ライフサイエンスコーパス: blotch

1 auses the diseases S. nodorum leaf and glume blotch.

2 with brown-black and yellow-green transverse blotches.

3 onding somatotopy of cytochrome oxidase (CO) blotches.

4 previously been shown for the patterns of CO blotches; (2) in contrast, however, distributions of CN

5 ddle CN region, coincident with the dense CO blotches; (2) neurons immunoreactive for the calcium-bin

6 Blotches (6.3 [3.6-10.9]; P < .001), strands (4.9 [2.9-8

7 Pl-Blotched, an allele of purple plant1 (pl1), which encode

8 Sooty blotch and flyspeck (SBFS) fungi are unconventional plan

9 ly protects cereals against Septoria tritici blotch and rice blast disease.

10 ylation status and chromatin structure of Pl-Blotched and Pl-Rhoades at different stages in developme

11 nt for the phenotypic differences between Pl-Blotched and Pl-Rhoades.

12 The combined presence of shiny white blotches and strands is associated with high diagnostic

13 001), strands (4.9 [2.9-8.4]; P < .001), and blotches and strands together (6.1 [3.3-11.3]; P < .001)

14 Shiny white blotches and strands together had a diagnostic sensitivi

15 etah phenotype, in which spots coalesce into blotches and stripes.

16 sensitivity, and specificity of shiny white blotches and/or strands for the diagnosis of BCC.

17 l plant pathogens, namely, a bacterial fruit blotch bacterium Acidovorax avenae subsp. citrulli (Aac)

18 tect four important plant pathogens: a fruit blotch bacterium Acidovorax avenae subsp. citrulli (Aac)

19 the known chromosomal linkage between orange blotch color and ZW, as well as novel genetic associatio

20 The grapevine red blotch disease (GRBD) was first noticed in 2008, impacti

21 Grapevine red blotch disease emerged as a major threat to the North Am

22 the last decade and a half, research on red blotch disease focused on GRBV biology; diagnostics; tra

23 A distinguishing feature of Septoria leaf blotch disease in wheat is the long symptomless growth o

24 Zymoseptoria tritici causes Septoria tritici blotch disease of wheat (Triticum aestivum).

25 cola is the causal agent of Septoria Tritici Blotch disease of wheat and can grow as yeast-like cells

26 tolaasin, the main virulence factor of brown blotch disease.

27 sceptibility and ultimately septoria nodorum blotch disease.

28 nicola/Phaeosphaeria nodorum) (septoria leaf blotch diseases on winter wheat), Oculimacula yallundae/

29 major wheat pathogens, such as wheat rusts, blotch diseases, powdery mildew, and wheat blast.

30 We observed blotched flowers and a vein-clearing symptom in aged pet

31 To determine the cause of blotched flowers, we focused on an endogenous pararetrov

32 in which suppression of PTGS by PVCV causes blotched flowers.

33 Unusual dark spots, fans and blotches form as the south-polar seasonal CO2 ice cap re

34 eaks (0.89), typical pigment network (0.83), blotch irregular (0.82), negative network (0.81), irregu

35 Pl-Blotched is a stable epigenetic allele of the maize anth

36 d that the lower level of pigmentation in Pl-Blotched is correlated with lower pl mRNA levels and inc

37 la graminicola, incitant of septoria tritici blotch, is a widespread and significant pathogen of whea

38 A full-length cDNA clone of the blotch isolate of the peanut stripe potyvirus (PStV) RNA

39 s shape the genetic correlations of the side-blotched lizard polymorphism.

40 table throat colour polymorphism in the side-blotched lizard Uta stansburiana.

41 aper-scissors" mating strategies of the side-blotched lizard, Uta stansburiana.

42 cular, male and female colour morphs of side-blotched lizards cycle on five- and two-generation (year

43 In this study, male color morphs of side-blotched lizards settle nonrandomly with respect to gene

44 In side-blotched lizards, genetically similar but unrelated blue

45 orial and nonterritorial morphotypes of side-blotched lizards, Uta stansburiana, in larger versus sma

46 male body size in a wild population of side-blotched lizards, Uta stansburiana.

47 In Pl-Blotched, methylation of two diagnostic HpaII/MspI sites

48 identified the genetic basis for the orange-blotch (OB) color pattern, a trait under sexually antago

49 e diseases tan spot and Stagonospora nodorum blotch on wheat produce effectors (host-selective toxins

50 s is characterized by gray, rather than red, blotches on a pink, instead of orange, background.

51 pattern of dorsal orange saddles and lateral blotches, our results indicate that melanocytes lacking

52 e-white veil, negative network, off-centered blotch, peripheral-tan structureless areas, atypical ves

53 Genetic tests show that Pl-Blotched (Pl-Bh), a structurally similar pl allele encod

54 Pl-Blotched plants display a variegated pattern of pigmenta

55 ion of PVCV transcripts and episomal DNAs in blotched regions and the detection of VSR activity suppo

56 Here we reflect on major red blotch research progress and discuss future priorities.

57 luding drought tolerance, Fusarium and brown blotch resistance, grain size and photoperiod sensitivit

58 transgenic apple plants enhanced Alternaria blotch resistance.

59 y of a viral protease, VP4, derived from the blotched snakehead virus (BSNV).

60 er to cause the disease Stagonospora nodorum blotch (SNB) in wheat.

61 Stagonospora nodorum blotch (SNB) is an economically important wheat disease

62 Septoria nodorum blotch (SNB), a disease caused by the necrotrophic funga

63 Septoria nodorum blotch (SNB), caused by Parastagonospora nodorum, is a d

64 a case study we considered Septoria tritici blotch (STB) (Zymoseptoria tritici), an economically imp

65 tici is the causal agent of Septoria Tritici Blotch (STB) disease of wheat leaves.

66 leaves and causal agent of septoria tritici blotch (STB) disease.

67 Zymoseptoria tritici causes Septoria tritici blotch (STB) of wheat, an economically important disease

68 Septoria), the causal agent of Septoria Leaf Blotch (STB), is considered one of the major threats to

69 ptoria tritici which causes Septoria tritici blotch (STB), represents one of the most genetically div

70 presence of SWSs, which were categorized as blotches, strands, short white lines, and rosettes.

71 owed by Spotted (T(s)), Mackerel (T(M)), and Blotched (t(b)).

72 is less sensitive to DNaseI digestion in Pl-Blotched than in Pl-Rhoades.

73 septoria tritici, which causes Septoria leaf blotch, the most prevalent disease of wheat worldwide.

74 discovery of its causal agent, grapevine red blotch virus (GRBV), the disease was likely mistaken for

75 age might contribute to the expression of Pl-Blotched, we used methylation-sensitive restriction enzy

76 und that cytosine methylation patterns at Pl-Blotched were indeed recapitulated in culture-rejuvenate