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From Molecular Movements To Nanoconstruction Tools
UniSci.com ^ | 07-May-2002

Posted on 05/07/2002 10:19:58 PM PDT by sourcery

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From Molecular Movements To Nanoconstruction Tools

Molecular movements that could evolve into some of the first useful tools at future nanoconstruction sites, where proteins might be shuttled from place to place in tiny chemical wheelbarrows or built upon molecular scaffolding, were seen recently.

The viewers were researchers at Sandia National Laboratories.

Their insights might also help create cell-sized ambulances that could travel to and selectively repair or destroy diseased cells in a human patient's body.

Using improved observational methods, the Sandia team watched as huddled receptor -- or grabber -- molecules on a man-made cell membrane rapidly dispersed across the membrane when they latched onto free-floating ligands (chemical particles), then rehuddled when the ligands were removed.

The behavior mimics biological reactions at the cell level, such as immune system response to viral particles, says Darryl Sasaki of Sandia.

The work is based on previous research at Sandia to create metal-detecting sensors based on chemical recognition events (see this URL.)

"When they bind to the ligand, they each race away from their nearest neighbor," says Sasaki. "When the ligands are removed, they race back to where they were."

The team's observations are published as the cover story in the May issue of the chemical and biophysics journal Langmuir.

Portions of the work were funded by the U.S. Department of Energy's Office of Basic Energy Sciences and through discretionary Sandia research funds.

The researchers created an artificial cell membrane made of "phospholipid bilayers" -- rows of long molecules that, like empty soda bottles bobbing on water, self-organize into an orderly heads-up/tails-down formation.

They implanted this lipid film with lipids carrying tall receptor headgroups -- pincher- or lasso-shaped structures that chemically grab onto free-floating ligands.

Then they watched as the receptors reacted to the addition of metal ions. At rest, the receptor-lipids pooled into aggregate zones between islands of shorter receptor-less lipids. But when metal ions (lead or copper) were added to the solution, the headgroups latched onto the ions, and ZIP!, the receptor-lipids dispersed across the membrane surface as their newly-acquired electrostatic charges caused them to become mutually repulsed.

When the metal ions were removed, the wayward receptor-lipids retraced their steps and regrouped into the same aggregated pools.

The process was performed repeatedly on the same membranes with the same result -- reversible reorganization.

Sasaki believes the trails the receptor-lipids follow and the pools they return to correspond, quite literally, to the paths of least resistance on the membrane's surface -- areas where the lipid film is more liquid than solid, allowing the traveling lipids to flow like water.

Although producing such chemical recognition events on an artificial membrane is not an achievement in itself, examining them with such fidelity is, says Sasaki. The Sandia team used novel microscopy and spectroscopic techniques to make the first documented observations of receptor-lipids dispersing and regrouping.

Fluorescent pyrene tags were attached to the tails of the receptor-lipids to aid in tracking their travels on the membrane. When the receptors were aggregated -- as seen using fluorescence spectroscopy -- the huddles appeared bright. When the receptors were dispersed, their fluorescent signals were dim.

In addition, the team used an atomic force microscope to map the topography of the lipid membrane, identifying locations of the tall receptor headgroups that towered 8 angstroms (about one billionth of a meter) higher than the tops of the membrane lipids.

These observations provided unprecedented clarity about the locations of the receptors in both the dispersed and aggregated states, Sasaki says.

"We've been able to characterize films as they change their properties at both the macroscale and nanoscale," he says. "It's the first time such a dynamic molecular system has been imaged this way."

The observations will provide scientists with a better understanding of chemical recognition on cell-like membrane systems.

Perhaps more tantalizing, he says, are the possibilities the new understandings might bring to the nanotechnology community's growing toolbox.

"The idea of using chemical recognition to form specific structures in the membrane may be a potent tool to aid in the development of controllable nanoscale architectures," says Sasaki.

If receptor headgroups propelled to and fro by chemical recognition events can be enlisted to hoist molecules and proteins and deposit them in planned locations, he says, designing and building nanosized structures, such as single-molecule-wide wires, might be possible.

And the receptor-lipids' tendencies to follow preferred pathways offers promise for engineered construction of nano-railroad tracks along which a variety of molecular cargos could be recurringly moved, perhaps aboard motor-protein railcars, he says.

If researchers can learn to control these routes, two- or three-dimensional lipid scaffolds might be designed upon which proteins could be laid down to build nanoscale electronic or photonic circuits.

Nano-switching structures might be designed that self-construct and self-destruct based on chemical recognition events.

And researchers have long sought to build cell-like pods that, when injected into a person's blood stream, would recognize diseased cells and release a drug to destroy those cells selectively.

"By harnessing even a fraction of the capability of cellular membrane recognition systems, it may be possible to build unique sensor systems that are not only rapid and specific in response but also are innately biocompatible," adds Sasaki.

Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin company, for the U.S. Department of Energy. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies, and economic competitiveness. - By John German

Related website:

Sandia National Laboratories


[Contact: Darryl Sasaki, John German]

07-May-2002

 

 

 

 

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TOPICS: Miscellaneous; News/Current Events
KEYWORDS: crevolist
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1 posted on 05/07/2002 10:19:58 PM PDT by sourcery
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To: sourcery
Isn't Sandia a weapons laboratory?
2 posted on 05/07/2002 10:33:05 PM PDT by FormerLurker
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To: FormerLurker
Yes. And I'd say that was a pertinent observation, actually. Who knows what we're not being told?
3 posted on 05/07/2002 10:35:19 PM PDT by sourcery
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To: sourcery
The future is going to be and exciting and scary place- and it's almost here.
4 posted on 05/08/2002 6:28:31 AM PDT by Prodigal Son
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To: Physicist; Doctor Stochastic; VadeRetro; AndrewC; ImaGraftedBranch; apochromat; RightWhale...
FYI
5 posted on 05/08/2002 9:01:53 AM PDT by sourcery
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To: sourcery
The researchers created an artificial cell membrane made of "phospholipid bilayers" -- rows of long molecules that, like empty soda bottles bobbing on water, self-organize into an orderly heads-up/tails-down formation.

