(function(doc, html, url) {
var widget = doc.createElement("div");
widget.innerHTML = html;
var script = doc.currentScript; // e = a.currentScript;
if (!script) {
var scripts = doc.scripts;
for (var i = 0; i < scripts.length; ++i) {
script = scripts[i];
if (script.src && script.src.indexOf(url) != -1) break;
}
}
script.parentElement.replaceChild(widget, script);
}(document, '
An "in silico" study of one isatin-derivative with the dihydrofolate reductase was carried out.
What is it about?
The reaction between 5-nitroisatin and phenylhydrazine in acidic ethanol yields the title compound, C14H10N4O3, whose molecular structure deviates slightly from a planar geometry (r.m.s. deviation = 0.065 Å for the mean plane through all non-H atoms). An intramolecular N-H...O hydrogen bond is present, forming a ring of graph-set motif S(6). In the crystal, molecules are linked by N-H...O and C-H...O hydrogen-bonding interactions into a two-dimensional network along (120), and rings of graph-set motif R22(8), R22(26) and R44(32) are observed. Additionally, a Hirshfeld surface analysis suggests that the molecules are stacked along [100] through C=O...Cg interactions and indicates that the most important contributions for the crystal structure are O...H (28.5%) and H...H (26.7%) interactions. An in silico evaluation of the title compound with the DHFR enzyme (dihydrofolate reductase) was performed. The isatin-hydrazone derivative and the active site of the selected enzyme show N-H...O(ASP29), N-H...O(ILE96) and Cg...Cg(PHE33) interactions.