ライフサイエンスコーパス: chemical control

1 for activating molecules within cells under chemical control.

2 ify promising and more effective targets for chemical control.

3 chieved rapidly and can be also placed under chemical control.

4 ced the American farmer to the modern era of chemical control.

5 r that will replace costly and unsustainable chemical controls.

6 dative radical coupling that is under simple chemical control, a mechanism analogous to that theorize

7 r specificity, safety and the move away from chemical control agents.

8 Cultural and chemical controls are effective and available.

9 Physical and chemical control at the nanoscale is also necessary tail

10 ral domains and also provide a rich suite of chemical controls available to manipulate plasmons, such

11 ist introductions, integrated biological and chemical control, environmental optimization, and the ut

12 n established by microfluidics methods, this chemical control has largely been limited to two dimensi

13 monic structure with a regulated physical or chemical control input.

14 Chemical control is not effective and unfriendly to the

15 Chemical control is the primary management strategy curr

16 otection with great potential to replace the chemical control measures now prevalent.

17 can provide the degree of conformational and chemical control necessary for directing such reactions.

18 onsidered include the nature of physical and chemical control objectives, the development of possible

19 For the last decade, chemical control of bacterial virulence has received con

20 to be an effective tool for high-resolution chemical control of brain circuits.

21 We conclude that the chemical control of breathing does not become unstable w

22 This implies that the chemical control of breathing might become less stable w

23 he protein and, therefore, offers a tool for chemical control of charge transport across biomaterial-

24 This work lays the foundation for chemical control of defect quantum states in low-dimensi

25 rfaces by small molecules, a minimum step in chemical control of gene networks.

26 rfaces by small molecules, a minimum step in chemical control of gene networks.

27 ater supplies, filtration of drinking water, chemical control of intermediate hosts, case containment

28 cal and physiological applications requiring chemical control of ion conductance.

29 e neuroligin molecule, effectively bestowing chemical control of neuroligin dimerization.

30 resent, there is no effective alternative to chemical control of parasitic helminths where livestock

31 Chemical control of protein secretion using a small mole

32 In this way combining chemical control of PTM with readily available protein s

33 In this way, combining chemical control of PTM with readily available protein s

34 adds to the growing complexity regarding the chemical control of retinal function that is likely to i

35 Chemical control of stem cells provides potential soluti

36 dependent EOF in the pH range of 5-10 due to chemical control of the effective zeta-potential.

37 ture by experimentally demonstrating precise chemical control of the SPR peak positions via ligand ex

38 A chemo-genetic variation enabling chemical control of ubiquitination revealed KCNQ1 surfac

39 Here, we examine the chemical controls on Ni(II) and Zn(II) release from Ni-

40 o this work demonstrates the possibility for chemical control over molecular order within films of co

41 current approaches are limited by a lack of chemical control over proteins in the gas phase.

42 to split Cas9 protein fragments can provide chemical control over split Cas9 activity.

43 Here, we show that it is possible to exert chemical control over the formation of metal/molecule...

44 e formed defects demonstrate the outstanding chemical control over the incorporation of impurities in

45 ates, which will enable improved and diverse chemical control over the nature of analyte-surface bind

46 the two photocatalysts afford complementary chemical control over these reactions to design elaborat

47 iochemical inputs and autonomously implement chemical control programs.

48 ith economic thresholds, sampling plans, and chemical control recommendations widely adopted.

49 While chemical control simply increases the formation probabil

50 p synthesis of nanomaterials, the effects of chemical control (strength of the directionality in the

51 tudy cell-surface phenomena with a degree of chemical control that cannot be achieved using conventio

52 ses of anthelmintics and an over-reliance on chemical control, there is a great need to discover new

53 Chemical control through the frequent 'blanket' administ

54 ransmission biology, biological control, and chemical control with respect to "Candidatus Liberibacte