Humic acids are linked to carcinogenic by-products formation in water treatment.
In this work coagulant Moringa oleifera lectin (cMoL) immobilized to matrices was
used to remove humic acid from water. Seed proteins were extracted with 0.15 M
NaCl (E) and precipitated with ammonium sulphate (0-60F). Fraction was guar gel
column chromatographed and cMoL was eluted (1.0 M NaCl). E, 0-60F and cMoL
affinity to bind humic acid was characterized using hemagglutinating activity (HA)
with rabbit erythrocytes. Inhibition HA was evaluated with humic acid, humic acid
and calcium or magnesium (5 and 10 mM), carbohydrates and halogenated
compounds. cMoL immobilized in silica, clay, cellulose, agarose and sepharose
was packed into columns. Humic acid (29 mg/L of carbon) was pumped through
columns at 0.2 mL/min. Total organic carbon (TOC) was measured (600 nm) using
the Method 10129 from Hach Lange GmbH (0.0 to 20.0 mg/L of carbon). HA was
detected in E, 0-60F and cMoL. With humic acid SHA decreased 94 % for E and
cMoL; diminished 50 % for 0-60F. K+ enhanced interaction of cMoL with humic
acid in comparison to Ca2+, since a larger decrease of SHA was obtained, 97 %
and 75 %, respectively. D(+)-Galactose and L(+)-arabinose inhibited cMoL SHA by
87.5 %. Trichloroacetic acid, dicholoroacetic acid and chloroform had no activity
effect. The highest amount of cMoL was immobilized on cyanogen bromideactivated
Sepharose 4B, 2.4 g/mg, followed by cyanogen bromide-activated
Agarose, 0.2 g/mg. A considerable humic acid removal was obtained in the new
purification protocol.info:eu-repo/semantics/publishedVersio
