compare and contrast 8 different types of cloning vectors. 1. prokaryote bacterial plasmid 2. Yeast Eukaryotic...
compare and contrast 8 different types of cloning vectors.
1. prokaryote bacterial plasmid
2. Yeast Eukaryotic plasmid
3. Bacteriophage Lambda
4. Cosmos
5. Bacteriophage P1
6 PACs
7 BACs
8 YACs
Homework Answers
Cosmids
Analysis of eukaryotic genes and the genome organisation of
eukaryotes requires vectors with a larger capacity of cloned DNA
than plasmids or 
lambda.
Cosmids use the packaging
system to package large DNA fragments bounded by cos site,
which circularize and replicate as plasmids after infection of
E.coli cells. Some cosmid vectors have two cos sites, and
are cleaved to produce two cos ends, which are ligated to the ends
of target fragments and packaged into lambda particles. Cosmids
have a capacity for cloned of 30-45 kb.
YAC Vectors: Yeast artificial chromosomes can be constructed by ligating the components required for replication and segregation of natural yeast chromosomes to very large fragments of target DNA, which may be more than 1 Mb in length. YAC vectors contain two telomeric sequences (TEL), one centromere (CEN), one autonomously replicating sequence (ARS) and genes which can act as selectable markers in yeast.
BAC Vectors: Bacterial artificial chromosomes are based on the F factor of E. coli and can be used to clone up to 350 kb of genomic DNA in a conveniently handled E.coli host. They are a more stable and easier to use alternative to YACs.
In case of organisms with small genome sizes, such as
E.coli, a genomic library could be constructed in a
plasmid vector as only 5000 clones (of average insert size 5 kb)
would give a greater than 99% chance of cloning the entire genome
(4.6 x 106 bp). Most libraries from organisms with
larger genomes are constructed using phage , cosmid,
bacterial artificial chromosome (BAC) or yeast artificial
chromosome (YAC) vectors. Thse accept inserts of approximately 23,
45, 350 and 1000 kb respectively, and thus fewer recombinants are
needed for complete genome coverage than if plasmids were used.
Add Answer to:
compare and contrast 8 different types of cloning vectors.
1. prokaryote bacterial plasmid
2. Yeast Eukaryotic...
Question 4 C. Cloning and restriction enzyme digest Video aid 1: Plasmid cloning Video aid 2:...
Question 4
C. Cloning and restriction enzyme digest Video aid 1: Plasmid cloning Video aid 2: Restriction enzyme digest analysis The PCR was a success and your target region of 440 bp in length has been amplified. You igate a short linker containing an Apal restriction enzyme site onto both ends of the PCR product, digest it with Apal, and clone it into the Apal site of the 5 kb plasmid diagrammed below Bamll 300 EcoRI 3400 1000 2000 5...
1. Compare and contrast Prokaryotes and Eukaryotes. 2. How can prokaryotic cells be smaller than eukaryotic...
1. Compare and contrast Prokaryotes and Eukaryotes. 2. How can prokaryotic cells be smaller than eukaryotic cells and still carry on all the essential functions of life. 3. Compare and contrast Archea and Bacteria.
1. Describe the formation and function of bacterial endospores 2. Describe four reasons why eukaryotic reproduction...
1. Describe the formation and function of bacterial endospores 2. Describe four reasons why eukaryotic reproduction is more complex than prokaryotic reproduction. 3. Contrast meiosis with mitosis, mentioning homologous chromosomes, chromatids, 4. Define virus and virion, and describe the parts of a virion. 5. Identify and describe the portals through which pathogens invade the human body. tetrads and crossing over.
13. Yeast are eukaryotic, single-celled fungus (this is not part of this homework question, but you...
13. Yeast are eukaryotic, single-celled fungus (this is not part of this homework question, but you could test yourself by describing the carbon cycle around yeast). Yeast reproduce quickly (under optimal conditions, yeast cells can double their population every 100 minutes). Yeast signal to potential partners by producing an attractive pheromone - a chemical smell, but the effect of the strong signal depends on the environment. In Environment A, yeast with the strong signaling allele are preferred as mates, but...
1. Describe two differences and one similarity between base excision repair and nucleotide excision repair. 2. Compare a...
1. Describe two differences and one similarity between base excision repair and nucleotide excision repair. 2. Compare and contrast the genomes of prokaryotes and higher eukaryotes with respect to the following features. a. Presence and number of repeated sequences b. Gene structure c. Approximate gene number 3. Describe three ways in which eukaryotic transcription initiation is different from prokaryotic transcription initiation. 4. Compare and contrast how selection of the translational start site occurs in bacterial and eukaryotic mRNAs. 5. In...
You have isolated a strain of brewer's yeast (Saccharomyces cerevisiae) in the lab for your second...
You have isolated a strain of brewer's yeast (Saccharomyces cerevisiae) in the lab for your second job at a hip new microbrew (you make a great IPA). You find that this strain ferments more efficiently and adds a superior flavour profile to your brews. You want to clone the strain of yeast and generate a genomic library to determine the genes responsible for this finding. To do so you: 1. Obtain fragments of the whole yeast genome (DNA) through restriction...
1. Describe the two yeast expression plasmids used to transform a strain of yeast. 2. How...
1. Describe the two yeast expression plasmids used to transform a strain of yeast. 2. How do the plasmid vectors (how do their expression products) lead to us knowing whether a known protein and unknown protein bind or interact? Questions on DNA Testing for Genetic Diseases Associated with Mutations: 3. What are the factors that lead to limits of detecting genetic diseases with DNA molecular testing? 4. What is the difference between information gathered by screening for a disease and...
Chapter 20 Yeast Breads Questions 1. What does kneading accomplish in yeast breads? 2. What is...
