ライフサイエンスコーパス: magnetotactic bacteria

1 roduction of nano-scale magnetic crystals in magnetotactic bacteria.

2 zed chains of magnetite crystals produced by magnetotactic bacteria.

3 vo studies of magnetite biomineralization in magnetotactic bacteria.

4 sembly, and probing the sensing apparatus of magnetotactic bacteria.

5 ents on active colloidal Janus particles and magnetotactic bacteria.

6 mologs from animals and plants as well as in magnetotactic bacteria.

7 particles formed by biomineralization within magnetotactic bacteria.

8 s -- magnetosensing -- is best understood in magnetotactic bacteria.

9 nd morphology indistinguishable from that of magnetotactic bacteria.

10 localization throughout the growth cycle of magnetotactic bacteria.

11 ogenic magnetic nanomaterials synthesized by magnetotactic bacteria.

12 microstructure of magnetite nanocrystals in magnetotactic bacteria.

13 It plays a central role in the behavior of magnetotactic bacteria and also appears to be important

14 ion by Fur that suggest pathways to engineer magnetotactic bacteria and antipathogenic drugs.

15 oth accessing the magnetosomes within intact magnetotactic bacteria and compare these to scanning ele

16 In this work, BMs were isolated from magnetotactic bacteria and evaluated in various cytotoxi

17 Most organisms are simply diamagnetic, while magnetotactic bacteria and migratory animals are among o

18 find that pseudoproteases are widespread in magnetotactic bacteria and that they have evolved indepe

19 Magnetotactic bacteria are a diverse group of microorgan

20 heless, living organisms such as chitons and magnetotactic bacteria are able to form magnetite crysta

21 Magnetotactic bacteria are aquatic organisms that produc

22 Magnetotactic bacteria are characterized by chains of in

23 Magnetotactic bacteria are characterized by the producti

24 Magnetotactic bacteria are of great interdisciplinary in

25 Although magnetotactic bacteria are phylogenetically diverse and

26 Magnetotactic bacteria are such gradient-inhabiting orga

27 We use the magnetosome compartments of magnetotactic bacteria as a model system to investigate

28 tite (Fe(3)O(4)) by two different species of magnetotactic bacteria at temperatures between 4 degrees

29 Magnetotactic bacteria biomineralize ordered chains of u

30 ains), observed or inferred to be present in magnetotactic bacteria but incompatible with a nonbiolog

31 be addressed in future investigations of how magnetotactic bacteria construct their magnetic compass

32 Magnetotactic bacteria contain chains of magnetosomes th

33 Magnetotactic bacteria contain membrane-bound intracellu

34 Magnetotactic bacteria contain nanometre-sized, membrane

35 nt, magneto-endosymbionts (MEs) derived from magnetotactic bacteria for the labeling of iCMs.

36 Magnetotactic bacteria form assemblies of magnetic nanop

37 Intracellular magnetite crystal formation by magnetotactic bacteria has emerged as a powerful model f

38 Magnetotactic bacteria have become one of the best model

39 ecial properties of these magnetic crystals, magnetotactic bacteria have been exploited for a variety

40 Magnetotactic bacteria have evolved complex subcellular

41 orporation to identify magnetite produced by magnetotactic bacteria in the geological record.

42 We identified populations of polar magnetotactic bacteria in the Northern Hemisphere that r

43 Polar magnetotactic bacteria in vertical chemical gradients ar

44 MamK, an actin-like protein found in magnetotactic bacteria, is important in organizing magne

45 ne clade, represented by the MamK protein of magnetotactic bacteria, is required for the subcellular

46 We estimate that magnetotactic bacteria located less than 1 mum from the

47 e-like magnetofossils, as well as nano-sized magnetotactic bacteria magnetosome chains, have been rep

48 Unlike most magnetotactic bacteria, Magnetospirillum magneticum AMB-

49 Magnetotactic bacteria (MTB) are a diverse group of bact

50 Magnetotactic bacteria (MTB) are a heterogeneous group o

51 Many magnetotactic bacteria (MTB) biomineralize magnetite cry

52 Magnetotactic bacteria (MTB) build magnetic nanoparticle

53 Magnetotactic bacteria (MTB) use magnetosomes, membrane-

54 (magnetosome) compositions biosynthesized by magnetotactic bacteria (MTB), the magnetic properties of

55 ineralization of magnetite occurs rapidly in magnetotactic bacteria on a similar time scale to high-t

56 On Earth, magnetotactic bacteria perform biomineralization of intr

57 Magnetotactic bacteria produce iron-rich magnetic nanopa

58 an the chain patterns observed in a cultured magnetotactic bacteria sample or magnetofossils in extra

59 itated, intracellular magnetites produced by magnetotactic bacteria strain MV-1.

60 Magnetotactic bacteria synthesize highly uniform intrace

61 RS-1, the only reported species of cultured magnetotactic bacteria that is outside of the alpha-Prot

62 MamK, represents a clade, primarily found in magnetotactic bacteria, that is involved in the proper o

63 ge of the properties and function of MamK in magnetotactic bacteria, this study emphasizes the functi

64 Herein, we demonstrate the control of magnetotactic bacteria through the application of magnet

65 In Magnetospirillum and other magnetotactic bacteria, to combine their magnetic moment

66 emonstrate magnetic imaging of living cells (magnetotactic bacteria) under ambient laboratory conditi

67 Although it is unlikely that magnetotactic bacteria were ever alive in ALH84001, deco

68 he magnetic fields produced by the motion of magnetotactic bacteria, which have permanent dipole mome

69 The coexistence of magnetotactic bacteria with opposing polarities in the s

70 The percentage of magnetotactic bacteria with south polarity in the enviro

71 terize the magneto-aerotactic behavior of 12 magnetotactic bacteria with various morphologies, phylog