electrophoresis separates fragments of DNA using: Movement of DNA fragments of different sizes at different speeds as a result of polymerase chain reaction. A sieving medium through which DNA molecules are moved by electrical forces. A sieving medium through which DNA fragments are moved by gravitational forces. Repulsion of charged DNA molecules by the electrically charged gel beads. Movement through a sieving medium by positively charged DNA molecules attracted by a negative pole.

Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
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Gel electrophoresis separates fragments of DNA using:
Movement of DNA fragments of different sizes at different speeds as a result of
polymerase chain reaction.
A sieving medium through which DNA molecules are moved by electrical forces.
A sieving medium through which DNA fragments are moved by gravitational
forces.
Repulsion of charged DNA molecules by the electrically charged gel beads.
Movement through a sieving medium by positively charged DNA molecules
attracted by a negative pole.
Transcribed Image Text:Gel electrophoresis separates fragments of DNA using: Movement of DNA fragments of different sizes at different speeds as a result of polymerase chain reaction. A sieving medium through which DNA molecules are moved by electrical forces. A sieving medium through which DNA fragments are moved by gravitational forces. Repulsion of charged DNA molecules by the electrically charged gel beads. Movement through a sieving medium by positively charged DNA molecules attracted by a negative pole.
Match each term with the correct statement by writing the correct alphabetical letter
in the blank space provided.
000
Rejoins the Okazaki
fragments of the lagging
strand
Keep newly separated
strands of DNA apart
Removes RNA primers
Catalyzes the formation of
the daughter strands in
DNA replication
1. DNA polymerase I
2. single-stranded binding proteins
3. DNA polymerase III
4. DNA ligase
5. primase
Transcribed Image Text:Match each term with the correct statement by writing the correct alphabetical letter in the blank space provided. 000 Rejoins the Okazaki fragments of the lagging strand Keep newly separated strands of DNA apart Removes RNA primers Catalyzes the formation of the daughter strands in DNA replication 1. DNA polymerase I 2. single-stranded binding proteins 3. DNA polymerase III 4. DNA ligase 5. primase
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