au.\*:("GOW, N. A. R")
Results 1 to 25 of 59
Selection :
Circulating ionic currents in micro-organismsGOW, N. A. R.Advances in Microbial Physiology. 1989, Vol 30, pp 89-123, issn 0065-2911Article
Control of extension of the hyphal ApexGOW, N. A. R.Current topics in medical mycology. 1989, Vol 3, pp 109-152, issn 0177-4204, 44 p.Article
Transhyphal electrical currents in fungiGOW, N. A. R.Journal of general microbiology. 1984, Vol 130, Num 12, pp 3313-3318, issn 0022-1287Article
Growth and guidance of the fungal hyphaGOW, N. A. R.Microbiology (Reading). 1994, Vol 140, pp 3193-3205, issn 1350-0872, 12Article
Changes in internal and external pH accompanying growth of Candida albicans: studies of non-dimorphic variantsSTEWART, E; HAWSER, S; GOW, N. A. R et al.Archives of microbiology. 1989, Vol 151, Num 2, pp 149-153, issn 0302-8933Article
Correlation between profile of ion-current circulation and root developmentMILLER, A. L; GOW, N. A. R.Physiologia Plantarum (København. 1948). 1989, Vol 75, Num 1, pp 102-108, issn 0031-9317Article
Applied electrical fields polarize the growth of mycelial fungiMCGILLIVRAY, A. M; GOW, N. A. R.Journal of general microbiology. 1986, Vol 132, Num 9, pp 2515-2525, issn 0022-1287Article
Correlation between root-generated ionic currents, pH, fusicoccin, indoleacetic acid, and growth of the primary root of Zea maysMILLER, A. L; GOW, N. A. R.Plant physiology (Bethesda). 1989, Vol 89, Num 4, pp 1198-1206, issn 0032-0889, 9 p.Article
Effects of antheridiol on growth, branching and electrical currents of hyphae of Achlya ambisexualisGOW, N. A. R; GOODAY, G. W.Journal of general microbiology. 1987, Vol 133, Num 12, pp 3531-3535, issn 0022-1287Article
A model of the hyphal septum of Candida albicansGOODAY, G. W; GOW, N. A. R.Experimental mycology. 1983, Vol 7, Num 4, pp 370-373, issn 0147-5975Article
Chitin synthesis in human pathogenic fungiMUNRO, C. A; GOW, N. A. R.Medical mycology. Supplement. 2001, Vol 39, Num 1, pp 41-53Article
The transhyphal electrical current of Neurospora crassa is carried principally by protonsMCGILLVIRAY, A. M; GOW, N. A. R.Journal of general microbiology. 1987, Vol 133, Num 10, pp 2875-2881, issn 0022-1287Article
Rates of germ formation from growing and non-growing yeast cells of Candida albicansBUCHAN, A. D. B; GOW, N. A. R.FEMS microbiology letters. 1991, Vol 81, Num 1, pp 15-18, issn 0378-1097, 4 p.Article
Tactic response of zoospores of the fungus Phytophthora palmivora to solutions of different pH in relation to plant infectionMORRIS, B. M; REID, B; GOW, N. A. R et al.Microbiology (Reading). 1995, Vol 141, pp 1231-1237, issn 1350-0872, 5Article
Electric field-induced orientation of rat hippocampal neurones in vitroRAJNICEK, A. M; GOW, N. A. R; MCCAIG, C. D et al.Experimental physiology. 1992, Vol 77, Num 1, pp 229-232Article
Bioelectric and biosynthetic aspects of cell polarity in Allomyces macrogynusYOUATT, J; GOW, N. A. R; GOODAY, G. W et al.Protoplasma. 1988, Vol 146, Num 2-3, pp 118-126, issn 0033-183XArticle
Survival in experimental Candida albicans infections depends on inoculum growth conditions as well as animal hostODDS, F. C; VAN NUFFEL, L; GOW, N. A. R et al.Microbiology (Reading). 2000, Vol 146, pp 1881-1889, issn 1350-0872, 8Article
Mechanism of electrotaxis of zoospores of phytopathogenic fungiMORRIS, B. M; GOW, N. A. R.Phytopathology. 1993, Vol 83, Num 8, pp 877-882, issn 0031-949XConference Paper
Cytological interrelationships between the cell cycle and duplication cycle of Candida albicansGOW, N. A. R; HENDERSON, G; GOODAY, G. W et al.Microbios. 1986, Vol 47, Num 191, pp 97-105, issn 0026-2633Article
Growing hyphae of Achlya bisexualis generate a longitudinal pH gradient in the surrounding mediumGOW, N. A. R; KROPF, D. L; HAROLD, F. M et al.Journal of general microbiology. 1984, Vol 130, Num 11, pp 2967-2974, issn 0022-1287Article
Electrotaxis of zoospores of Phytophthora palmivora at physiologically relevant field strengthsMORRIS, B. M; REID, B; GOW, N. A. R et al.Plant, cell and environment (Print). 1992, Vol 15, Num 6, pp 645-653, issn 0140-7791Article
Influence of applied electrical fields on yeast and hyphal growth of Candida albicansCROMBIE, T; GOW, N. A. R; GOODAY, G. W et al.Journal of general microbiology. 1990, Vol 136, Num 2, pp 311-317, issn 0022-1287Article
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
Cytoplasmic alkalinization during germ tube formation in Candida albicansSTEWART, E; GOW, N. A. R; BOWEN, D. V et al.Journal of general microbiology. 1988, Vol 134, Num 5, pp 1079-1087, issn 0022-1287Article
Infection of chick chorioallantoic membrane (CAM) as a model for invasive hyphal growth and pathogenesis of Candida albicansGOW, N. A. R; KNOX, Y; MUNRO, C. A et al.Medical mycology (Oxford. Print). 2003, Vol 41, Num 4, pp 331-338, issn 1369-3786, 8 p.Article