Posted on 05/26/2009 7:15:16 PM PDT by GodGunsGuts
Worlds Smallest Rotary Engine Highlighted
May 25, 2009 The smallest rotary motor in the world keeps your body humming. It also keeps bacteria, plants, polar bears, giraffes, salmon, sea urchins and just about everything else humming. Its a nano-wonder called ATP synthase. This molecular motor has been reported many times in these pages, but not recently; whats new? The state of our knowledge about ATP synthase was summarized in a paper in Nature by three German scientists.[1] Basically, its a fascinating machine, but theres still a lot more to learn.
Its not just figurative speech to call ATP synthase a rotary motor. It actually generates torque (the subject of the paper in Nature). The authors compared it to a Wankel engine the kind that powers a Mazda car, and used the word motor 30 times in the paper. They said the first studies of this molecular machine revealed it resembling a three-chambered molecular Wankel engine, therefore strongly suggested that rotation, rather than alternation, was natures choice, and that the synthesis of ATP might be mechanically driven by rotation.... Synthesis of ATP (thus the name) is its job. ATP (adenosine triphosphate) is the energy currency for all of life. The ATP molecule is a nucleotide with extra phosphate groups attached. It requires energy to attach the phosphate groups; energy is liberated when they are removed. Most molecular processes in the cell (and in all of life) use that liberated energy that comes from ATP. Plants use it for photosynthesis; animals use it for respiration. Quadrillions of these rotary engines in a human body manufacture ATP constantly, day and night, to keep those processes operational. If they suddenly stopped, you would be dead before you hit the floor.
ATP synthase has several parts; a rotor, a stator, and a camshaft. Its actually two motors in one. The top half (called F1) is a three-chambered assembly factory that pushes the phosphates onto the nucleotide. Three pairs of lobes in this stepping motor turns loading ADP and phosphate, assembling them, and releasing ATP molecules. They are powered underneath by a waterwheel-like rotating motor that runs on proton motive force (see 12/22/2003). Taking advantage of the ever-present Brownian motion and electrostatic interactions, the protons turn the wheel. This simultaneously turns a coupled camshaft-like mechanism that protrudes into the top half, which transfers the torque to the ATP-assembling lobes. The engine can work in either direction, constructing ATP molecules or breaking them down, depending on the concentration gradient.
Scientists have been intrigued by the mismatch of gear ratios between the top and bottom halves of the engine. In some animals, for instance, there are 11 units in the rotating half, but 3 in the top half. This implies some transfer of elastic energy in the camshaft. Whatever is happening, it works: scientists say this machine approaches 100% efficiency. For a taste of the discussion from the paper for those who know physics, they are discussing the match between the energy needed for ATP hydrolysis and the mechanical work done by the motor:
The match implies 100% efficiency for the conversion of the Gibbs free energy of ATP hydrolysis into mechanical work performed on the elastically strained filament. This is not surprising given the approximate thermodynamic equilibrium of the enzyme (long)-filament construct. It is more informative to say that there is no slip between ATP hydrolysis in F1 and rotation in FO under the given conditions.2 Rotary slip in FOF1 in chloroplasts and bacteria has been detected, but only under single-site occupancy, that is, at nucleotide concentrations significantly below 100 nM. The momentary torque can be larger (for example, during a particular power stroke) or smaller (during a kinetic dwell) than its equilibrium average. This may account for the still puzzling independence of the torque from the ATP concentration in the nanomolar to millimolar range (see ref. 2 for a review). It is worth mentioning that the other technique for determining the torque from the rate of rotation underestimates its magnitude because it neglects viscous flow coupling between the filament and the enzyme-supporting surface.
The mismatch of gear ratios may actually make the machine more efficient. It has also shown that an elastic power transmission is indispensable for a high rate of coupled turnover under load, they said. It increases the rate by several orders of magnitude over that of a rigidly coupled double motor..... The elastic power transmission both increases the kinetic efficiency of the coupled motors ... and allows the double motor to function with different gears in different organisms.
