Dr Kleinman, Hewitt, Articulate, Cyborg, et. al.
What is the minimum genome size capable of reproduction/division/replication (or whatever other term you may deem relevant)?
I ask this question because it seems to me that unless we can specify a precise lower limit on the genetic composition of a life form, we can't calculate the odds of its developing by pure chance. However, we only need one life form to develop by chance before natural selection can start influencing future biological changes, so the simpler the initial life form can be, the more likely it can develop by chance.
Any suggestions/evidence?
Concerning the nature of a replicator. In some pedantic formal senses, one could argue that even an organism is not a replicator because living things do not copy themselves completely de novo, they do need inputs. So what one needs to do is begin with a definition and concept of replicator that seems relevant. The following point was made by Grand(e) and Dawkins does agree with it. An organism is only a replicator in the sense that it replicates its pattern. It takes in relatively disordered material from the outside world and imposes onto that material a copy of itself, meaning a copy of its own pattern or structure or its data. It is a matter of thermodynamics that a free energy supply is needed in order to perform this data copying and all organism must make use of an exogenous free energy supply.
For purposes of biological and biochemical discussion, a replicator is something that takes in relatively simple, disordered, low energy molecules, and makes use of an energy supply to impose a replica of its own pattern onto the arrangement of those atoms and molecules.
I believe that the smallest known replicators are cells. The smallest known cells are a matter of debate but some candidates include intracellular parasites, such as the PPLOs (pleuropneumonia like organisms) which, I believe, have just a few hundred genes. However, such things live as parasites within other cells and enjoy a very stable environment. I believe the smallest known free living bacteria have of the order of 1200-1300 genes but that is just from memory. There was a post on this forum, not long ago, which identified it but I don't remember its name.
In any event, a thousand genes would be about 600k base pairs or more. Whatever figure you choose, it is very high and that is not surprising. A cell has to be a Von Neumann machine, a machine which contains the data needed to describe itself, the programs needed to drive its own operations and the physical actuators needed to put those programs into effect. Any such machine is going to involve a large amount of data and some complicated equipment.
The problem is, "How could both the data and the equipment come into being together?" There are really only three general ways in which this could happen.
1. It all happened by chance. The problem with this is that, even on the most generous of assumptions, such a complex machine could not have arisen by chance.
2. It was designed. The problem with this is that it is not really an answer. Whether the designer was God, as the bible suggests, or an alien, as Crick suggests, the designer must himself have been a machine of great complexity and we must still wonder about where that designer came from. Design is, really, a transfer of the problem.
3. Evolution but this too has problems. Evolutionary theory, as presently constructed, describes how one organism can change into another, it does not describe how organisms, as Von Neumann machines, can arise de novo. The task, therefore, is to so construct evolutionary theory that one can describe an evolutionary process in a purely chemical environment and show how that process can lead to the kinds of phenomena we now identify as biology. That is one aspect of what I work on.
However, note that I just said is that one must describe an evolutionary process that does not begin with a replicator. That seems to be Articulett's problem with me. She believes in Dawkins and I don't. I do not believe that replicators, otherwise known as Von Neumann machines, can lie at the base of evolution. I think the base of evolution is data and data flows. I think that it is the sun's data supply, as well as its energy supply, that drove evolution within a chemical environment and which led to life.
"exactly"? 