ライフサイエンスコーパス: selective breeding

1 s, but within breeds variation is limited by selective breeding.

2 pulations were maintained or strengthened by selective breeding.

3 that differed from the divergence induced by selective breeding.

4 o improve the sow prolificacy is possible by selective breeding.

5 e genome has hampered efforts to improve its selective breeding.

6 artificial selection subsequently imposed by selective breeding.

7 ges of the domestication process to optimize selective breeding.

8 eir domestication and subsequent episodes of selective breeding.

9 lton that humanity could be improved through selective breeding.

10 In this regards, selective breeding abled us to develop "Nanchukmacdon" a

11 We conclude that, in this case, selective breeding acts at the subnetwork level, with th

12 found by following generational responses to selective breeding against FHD.

13 ves these compounds from plant foods through selective breeding and a variety of debittering processe

14 as such as livestock disease control through selective breeding and also in predicting and controllin

15 te-related traits that can be exacerbated by selective breeding and are challenging to manage under c

16 n to be amenable to genetic improvement with selective breeding and are recommended to be included in

17 y resource for cattle genetics and genomics, selective breeding and comparative biology.

18 plant and animal genetic studies to improve selective breeding and conservation efforts.

19 ly, they highlight the costs associated with selective breeding and question the practice favoring th

20 e target for controlling fertility to enable selective breeding and the efficient production of hybri

21 Some improvements have been gained through selective breeding and the isolation of additional speci

22 ga menziesii), reflecting trans-generational selective breeding application.

23 As the meat production industry seeks selective breeding approaches to improve profitable trai

24 el system not conducive to gene silencing or selective breeding are useful for other systems.

25 options for using assisted evolution (i.e., selective breeding, assisted gene flow, conditioning or

26 The current study examined whether and how selective breeding by humans has altered the gross organ

27 The potential impact of selective breeding by man on this is discussed.

28 ility of coral heat tolerance indicates that selective breeding could be a viable tool to improve pop

29 Indeed, uniting genome editing with selective breeding could facilitate faster and better ou

30 terns, typically considered a consequence of selective breeding, could instead have occurred naturall

31 Short-term selective breeding created mouse lines divergent for eth

32 Here, we use a selective breeding design in the Trinidadian guppy (Poec

33 L.), being under intensive domestication and selective breeding, displays an abundant phenotypic dive

34 n between these strains, which revealed that selective breeding enriched for high and low mef2ca para

35 digree of White Leghorn (WL) birds used in a selective breeding experiment testing susceptibility to

36 ng underlies metabolic disease risk, we used selective breeding for 15 generations to develop rat mod

37 Selective breeding for binge ethanol consumption and the

38 Experiments in selective breeding for blood pH, sexual drive, body weig

39 being genetically segregated as a result of selective breeding for differences in neuropathic pain h

40 We performed short-term bi-directional selective breeding for haloperidol-induced catalepsy, st

41 ed across many loci after two generations of selective breeding for height, and responses of phenolog

42 ntrol lines from the sixteenth generation of selective breeding for high voluntary wheel running, hou

43 Years of selective breeding for low and high penetrance of mutant

44 25% of breeds tested and thus may facilitate selective breeding for sheep with reduced susceptibility

45 Concerningly, selective breeding for short-stress tolerance did not im

46 Selective breeding for speed in the racehorse has result

47 e report the neuroanatomical consequences of selective breeding for tameness or aggression in the sem

48 Selective breeding for the combination of beneficial loc

49 Selective breeding for the naturally occurring social im

50 ntrol strain were developed by bidirectional selective breeding from the Wistar-Kyoto (WKY) rat, an a

51 and assisted gene flow may be compromised if selective breeding further increases the PEA frequencies

52 ate, size at maturity or genetic gender), as selective breeding has also resulted in genes that can h

53 Evolution in the form of selective breeding has long been harnessed as a useful t

54 However, selective breeding has profoundly altered facial morphol

55 It is concluded that selective breeding has resulted in lower connective tiss

56 Selective breeding has strongly reduced the genetic dive

57 Controlled hybridization and selective breeding have been used for centuries to adapt

58 The genetic substrates of selective breeding, however, remain largely unknown.

59 Through selective breeding, humans have driven exceptional morph

60 These results indicate that through selective breeding, humans have significantly altered th

61 e efficacy of protein markers for industrial selective breeding in any agricultural species, plant or

62 rolling traits relevant to recent decades of selective breeding in livestock.

63 ested as a source for habitat restoration or selective breeding in order to increase coral reef resil

64 Importantly, we show that selective breeding in oysters is likely to be an importa

65 e with climate warming, leading to calls for selective breeding interventions to enhance the ability

66 The prerequisite for successful selective breeding is high genetic variation in the targ

67 ine and include fruit flavour preferences in selective breeding, it is vital to determine the metabol

68 Through selective breeding, it may also ultimately provide addit

69 e species is partly the result of continuous selective breeding leading to high performing strains.

70 s disease has been reported, suggesting that selective breeding may potentially form an important com

71 Specifically, the selective breeding method is a repetitive procedure for

72 cept that changes in locomotor behaviour and selective breeding might be inferred from long bones mor

73 Selective breeding of animals for increased innate resis

74 ich historically was selected against during selective breeding of crops to increase seed retention.