In conclusion, they noted five questions about ATP synthase that remain to be answered since the true mechanical nature of this rotary engine came to light around 1997 (and won its discoverers the Nobel Prize). Surrounding those questions were expressions of marvel at the design of this machine:
ATP synthase (FOF1) is a molecular machine that combines the electrical, mechanical and chemical aspects of enzyme function. These are neatly separated, readily attributed to its different subunits, and reasonably well understood thanks to a wealth of structural and kinetic data. However, understanding the enzyme fully at a molecular level will require considerable efforts, both experimental and theoretical. There are five outstanding issues.... Only when we have solved these problems will we come close to a full understanding of this remarkable piece of cellular machinery.There are other examples of rotary engines in living cells, including the bacterial flagellum (which is an order of magnitude larger), and helicases (the machines that unwind DNA). There are also two other spinoffs of ATP synthase (if youll pardon the pun), built on the same principle, that perform other functions (see 02/24/2003 and 12/22/2003 for information on of them). Most other cellular machines, like the actins and kinesins, operate in a linear fashion. The coupled operation of two rotary motors, one electrical (FO) and one chemical (F1), is unique, the authors said. In FOF1-ATPase there is no fine-tuning of the two stepping motors;3 instead, their coupled operation is smoothed and speeded by elastic power transmission, which accounts for its high kinetic efficiency and robust function.. Scientists used to believe life was incapable of utilizing the wheel. Now they know better. Speaking of elastic power transmission producing high kinetic efficiency and robust function, they mentioned something that should tempt a biophysicist to investigate: Other nanomotors probably share this feature.
1. Junge, Seilaff and Engelbrecht, Torque generation and elastic power transmission in the rotary FOF1-ATPase, Nature 459, 364-370 (21 May 2009) | doi:10.1038/nature08145.
2. F0 refers to the rotating part of the machine that runs on proton motive force. F1 refers to the top half that synthesizes ATP.
3. They refer not to design principles but to the non-integer gear ratio between the two parts which, as they explained, actually increases the yield by an order of magnitude. See also the 08/10/2004 entry: ATP Synthase: Another Unexpected Case of Fine Tuning.
We could form a pretty large stack of scientific papers with the following characteristics: (1) they express marvel at the engineering design of living things, and (2) they say absolutely nothing about evolution. This paper was another prime example. Somebody should make a project of that and carry the stack to school board meetings where the NCSE is giving their usual spiel that nothing in biology makes sense except in the light of evolution.
The more you know about ATP synthase, the more you will be led to conclude that this is a wondrous device showcasing intelligent design. Its mechanically perfect, irreducibly complex, 100% efficient, absolutely necessary for life, and capable of generating awe among scientists who study it. Notice that it was discovered 138 years after Charlie dreamed up his little myth about how design could invent itself. Next headline on: Cell Biology Physics Intelligent Design Amazing Facts
Ping!
Ping!
It all happened by chance and/or accident (with the addition of “millions of years”)... doncha know... :-)
BFLR. Dinner time now.
BFLR?
BFLR = Bump For Later Reading.
I gotta go to dinner before Mrs. MAG gets upset. You DO NOT want to know what happens then.
BTW, thanks for posting these articles. Every time I come to one of your threads my faith in God and His Son is reinforced by the debate here.
Semper Fi and amen.
The fact that the human mind dreamed up a device that so closely resembled this God-made phenomenon proves to me that God made our minds as well.
Natural and scientific law IS God’s law. Those who do not admit this will live life and end life in abject spiritual poverty.
I refer to my Mrs. as “She who must be obeyed.” I say that to let YOU KNOW that I KNOW a THING OR TWO about “WHAT HAPPENS THEN”!
All the best—GGG :o)
Genesis 1:27 God created man in his own image, in the image of God he created him...
Per our recent discussion of miniature marvels.
Bflr
Thanks for the ping!
One of the arguments used against intelligent design has been: “It’s not well designed; I could have done a better job.” Of course, these speakers never created life - so their words ring hollow to me.
At one point I thought this article might go in the same direction as it noted a mismatch between gears. Then they concluded the mismatch was actually beneficial. Perhaps it’s a design feature that can be incorporated in human designs. It wouldn’t be the first time than man learned from nature.
That is a beautiful image; clearly the handiwork of God. Molecules would never join naturally in a manner to look like that.
WHICH "Man"....the first "Man"? Homo habilis was one "U-G-L-Y, you ain't got no alibi, you ugly...yeah yeah, you ugly".....kinda ugly summabeyotch with a high protruding brow and such. Does that mean God is equally as ugly as Homo habilis?
Just because something is extremely small, but highly functional and efficient, doesn't mean anything in the science world. It means it's extremely small, fuinctinal, and efficient.
< sarc >This is SO obvious. The Big Bang and zillions of years of random chance and viola; a 100% efficient microscopic motor. That surely proves there is no Creator. < /sarc >
How in the world could this possibly “evolve”? I bet we couldn’t make one of these even though we know exactly what it’s made of, what it’s for, and how it operates.
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