ライフサイエンスコーパス: herringbone

1 he helicity of the helix and the form of the herringbone.

2 thicker than 10 nm, coexistence of both the herringbone and brickstone arrangements was found.

3 ons, including the slanted groove, staggered herringbone, and herringbone mixers.

4 l revealed enveloped virus with the typical "herringbone" appearance of helical nucleocapsids in para

5 ties for self-inclusion leading to polymeric herringbone arrangement in one direction and that pack i

6 ing on the film thickness: for thin films, a herringbone arrangement was observed, whereas for films

7 s revealed that Phe(11) shields Phe(6) in a "herringbone" arrangement.

8 The investigation of the underlying herringbone basic element and its folding to a noncanoni

9 The microfluidic device is based on a herringbone channel design, and exhibits an estimated ce

10 h-throughput microfluidic mixing device, the herringbone-chip, or "HB-Chip," which provides an enhanc

11 In contrast to the herringbone crystal packing observed for nonfused oligot

12 Instead of a canonical helix, a noncanonical herringbone helix is formed.

13 interdimer offset face-to-face pi-pi and/or herringbone interactions, 1(2+), 1(3+), and 2(2+) show e

14 interdimer offset face-to-face pi-pi and/or herringbone interactions, all complexes show extended 1-

15 ermal treatment, resulting in a crystalline, herringbone-like columnar structure.

16 sly distributed in a matrix with pronounced "herringbone-like" nanostructure associated with very low

17 When incorporated in a herringbone microfluidic device, the 3D DNA network not

18 xamine the experimental use of the staggered herringbone mixer (SHM) for the signal enhancement of a

19 is study we examine the use of the staggered herringbone mixer (SHM) to increase the efficiency of an

20 lled reactor I) and the other with staggered herringbone mixers (called reactor II), were studied for

21 e slanted groove, staggered herringbone, and herringbone mixers.

22 s facilitated by flow-mediated mixing over a herringbone mixing region in the device.

23 A fibrous herringbone-modified helicoidal architecture is identifi

24 these molecules, the phenyl groups block the herringbone motif and further guide the arrangement of t

25 ents, the solid-state assembly switches to a herringbone motif characteristic of the linear acenes.

26 ucture, with a decrease of 35 degrees in the herringbone nearest neighbour angle.

27 ; there are two molecules per unit cell with herringbone packing (49-59 degree angle) and tilted abou

28 The familiar herringbone packing is characterized by large roll disto

29 tituted compound was oriented in an intimate herringbone packing motif, which allowed for p-type mobi

30 centrosymmetric bilayer with an orthorhombic herringbone packing.

31 Examples of the layered and herringbone-packing motifs are observed for both the par

32 ases, the inserted cations expand the parent herringbone packings by reorienting the molecular anions

33 The herringbone pattern formation via intercluster interacti

34 Here, we focus on a herringbone pattern occurring in fetal intestinal tissue

35 pH of 6.0, the E proteins are arranged in a herringbone pattern with the pr peptides docked onto the

36 ng the fibril axis in a fashion resembling a herringbone pattern.

37 Microfluidic devices with pure wavy and wavy-herringbone patterns suitable for capture of circulating

38 Ordered herringbone patterns with deterministic long and short w

39 iferromagnet at low densities to the striped herringbone phase of planar quadrupoles at higher densit

40 We propose a modified structure for the herringbone phase with a larger monoclinic beta angle, w

41 The beta-herringbone polymorph is stable, preserves its structure

42 ymer that grows almost exclusively along the herringbone reconstruction pattern, has a two component

43 tom extraction from dislocation sites of the herringbone reconstruction, mobile Au-CO complex formati

44 Chlorine adsorption initially lifts the herringbone reconstruction.

45 he formation of a Au-Cd alloy on the Au(111) herringbone reconstruction.

46 "simple" metal shows a long-range, periodic "herringbone" reconstruction, observed in 2- and 3- (but

47 The herringbone structure characteristic of the adsorption o

48 netic field, a polymorph is formed in a beta-herringbone structure instead of the ubiquitous gamma-he

49 Powder diffraction showed that this single-herringbone structure was similar to two low-energy stru

50 ne structure instead of the ubiquitous gamma-herringbone structure, with a decrease of 35 degrees in

51 tamaterial, consisting of monolithic silicon herringbone structures, exhibits a broadband operation i

52 robability of O2 on the reconstructed, Au111-herringbone surface is dramatically increased by the pre

53 s deposited on the clean reconstructed Au111-herringbone surface using electron bombardment of conden

54 orine atoms in the peri-positions packs in a herringbone type arrangement, while the isomer (2,3,9,10

55 nds form pi-stacking structures instead of a herringbone-type of packing motif.

56 superstructure of this cyclophane reveals a herringbone-type packing motif, leading to two types of

57 w that the molecular packing motif (that is, herringbone versus slip-stacked) plays a decisive part i