ライフサイエンスコーパス: reproductive fitness

1 ar of life, an important component of female reproductive fitness.

2 evolutionary trade-off between immunity and reproductive fitness.

3 l transmission of non-genetic information in reproductive fitness.

4 and longevity, and, at least in animals, on reproductive fitness.

5 ly modulate aggression with consequences for reproductive fitness.

6 nfer certain traits with positive effects on reproductive fitness.

7 Men and women with TOF have reduced reproductive fitness.

8 ariation burden was a predictor of decreased reproductive fitness.

9 r unrelated offspring at a cost to their own reproductive fitness.

10 ities can be properly coordinated to improve reproductive fitness.

11 d infants, agents with a potential impact on reproductive fitness.

12 phenotype that is critical for foraging, and reproductive fitness.

13 e cells that may lay at the basis of loss of reproductive fitness.

14 aggression, intensity of parental care, and reproductive fitness.

15 s individuals with the highest potential for reproductive fitness.

16 foraging behavior and direct measures of its reproductive fitness.

17 their flowering with the seasons to maximise reproductive fitness.

18 re optimal allocation of plant resources for reproductive fitness.

19 on theory that relates floral morphology to reproductive fitness.

20 th female molecules in a manner that affects reproductive fitness.

21 duce dysfunctional gametes and thus have low reproductive fitness.

22 ed alleles are recessive in their effects on reproductive fitness.

23 c variation than traits directly influencing reproductive fitness.

24 s, so continued survival contributes less to reproductive fitness.

25 the strength of natural selection acting on reproductive fitness.

26 ssion, and were likely causing reductions in reproductive fitness.

27 ral deafness, reduced lifespan and decreased reproductive fitness.

28 their territories and thereby increase their reproductive fitness.

29 nations between compatible morphs, and hence reproductive fitness.

30 the relationship between this variation and reproductive fitness.

31 with reproductive maturity to maximize male reproductive fitness.

32 occurred when the dove would normally attain reproductive fitness (about 1 year old).

33 pattern of biological processes and confer a reproductive fitness advantage to their hosts.

34 of the female body correlate with health and reproductive fitness and are found attractive.

35 Dominant human genetic diseases that impair reproductive fitness and have high locus heterogeneity c

36 the class C gene AGAMOUS (AG) causes reduced reproductive fitness and is prevented by polycomb repres

37 nes, suggesting that they are beneficial for reproductive fitness and may allow mammals to cope with

38 e mate encounter rates and hence to optimize reproductive fitness and success.

39 lement dietary deficiencies and modulate the reproductive fitness and the defense system of the fly.

40 cation within intact animals that influences reproductive fitness at the cost of somatic resilience.

41 of millions of women confronted with reduced reproductive fitness because of ageing.

42 The difference in reproductive fitness between HV and LV fish was particul

43 , antitumor immunity, and cross-generational reproductive fitness, but its mode of action is unknown.

44 pulation growth and that negative effects on reproductive fitness can be short-lived.

45 Reproductive fitness costs associated with this reductio

46 males with rare colour patterns have higher reproductive fitness, demonstrating NFDS mediated by sex

47 K(a)/K(s) ratio of >1, indicating increased reproductive fitness) detected 19 of 23 known drug-resis

48 ce, and non-TG littermates) displayed normal reproductive fitness, development and lifespan (1) These

49 tations suggest connections between maternal reproductive fitness, early zygotic development and geno

50 idual per generation, and because of the low reproductive fitness for de novo variants causing severe

51 -type littermates with regard to morphology, reproductive fitness, growth, longevity and a variety of

52 its role in the sperm release that promotes reproductive fitness in D. melanogaster.

53 he consequences of loss of clock function on reproductive fitness in Drosophila melanogaster with mut

54 ndicating a significant genetic component to reproductive fitness in the Hutterites.

55 ween vulnerability to capture and individual reproductive fitness in the wild.

56 ssing NF1 had increased life spans, improved reproductive fitness, increased resistance to oxidative

57 cedented microbial evolutionary response, as reproductive fitness increases acquired in the selection

58 mplex interaction between current and future reproductive fitness, individual condition and external

59 Reproductive fitness is a complex phenotype that is a di

60 heritable psychiatric disorders that reduce reproductive fitness is an evolutionary paradox.

61 ual centrality is positively associated with reproductive fitness (number of living offspring).

62 Reproductive fitness of adults with TOF and recurrence r

63 soil chemistries on flowering phenology and reproductive fitness of Boechera stricta, a wild relativ

64 nfections can have large effects on relative reproductive fitness of competing host populations.

65 ed future trend in resistance depends on the reproductive fitness of drug-resistant Mycobacterium tub

66 e sexual advantage of the male trait and the reproductive fitness of females and the individual fitne

67 oduction; however, this diet did not improve reproductive fitness of the clk-1(qm30) animals.

68 ed L1 larvae that correlate with compromised reproductive fitness of the generation that experienced

69 with the advent of modern surgical repairs, reproductive fitness of women began to exceed that of me

70 he host-adapted powdery mildew had a reduced reproductive fitness on rop6(DN) plants, which was retai

71 odulation of expression of genes influencing reproductive fitness or behavior.

72 knowledge no studies have demonstrated that reproductive fitness per se is improved by resonance bet

73 sporadically and are associated with reduced reproductive fitness, pointing to a causative role for d

74 Wild-type nematodes showed no change in reproductive fitness regardless of the Qn isoform fed.

75 Many cases occur sporadically and impair reproductive fitness, suggesting a role for de novo muta

76 s is the first report of reduction of insect reproductive fitness through plant-mediated RNAi, demons

77 we investigated the genetic architecture of reproductive fitness traits in a fertile human populatio

78 The important role of clock genes for reproductive fitness was confirmed by reversal of the lo

79 mplex CDH likely has a significant impact on reproductive fitness, we hypothesized that de novo varia

80 mal deletions are thought to severely impair reproductive fitness, which precludes their transmission

81 drug treatments and mutations with positive reproductive fitness, with high statistical significance