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Nucleic Acids Lecture 23 (11/10/21)
A. Nucleotides • Reading: Ch9; 309-313
B. Nucleic Acids Ch8; 283-286
C. The 4 S’s
1. Size
2. Solubility
3. Shape • Problems: Ch8; 13
a. A-DNA
b. Z-DNA
c. Topology
i. Packaging
ii. Supercoiling NEXT
4. Stability iii. Topoisomerases
a. Nucleotides • Reading: Ch25; 916-921, 930-940
i. Tautomers
ii. Acid/base
b. Nucleic Acids • Problems: Ch25; 2,3,5,6,7,9,10,13,14,
i. Chemistry
ii. Denaturation 15,16,17
iii. Stability
iv. Nucleases 1. X
D. Structure of the Information 2. X
1. Exceptions to flow 3. Transformation of hosts
2. Structure 4. Selection of transformants
3. Levels of Control a. Selectable marker/gene
E. Recombinant DNA: Biochemical Basis of Biotechnology b. Distinguish empty plasmids
i. Loss of resistance
1. Restriction enzymes, DNA ligase ii. Reporter gene
2. Vectors and Inserts to make recombinant DNA (rDNA) 5. Expression
a. Inserts a. Special vectors
i. cDNA b. Fusion proteins
ii. Genomic i. purification
b. Vectors ii. labeling
6. Site-directed mutagenesis
Recombinant DNA and
Biotechnology
1
Recombinant DNA and Biotechnology
Recombinant DNAis DNA made in the laboratory that is
derived from at least two genetic sources.
Recombinant DNAhas allowed molecular biology to come
full circle.
FUNCTION
Biochemistry Genetics
PROTEIN GENE
recDNA
Recombinant DNAhas one simple goal: MAKE MORE
Recombinant DNA and Biotechnology
Recombinant Proteins
………coronavirus
2
Recombinant DNA and Biotechnology
Recombinant DNAis DNA made in the laboratory that is
derived from at least two genetic sources.
•Biochemical Basis of Biotechnology
- Restriction enzymes, DNA ligase
- Vectors and Inserts to make recombinant DNA
(rDNA)
- Transformation of hosts
- Selection of transformants
- Expression
- Site-directed mutagenesis
Recombinant DNA and Biotechnology
Restriction enzymes are used to
cut DNA into fragments, which then
are spliced together in new
combinations.
DNA ligase catalyzes the joining of
DNA fragments.
Others you will see how they are
used when we go through the
processes.
3
Recombinant DNA and Biotechnology
Restriction Sites
Restriction enzymes recognize palindromic DNA sequences:
5ʼ…….GAATTC……3ʼ
3ʼ…….CTTAAG……5ʼ
Some make straight cuts, others make staggered cuts, resulting in
overhangs or sticky ends.
EXAMPLES:
Recombinant DNA and Biotechnology
Restriction Sites
Restriction enzymes recognize palindromic DNA sequences:
5ʼ…….GAATTC……3ʼ
5ʼ…….G-3ʼ 5ʼ-AATTC……3ʼ
3ʼ…….CTTAAG……5ʼ
3ʼ…….CTTAA-5ʼ 3ʼ-G……5ʼ
Some make straight cuts, others make staggered cuts, resulting in
overhangs or sticky ends.
EXAMPLES:
4
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