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Transfer of Episomal and Integrated Plasmids from Saccharomyces cerevisiae to Escherichia coli by Electroporation

 Last Update: 2021-02-19
 Source: Internet
 Author: User

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Yeast shuttle vectors are common tools in molecular and cellular studies of
Saccharomyces cerevisiae
, including studies of gene structure-function relationships,
DNA
repair, and recombination (
1
). Shuttle vectors are manipulated easily in vitro, introduced into
Escherichia coli
, from which large quantities of pure plasmid DNA can be prepared, and then “shuttled” to a yeast host cell for analysis. The three essential features of yeast shuttle vectors are sequences that allow replication and selection in
E. coli
(an origin of replication and an antibiotic resistance marker), and a yeast selectable marker (usually a gene encoding an enzyme in metabolic pathway, such as
URA3
or
HIS3
;
2
,
3
). Other elements may be added to confer properties required for particular applications (
4
). Plasmids may exist in yeast as freely replicating circular molecules (episomes) of one of three types. Derivatives with an autonomously replicating sequence
(ARS)
from the 2-�m circle (a natural yeast plasmid;
5
) exist at high copy number (30–50/cell) and segregate to daughter cells with high efficiency. Plasmids with an
ARS
from a yeast chromosome have medium to high copy numbers, but they are rapidly lost because they segregate to daughter cells with low efficiency (
6
). Adding a yeast centromere
(CEN)
to an
ARS
plasmid reduces the copy number to 1–2/cell, and increases stability (loss rates about 1%/generation). Adding telomere sequences to an
ARS/CEN
plasmid creates a yeast artificial chromosome (YAC), which is a freely replicating, low copy number linear molecule (
7
).

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