kw.\*:("Galvanotaxis")
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A RE-EXAMINATION OF ANIMAL TROPISMSPLATT SA.1978; ANIMAL BEHAV.; GBR; DA. 1978; VOL. 26; PP. 1029-1037; BIBL. 27 REF.Article
Osteoclasts and osteoblasts migrate in opposite directions in response to a constant electrical fieldFERRIER, J; ROSS, S. M; KANEHISA, J et al.Journal of cellular physiology. 1986, Vol 129, Num 3, pp 283-288, issn 0021-9541Article
New insights into directed cell migration : characteristics and mechanismsGRULER, H.Nouvelle revue française d'hématologie. 1995, Vol 37, Num 5, pp 255-265, issn 0029-4810Conference Paper
Phototactic responses of Chlamydomonas reinhardtii in electric fieldsEKELUND, N. G. A; DOLLE, R; NULTSCH, W et al.Physiologia Plantarum (København. 1948). 1988, Vol 73, Num 2, pp 265-270, issn 0031-9317Article
NOTES ON THE BEHAVIOUR OF CRUSTACEAN DECAPODS IN AN ELECTRIC FIELD.VANNINI M; INSOM E.1976; MONIT. ZOOL. ITAL.; ITAL.; DA. 1976; VOL. 10; NO 3; PP. 265-269; ABS. ITAL.; BIBL. 6 REF.Article
RANDOM WALK ANALYSIS OF MOVEMENT AND GALVANOTAXIS OF AMOEBA PROTEUSSAYERS Z; ROBERTS AM; BANNISTER LH et al.1979; ACTA PROTOZOOL.; POL; DA. 1979; VOL. 18; NO 2; PP. 313-325; ABS. FRE; BIBL. 25 REF.Article
Potential of galvanotaxis to separation and cleaning of rumen ciliatesKISIDAYOVA, Svetlana; VARADYOVA, Zora.Journal of microbiological methods. 2004, Vol 57, Num 1, pp 65-68, issn 0167-7012, 4 p.Article
EFFECTS OF CALCIUM ION ON GROWTH AND BEHAVIOR OF TETRAHYMENA PYRIFORMISSAITO T; ASAI H.1979; J. PROTOZOOL.; USA; DA. 1979; VOL. 26; NO 2; PP. 286-290; BIBL. 7 REF.Article
Chick embryonic Schwann cells migrate anodally in small electrical fieldsMCKASSON, Marilyn J; LING HUANG; ROBINSON, Kenneth R et al.Experimental neurology (Print). 2008, Vol 211, Num 2, pp 585-587, issn 0014-4886, 3 p.Article
Neural crest cell galvanotaxis : new data and a novel approach to the analysis of both galvanotaxis and chemotaxisGRULER, H; NUCCITELLI, R.Cell motility and the cytoskeleton. 1991, Vol 19, Num 2, pp 121-133, issn 0886-1544Article
GALVANOTACTIC RESPONSE IN PARAMECIUM CAUDATUM AT VARIOUS LEVELS OF EXTERNAL CALCIUM IONSDRYL S; KURDYBACHA J.1978; ACTA PROTOZOOL.; POL; DA. 1978; VOL. 17; NO 4; PP. 475-481; ABS. FRE; BIBL. 21 REF.; 1 ILL.Article
Voltage-dependent reversal of anodic galvanotaxis in Nyctotherus ovalisVAN HOEK, A. H. A. M; SPRAKEL, V. S. I; VAN ALEN, T. A et al.The Journal of eukaryotic microbiology. 1999, Vol 46, Num 4, pp 427-433, issn 1066-5234Conference Paper
Electrical and ionic controls of tissue cell locomotion in DC electric fieldsCOOPER, M. S; SCHLIWA, M.Journal of neuroscience research. 1985, Vol 13, Num 1-2, pp 223-244, issn 0360-4012Article
Protein kinases are required for embryonic neural crest cell galvanotaxisNUCCITELLI, R; SMART, T; FERGUSON, J et al.Cell motility and the cytoskeleton. 1993, Vol 24, Num 1, pp 54-66, issn 0886-1544Article
Dynamic organization of ATP and birefringent fibrils during free locomotion and galvanotaxis in the plasmodium of Physarum polycephalumUEDA, T; NAKAGAKI, T; YAMADA, T et al.The Journal of cell biology. 1990, Vol 110, Num 4, pp 1097-1102, issn 0021-9525, 6 p.Article
Localized membrane depolarizations and localized calcium influx during electric field-guided neurite growthBEDLACK, R. S; WEI, M.-D; LOEW, L. M et al.Neuron (Cambridge, Mass.). 1992, Vol 9, Num 3, pp 393-403, issn 0896-6273Article
Effects of electric fields on cytoskeleton of corneal stromal fibroblastsKAZ SOONG, H; PARKINSON, W. C; SULIK, G. L et al.Current eye research (Print). 1990, Vol 9, Num 9, pp 893-901, issn 0271-3683, 9 p.Article
Monolayer microbubbles fabricated by microfluidic device for keratocytes observation : NanodevicesCHIU, Po-Jui; MEI, Jeng-Chun; HUANG, Yao-Chung et al.Microelectronic engineering. 2013, Vol 111, pp 277-284, issn 0167-9317, 8 p.Conference Paper
Galvanotactic response of mouse epididymal sperm : In vitro effects of zinc and diethyldithiocarbamateZHANG, X; JIN, L; TAKENAKA, I et al.Archives of andrology. 2000, Vol 45, Num 2, pp 105-110, issn 0148-5016Article
Locomotor response of five species of ciliates to magnetic and electrical stimuli in varied chemical environmentsISQUITH, I. R; SWENSON, J; KLEINELP, W. C et al.Acta protozoologica. 1989, Vol 28, Num 2, pp 121-125, issn 0065-1583, 5 p.Article
Growth and guidance of the fungal hyphaGOW, N. A. R.Microbiology (Reading). 1994, Vol 140, pp 3193-3205, issn 1350-0872, 12Article
Electric fields induce curved growth of Enterobacter cloacae, Escherichia coli, and Bacillus subtilis cells : implications for mechanisms of galvanotropism and bacterial growthRAJNICEK, A. M; MCCAIG, C. D; GOW, N. A. R et al.Journal of bacteriology. 1994, Vol 176, Num 3, pp 702-713, issn 0021-9193Article
Perpendicular orientation and directional migration of amphibian neural crest cells in dc electrical fieldsCOOPER, M. S; KELLER, R. E.Proceedings of the National Academy of Sciences of the United States of America. Biological sciences. 1984, Vol 81, Num 1, pp 160-164, issn 0273-1134Article
Galvanotactic behavior of Tetrahymena pyriformis under electric fieldsDAL HYUNG KIM; PAUL SEUNG SOO KIM; KYOUNGWOO LEE et al.Journal of micromechanics and microengineering (Print). 2013, Vol 23, Num 12, issn 0960-1317, 125004.1-124004.9Article
Effects of direct current electric fields on cell migration and actin filament distribution in bovine vascular endothelial cellsXUEFENG LI; KOLEGA, John.Journal of vascular research. 2002, Vol 39, Num 5, pp 391-404, issn 1018-1172Article