ライフサイエンスコーパス: kinesis

1 eed or frequency of turning, which is called kinesis.

2 for the emerging research field of molecular kinesis.

3 riety of hypotheses concerning skull use and kinesis.

4 dynamics in live neurons revealed diminished kinesis.

5 force in neognaths, enabling powered cranial kinesis.

6 dictive mathematical modeling tools to avian kinesis.

7 We evaluated the ability of Color Kinesis, a new echocardiographic technique that color-en

8 (LV) endocardial wall motion based on Color Kinesis, a new echocardiographic technique that color-en

9 We used color kinesis, a recent echocardiographic technique that provi

10 n group, including traits related to cranial kinesis (an important functional feature of many extant

11 tion patterns: chemoattraction, -repulsion, -kinesis and -inhibition, using single-cell quantitative

12 with a simple two-state scheme in which both kinesis and ncd switch from weak to strong binding via A

13 defects in chromosome condensation, nuclear kinesis, and assembly of spindle apparatus.

14 In addition, Color Kinesis data were correlated to coronary angiographic fi

15 te, Tiktaalik roseae, was capable of cranial kinesis despite significant restructuring of the skull t

16 In contrast, color kinesis directly tracks and color-encodes regional diast

17 ensors and commercially available ELISA kit (Kinesis DX).

18 as well as the essential morphology of avian kinesis, especially the mechanical coupling of the upper

19 the processes driving the emergence of avian kinesis have remained unclear until recently.

20 Analysis of Color Kinesis images allows fast, objective, and automated eva

21 Segmental analysis of color kinesis images allows quantitative assessment of regiona

22 Color Kinesis images and mitral and pulmonary vein flow Dopple

23 We developed a software that analyzes Color Kinesis images and provides quantitative indices of magn

24 s initial study, segmental analysis of color kinesis images provided accurate, automated, and quantit

25 Analysis of Color Kinesis images provides objective assessment of global a

26 d the feasibility of using analysis of color kinesis images to objectively assess global and regional

27 of quantitative segmental analysis of color kinesis images to provide objective evaluation of region

28 Quantitative segmental analysis of color kinesis images was used to obtain regional fractional ar

29 Segmental analysis of Color Kinesis images was used to obtain time histograms of reg

30 Diastolic color kinesis images were used to calculate indexes of magnitu

31 biomechanics and motion dynamics of cranial kinesis in birds are poorly understood.

32 Academy of Sciences Colloquium on Molecular Kinesis in Cellular Function and Plasticity therefore wa

33 nd offer new methods for identifying cranial kinesis in extinct vertebrates.

34 alate and the development of powered cranial kinesis in neognath birds.

35 Color kinesis indexes of global diastolic function showed sign

36 Color kinesis is a new technology for the echocardiographic as

37 Color kinesis is a promising new tool that may be used clinica

38 ic function in patients with DCM using color kinesis is feasible.

39 It is shown that this avian cranial kinesis model exhibits the characteristics of a hardenin

40 nd bite force as well the effects of cranial kinesis on the frequency and modulation of bird songs.

41 tal variability, predator-prey interactions, kinesis or taxis.

42 hus, leptin can modulate bidirectional Abeta kinesis, reducing its levels extracellularly.

43 ext-dependent attenuation (e.g., paradoxical kinesis) remain unknown.

44 aper, we model the dynamics of avian cranial kinesis, such as prokinesis and proximal rhynchokinesis

45 ts changes in head mobility and intracranial kinesis that have ramifications for the origin of verteb

46 From our studies we suggest a form of kinesis that works by attracting males to their mating p

47 Powered kinesis, the ability to move parts of the skull independ

48 based mode of prey capture involving cranial kinesis to a biting-based feeding system utilizing a rig

49 e gray scale images were obtained with color kinesis to color encode left ventricular endocardial mot

50 a(+)-Ca(2+) exchanger and did not induce its kinesis to the surface membrane, further demonstrating m

51 Compared with Doppler indexes, color kinesis was less confounded by MR and was capable of dif

52 od transition, implying that limited cranial kinesis was plesiomorphic to the earliest limbed vertebr

53 red to as acoustic quantification) and color kinesis, which provide a more objective, robust, and con