who is heterozygous for a SNP in the gene you are amplifying and you have a restriction enzyme that will recognize and cut only the one of the two allleles, how many bands will you see if you run the restriction digest out on an agarose gel?

2) Answer the following questions: What is the size of the lambda DNA? What is the...

2) Answer the following questions: What is the size of the lambda DNA? What is the recognition sequence recognized by HindIII? How many times will the enzyme cut the lambda DNA? What is the driving force that propels the DNA though the gel? Where should the positive electrode be positioned related to the gel? Using the gel in the virtual lab. If the lanes are numbered 1-4 (from left to right), which lane contains uncut DNA? How do you know...

Genetic/Biology question- Restriction Mapping and Creating and Designing Recombinant DNA. I have a human DNA sequence...

Genetic/Biology question- Restriction Mapping and Creating and Designing Recombinant DNA. I have a human DNA sequence consisting of 868 bp, of which 3 specific restriction enzymes made cuts. I was then given a plasmid DNA sequence of 2220 bp and I'm asked to ligate the DNA into a plasmid DNA vector. The plasmid DNA sequence also had one of the same restriction enzymes as the human sequence... ex: the cut is made on the human sequence at bp 101, and...

You’ve been asked to prepare the gel. How much agarose would you need to weigh in...

You’ve been asked to prepare the gel. How much agarose would you need to weigh in order to prepare 50 ml of 2% gel? Show your math. List three things to which one needs to pay special attention when loading a gel for DNA electrophoresis. What would be the volume of the PCR sample you would have loaded in live lab? The loading buffer has a dual purpose. Explain. There are multiple reasons for loading a DNA ladder (size standard)...

What would you expect to differ and remain the same between a protein isolated from different...

What would you expect to differ and remain the same between a protein isolated from different species? To answer this question, please consider both the primary sequence and the tertiary structure of the protein. So would the primary sequence and tertiary structure stay the same or be different in a protein isolated from different species?

How would you expect the elasticity of supply of product X to differ in a situation...

How would you expect the elasticity of supply of product X to differ in a situation of full employment in Industry X on the one hand, and of considerable unemployment in the industry on the other hand?