ライフサイエンスコーパス: insect control

1 ts suggest SfPER could be a novel target for insect control.

2 throid deltamethrin (DM) is broadly used for insect control.

3 tion in insects and possible applications in insect control.

4 and identification of targets for selective insect control.

5 sease and to develop more effective means of insect control.

6 oteins may provide new molecular targets for insect control.

7 ss toxins of Bacillus thuringiensis (Bt) for insect control.

8 ls by Wolbachia, and suggest new methods for insect control.

9 (Bt) toxins are currently being deployed for insect control.

10 hetic pyrethroid insecticide widely used for insect control.

11 evidence of a viable RNAi-based strategy for insect control.

12 Rhamnose is an essential component of the insect control agent spinosad.

13 stigated for its potential application as an insect control agent.

14 eful in developing new, environmentally safe insect control agents are discussed.

15 an important site of entry for pathogens and insect control agents.

16 ful in the design and screening of selective insect control agents.

17 ed in view of their potential development as insect-control agents.

18 ology is being developed to provide improved insect control and a wider spectrum of activity.

19 e, insects developing resistance, inadequate insect control and promote public acceptance of genetica

20 ctive alternative to chemical pesticides for insect control, and this fungus has been shown to be an

21 een shown to be an effective RNAi target for insect control, as DvSnf7 RNAi leads to lethality of WCR

22 oteinase inhibitor may be more effective for insect control because sugar beet is cropped in restrict

23 is (Bt) toxins are deployed increasingly for insect control, but their efficacy will be short-lived i

24 g plants for enhanced biomass production and insect control by releasing plant hormones or sugar este

25 nce by pests is the main threat to long-term insect control by transgenic crops that produce Bacillus

26 e for enabling work on innovative methods of insect control, for understanding the mechanisms of inse

27 ntial deployment of NCR toxins is useful for insect control in few situations.

28 illus thuringiensis (Bt) are used widely for insect control in sprays and transgenic plants, but thei

29 ce; Ecology, Epidemiology and Modelling, and Insect Control in the New Millennium.

30 The role of transgenic insect control in the prevention of mycotoxins in maize

31 in genes are the primary transgenes used for insect control in transgenic crops.

32 chocerciasis, has been the target of a major insect control initiative for the past 20 years.

33 Insect control is an essential part of reducing transmis

34 ernema carpocapsae, which is widely used for insect control, is capable of infecting and killing D. m

35 insights into plant-insect interactions and insect control measures.

36 As with any new insect control method, questions arise about potential r

37 Despite current insect control methods for managing CBB, development of

38 Based on this principle, a new generation of insect control methods using RNA interference (RNAi) are

39 ting have allowed the development of genetic insect control methods, which are species-specific and,

40 In insects, control of body size is intimately linked to nu

41 Why insect control on lawns, golf courses, and sport fields

42 anosomiases, and disease containment through insect control programmes is an achievable goal.

43 prevent or manage resistance to Bt toxins in insect control programs.

44 s rearing and the performance of the sterile insect control programs.

45 ecades of research have revealed that flying insects control speed, altitude, and trajectory by a sim

46 rovide a sound foundation for developing new insect control strategies aimed at enhancing the impact

47 However, insect control strategies involving a different mode of

48 hydrostatic pressure.(1) However, how these insects control the volume of their air-sacs has remaine

49 toxic insecticides are the gold standard for insect control, they negatively impact the environment a

50 intracellular bacterium, provides a tool for insect control through manipulation of host-microbe inte