Chapter 20 Yeast Breads Questions 1. What does kneading accomplish in yeast breads? 2. What is the purpose of the second rise in yeast breads? 3. What are the different types of yeast breads? 4. What is the difference in sourdough bread compared to yeast bread? 5. Describe the proper steps in yeast dough preparation
Chapters 7, 8, 9 - Bacterial Growth & Metabolism (some chapter sections will be covered in...
Chapters 7, 8, 9 - Bacterial Growth & Metabolism (some chapter sections will be covered in lab) Prerequisite: Basic catabolic pathways (respiration and fermentation) and anabolic reactions (photosynthesis) BACTERIAL GROWTH AND CONTROL- Some of these topics will be covered in greater detail during lab Environmental Growth Factors 1. Discuss the specific role of quorum sensing in biofilm formation Control of Microbial Growth 2. Describe the methods used to control microbial growth 3. List the types of antibiotics that inhibit (a)...
Compare and contrast leukemia, lymphoma, and multiple myeloma 1. 2. Differentiate between Hodgkin's lymphoma, and non-Hodgkin's...
Compare and contrast leukemia, lymphoma, and multiple myeloma 1. 2. Differentiate between Hodgkin's lymphoma, and non-Hodgkin's lymphoma 3.ldentify and differentiate between the different types of transfusion reactions. 4. Which of these reactions are most fatal, and why?
Question 4
C. Cloning and restriction enzyme digest Video aid 1: Plasmid cloning Video aid 2: Restriction enzyme digest analysis The PCR was a success and your target region of 440 bp in length has been amplified. You igate a short linker containing an Apal restriction enzyme site onto both ends of the PCR product, digest it with Apal, and clone it into the Apal site of the 5 kb plasmid diagrammed below Bamll 300 EcoRI 3400 1000 2000 5...
1. Describe the formation and function of bacterial endospores 2. Describe four reasons why eukaryotic reproduction is more complex than prokaryotic reproduction. 3. Contrast meiosis with mitosis, mentioning homologous chromosomes, chromatids, 4. Define virus and virion, and describe the parts of a virion. 5. Identify and describe the portals through which pathogens invade the human body. tetrads and crossing over.
13. Yeast are eukaryotic, single-celled fungus (this is not part of this homework question, but you could test yourself by describing the carbon cycle around yeast). Yeast reproduce quickly (under optimal conditions, yeast cells can double their population every 100 minutes). Yeast signal to potential partners by producing an attractive pheromone - a chemical smell, but the effect of the strong signal depends on the environment. In Environment A, yeast with the strong signaling allele are preferred as mates, but...
You have isolated a strain of brewer's yeast (Saccharomyces cerevisiae) in the lab for your second job at a hip new microbrew (you make a great IPA). You find that this strain ferments more efficiently and adds a superior flavour profile to your brews. You want to clone the strain of yeast and generate a genomic library to determine the genes responsible for this finding. To do so you: 1. Obtain fragments of the whole yeast genome (DNA) through restriction...
Chapter 20 Yeast Breads Questions 1. What does kneading accomplish in yeast breads? 2. What is the purpose of the second rise in yeast breads? 3. What are the different types of yeast breads? 4. What is the difference in sourdough bread compared to yeast bread? 5. Describe the proper steps in yeast dough preparation
Chapters 7, 8, 9 - Bacterial Growth & Metabolism (some chapter sections will be covered in lab) Prerequisite: Basic catabolic pathways (respiration and fermentation) and anabolic reactions (photosynthesis) BACTERIAL GROWTH AND CONTROL- Some of these topics will be covered in greater detail during lab Environmental Growth Factors 1. Discuss the specific role of quorum sensing in biofilm formation Control of Microbial Growth 2. Describe the methods used to control microbial growth 3. List the types of antibiotics that inhibit (a)...
Compare and contrast leukemia, lymphoma, and multiple myeloma 1. 2. Differentiate between Hodgkin's lymphoma, and non-Hodgkin's lymphoma 3.ldentify and differentiate between the different types of transfusion reactions. 4. Which of these reactions are most fatal, and why?
Most questions answered within 3 hours.
-
A business executive has the option to invest money in two
plans: Plan A guarantees that...
asked 1 hour ago -
Hello, can someone please help me answer this question?
How much heat is absorbed by a...
asked 1 hour ago -
. A marketing researcher conducted a survey of 25 shoppers
randomly selected at the local mall...
asked 1 hour ago -
Create an comprehensive response to the
following:
Antimicrobial agents work on a multitude of microbes (bacteria,...
asked 1 hour ago -
6.13 LAB: Step counter. Section 6.3.
A pedometer treats walking 2,000 steps as walking 1 mile....
asked 1 hour ago -
(14.2) A block of mass m = 10 kg riding on a frictionless
horizontal plane is...
asked 1 hour ago -
Use any search engine to search for articles about Starbucks
partnership with Tata Companies in India...
asked 1 hour ago -
Let’s say that for some reason Bank Excess Reserves suddenly
increase sharply. What effect would this...
asked 1 hour ago -
Given:
Curent Assets: $600,000
Total Assets: $2,600,000
Current Liabilities: $500,000
Total Liabilities: $1,700,000
What is the...
asked 1 hour ago -
1. What is a “Bankster”? What is insider trading? Why is it
illegal?
2. What is...
asked 1 hour ago -
A transverse wave on a cord is given by
D(x,t)=0.18sin(2.7x−61.0t), where Dand x are in m...
asked 1 hour ago -
ASSIGNMENT
ANSWER ANY TWO OF THE FOLLOWING IN 2-3 PARAGRAPHS OF EACH
QUESTION.
1: Where is...
asked 1 hour ago