Results 261 to 270 of about 518,431 (293)
Some of the next articles are maybe not open access.
Hydrolysis of cyclodisilazanes
Organometallics, 1989Abstract Unhindered N,N′-diphenyltetramethylcyclodisilazane readily undergoes hydrolysis in the presence of catalytic amounts of acid or base. Under base conditions an intermediate diaminodisiloxane may be isolated. The more sterically congested hexaphenylcyclodisilazane is resistant to acid hydrolysis but is readily hydrolyzed in the presence of base.
openaire +1 more source
Journal of Pharmaceutical Sciences, 1964
Data are presented for the hydrolytic degradation of idoxuridine (5-iodo-2′-deoxyuridine) in aqueous solution over a wide range of hydrogen ion concentration (pH 1.3 to 12.0). The over-all reaction rate was experimentally equal to k 1 [ H + ] [ H + ] + K a + k 2 K a K a + [ H + ] + k 3 K ...
L J, RAVIN +3 more
openaire +2 more sources
Data are presented for the hydrolytic degradation of idoxuridine (5-iodo-2′-deoxyuridine) in aqueous solution over a wide range of hydrogen ion concentration (pH 1.3 to 12.0). The over-all reaction rate was experimentally equal to k 1 [ H + ] [ H + ] + K a + k 2 K a K a + [ H + ] + k 3 K ...
L J, RAVIN +3 more
openaire +2 more sources
Experientia, 1973
Thermal polymerization of aspartic acid produces a polysuccinimide (I), a chain of aspartoyl residues. An investigation was made of the alkaline hydrolysis of the imide rings of (I) which converts the polyimide to a polypeptide. The alkaline hydrolysis of polyimides can be expected to be kinetically complex due to increasing negative charge generated ...
P D, Hoagland, S W, Fox
openaire +2 more sources
Thermal polymerization of aspartic acid produces a polysuccinimide (I), a chain of aspartoyl residues. An investigation was made of the alkaline hydrolysis of the imide rings of (I) which converts the polyimide to a polypeptide. The alkaline hydrolysis of polyimides can be expected to be kinetically complex due to increasing negative charge generated ...
P D, Hoagland, S W, Fox
openaire +2 more sources
ChemInform, 2000
AbstractFor Abstract see ChemInform Abstract in Full Text.
N. Lee Wolfe, Peter M. Jeffers
openaire +2 more sources
AbstractFor Abstract see ChemInform Abstract in Full Text.
N. Lee Wolfe, Peter M. Jeffers
openaire +2 more sources
1965
Publisher Summary The chapter illustrates that the studies of hydrolytic agents have led to major advances in our knowledge of proteins, including the identification of the amino acid constituents of proteins and the development of the polypeptide concept of protein structure.
openaire +2 more sources
Publisher Summary The chapter illustrates that the studies of hydrolytic agents have led to major advances in our knowledge of proteins, including the identification of the amino acid constituents of proteins and the development of the polypeptide concept of protein structure.
openaire +2 more sources
2018
This chapter covers enzyme classes that catalyse hydrolysis reactions using water to break carbon heteroatom bonds, including lipases, esterases, amidases, proteases, epoxide hydrolases, nitrilases, nitrile hydratases, dehalogenases and sulfatases. Each of the enzyme classes above is discussed in more detail in a separate section.
Richard A. Larson, Eric J. Weber
openaire +2 more sources
This chapter covers enzyme classes that catalyse hydrolysis reactions using water to break carbon heteroatom bonds, including lipases, esterases, amidases, proteases, epoxide hydrolases, nitrilases, nitrile hydratases, dehalogenases and sulfatases. Each of the enzyme classes above is discussed in more detail in a separate section.
Richard A. Larson, Eric J. Weber
openaire +2 more sources
Bulletin of Environmental Contamination and Toxicology, 2006
Z, Liqing, L, Guoguang, S, Dezhi, Y, Kun
openaire +2 more sources
Z, Liqing, L, Guoguang, S, Dezhi, Y, Kun
openaire +2 more sources
Hydrolysis of Hydrochlorothiazide
Journal of Pharmaceutical Sciences, 1969J A, Mollica, C R, Rehm, J B, Smith
openaire +2 more sources