Kinetics of sorption and desorption of lisozyme of ultrafiltration membranes based on aromatic polyamides
Abstract
An attempt to value the presence and the degree of influence of electrosurface properties of porous
membranes based on poly-m-phenylenisophthalamide (РА) and aromatic co-polyamide with 10 mol. %
sulfonate-containing fragments (РА-10(-)) on lysozyme sorption / desorption kinetics has been done in
present work. Studies were conducted in static mode and under ultrafiltration conditions. To describe the
experimental kinetic dependences the modified diffusion model and sorption model controlled by interaction
protein/membrane have been used. The influence of protein/membrane electrostatic interactions on
mechanism, speed and the depth of sorption has been shown. The activation energies of protein
sorption/desorption from the surface of the test samples were calculated; their values were ~ 40/50 kJ/mol
and ~ 20/40 kJ/mol for the PA and PA-10 (-), respectively. The results obtained offer the possibility to
control the sorption process in case of practical use of the synthesized membranes.
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References
proteins and its effect on adsorption and
desorption kinetics, Colloids and Surfaces, B,
2007, V. 54, рр. 136-142.
Cмирнова и др. / Сорбционные и хроматографические процессы. 2015. Т. 15. Вып. 1
59
2. Zhou Y., Wang Zh., Zhang Q. et al.
Equilibrium and thermodynamic studies on
adsorption of BSA using PVDF microfiltration
membrane, Desalination, 2012, V. 307, No 1-2,
pp. 61-67.
3. Vasina E., Dejardin Ph. Kinetics of
adsorption, desorption, and exchange of α-
chymotrypsin and lysozyme on
poly(ethyleneterephthalate) tracked film and
track-etched membrane, J. Biomacromol, 2003,
V. 4, pp. 304-313.
4. Jones K., O´Melia Ch. Protein and humic
acid adsorption onto hydrophilic membrane
surfaces: effect of pH and ionic strength, J.
Membr. Sci, 2000, V. 165, No 1-2, pp. 31-46.
5. Lehninger A.L. Biochemistry. New York:
Worth Publ. 1972.767 p.
6. Phielips D.C. Lysozyme. New York: Acad.
Press. 1974. 495 p.
7. Smirnova N.N., Nebukina I.A. Vlijanie
prirody i koncentracii ionogennyh grupp na
sorbcionnye i razdelitel'nye svojstva
ultrafiltracionnyh membran na osnove
aromaticheskih poliamidov po otnosheniju k
lizocimu [The influence of ionogenic groups’
nature and concentration on sorption properties
and separation performance of ultrafiltraton
membranes based on aromatic polyamides
concerning lisozyme], Sorbcionnye i
khromatograficheskie process, 2014, V. 14, No
1, рр. 150-158. [In Russian]
8. Xu Sh., Damodaran S. The role of chemical
potential in the adsorption of lysozyme at the
air-water interface, Langmuir, 1992, No 8. pp.
2021-2027.
9. Izumrudov V.A. Javlenie samosborki i
molekuljarnogo «uznavanija» v rastvorah
(bio)polijelektrolitnyh kompleksov [Selfassembly
and molecular ′recognition'
phenomena in solutions of (bio)polyelectrolyte
complexes], Uspehi himii, 2008, V. 77, No 4,
рр. 401-415. [In Russian]
10. Tjukavina N.A. Bioorganicheskaja himija
(Bioorganic chemistry), M.: Drofa, 2005,
542 р. [[In Russian]
11. Sarkar D., Chattoraj D. Kinetics of
desorption of proteins from the surface of
protein-coated alumina by various desorbing
reagents, J. Colloids and Surface Sci, 1996,
V. 178, No1-2, pp. 606-613.