75 Selective breeding of dogs by humans has generated extra

76 Selective breeding of domestic dogs has generated divers

77 ore common than previously assumed, and that selective breeding of females was largely absent during

78 ution and provides an important resource for selective breeding of goldfish.

79 The HdhQ200 knock-in model, derived from the selective breeding of HdhQ150 knock-in mice, manifests a

80 repeat- HdhQ250, which was derived from the selective breeding of HdhQ150 mice.

81 e authors previously reported the short-term selective breeding of lines of mice for low (LMACT) and

82 Here we present a method for efficient selective breeding of live oil-rich E. gracilis with flu

83 Bidirectional selective breeding of mice for high (MAHDR) or low (MALD

84 The fundamental trait in selective breeding of oil palm (Eleais guineensis Jacq.)

85 To facilitate selective breeding of polyphenol-rich peanuts, we looked

86 This map will enable mapping and selective breeding of quantitative traits important to t

87 The selective breeding of rats as physiological, behavioral,

88 Selective breeding of some species of rodent has sometim

89 These data indicate that selective breeding of the HAP and LAP lines has resulted

90 By selective breeding of the small fraction of eggs that ha

91 of different haplotypes, despite 25 years of selective breeding of the sublines of this colony.

92 Selective breeding of the WHS mice increased the contact

93 ice of mixed genetic background survive, and selective breeding of these mice leads to a 21% survival

94 e findings may open up new opportunities for selective breeding of this important rice metabolic trai

95 t candidates likely to mediate the effect of selective breeding on behavioral phenotype.

96 ated the genetic architecture and impacts of selective breeding on four climate-related traits in 105

97 For millennia, selective breeding, on the basis of biparental mating, h

98 phytonutrient content of plant foods through selective breeding or genetic improvement is a potent di

99 associated with active tameness, we applied selective breeding over 9 generations for contacting, a

100 ely few landraces to North America, and then selective breeding over the past 75 years.

101 which are likely to depend on breed-specific selective breeding patterns.

102 d RNA sequencing) spanning 43 generations of selective breeding (postnatal day 7: n = 22; postnatal d

103 orporate the novel seasonal traits in future selective breeding programmes.

104 openaeus vannamei has been the focus of many selective breeding programs aiming to improve growth and

105 nds the integration of these biomarkers into selective breeding programs and conservation strategies

106 tication and have important implications for selective breeding programs and the conservation of rare

107 Selective breeding programs are enabling genetic improve

108 enomic analyses have the potential to impact selective breeding programs by identifying markers that

109 n order to provide information to be used in selective breeding programs directed to improve the nutr

110 linkage map will increase the efficiency of selective breeding programs for channel catfish.

111 o handling large number of samples needed in selective breeding programs for example.

112 n; and iv) identified useful SNP markers for selective breeding programs of Asian seabass.

113 ed with this QTL are being incorporated into selective breeding programs to improve PD resistance.

114 gh enough resolution for it to be useful for selective breeding programs using introgression.

115 ected to increase the efficiency of existing selective breeding programs, accelerate the start of new

116 erm selection responses, and the efficacy of selective breeding programs, demonstrating the importanc

117 e parent (half-siblings), which is common in selective breeding programs, imprinting can alter overal

118 have a broad application to commercial fish selective breeding programs, leading to increased aquacu

119 ceptor mRNA levels in lines of mice from two selective breeding projects of relevance to opioid analg

120 ied genetic loci for active tameness through selective breeding, selection mapping, and association a

121 Selective breeding strategies for reduced OJD susceptibi

122 Furthermore, similar selective breeding strategies may help identify further

123 32.5% between 1960 and 2000, suggesting that selective breeding strategies targeting high yield and h

124 enic mice by the inclusion of genotype-based selective breeding strategies.

125 tial breeding schemes, we adapted a stepwise selective breeding strategy, with a whole-genome scan pe

126 Not only did selective breeding successfully reduce the severity of F

127 complexity during the Late Holocene involved selective breeding that encouraged crop diversification.

128 ners (LCRs) and high-capacity runners (HCRs)-selective breeding that results in disparate differences

129 After two rounds of selective breeding, the chicks from the high-susceptibil

130 ferent barley cultivars might be a result of selective breeding to alter seed dormancy.

131 s ante-mortem diagnosis of similar cases and selective breeding to avoid the spread of this disease i

132 ameters Fv'/Fm' and qP can be considered for selective breeding to enhance photosynthetic efficiencie

133 cally test this prediction directly by using selective breeding to generate controlled and independen

134 CD in several breeds, allowing screening for selective breeding to reduce the prevalence of these con

135 a novel approach that uses a combination of selective breeding (to segregate genes contributing to t

136 To that aim we established by selective breeding two sublines of NOD mice from our inb

137 In this study, selective breeding was used to generate two populations

138 Through artificial selective breeding, we developed an animal model system

139 After five generations of selective breeding, we obtained a population that displa

140 methods to quantify Rhg1 and other CNVs for selective breeding were developed.

141 have applications in veterinary medicine and selective breeding, whereas the allele's history recount

142 r realistic efforts of de-extinction through selective breeding without genetic engineering, and fuel