「HYDROGEN」の共起表現一覧(1語右が「bonds」)
該当件数 : 53件
Circular | hydrogen bonds, Nature, 1979 |
"CH/pi | hydrogen bonds in crystals". |
These | hydrogen bonds have special role in the proteins and c |
These | hydrogen bonds have structural role in the proteins an |
Hydrogen bonds are shown as yellow dotted lines. | |
Hydrogen bonds that stabilize the tertiary structure o | |
Hydrogen bonds between binding pocket residues and pep | |
Hydrogen bonds that stabilize the secondary structure | |
Secondary | hydrogen bonds (yellow dots) stabilizing an alpha-heli |
Zundel polarizability, the property of | hydrogen bonds to have hydrogen protons shifted by mea |
Protons are transferred across a series of | hydrogen bonds between hydronium ions and water molecu |
As | hydrogen bonds are not covalent, they can be broken an |
In the secondary structure of proteins, | hydrogen bonds form between the backbone oxygens and a |
In DNA, these bases form | hydrogen bonds with their complementary pyrimidines th |
by a common rotating pattern kept together by | hydrogen bonds, (see alpha-helix). |
a triple strand of cellulose, showing the | hydrogen bonds (cyan lines) between glucose strands |
plained by the fact that it forms very strong | hydrogen bonds with water: the energy of DDAO - water |
Stable DNA-DNA | hydrogen bonds are only formed when the primer sequenc |
Tertiary | hydrogen bonds can be viewed as a network enabling fas |
A few percent of | hydrogen bonds connect distant amino acid residues and |
Here, purines form | hydrogen bonds to pyrimidines, with A bonding only to |
The -OH groups on resorcinol form | hydrogen bonds to target molecules holding them in the |
can stick to each other by means of the weak | hydrogen bonds between molecules. |
y intermolecular forces, such as ionic bonds, | hydrogen bonds and van der Waals forces. |
ranopilite, the chains are linked directly by | hydrogen bonds, as well as to interstitial H2O groups. |
obases on each strand can be held together by | hydrogen bonds in the major groove. |
because they are stabilized by intramolecular | hydrogen bonds, as was first characterized by Linus Pa |
tion, with discrete interactions representing | hydrogen bonds modeling the effects of internal confor |
f PVPP appears to be through the formation of | hydrogen bonds between its carbonyl groups and the phe |
with N-terminal domain through two main-chain | hydrogen bonds between β11 and β2 and is thereby part |
l chemistry because of their tendency to form | hydrogen bonds both as donor and acceptor. |
Tertiary | hydrogen bonds (yellow dots) in the closed state of Cy |
Low-barrier | hydrogen bonds and unusual pKa values for the catalyti |
er by an extensive two-dimensional network of | hydrogen bonds between the two compounds, reminiscent |
he question of whether deuterium could affect | hydrogen bonds between the odorant and receptor. |
ary DNA or RNA strands that are connected via | hydrogen bonds are called a base pair (often abbreviat |
slinking process was the strengthening of the | hydrogen bonds, which made the material resistant to w |
tly moving in relation to each other, and the | hydrogen bonds are continually breaking and reforming |
Thus, the Htt molecule strands will form | hydrogen bonds with one another, forming a protein agg |
t of experimental data has been recovered for | hydrogen bonds in water, for example, that provide goo |
specificity occurs due to the high number of | hydrogen bonds between substrate and enzyme; direct or |
ponent (calcium chloride CaCl2) to occupy the | hydrogen bonds of the amide groups. |
fiber structure and enable the intermolecular | hydrogen bonds to be created and thus greatly increase |
of the enzyme or a specificity pocket through | hydrogen bonds, hydrophobic interactions, temporary co |
whose conformation is defined by a number of | hydrogen bonds and small pieces of anti-parallel beta- |
as commonly thought, due to the difference in | hydrogen bonds (there are three hydrogen bonds between |
changed to liquid water, i.e., until all the | hydrogen bonds between the water molecules in ice are |
ovide a direct information about formation of | hydrogen bonds between amid protons of protein to phos |
erentially seeking out each other and forming | hydrogen bonds, creating stable, at least partially do |
on DNA viscosity confirming the existence of | hydrogen bonds between the purine and pyrimidine bases |
recognized by having a repetitive sequence of | hydrogen bonds in which the donor residue is three, fo |
y interactions of those sidechains: 1) making | hydrogen bonds between backbone peptides to form α-hel |
group at position 2 forming 3 intramolecular | hydrogen bonds, eliminating the major difference betwe |
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