ライフサイエンスコーパス: biological reaction

1 , by using radiotracers that detect relevant biological reactions.

2 s) plays a crucial role in many chemical and biological reactions.

3 ccuracy when monitoring small pH dynamics in biological reactions.

4 xpands our capability to interrogate complex biological reactions.

5 ry powerful tool to miniaturize chemical and biological reactions.

6 udies investigating HNO-related chemical and biological reactions.

7 on for the formation of adenosine from other biological reactions.

8 izing our ability to probe the mechanisms of biological reactions.

9 an enhance nucleobase reactivity to catalyze biological reactions.

10 mechanistic understanding of these critical biological reactions.

11 Carbon monoxide is produced by several biological reactions.

12 for revealing the dynamic nature of complex biological reactions.

13 fill temperatures above those estimated from biological reactions alone.

14 is an important aspect of understanding many biological reactions and a key part of drug design.

15 -C formation is of fundamental importance in biological reactions and has considerable relevance to b

16 effects of strabismus surgery on muscle cell biological reactions and myofiber remodeling may suggest

17 sylmethionine is widely used in a variety of biological reactions and participates in the methionine

18 rovide new opportunities for light-triggered biological reactions and photodynamic therapy.

19 In vitro studies of biological reactions are rarely performed in conditions

20 ns that have hundreds of amino acids-complex biological reactions-are often spontaneous and rapid.

21 ve site is able to catalyse this fundamental biological reaction at a suitable rate for protein synth

22 nced evolutionary development of oscillatory biological reactions at shores where waves impinge on ro

23 abolites, used not only in a large number of biological reactions but amenable to several different m

24 Dioxygenases catalyze a diverse range of biological reactions by incorporating molecular oxygen i

25 The complexity of biological reactions can obscure specific conformational

26 In an effort to determine which biological reactions can occur in relation to the water

27 A classic example of a diffusion-controlled biological reaction catalyzed by an oligomeric enzyme is

28 In this first continuous observation of a biological reaction coordinate from substrate to product

29 rved in a variety of physical, chemical, and biological reaction-diffusion systems.

30 This view ignores a critical reality: biological reactions do not happen in an empty space, bu

31 e, in addition to being an energy source for biological reactions, for which micromolar concentration

32 in real time, the progress of a chemical or biological reaction in a microdrop of a few tens of micr

33 we provide a first, fundamental step towards biological reactions in air by demonstrating the acousto

34 accommodating a large number of chemical and biological reactions in tiny volume with precise control

35 ape, providing new opportunities to modulate biological reactions in vivo; this rationalises the comm

36 ound to proteins perform a number of crucial biological reactions, including the oxidation of water b

37 This biological reaction involves exchange of DNA in a synapt

38 We describe a new method for studying rapid biological reactions involving dioxygen.

39 his approach can be used to study other fast biological reactions involving O(2).

40 ach provides long-awaited access to critical biological reactions involving single-stranded DNA bindi

41 ction network composed of seven interrelated biological reactions (involving a specific mRNA, the pro

42 he role of solvent dynamics in mediating the biological reaction is often left aside owing to its com

43 mechanism by which ribozymes can accelerate biological reactions is by adopting folds that favorably

44 of reagents to drops, its compatibility with biological reactions is yet to be thoroughly demonstrate

45 radical gas implicated in a wide variety of biological reactions, is a novel signaling molecule that

46 Due to the rapidity of biological reactions, it is difficult to isolate interme

47 As a result, some biological reactions may occur in an activationless fash

48 ms that mimic the functionality exhibited in biological reaction networks is a key objective of syste

49 sed DNA components in synthetic chemical and biological reaction networks.

50 tation of protein function in the context of biological reaction networks.

51 powerful nonenzymatic catalysts of very slow biological reactions, notably pyridoxal phosphate and th

52 One of the most important biological reactions of nitric oxide (nitrogen monoxide,

53 to the study of reversible and nonreversible biological reactions on time scales as short as femtosec

54 imilar excision chemistry may apply to other biological reaction pathways requiring the coordination

55 The ribosome catalyzes two fundamental biological reactions: peptidyl transfer, the formation o

56 Most biological reactions rely on interplay between binding a

57 are applicable to chemical, biochemical, and biological reaction systems and to genetic networks.

58 sms govern pattern formation in chemical and biological reaction systems, giving rise to structures w

59 ct, and that each protein catalyzes a unique biological reaction, taking advantage of specialized bio

60 's surface redox through diverse abiotic and biological reactions that have distinctive stable isotop

61 te a host of physiological functions such as biological reactions to stress, anxiety, mood, and drug

62 lop inhibitors, activators, and effectors of biological reactions using small molecule libraries are

63 lecule, indicated that there was a time when biological reactions were catalysed in the absence of pr

64 will allow for the first kinetic studies of biological reactions with millisecond time resolution un