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Structural Modifier
Known as:
Chemical Modification
, STRUCTURAL MODIFICATION
A molecule that binds to a macromolecule and can change the structural properties of that macromolecule.
National Institutes of Health
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Highly Cited
2010
Highly Cited
2010
Studies on bacterial ribosomes by chemical modification approaches
A. Pulk
2010
Corpus ID: 85798169
Highly Cited
1999
Highly Cited
1999
Effects of chemical modification on in vitro rate and extent of food starch digestion: an attempt to discover a slowly digested starch.
B. W. Wolf
,
Laura L. Bauer
,
George C. Fahey
Journal of Agricultural and Food Chemistry
1999
Corpus ID: 25162593
Differences in glycemic and insulinemic responses to dietary starch are directly related to the rate of starch digestion…
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Review
1986
Review
1986
Enzymic aldol condensation/isomerization as a route to unusual sugar derivatives.
J. Durrwachter
,
D. Drueckhammer
,
K. Nozaki
,
H. Sweers
,
C. Wong
Journal of the American Chemical Society
1986
Corpus ID: 5279498
Preparative enzymatic synthesis of several unusual hexoketose and hexoaldose derivatives using fructose bisphosphate aldolase and…
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Highly Cited
1986
Highly Cited
1986
Dimensional Stability of Acetylated Aspen Flakeboard
J. Youngquist
,
A. Krzysik
,
R. Rowell
1986
Corpus ID: 67839299
This study was conducted to determine if thickness swelling of flakeboards, which is much greater than that of plywood or solid…
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Highly Cited
1983
Highly Cited
1983
o-Phthalaldehyde, a fluorescence probe of aldolase active site.
K. Palczewski
,
P. Hargrave
,
M. Kochman
European Journal of Biochemistry
1983
Corpus ID: 24158219
Conditions were determined in which approximately one mole of omicron-phthalaldehyde reacts with one mole of aldolase subunit…
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Highly Cited
1982
Highly Cited
1982
Synthesis of (-)-15-deoxyspergualin and (-)-spergualin-15-phosphate.
H. Iwasawa
,
S. Kondo
,
D. Ikeda
,
T. Takeuchi
,
H. Umezawa
Journal of antibiotics (Tokyo. )
1982
Corpus ID: 39436611
The method for chemical modification of spergualin with retention of the configuration at the C-11 has been achieved by the use…
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Review
1980
Review
1980
Physical chemical studies of the structure and function of DNA binding (helix-destabilizing) proteins.
J. Coleman
,
J. L. Oakley
CRC Critical Reviews in Biochemistry
1980
Corpus ID: 33861541
Binding of proteins to DNA is fundamental to the mechanisms of replication, recombination and gene expression. The specific…
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Highly Cited
1976
Highly Cited
1976
Structure of gene 5 protein-oligodeoxynucleotide complexes as determined by 1H, 19F, and 31P nuclear magnetic resonance.
J. Coleman
,
R. Anderson
,
R. Ratcliffe
,
I. Armitage
Biochemistry
1976
Corpus ID: 46685915
1H nuclear magnetic resonance (NMR) spectra at 270 MHz of gene 5 protein from bacteriophage fd and its complexes with tetra- and…
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Highly Cited
1975
Highly Cited
1975
Chemical modifications of functional residues of fd gene 5 DNA-binding protein.
R. Anderson
,
Y. Nakashima
,
J. Coleman
Biochemistry
1975
Corpus ID: 22018975
The binding of gene 5 protein from bacteriophage fd to poly[d(A-T)], fdDNA, and poly(A) is accompanied by a dramatic reversal in…
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Review
1971
Review
1971
Metabolic regulation by chemical modification of enzymes.
H. Holzer
,
W. Duntze
Annual Review of Biochemistry
1971
Corpus ID: 7025629