ライフサイエンスコーパス: defence response

1 e reactive oxygen species (ROS) in the plant defence response.

2 ivory, resulting in a complex and cumulative defence response.

3 SOD2, and Gpx-1), suggesting an antioxidant defence response.

4 clearance of ROS, thus anticipating the host defence response.

5 t a role for this pathway in the Arabidopsis defence response.

6 side effects such as suppression of the host defence response.

7 equirement for haem synthesis is part of the defence response.

8 ssion of p50 induces a temperature-sensitive defence response.

9 (SA), an endogenous signal involved in plant defence responses.

10 own growth and development, whilst thwarting defence responses.

11 mechanisms of insect herbivore-induced plant defence responses.

12 tial complexities associated with uncoupling defence responses.

13 lites, with important functions for pathogen defence responses.

14 ion to fine-tune the timing and amplitude of defence responses.

15 o early basal and subsequent secondary plant defence responses.

16 ating plant development and conveying stress defence responses.

17 genes to detect specific T3SEs and activate defence responses.

18 key transcriptional regulator in some plant defence responses.

19 ith parallels to plant wound, senescence and defence responses.

20 meostasis, which leads to the suppression of defence responses.

21 al machinery that regulates the induction of defence responses.

22 ps1 also exhibits defects in a wide range of defence responses.

23 ne phosphatase activity that modulates plant defence responses.

24 ra proteins previously shown to elicit plant defence responses.

25 host and uses them to interfere with induced defence responses.

26 ucts of microbial effector genes to activate defence responses.

27 deployment of both pre-formed and inducible defence responses.

28 thogen attack and is required for a complete defence response against Pseudomonas syringae.

29 RNA helicase and played vital roles in plant defence response against salinity stress.

30 nction of those NPR1-like genes in the wheat defence response against stem rust (Puccinia graminis f.

31 e triphosphatase RAB32 orchestrates one such defence response against the bacterial pathogen Salmonel

32 um might be to impair calcium-mediated plant defence responses against low pH.

33 e role of these hormones in modulating plant defence responses against various diseases and pests.

34 pecies are regulators in intraorgan systemic defence responses aiming an effective, coordinated defen

35 r5) mutant, which shows spontaneous pathogen-defence responses and abnormal trichomes, has a point mu

36 ly emerged as pivotal to co-ordinating plant defence responses and as a target of plant pathogens.

37 n the epidermal layer, fail to suppress host defence responses and fail to induce non-host resistance

38 erpillar Spodoptera litura, and investigated defence responses and insect resistance in neighbouring

39 s 'donor' plants resulted in no induction of defence responses and no change in insect resistance in

40 nfected to uninfected tomato plants, priming defence responses and recruiting disease-suppressive bac

41 fector suppression of plant-inducible innate defence responses and SA synthesis prior to subsequent p

42 on, which is normally associated with active defence responses and systemic acquired resistance.

43 hitin), GO:0002679 (respiratory burst during defence response) and GO:0035556 (intracellular signal t

44 (PAL), which has an important role in plant defence responses, and was purified.

45 th and defence as the same TFs that activate defence responses are photomorphogenic growth regulators

46 RKY30 could have a role in the activation of defence responses at early stages of Arabidopsis growth

47 Hpa-resistant epiRILs are primed to activate defence responses at the relatively early stages of infe

48 ctive as a form of elemental defence, normal defence responses became progressively uncoupled from RO

49 ed (i) the transcriptional dynamics of basal defence responses between Arabidopsis thaliana and Pseud

50 TLRs can directly induce innate host defence responses, but the mechanisms of TLR-mediated co

51 ch repeat kinase 2 (LRRK2) orchestrates this defence response by scaffolding a complex between RAB32

52 t of this hydrolysis then suppresses induced defence responses by interfering with fundamental signal

53 osts, trematode parasites down regulate host defence responses by interfering with key signal-transdu

54 Systemic defence responses depend on the spread of signals betwee

55 ssues and/or to MeJA- and ethylene-dependent defence responses engaged against necrotrophic pathogens

56 e nucleus tractus solitarii (NTS) during the defence response evoked by hypothalamic stimulation in t

57 ion of HvNAC6 as a regulator of ABA-mediated defence responses for maintenance of effective basal res

58 (NTAQ1) controls the expression of specific defence-response genes, activates the synthesis pathway

59 tial and conserved primary mediator in plant defence responses, how Ca(2+) signals are sensed and rel

60 orn does not (effectively) inhibit this host defence response in human monocytes.

