It depends on your goal. What a lot of non-biologists don’t realize is that the ladder keeps going after species down through subspecies and beyond. In terms of bacteria, which do undergo horizontal gene transfer, we generally refer to them by their strain in addition to their species. The strain tells you where you got the culture, and, in lab settings, what it’s used for. CAMP Staphylococcus aureus is used for the CAMP test, for example—because you know where the strain comes from, you can be reasonably confident that it will behave like other bacteria of that strain. If you have a different strain of Staphylococcus aureus, you expect that it would probably also work for this test, but by the time you get as far away as Staphylococcus epidermidis, it’s quite unlikely that you could use it successfully for the CAMP test.
In theory, you could do a DNA extraction and see if your organism has the right genes to do what you want. In practice, it’s usually cheaper and easier to use a strain that you know has the right characteristics—even among bacteria with 20 minute generation times, genetic drift is still pretty slow, and what little selective pressure there is is pushing for the strain to keep its useful properties (i.e. we throw away bad cultures).
The phylogenetic tree model is used because it makes useful predictions about the world, not because it represents the way the world actually is.
The phylogenetic tree model is used because it makes useful predictions about the world, not because it represents the way the world actually is.
Yes. I’m not denying that such models do have use. But on the other hand people outside of biology do often consider them to represent the world as it actually is.
It depends on your goal. What a lot of non-biologists don’t realize is that the ladder keeps going after species down through subspecies and beyond. In terms of bacteria, which do undergo horizontal gene transfer, we generally refer to them by their strain in addition to their species. The strain tells you where you got the culture, and, in lab settings, what it’s used for. CAMP Staphylococcus aureus is used for the CAMP test, for example—because you know where the strain comes from, you can be reasonably confident that it will behave like other bacteria of that strain. If you have a different strain of Staphylococcus aureus, you expect that it would probably also work for this test, but by the time you get as far away as Staphylococcus epidermidis, it’s quite unlikely that you could use it successfully for the CAMP test.
In theory, you could do a DNA extraction and see if your organism has the right genes to do what you want. In practice, it’s usually cheaper and easier to use a strain that you know has the right characteristics—even among bacteria with 20 minute generation times, genetic drift is still pretty slow, and what little selective pressure there is is pushing for the strain to keep its useful properties (i.e. we throw away bad cultures).
The phylogenetic tree model is used because it makes useful predictions about the world, not because it represents the way the world actually is.
Yes. I’m not denying that such models do have use. But on the other hand people outside of biology do often consider them to represent the world as it actually is.
I think we’re in agreement here.