ライフサイエンスコーパス: single-file

1 ighV-QUEST output files can be merged into a single file.

2 es and (iv) unaligned protein sequences in a single file.

3 interacting ions move through the pore in a single file.

4 mmodate several dehydrated urea molecules in single file.

5 s, with sequences and other data stored in a single file.

6 ormed by at least two individuals walking in single file.

7 water molecules pass through the channel in single file.

8 lecules line up in an amphipathic channel in single file.

9 d by the mean field, and it does not enforce single filing.

10 tion persists despite water translocation in single file and blocks proton transport.

11 laries through which red blood cells flow in single-file-and a D=12 mum tube-a model for a nascent ve

12 This 'single file' approach ensures the persistence of provena

13 Moreover, the Ciona notochord as a single-file array of forty polarized cells is a uniquely

14 are captured and driven through the pore in single file by an applied voltage.

15 ater6574 and Water6584) that are part of the single-file chain of water molecules within the D-channe

16 orins (CNTPs), which confine water down to a single-file chain, exceeds that of biological water tran

17 ters rapidly and reversibly reorganized into single-file chain-like geometries that substantially red

18 that membrane-spanning networks, rather than single-file chains, are formed around the proton.

19 Water permeability through single-file channels is affected by intrinsic factors su

20 Furthermore, analysis is capable of handling single files collected over extended periods of time, al

21 re dispensed into the mass spectrometer in a single file confined within a 20-micron-i.d. capillary.

22 Each LRG is contained within a single file consisting of a stable 'fixed' section and a

23 sen obstacles in a regular array is ablated; single-file diffusion in pores; transient anomalous subd

24 Single-file diffusion is the restricted propagation of p

25 iameters of the two types of gallium wheels, single-file diffusion occurs in the Ga(10) channels, whe

26 ult is consistent with a lock-in effect in a single-file diffusion regime of Mg(2+) and K(+) along th

27 h the pore at this rate could be effected by single-file diffusion, which we simulated by a random wa

28 a-1) reflect the expected time dependence of single-file diffusion.

29 8.3, indicating that water crosses the SM in single file fashion via the NOD 26 water channel.

30 ins ammonia (NH(3)) molecules diffusing in a single file fashion.

31 No water single-file forms in rigid GlpF.

32 esting that K+ ions might literally "hop" in single file from one binding site to the next as permeat

33 Collecting all data for a compound into a single file greatly reduces the number of data files col

34 In N', the cluster is transformed into a single-file hydrogen-bonded chain of four water molecule

35 These structures demonstrate single-file ion transfer through the channels.

36 ould accommodate two water molecules even in single file is in contrast with the 2-A diameter predict

37 number of contiguous ion binding sites in a single file is the key determinant of the channel's sele

38 nanopores are so wide, their AMFE shows that single filing is not necessary for the AMFE.

39 e three-barrier, two-site, double-occupancy, single-filing kinetic model for previously reported curr

40 number of contiguous ion binding sites in a single-file mechanism is the key determinant of the chan

41 e ions move through the pore in coordinated, single-file motion.

42 e ions move through the pore in coordinated, single-file motion.

43 Assuming single file movement of ions and water within the conduc

44 e binding sites, and logistic assumptions of single-file movement are all unnecessary for the predict

45 Artificial anion selective ion channels with single-file multiple anion-recognition sites are rare.

46 the traditional theory and does not require single filing, multiple occupancy, or momentum-correlate

47 dictions may be accessed individually, and a single file of all predicted orientations may be downloa

48 o any proton conductance while maintaining a single file of hydrogen bonded water molecules throughou

49 robability distribution and orientation of a single file of seven to nine water molecules inside the

50 here is a narrowing or neck, through which a single file of water molecules pass.

51 To accommodate a single file of waters requires narrowing the GlpF pore.

52 The highly ordered single file of waters, which is drastically interrupted

53 are freely available to accessors either as single files or as complete data bank downloads.

54 Here the AMFE is not the result of single filing or multiple occupancy, and so previous vie

55 xplanation of the AMFE that does not require single filing or multiple occupancy: preferential select

56 pass through the channel pore in sequential, single-file order because the limiting diameter of the p

57 yze individual strands as they are driven in single-file order past a nanoscale sensor.

58 s three dimensionally and achieves a flow of single-file particles/cells as they pass through a laser

59 ains an individual aqueous pore that permits single-file passage of water molecules but interrupts th

60 and water appears to cross the channel via a single file pathway, solute flux across NOD 26 appears t

61 a are consistent with the existence of three single-file permeant-ion binding sites: one deep site, w

62 sites and b) between binding sites within a single-file pore.

63 ect (AMFE) has been thought to occur only in single-file pores containing two or more ions at a time.

64 The integrity of the single file remains intact during the permeation, indica

65 roduce many pedigree diagrams quickly into a single file, serving as alternatives to programs that on

66 OMEX is the basis of the COMBINE Archive, a single file that supports the exchange of all the inform

67 of an AMFE does not imply that ions permeate single file through a multiply occupied pore.

68 concerted movements of K(+) progressing in a single file through a narrow pore.

69 as several ions are moving simultaneously in single file through the narrow pore.

70 m ions diffuse across the cell membrane in a single file through the narrow selectivity filter of pot

71 K(+) ions permeate in single file through the selectivity filter, a narrow por

72 ssels are hierarchical and vasoreactive with single file transit of red blood cells through capillari

73 ltiparticle occupancy of the channel and non-single-file transport.

74 hich can only be explained by guest-assisted single-file unidirectional diffusion.

75 The movement of the single file water molecules through the channel is conce

76 a transient aqueduct mechanism, migrating as single-file water chains through transient (<5 ns) tunne

77 eability pf and diffusion permeability pd of single-file water channels and demonstrate that the pf/p

78 tion is influenced by the orientation of the single-file water column, which can present a barrier to

79 The importance of the single-file water confirms the conjecture of Mackay et a

80 position reveals a remarkable ability of the single-file water molecules to stabilize K(+) by -40 kca

81 eaks the flow of water and, thus, breaks the single-file water network necessary for proton transloca

82 s assumes the formation of membrane-spanning single-file water wires providing a matrix along which t

83 f large opposing contributions from protein, single-file water, bulk electrolyte, and membrane.

84 f the channel (selectivity filter carbonyls, single-file water, cavity water, reaction field of bulk