Asymmetric swimming pattern of Vibrio alginolyticus cells with single polar flagella

被引:44
作者
Kudo, S [1 ]
Imai, N
Nishitoba, M
Sugiyama, S
Magariyama, Y
机构
[1] Toin Univ Yokohama, Fac Engn, Yokohama, Kanagawa 2258502, Japan
[2] Natl Food Res Inst, Tsukuba, Ibaraki 3058642, Japan
来源
FEMS MICROBIOLOGY LETTERS | 2005年 / 242卷 / 02期
关键词
bacteria; motility; flagella; chemotaxis; wall effect; forward/backward;
D O I
10.1016/j.femsle.2004.11.007
中图分类号
Q93 [微生物学];
学科分类号
071005 ; 100705 ;
摘要
The swimming pattern of bacteria with single polar flagella has usually been described as "run and reverse". We observed the swimming traces of monotrichously flagellated Vibrio alginolyticus cells and examined the relationship between the swimming pattern and the sense of progress. Swimming in regions other than a solid surface was confirmed to be linear run and reverse. Near a solid surface, the traces consisted of "run and arc"; the cells were found to curve sharply during backward swimming, while they progressed linearly during forward swimming. The "run and arc" swimming pattern may play an important role in the chemotaxis strategy of marine bacteria at solid surfaces. (C) 2004 Federation of European Microbiological Societies. Published by Elsevier B.V. All rights reserved.
引用
收藏
页码:221 / 225
页数:5
相关论文
共 13 条
[1]   CHEMOTAXIS IN BACTERIA [J].
BERG, HC .
ANNUAL REVIEW OF BIOPHYSICS AND BIOENGINEERING, 1975, 4 :119-136
[2]   Chemotactic responses to an attractant and a repellent by the polar and lateral flagellar systems of Vibrio alginolyticus [J].
Homma, M ;
Oota, H ;
Kojima, S ;
Kawagishi, I ;
Imae, Y .
MICROBIOLOGY-UK, 1996, 142 :2777-2783
[3]   ISOLATION OF THE POLAR AND LATERAL FLAGELLUM-DEFECTIVE MUTANTS IN VIBRIO-ALGINOLYTICUS AND IDENTIFICATION OF THEIR FLAGELLAR DRIVING ENERGY-SOURCES [J].
KAWAGISHI, I ;
MAEKAWA, Y ;
ATSUMI, T ;
HOMMA, M ;
IMAE, Y .
JOURNAL OF BACTERIOLOGY, 1995, 177 (17) :5158-5160
[4]   The sodium-driven polar flagellar motor of marine Vibrio as the mechanosensor that regulates lateral flagellar expression [J].
Kawagishi, I ;
Imagawa, M ;
Imae, Y ;
McCarter, L ;
Homma, M .
MOLECULAR MICROBIOLOGY, 1996, 20 (04) :693-699
[5]   ABRUPT CHANGES IN FLAGELLAR ROTATION OBSERVED BY LASER DARK-FIELD MICROSCOPY [J].
KUDO, S ;
MAGARIYAMA, Y ;
AIZAWA, SI .
NATURE, 1990, 346 (6285) :677-680
[6]  
Macnab R.M., 1996, ESCHERICHIA COLI SAL, P123
[7]   Simultaneous measurement of bacterial flagellar rotation rate and swimming speed [J].
Magariyama, Y ;
Sugiyama, S ;
Muramoto, K ;
Kawagishi, I ;
Imae, Y ;
Kudo, S .
BIOPHYSICAL JOURNAL, 1995, 69 (05) :2154-2162
[8]   VERY FAST FLAGELLAR ROTATION [J].
MAGARIYAMA, Y ;
SUGIYAMA, S ;
MURAMOTO, K ;
MAEKAWA, Y ;
KAWAGISHI, I ;
IMAE, Y ;
KUDO, S .
NATURE, 1994, 371 (6500) :752-752
[9]   Difference between forward and backward swimming speeds of the single polar-flagellated bacterium, Vibrio alginolyticus [J].
Magariyama, Y ;
Masuda, S ;
Takano, Y ;
Ohtani, T ;
Kudo, S .
FEMS MICROBIOLOGY LETTERS, 2001, 205 (02) :343-347
[10]   Polar flagellar motility of the Vibrionaceae [J].
McCarter, LL .
MICROBIOLOGY AND MOLECULAR BIOLOGY REVIEWS, 2001, 65 (03) :445-+
12