Range |
≈0.14 µm^3
|
Organism |
Bacteria Escherichia coli |
Reference |
Lenski RE, Travisano M. Dynamics of adaptation and diversification: a 10,000-generation experiment with bacterial populations. Proc Natl Acad Sci U S A. 1994 Jul 19 91(15):6808-14. p.6810 left column bottom paragraphPubMed ID8041701
|
Method |
"Twelve
populations
of
E.
coli
B
were
propagated
in
replicate
environments
for
1500
days
(10,000
generations).
Each
population
was
founded
by
a
single
cell
from
an
asexual
clone,
and
so
there
was
initially
no
genetic
variation
either
within
or
between
replicate
populations
(except
for
a
neutral
marker
used
to
identify
populations).
The
experimental
environment
consisted
of
a
serial
transfer
regime,
in
which
populations
were
diluted
(1:100)
each
day
into
10
ml
of
a
glucose-limited
minimal
salts
medium
that
supports
˜5x10^7
cells
per
ml.
Populations
were
maintained
at
37°C
with
aeration.
Every
day,
the
bacteria
underwent
a
lag
phase
prior
to
growth,
followed
by
a
period
of
sustained
growth,
eventual
depletion
of
the
limiting
glucose,
and
starvation
until
the
next
serial
transfer.
The
1:100
dilution
permits
˜6.6
(log2[100])
cell
generations
per
day.
Samples
from
each
population
were
periodically
stored
at
-80°C,
along
with
the
common
ancestor...Cell
sizes
were
obtained
by
using
an
electronic
device
that
measures
the
volume
displaced
by
a
particle
(refs 3,
4)." |
Comments |
"After 10,000 generations, the among-population standard deviation was ˜0.14 fl, as compared with the average change in cell size from the ancestral state of ˜0.44 fl." |
Entered by |
Uri M |
ID |
110461 |