I doubt that very much based on the cell today. What we need to do to determine what it took is to look at what we have now as the bottom line for what constitutes life. There's no reason to think that the first cell was vastly less complex than what we have today.
Upon what basis do you assert this?
The cell today is a very complex structure but within it exists very few redundancies or excess parts that are unneccesary for it's function as a living unit.
Agreed.
Most cytologist will tell you that the cell is the basic structure for life.
I'm sure cytologists would
That's the old "Doctor, I have a headache" issue for you... the cause of your headache is directly linked to the nature of the doctor's specialization.
Anyway here's some basic defintions to consider:
http://en.wikipedia.org/wiki/Life
Thanks. From this link;
"An entity with the above properties is considered to be a
living organism, that is an organism that is alive hence can be called a life form. However, not every definition of life considers all of these properties to be essential. For example, the capacity for descent with modification is often taken as the only essential property of life. This definition notably includes
viruses, which do not qualify under narrower definitions as they are
acellular and do not metabolize."
http://encarta.msn.com/dictionary_1861696586/life.html
The thing we need to do here is to look at the cell and see just how much we could take away and still have life.
I disagree. The object of abiogenesis is to conceptualize a process which results in a protobiont, a self-replicator which can originate from natural conditions found on the young Earth. To start with a full-blown cell and work backwards is, well, backwards...
To do that all we need to do is go look at the simplest cells i.e. the microbe which doesn't even have a nucleus. Inside a microbe or bacteria there are massive complexities that allow it to survive as a "living" entity in it's environment. I don't see how you could get more basic than the bacteria and still call it life. Certainly virus' are not life neither is prions.
Agreed. But they
are simple self-replicators, albeit ones which are dependant upon other cells for their perpetuation...
You are describing an intelligently manipulated scenario not a naturally occurring one.
No, I'm describing an experiment which replicates a naturally occurring scenario, and a very simple one at that. It requires 1) water 2) light 3) heat 4) rock (anatase), and 5) nucleobases (be they generated by the Miller-Urey conditions, or from the half-dozen other discovered natural means by which you can get to the same end-products).
The fact that a researcher put these ingredients together again doesn't preclude their being commonly present in a primordial Earth... What's more,
all work done in abiogenesis is going to be 'manipulated' in the sense that you use the word here, as researchers are an oddly impatient lot, and don't want to wait around a few hundred years for the results of a full-blown 'field test'. Quirky lot, aren't they?
Natural occuring end products outside of living systems will produce both levo and dextro.
Yes. They can be racemic mixtures (1:1 levo to dextro-rotary), or a blend with an enatiomeric enrichment of one or the other.
In the few and rare places on earth where we find naturally occuring necleotides we always see both produced.
True but merely having both present isn't particularly significant, if one or the other chiral species is present in some excess... Yes, both are always produced, but not always in equal quantities. Once an enrichment of one or the other enantiomer occurs, further concentration of that enantiomer is a process that can occur under relatively common conditions. Do you remember from your chemistry days most common lab practice for further enhancing enatiomeric enrichment? Simple recrystalization. In nature, one could envision water over an anatase (or other) substrate, and tidal cycling or some other common cyclic change in the water line causing a successive solvation and drying of the material on the mineral substrate, which in turn would drive enrichment.
I used the term accidental to describe a non-manipulated by an intelligent designer modality.
Oh. OK. Couldn't we rather use 'accident' to describe just, you know, accidents?
There is absolutely no evidence to suggest life started in a fortuitous way.
I agree. Fortune had nothing to do with it, and we have little evidence of how life started in any sense, fortuitous or not...
Statisticaly analysis alone precludes that life as we know it could have resulted from such beginnings.
Again, without positive knowledge about what the first protobiont was, or a researcher's hypothetical version of those events, you have no basis upon which to found a statistical analysis of, well, anything to do with abiogenesis... Regardless, if you have original statistical input to offer, I'd like to read it.
As a matter of fact just producing a simple protein from randomly occurring molecules would be very hard to do.
Again with the 'randomly occurring'... Why must you include this provision? Proteins in living systems form from amino acids upon the instructions provided by genetic coding. What does the liklihood of a particular protein forming in an Erlenmeyer flask from a mixture of amino acids, have to do with abiogenesis, which doesn't contemplate any such scenario?
Think about what you are saying. Look around and see what exists. If life could have arose from natural pools of organic compounds and a lightning strike we would still see it happeing now.
Not in an oxygen-rich atmosphere and a planet teeming with modern biological entities, you wouldn't. Today's Earth is nothing like the earth of 3.5 billion years ago. Would
Sure it does, for life to exist it must be able to do three basic things. It must bring in nutrients , metabolize those nutrients, reproduce, communicate within itself and do all that within a functional cell wall or membrane ( that is a whole different problem in and of itself there ).
Your modern bacterium does a whole lot more than that... or rather, it does that, but with a whole lot more moving parts than are strictly necessary.
The simplest cell complexity wise makes an airplane look like a rock.
I've seen some pretty complex rocks, and some pretty simple flying machines... I found this in one of the links you offered;
What are your thoughts? Are you in your arguments here, trying to make that too-big leap from simple chemcials, to bacteria? If you are going to argue against abiogenesis, shouldn't your statistical analysis treat the right column, rather than the misrepresentation of abiogenesis depicted on the left? It seems clear that you are arguing against what you
think abiogenesis is, rather than what it actually is (thus far)...
For you to have any validity at all you must show using available evidence that a fortuitous origin was possible. No one has done that to date.
Because abiogenesis is an imcomplete hypothesis. And again, chemical reactions are not fortuitous. Either the starting ingredients and the conditions for reaction are present, or they are not.
Not true my friend. The mainstream paradigm fully accepts abiogenesis as an origin for life.
Nonsense. Find me a direct quote which says any such thing. At this point, any scientist who asserts anything beyond 'its a work in progress' with respect to abiogenesis is either a loon, or has forgotten some very basic tenets about what comprises a scientific theory...
Here is some articles showing just how much they believe in it.
http://www.talkorigins.org/faqs/abioprob/
Your link above is a collection of links which refute crationist arguments against abiogenesis (mostly statistical arguments)on their own basis, mostly because creationists make some of the same faulty assumptions that you are making here. Please, find me one quote from any scientist within those links which evidences a positive assertion that abiogenesis is complete and correct. Happy hunting!!
