ライフサイエンスコーパス: rectangle

1 dyl nitrogen atoms define a perfectly planar rectangle.

2 being an upper bound on the dimensions of a rectangle.

3 d unique objects placed at the vertices of a rectangle.

4 Waals contact across the "long" side of the rectangle.

5 Asp539 residues occupying the corners of the rectangle.

6 ths of the dusk disk associated with the Red Rectangle.

7 narrow square or a wide, spatially redundant rectangle.

8 on, n(s2) best captures the behaviour of DNA rectangles.

9 migration alternates between 1D lines and 2D rectangles.

10 Test figures were fragmented rectangles.

11 creen that was cued while ignoring all green rectangles.

12 Participants observed two briefly presented rectangles.

13 es led to the formation of neutral molecular rectangles.

14 conjugated pyrene-based (2 + 2)(2) catenated rectangles.

15 ixtures, leads to the formation of molecular rectangles (5-8) in 92-97% isolated yields via spontaneo

16 mbly of five new supramolecular complexes (a rectangle, a triangle, a hexagon, and two squares) are d

17 (ie, "bandit" style) or in a (3) multilayer rectangle according to the instructions presented by the

18 onds of eye patching, participants perceived rectangles adjacent to the BS to be elongated toward the

19 perform visual search for a uniquely colored rectangle and shift gaze either toward or opposite this

20 ll with cross sections of the supramolecular rectangle and triangle species on the basis of X-ray bon

21 Two obstacles geometry including rectangle and triangle were studied with varying heights

22 (20%) had crystals consisting of plate-like rectangles and fan-shaped or starburst forms.

23 ck copolymers, including squares, rhombuses, rectangles and triangles.

24 on clusters, including carbon dimers, carbon rectangles, and 'zigzag' and 'armchair'-like carbon chai

25 ambers of defined geometry (e.g., triangles, rectangles, and ellipses).

26 of regular geometric shapes such as squares, rectangles, and parallelograms.

27 Participants reported either which rectangle appeared first (TOJ) or which rectangle had a

28 The dimensions of this rectangle are approximately 18 x 8 x 9 x 17 A, and the t

29 The singly reduced rectangles are members of an unusual category of mixed-v

30 Thus, the rectangles are unusual examples of class III (fully vale

31 hape resembling a fluttering flag, then to a rectangle as the photoreaction proceeds.

32 a gray line was briefly superimposed on each rectangle at onset.

33 Using a modified two-rectangle attention paradigm, we compared the lateraliza

34 be molecules, rates of transport through the rectangle-based material have been extracted from electr

35 thin the square-based materials, but not the rectangle-based material, align to form simple one-dimen

36 le-by-particle current is preserved with the rectangle, Bessel and Butterworth low pass filters, with

37 ing images of objects, buildings, and planar rectangles both with and without a background that indic

38 Here we show that a two-dimensional origami rectangle can be effectively folded into a short, cylind

39 A large rectangle covered it entirely for 250 ms (t1) and then m

40 criminated shape (horizontal versus vertical rectangles) defined by common appearance and disappearan

41 ily of self-assembled polycationic molecular rectangles, derived from our previously reported redbox

42 A replicated 3 x 5 Latin rectangle design was used with 10 adult beagles.

43 presented in the lower LVF is perceived as a rectangle extending upward.

44 wed that the lower binding energy within the rectangles favors a catenated structure over other poten

45 fundamental processes in comparison with the rectangle filter.

46 allographic studies of the six show that the rectangle frameworks, as defined by the metal atoms, ran

47 polystyrene bead in both a triangular and a rectangle geometry enabling the trapped particle to unde

48 hich rectangle appeared first (TOJ) or which rectangle had a slightly wider gray line (shape).

49 ies of six neutral, tetrametallic, molecular rectangles has been synthesized that have the form ([Re(

50 mbled supramolecular polygons (triangles and rectangles) has been achieved using stable (1)H/(2)D iso

51 d hydrophobic and hydrophilic supramolecular rectangles have been fully characterized by multinuclear

52 sed of discrete, cavity-containing molecular rectangles have been prepared.

