Self-diffusion of Water and Blood Lipids in Mouse Erythrocytes
详细信息 查看全文
- 作者:Irina A. Avilova ; Anastasiya V. Smolina…
- 刊名:Applied Magnetic Resonance
- 出版年:2016
- 出版时间:March 2016
- 年:2016
- 卷:47
- 期:3
- 页码:335-347
- 全文大小:557 KB
- 参考文献:1.G. Benga, S.M. Grieve, B.E. Chapman, C.H. Gallagher, P.W. Kuchel, Comp. Haemat. Int. 9, 43 (1999)CrossRef
2.G. Benga, P.W. Kuchel, B.E. Chapman, G.C. Cox, I. Ghiran, C.H. Gallagher, Comp. Haemat. Int. 10, 1 (2000)CrossRef
3.G.H. Benga, B.E. Chapman, G.C. Cox, P.W. Kuchel, Cell Biol. Int. 27, 921 (2003)CrossRef
4.T. Conlon, R. Outhred, Biochim. Biophys. Acta 288, 354 (1972)CrossRef
5.U. Himmelreich, B.E. Chapman, P.W. Kuchel, Eur. Biophys. J. 28, 158 (1999)CrossRef
6.G. Lahajnar, P. Macek, P. Smid, I. Zupancic, Biochim. Biophys. Acta 1235, 437 (1995)CrossRef
7.G. Lahajnar, P. Macek, I. Zupancic, Bioelectrochemistry 52, 179 (2000)CrossRef
8.V.V. Morariu, G. Benga, in Membrane Processes, ed. by G. Benga (Springer, New York, 1984), p. 121CrossRef
9.G. Benga, B.E. Chapman, H. Matei, G.C. Cox, T. Romeo, E. Mironescu, P.W. Kuchel, Cell Biol. Int. 34, 373 (2010)CrossRef
10.G. Benga, B.E. Chapman, G.C. Cox, P.W. Kuchel, Cell Biol. Int. 34, 703 (2010)CrossRef
11.G. Benga, Eur. Biophys. J. 42, 33 (2013)CrossRef
12.G. Benga, B.E. Chapman, T. Romeo, G.C. Cox, P.W. Kuchel, Protoplasma 252, 1181 (2015)CrossRef
13.L.L. Latour, K. Svoboda, P.P. Mitra, C.H. Sotak, Proc. Natl. Acad. Sci. USA. Biophysics 91, 1229 (1994)CrossRef ADS
14.A.R. Waldeck, P.W. Kuchel, A.J. Lennon, B.E. Chapman, Progr. Nucl. Magn. Reson. Spectr. 30, 39 (1997)CrossRef
15.B.E. Chapman, P.W. Kuchel, Diffusion Fundamentals 4, 8.1 (2007)
16.T.J. Larkin, P.W. Kuchel, Eur Biophys 39, 139 (2009)CrossRef ADS
17.A.R. Waldeck, M.H. Nouri-Sorkhabi, D.R. Sullivan, P.W. Kuchel, Biophys. Chem. 55, 197 (1995)CrossRef
18.J. Andrasko, Biochimica el Biophysica Acta 428, 304 (1976)CrossRef
19.J.C. Mathai, S. Mori, B.L. Smith, G.M. Preston, N. Mohandas, M. Collinsi, P.C.M. van Zijl, M.L. Zeidel, P. Agre, J. Biol. Chem. 271, 1309 (1996)CrossRef
20.P.E. Thelwall, S.C. Grant, G.J. Stanisz, S.J. Blackband, Magn. Reson. Med. 48, 649 (2002)CrossRef
21.A.M. Torres, R.J. Michniewicz, B.E. Chapman, G.A.R. Young, P.W. Kuchel, Magn. Reson. Imaging 16, 423 (1998)CrossRef
22.A.M. Torres, A.T. Taurins, D.G. Regan, B.E. Chapman, P.W. Kuchel, J. Magn. Reson. 138, 135 (1999)CrossRef ADS
23.C. Anselmi, F. Bernardi, M. Centini, E. Gaggelli, N. Gaggelli, D. Valensin, G. Valensin, Chem. Phys. Lipids 134, 109 (2005)CrossRef
24.G. Pages, D. Szekely, P.W. Kuchel, J. Magn. Reson. Imaging 281, 409 (2008)
25.J.E. Tanner, E.O. Stejskal, J Chem Phys 19, 1768 (1968)CrossRef ADS
26.A.V. Anisimov, N.Y. Sorokina, N.R. Dautova, Magn. Reson. Imaging 16, 565 (1998)CrossRef
27.K.S. Hong, G.-S. Yeom, J.-H. Cho, E.-H. Kim, C. Lee, S.D. Lee, C. Cheong, J. Korean Magn. Reson. Soc. 9, 29 (2005)
28.A.M. Babsky, S. Topper, H. Zhang, Y. Gao, J.R. James, S.K. Hekmatyar, N. Bansal, Magn. Reson. Med. 59, 485 (2008)CrossRef
29.I. Eslund, A. Nowacka, M. Nilsson, D. Topgaard, J. Magn. Reson. 200, 291 (2009)CrossRef ADS
30.C.-H. Cho, Y.-S. Hong, K. Kang, V.I. Volkov, V. Skirda, C.-Y.J. Lee, C.-Ho Lee. Magn. Reson. Imaging 21, 1009 (2003)CrossRef