. . .

The process was performed repeatedly on the same membranes with the same result -- reversible reorganization.

Astounding numbers of people will tell you this can't happen without The Designer. Oh, wait! The experiment had a designer. Yes, but the designer of this experiment doesn't tell the molecules where to go.

6 posted on 05/08/2002 9:43:13 AM PDT by VadeRetro
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To: VadeRetro
Oh, wait! The experiment had a designer. Yes, but the designer of this experiment doesn't tell the molecules where to go.

Welcome to science, almost.

Although producing such chemical recognition events on an artificial membrane is not an achievement in itself, examining them with such fidelity is, says Sasaki.

Tide™ or Cheer™, water and Mazola™ corn oil display some of the same "self-organizeing" ability.

7 posted on 05/08/2002 11:25:46 AM PDT by AndrewC
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To: AndrewC
Tide™ or Cheer™, water and Mazola™ corn oil display some of the same "self-organizeing" ability.

Only not so easily reversible. Thank you for allowing my main point to pass uncontested. The deliberate misconstruction of the Second Law used to support creationism rules out many things known to occur and is clearly fallacious.

8 posted on 05/08/2002 3:34:28 PM PDT by VadeRetro
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To: VadeRetro
The deliberate misconstruction of the Second Law used to support creationism rules out many things known to occur and is clearly fallacious.

Boy that is a circuitous route to point out something akin to sugar crystallizing out of a sugar solution. That is quite a bit different than a house crystallizing out of a load of bricks, or a cell organizing itself from a soup.

9 posted on 05/08/2002 4:32:49 PM PDT by AndrewC
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To: AndrewC
Boy that is a circuitous route to point out something akin to sugar crystallizing out of a sugar solution. That is quite a bit different than a house crystallizing out of a load of bricks, or a cell organizing itself from a soup.

True, there are no chemical reactions in the crystallization of sugar from solution. That makes it qualitatively different from the processes in the main article or anything in abiogenesis.

10 posted on 05/08/2002 4:37:50 PM PDT by VadeRetro
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To: AndrewC
Note: Astounding numbers of people will tell you this can't happen without The Designer. Oh, wait! The experiment had a designer. Yes, but the designer of this experiment doesn't tell the molecules where to go.

The deliberate misconstruction of the Second Law used to support creationism rules out many things known to occur and is clearly fallacious.

There are still people who wittingly or not tout a version of the 2nd Law of Thermodynamics that characterizes any seeming increase in "order" impossible without intelligent direction. They remain wrong.

11 posted on 05/08/2002 4:43:42 PM PDT by VadeRetro
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To: VadeRetro
so, can i whip up a batch of gold with this stuff...or maybe do a weird science thing?
12 posted on 05/08/2002 4:50:20 PM PDT by galt-jw
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To: VadeRetro
True, there are no chemical reactions in the crystallization of sugar from solution. That makes it qualitatively different from the processes in the main article

I disagree with that, both involve the breaking/creation of ionic bonds.

13 posted on 05/08/2002 4:53:41 PM PDT by AndrewC
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To: sourcery
world_cup_conspiracy
14 posted on 05/08/2002 4:53:57 PM PDT by It'salmosttolate
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To: galt-jw
so, can i whip up a batch of gold with this stuff...or maybe do a weird science thing?

Weird science, maybe. If you want to transmute elements, talk to medved's friend, Dr. Robert Bass, one of the premier mathematicians in the country.

</sarcasm>

Transmutin' elements is a nuclear reaction thing.

15 posted on 05/08/2002 4:54:13 PM PDT by VadeRetro
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To: AndrewC
I disagree with that, both involve the breaking/creation of ionic bonds.

Sucrose ionizes in solution? New one on me.

16 posted on 05/08/2002 4:55:10 PM PDT by VadeRetro
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To: VadeRetro
2nd Law of Thermodynamics that characterizes any seeming increase in "order" impossible without intelligent direction. They remain wrong.

True. However, it does "prohibit" some order/disorder from "naturally" occuring. Can you uncook an egg?

17 posted on 05/08/2002 4:58:02 PM PDT by AndrewC
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To: AndrewC
True. However, it does "prohibit" some order/disorder from "naturally" occuring. Can you uncook an egg?

It may be tough to uncook an egg, but the standard 2nd Law isn't about order. Thermodynamic entropy isn't logical entropy. It doesn't explicitly prohibit anything about order and doesn't talk about "natural" versus "unnatural." That's because if you can do something, it's natural. (If you can't do it, it may be unnatural or it may just be hard.)

18 posted on 05/08/2002 5:02:47 PM PDT by VadeRetro
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To: VadeRetro
but the standard 2nd Law isn't about order.

You got it. It is about heat flow.

19 posted on 05/08/2002 6:52:05 PM PDT by AndrewC
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To: VadeRetro
It doesn't explicitly prohibit anything about order and doesn't talk about "natural" versus "unnatural."

Actually, an excellent point, I should have used "spontaneous"(whatever that means).

20 posted on 05/08/2002 6:55:33 PM PDT by AndrewC
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