Duva S Reading Guide for Chapter 13: Biotechnology
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Duva’s Reading Guide for Chapter 13: Biotechnology
Concept 13.1: Recombinant DNA Can Be Made in the Laboratory
I. Recombinant DNA -
A. Restriction enzymes
A.1. Origin
A.2. Function
B. Recognition sequence/restriction site –
B.1. Blunt –
B.2. Sticky –
B.2.a. BamHI
B.2.b. HindIII
B.2.c. EcoRI
B.3. Palindrome
C. Modification of bacterial DNA
D. Restriction digest
II. Gel electrophoresis separates DNA fragments
A. Gel electrophoresis A.1. Purpose
A.2. Design
A.2.a. Gel
A.2.b. Buffer
A.2.c. Electric field
B. How does it work? C. Information obtained from the DNA sample
C.1. Number of fragments
C.2. Sizes of fragments
C.3. Relative abundance of a fragment
III. Recombinant DNA can be made from DNA fragments
A. DNA ligase
B. Cohen and Boyer
B.1. Bacterial plasmid
B.2. Results
Concept 13.2: DNA Can Genetically Transform Cells and Organisms I. Clone
II. Transformation
III. Transgenic
IV. Selectable marker
V. Model organisms for research
A. Bacteria
A.1. Pros
A.2. Cons
B. Yeasts
B.1. Pros
B.2. Cons
C. Plant cells
C.1. Pros
C.2. Cons
D. Cultured animal cells
D.1. Pros
D.2. Cons
VI. Methods for inserting DNA into host cells
A. Chemical treatment
B. Electroporation C. Use of viruses and bacteria as vectors
D. Inject DNA into nuclei of fertilized eggs
E. “gene guns”
VII. Replicon –
A. Can be inserted into host chromosome randomly
B. Vector
B.1. Plasmids
B.1.a. Small
B.1.b. Restriction enzyme recognition sites
B.1.c. Selectable marker (antibiotic resistance)
B.1.d. Replicate independently of host chromosome
B.2. Plasmid vectors for plants
B.2.a. Agrobacterium tumefaciens
B.2.b. Plasmid name
B.2.c. How does it work?
B.3. Viruses B.3.a. Bacteriophage λ
B.3.b. Pros
C. Reporter genes
Concept 13.3: Genes and Gene Expression Can Be Manipulated
I. Sources of DNA fragments
A. Genomic library
B. cDNA libraries
C. synthetic DNA and PCR
II. DNA mutations can be made in the lab
III. Genes can be inactivated by homologous recombination
A. Inactivate genes to understand their function
B. Stem cells
Concept 13.4: Biotechnology Has Wide Applications
I. Protein factories
A. Expression vectors
A.1. Prokaryotes
A.2. Eukaryotes
II. Medically useful proteins
A. Human insulin
A.1. Engineered plasmid A.2. Bacteria factories
A.3. Chemical treatment
B. Pharming
B.1. Protein produced in milk
B.2. HGH
III. Agriculture – transgenic plants
A. Produce insecticides
B. Improved nutrition
C. Adapt to environment
IV. Public concern
A. Unnatural
B. Unsafe
C. Dangerous to the environment