Entering edit mode
7.8 years ago
fengbo
▴
30
I test 3 genome. Human, Yeast, E.coli All of them has the same result, G% = C%, A% = T%
5
Entering edit mode
7.8 years ago
dariober
15k
Isn't your finding the Chargaff's rules?
1
Entering edit mode
7.8 years ago
Carlo Yague
8.9k
If on one strand of the genome you have about the same number of G and C, that means that the number of G on the + strand is about the same as the number of G on the - strand.
Now imagine that we start with a genome with more of G on the + strand. My guess is that due to multiple events of chromosome rearrangement (inversions) during evolution, the number of G is slowly reequilibrated until you have about the same number of G on both strands, meaning that you have about the same number of C and G on the same strand.
intial genome :
GGGGAGGGAGTGGCGGGGG (+) -> 1C and 15G
CCCCTCCCTCACCGCCCCC (-)
inversion -> toward equilibrium
AGGGG | CCCTCACCGCCCCC (+) -> 11C and 4G
TCCCC | GGGAGTGGCGGGGG (-)
inversion -> toward equilibrium
AGGGGCCCTCACCGC | GGGG (+) -> 7C and 9G
TCCCCGGGAGTGGCG | CCCC (-)
0
Entering edit mode
7.8 years ago
beausoleilmo
▴
600
I would guess that this is because A is always paired with T and that C is always paired with G: https://en.wikipedia.org/wiki/DNA
Adenine pairs with thymine and guanine pairs with cytosine. It was represented by A-T base pairs and G-C base pairs
It might not perfectly match because there might be some imperfect sequencing or something similar.
1
Entering edit mode
If you take into account both strands of the genome, then your reasoning is correct and we would expect to have exactly the same number of G and C because of base pairing. However the answer might not be so simple because I think fengbo is looking at only one strand of the genome.
Similar Posts
Loading Similar Posts
Traffic: 2001 users visited in the last hour
Use of this site constitutes acceptance of our User Agreement and Privacy Policy.
Powered by the
version 2.3.6
version 2.3.6
Genome Seq is a single DNA.