61 fungus, and for the rapid induction of host defence responses in an incompatible reaction.

62 on processes of leaf senescence and pathogen-defence responses in Arabidopsis.

63 ts is likely to broaden our understanding of defence responses in diverse organisms.

64 thogen-associated molecular patterns) elicit defence responses in plants through extracellular recept

65 ive oxygen species (ROS) and elicited robust defence responses in rice epidermal cells that included

66 urb cellular homoeostasis, resulting in host defence responses in the form of cytokine release and pr

67 hat ultrasound at 20 kHz produces an escape (defence) response in the hooded Lister rat.

68 athway can lead to the induction of a set of defence responses including activation of SAR.

69 llenge to the fetus, but are counteracted by defence responses including marked redistribution of blo

70 secreted effectors, leading to induction of defence responses including the hypersensitive response

71 mutant also failed to elicit localized host defence responses, including papilla formation and autof

72 s a negative regulator of the cell death and defence responses induced through Cf-9, but not Cf-2.

73 This defence response is characterized by cell death at the s

74 s established for mutants in which the plant defence response is de-repressed.

75 This defence response is protective against Pectobacterium br

76 ssion analysis suggested that pre-priming of defence responses may underlie reduced susceptibility to

77 ced sieve tube occlusion, and possibly local defence responses of the phloem.

78 al, physiological, pathological and chemical defence responses of western Baltic Sea F. vesiculosus a

79 JAs) regulate Arabidopsis thaliana wound and defence responses, pollen development, and stress-relate

80 ry mode of the transcriptional activation of defence responses previously undescribed in eukaryotes.

81 ctional categories in the asthma groups were defence response, protease inhibitor activity, inflammat

82 ng the molecular regulation of the molluscan defence response provides a new framework for studies th

83 tor, and leads on elicitation to a subset of defence responses qualitatively similar to those normall

84 , salicylic acid accumulation and downstream defence responses, such as callose deposition and pathog

85 for nutrient acquisition and/or unsuccessful defence responses, such as kauralexin production by the

86 NB-LRR proteins leads to strong induction of defence responses termed effector triggered immunity (ET

87 lls elicits an effective tissue-level cancer defence response that can provide a basis for therapies

88 of herbicides that inhibit PPO also induced defence responses that conferred enhanced tolerance to P

89 iated molecular products, TLRs activate host defence responses through their intracellular signalling

90 ground whitefly infestation elicits systemic defence responses throughout the plant.

91 plants carrying these constructs activate a defence response to Avr9 peptide.

92 Our evidence indicates that this plant defence response to certain wavelengths of ultraviolet r

93 important role in the umbilical haemodynamic defence response to hypoxaemia in the late gestation fet

94 of the innate immune system to mount a host defence response to infection, they must recognize produ

95 wn to act as priming agents, enhancing plant defence response to insects.

96 use in mapping Eds16, a gene involved in the defence response to the fungal pathogen Erysiphe orontii

97 Other bacterial species inhibit C. elegans defence responses to a mitochondrial toxin, revealing ba

98 Studies of the molecular components defining defence responses to A. solani in potato are limited.

99 le in the fetal cardiovascular and metabolic defence responses to acute hypoxaemia by affecting sympa

100 t the cardiovascular, metabolic or endocrine defence responses to acute hypoxaemia in the twin fetus.

101 to different mechanisms mediating the fetal defence responses to acute hypoxaemia that occur during

102 dexamethasone on ovine fetal cardiovascular defence responses to acute hypoxaemia, occurring either

103 etal cardiovascular, metabolic and endocrine defence responses to acute hypoxaemia.

104 balanced intracellular redox system in plant defence responses to biotic and abiotic stresses and pro

105 Interleukin (IL)-1 is a mediator of host defence responses to inflammation and injury, including

106 e is significantly reduced in coi1, in which defence responses to insects, pathogens and wounding are

107 IL-1 mediates host defence responses to local and systemic disease and inju

108 olic and nutritional stresses, as well as in defence responses to wounding and pathogen attack.

109 CML41 acts independently of other defence responses triggered by flg22 perception and redu

110 The function of JMJ14 in local or systemic defence response was investigated by pathogen growth ass

111 are regulated during the activation of plant defence responses, we are studying a group of pathogen-

112 properties of the cell wall inducing a plant defence response, which results in the production of ROS

113 These genes likely are components of basal defence responses, which do not effectively block host p

114 faster transcriptional reprogramming of the defence response with gating of infection-responsive gen

115 ility in resistance, and candidate genes for defence response within the ash genus could inform breed