Proteins are actually
complex molecules made up of a chain of various amino acids, and they are abundant in the plant kingdom.
Not exact matches
Since I've never seen a
molecule, or watched them connect and form
complex matter, I guess that's faith, but its the paradigm that
makes sense to me.
It originates in a
complex and indirect process in which the
molecules in the tie
make an impression on the experiencing subject.
There can still be local decreases in entropy, as happens with all living organisms while they are still alive and in some other situations as, for example, when
complex organic
molecules are
made from their constituent atoms in outer space, as now seems to be the case.
I - REMOVE contains Litramine ™, a patented fiber
complex made from prickly pear cactus — manufactured using a proprietary technology — that allows the ingredients to bind to fat
molecules from ingested food and
makes them too large to be absorbed, so the body absorbs fewer calories from fat.
As I Just responded to EdT I'll respond to you — it's essential in your body to build proteins and
complex molecules... since you don't want chemicals in your body you should just stop existing because chemical reactions are what
makes everything happen, along with physics.
So he
made use of helical
molecules available in the laboratory to study the reversible uncoiling / coiling motions associated with the binding and release of metal ions, eventually orchestrating transitions of helical
molecules into linear
complexes and back again.
It was a color that both men knew well — the color of
complex polymers
made up of organic
molecules.
The idea of
making transgenic drugs occurred to a number of scientists during the mid-1980s, when the new industry began to wrestle with the challenge of
making complex proteins: ensuring that these big
molecules were folded into the proper shape and that they had all their sugars in the right places on the surface of the proteins» amino acids.
When they
make teleportation work, it will not be this sexy thing where you get into a booth and go from New York to L.A. in a split second; it will be that they get a
complex molecule to go two feet.
Until now,
complexes exhibiting multiple bonds between thorium and arsenic were limited to spectroscopic experiments carried out at temperatures close to that of interstellar space (3 - 10 Kelvin) where only a few
molecules were
made at a time.
About four billion years ago, the strength of those hydrogen - carbon bonds allowed increasingly
complex molecules — amino acids, DNA, and proteins — to form from the primordial soup,
making life possible.
And there is no reason to think that the R. eutropha could not be
made to generate other products — perhaps
complex hydrocarbon
molecules like those found in fossil fuels or even the whole range of chemicals currently synthesized from polluting resources, such as fertilizers.
«
Molecule -
making machine simplifies
complex chemistry.»
More than just riding herd on
molecules, such subtle forces
make it possible for structures to assemble themselves into an ever more
complex hierarchy.
«Dr. Burke's research has yielded a significant advance that helps
make complex small
molecule synthesis more efficient, flexible and accessible,» said Miles Fabian of the National Institutes of Health's National Institute of General Medical Sciences, which partially funded the research.
Frey and his colleagues
made use of mathematical models to analyze the
complex interplay between ecological factors and population dynamics, and were able to demonstrate that populations can indeed respond in a coordinated fashion to chemical information even when the signal
molecules are generated by only a subset of the cells.
Given the potential for living systems to produce highly
complex chemical compounds, researchers working with Michelle C.Y. Chang at the University of California, Berkeley (USA), aimed to manipulate the biosynthetic machinery in cells to use simple fluorinated building blocks to
make new organofluorine target
molecules.
Larger and more
complex molecules have a correspondingly more -
complex signature,
making them harder to detect.
An approach to an understanding of the electronic structure, geometrical preferences, and reactivity of these
complexes may be
made if the
molecule is «decomposed» conceptually into a metal fragment, MLn, and a ligand.
«Lignin is a
complex aromatic
molecule that is mainly burned to
make steam in a biorefinery plant, a relatively inefficient process that doesn't create a lot of value,» says Birgitte Ahring, Ph.D., the principal investigator on the project.
Combining these two elements to
make a compact frequency comb generating long - wavelength light in the terahertz range can produce a useful source of radiation for a variety of applications in imaging, diagnostics, remote sensing, and identifying molecular «fingerprints» of extremely
complex molecules.
Unlike Hinton's approach of starting with a highly simplified model and gradually
making it more
complex, Markram wants to include as much detail as possible from the start, down to individual
molecules, in hopes that full functionality and consciousness will emerge.
The structure showed that α - actinin forms a symmetrical
complex made of two
molecules.
However, to date, no one has actually been able to
make complex electrical circuits using
molecules.
The near - infrared mapping spectrometer on NASA's Galileo spacecraft found evidence of the presence of
molecules made of oxygen, carbon, sulfur, hydrogen, and nitrogen on Europa, and a hint of the presence of a class of
complex organic compounds called tholins which may be driven by pre-biotic processes (more).
A polysaccharide is a
complex carbohydrate
made up of sugar
molecules.
This discovery is momentous because dwarf galaxies like the LMC tend to have a lower abundance of the heavy elements that
make up
complex organic
molecules — most importantly, oxygen, carbon, and nitrogen.
Nematode messages get even more
complex by combining two or more different
molecules, just like combining different words in a sentence
makes for more
complex meaning.
Such a similarity
makes TNFΔARE a unique model of a
complex human pathology appropriate for the simoultaneous testing of novel therapeutics and small
molecule inhibitors on two different pathologies.
Starch or amylum is a polysaccharide, a digestible
complex carbohydrate
made of thousands of glucose
molecules [1].
The rest of the carbohydrates in banana are
complex carbohydrate
molecules, which are
made up of several smaller sugar
molecules bonded together to form large chains.
Complex carbohydrates, also called starches, are
made up of polysaccharides — complicated chains of sugar
molecules.
It is
made up of a unique
complex, which includes their trademarked Creatine Magnapower, Creatine AKG, Creatine Anhydrous (creatine with the water
molecule removed), and Crea - Trona.
The principal constituent of the agave root is starch, similar to the starch in corn, and a
complex carbohydrate called inulin, which is
made up of chains of fructose
molecules.
The starchy carbohydrates in rutabagas and other foods such as potatoes or grains are called polysaccharides, which means they're
made up of basic sugar
molecules combined into large and
complex molecules.
These
complex carbohydrates are a dietary starch
made of sugar
molecules that are strung together like a necklace, or branched like a coil.
They are
complex carbohydrates
made up of starch (long chains of sugar
molecules) and fiber.
We are discussing the atmosphere here, not isolated species of
molecules and it is the collision interactions of the different
molecules that
make the real spectrum of the entire atmosphere much more
complex.