31.Ki-J. Suh, Y.-S. Hong, V.D. Skirda, V.I. Volkov, C.-Y. Lee, C.-Ho Lee, Biophysical Chemistry 104, 121 (2003)
32.I.A. Avilova, S.G. Vasil’ev, L.V. Rimareva, E.M. Serba, L.D. Volkova, V.I. Volkov. Russ. J. Phys. Chem. A 89, 710 (2015)CrossRef
33.P.P. Mitra, P.N. Sen, L.M. Schwartz, P.L. Doussal, Phys. Rev. Lett. 68, 3555 (1992)CrossRef ADS
34.V.V. Loskutov, J. Magn. Reson. 216, 192 (2012)CrossRef ADS
35.V.V. Loskutov, V.A. Sevriugin, J. Magn. Reson. 230, 1 (2013)CrossRef ADS
36.R.R. Valiullin, V.D. Skirda, S. Stapf, R. Kimmich R. Phys. Rev. E 55, 2664 (1996)CrossRef ADS
37.J. Karger and D. M. Ruthven, Diffusion in Zeolites and Other Microporous Solids, John Wiley, New York, USA (1992). 605 p
38.P.T. Callaghan, Principle of NMR Microscopy (Clarenden Press, Oxford, 1991), p. 492
39.A.I. Maklakov, V.D. Skirda, N.F. Fatkullin. Self-Diffusion in Polymer Solutions and Melts. Kazan: Kazan State University Press, 1987 (in Russian), p. 223
40.A. Filippov, G. Oradd, G. Lindblom, Biophys. J. 84, 3079 (2003)CrossRef ADS
41.E.Yu.Tchashkova, V.G.Gorokhov, E.E.Kuznetsova, N.S.Korotaeva, E.G.Grigoriev, V.E.Pak, R.F.Barakov. Experimental & clinical gastroenterology) 5, 21 (2009) (in Russian)
42.V.I. Volkov, S.A. Korotchkova, H. Ohya, Q. Guo, J. Membr. Science 100, 273 (1995)CrossRef
43.A.V. Anisimov, N.Y. Sorokina, N.R. Dautova, Magn. Reson. Im. 16, 565 (1998)CrossRef
44.P.P. Mitra, P.N. Sen, L.M. Schawartz, Phys. Rev. B 47, 8565 (1993)CrossRef ADS
45.R.R. Valiullin, V.D. Skirda, J. Chem, Phys. 114, 452 (2001)
46.V.V. Loskutov, E.P. Petrov, Appl. Magn. Reson. 45, 1389 (2014)CrossRef
47.J. Karger, H. Pheifer, W. Heink, in Principles and application of self-diffusion measurements by nuclear magnetic resonance, vol. 12, ed. by J.S. Waugh (Academic Press, New York, 1988), p. 1
48.Y.S. Hong, K.C. Kim, V.I. Volkov, V.D. Skirda, C.-H. Lee, Appl. Magn. Reson. 29, 351 (2005)CrossRef - 作者单位:Irina A. Avilova (1)
Anastasiya V. Smolina (1)
Alexander I. Kotelnikov (1)
Raisa A. Kotelnikova (1)
Valentin V. Loskutov (3)
Vitaly I. Volkov (1) (2)
1. Institute of Problems of Chemical Physics RAS, Academician Semenov Avenue, 1, Chernogolovka, 142432, Moscow Region, Russia
3. Mari State University, Lenin sq., 1, Mari El, 424000, Yoshka-Ola, Russia
2. Science Center in Chernogolovka RAS, Lesnaya str., 9, Chernogolovka, 142432, Moscow Region, Russia - 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Analytical Chemistry - 出版者:Springer Wien
- ISSN:1613-7507
文摘
The self-diffusion of water and lipids in water—mouse RBCs’ suspension was investigated by pulsed field gradient NMR technique at different diffusion times in temperature range from 5 to 35 °C. For the experimental data interpretation, the phenomenological scaling approach was applied. The intracellular water restriction size (2.1 μm), erythrocyte water permeability (about 10−5 m/s), intracellular residence time (about 20 ms), and water permeability activation energy (24.1 ± 1.9 kJ/mol) were calculated. The lipid self-diffusion coefficients are varied from 3 × 10−12 to 10−11 m2/s depending on temperature and diffusion time. The lipid lateral self-diffusion activation energy is about 25 ± 2.9 kJ/mol.