More recently, however, it has become appreciated that
after gene duplication, the resulting duplicates are often «subfunctionalized» and accumulate complementary mutations: the two genes together perform the function formerly carried out by a single ancestral gene.
After the gene was duplicated — now I just mention [ed] that duplication takes place all of the time, they are common sort of genetic accidents — but after the genes were duplicated, now there was the opportunity to divide the labor that was once stored by a single gene; now divide that labor into two genes, and what happened is, a series a mutations have taken place that has optimized each role — that the regulatory sensor role of GAL3 and the enzymatic - converting role of
After the
gene was duplicated — now I just mention [ed] that
duplication takes place all of the time, they are common sort of genetic accidents — but
after the genes were duplicated, now there was the opportunity to divide the labor that was once stored by a single gene; now divide that labor into two genes, and what happened is, a series a mutations have taken place that has optimized each role — that the regulatory sensor role of GAL3 and the enzymatic - converting role of
after the
genes were duplicated, now there was the opportunity to divide the labor that was once stored by a single
gene; now divide that labor into two
genes, and what happened is, a series a mutations have taken place that has optimized each role — that the regulatory sensor role of GAL3 and the enzymatic - converting role of GAL1.
The upper panel shows the distance of read pairs; the insertion of the region probably occurred
after the
duplication of the
gene into the subtelomeres, as all reads from the
duplications are connected over the insertion.