53 Molecular rectangles having the form ([Re(CO)3]2(X)2)(2)-mu,mu'-(L

54 et contact area shapes ranging from squares, rectangles, hexagons, octagons, to dodecagons via the de

55 scattering generated by a pair of dielectric rectangles immersed in free space.

56 the structural conversion of these catenated rectangles into monorectangles through adjustments in co

57 , we report the self-assembly of DNA origami rectangles into two-dimensional lattices based on stepwi

58 ion-driven self-assembly into supramolecular rectangles is reported.

59 For both illusory and luminance-defined rectangles, key region noise biased a fat response to th

60 ken in sublayers, forming a random tiling of rectangles, large triangles and small triangles with 6-f

61 The minimal required reading rectangle (M3R), 19 letters x 2.4 lines in the smallest

62 expelled the gas and dust that make the Red Rectangle nebula), possess gravitationally bound orbitin

63 The task consisted of seven rectangles of graded widths presented on a screen; only

64 ntration programming model, to self assemble rectangles (of fixed aspect ratio) with high probability

65 nted perpendicular to the movement path, and rectangles oriented parallel to the movement path.

66 andomly from trial to trial-between squares, rectangles oriented perpendicular to the movement path,

67 amics of DNA origami dimerization using flat rectangle origami components and different architectures

68 S; the second-order rotational symmetry of a rectangle prevents any other angle.

69 ld modeling suggests that the functionalized rectangles range in size from roughly 3.0 x 2.9 to 3.0 x

70 The singly reduced rectangles represent an unusual type of mixed-valence co

71 easurements for mixed-valence forms of these rectangles reveal intense, asymmetric absorption bands i

72 A mid-sized rectangle served as a conditioned stimulus (CS; 50% elec

73 m element spacing over the active area and a rectangle-shaped middle layer, achieving the realized ga

74 ponded significantly more to the small/close rectangles than to the large/far ones, in spite of the f

75 Our main design feature is a self-assembled rectangle that serves as a molecular canvas, with each o

76 nisotropic shapes like rhombi, triangles, or rectangles that enable motion in the direction perpendic

77 ers discriminate fat and thin noise-embedded rectangles that were defined by either illusory or lumin

78 arge/far ones, in spite of the fact that the rectangles themselves were identical.

79 tructures with predetermined shapes (square, rectangle, triangle and ribbon) and controlled dimension

80 ectrometry data confirm the existence of the rectangle, triangle, and hexagon, and NMR data are consi

81 rporation into a supramolecular rhomboid and rectangle via platinum-mediated self-assembly is reporte

82 cular architectures: a Fe(II) 4 L6 molecular rectangle was isolated following reaction of the ligand

83 each trial, the participant judged whether a rectangle was shifted to the right or left and responded

84 e other, they were requested to report which rectangle was squarer.

85 n(s2) between 0.04 and 0.1, over 90% of DNA rectangles were incorporated into lattices and that, com

86 Interestingly, when simple rectangles were presented in a control condition against

87 ike scattering was modeled by an anisometric rectangle with a thickness comparable to a singe beta-ch

88 First we show how to self assemble rectangles with a fixed aspect ratio (alpha:beta), with

89 adium complexes readily form large molecular rectangles with a linear linker such as 4,4'-dipyridyl.

90 e differentiation signals, cells cultured in rectangles with increasing aspect ratio and in shapes wi

91 nerate physiological shapes (2,000-microm(2) rectangles with length:width aspect ratios of 5:1-7:1) a

92 two-dimensional motion of cells between two rectangles with orthogonal orientation suggests that cel

93 task consisting of pseudo-randomly presented rectangles with systematically varying widths.

94 lus (CS; 50% electric shock probability) and rectangles with widths of CS +/-20%, +/-40%, and +/-60%

95 red them to remember the orientations of red rectangles within the half of the screen that was cued w