ライフサイエンスコーパス: food preference

1 also display impaired social transmission of food preference.

2 ion of eating and the social transmission of food preference.

3 ation, flies undergo compensatory changes in food preference.

4 viors, such as hedonic eating, and modulates food preference.

5 nteroendocrine hormone levels and also alter food preference.

6 s flexibly according to the female's current food preference.

7 ct actual tooth use are required to work out food preferences.

8 the eating environment to produce phenotypic food preferences.

9 lating concentrations of micronutrients, and food preferences.

10 l memory and memory for socially transmitted food preferences.

11 g, spatial learning and socially transmitted food preferences.

12 er management and the development of healthy food preferences.

13 hoices of agents with similar and dissimilar food preferences.

14 d political systems shape access to food and food preferences.

15 ndocannabinoid systems for the regulation of food preferences.

16 Postingestive nutrient sensing can induce food preferences.

17 choices for them as well as their individual food preferences.

18 h play important roles in shaping children's food preferences.

19 y explained all of the remaining variance in food preferences.

20 nt unique to each individual twin influenced food preferences.

21 llingness to eat certain foods and by strong food preferences.

22 Food texture has enormous effects on food preferences.

23 in the home as a key influence on children's food preferences.

24 ith a high protein status on food intake and food preferences.

25 n, ecology, and culture in determining human food preferences.

26 al differences in taste and perhaps cultural food preferences.

27 x diseases, innate and adaptive immunity, or food preferences, 32 loci were identified at the suggest

28 In addition to testing food preference, a mechanism of parasite avoidance, we a

29 mory in the rat using social transmission of food preference, a nonspatial memory task.

30 ins is required for the transmission of this food preference: a maternally derived NPF locus is neces

31 vidence that the gut microbiota can modulate food preference across model organisms.

32 ces is fundamentally social: They generalize food preferences across individuals who affiliate, or wh

33 foundation for the continuing development of food preferences across the lifespan, and is shaped by t

34 We then performed olfactory and food preference analysis, as well as metabolic analysis

35 distributed neural mechanisms contribute to food preference and food cravings.

36 in the nucleus accumbens increased palatable food preference and food-seeking behavior.

37 ity to food cues, which may imply changes in food preference and hyperphagia.

38 ior protein restriction induced long-lasting food preference and VTA responses.

39 articipants received information about their food preferences and 2 diet options (low-carbohydrate di

40 ets can be tailored to personal and cultural food preferences and appropriate calorie needs for weigh

41 Whereas extensive examinations of food preferences and body weight have appeared in the ps

42 fferences in taste perception that influence food preferences and dietary behavior with subsequent li

43 ly exposure to sweet tastes predicts similar food preferences and eating behavior in later life and i

44 e on ways in which early learning influences food preferences and eating behavior, which, in turn, sh

45 Individual patterns of food preferences and eating behaviors emerge and differ

46 eers and food availability, continue to mold food preferences and eating behaviors.

47 Our evolutionary heritage of food preferences and eating habits leaves us mismatched

48 , smell, and texture of foods help determine food preferences and eating habits.

49 Food preferences and food choices of populations are fur

50 Both food preferences and food frequencies predicted dietary

51 The objective was to determine whether food preferences and food-frequency scores are associate

52 Self-reported food preferences and frequencies of food consumption hav

53 The slope of the relation between food preferences and frequency of consumption varied wit

54 roups, nor was any association found between food preferences and gustatory acuity.

55 In addition, food preferences and intakes were measured.

56 r, and inspires a new research direction for food preferences and oral diagnostics.

57 For virtually all item pairs tested, food preferences and reported frequencies of consumption

58 erstand how infants and toddlers develop the food preferences and self-regulatory processes necessary

59 lso modulates ongoing behaviors ranging from food preferences and social affiliation with the caregiv

60 nt for infants and children to learn healthy food preferences and targeted actions that enable disadv

61 suggests that the interaction between human food preferences and the environment in which those pref

62 Weighed intake, food preference, and weight and height data were obtaine

63 etween taste perceptions, taste preferences, food preferences, and food choices and the amount of foo

64 ere adjusted for age, log fat and lean mass, food preferences, and intake during a buffet test meal o

65 t into the development of sensory processes, food preferences, and the formation of social affiliatio

66 Food preferences are acquired through experience and can

67 ng habits, but within these boundaries human food preferences are remarkably varied, both within and

68 Thus, whereas food preferences are seen as embedded within social grou

69 eople to like the same objects, infants view food preferences as meaningfully shared across individua

70 on to new foods and (b) the ability to learn food preferences based on associations with the contexts

71 Overall, no differences were observed in food preferences between the two groups, nor was any ass

72 Changing food preferences brought about by westernization that ha

73 e provide evidence that neural regulation of food preference but not ingestion rate may involve direc

74 environment play important roles in shaping food preferences; but the aetiology of variation in non-

75 e their eating behaviour and adopt healthier food preferences by avoiding high-calorie and high-fat f

76 sonance signal change corresponding to these food preferences constituted the food valuation signal t

77 Experiment 1 asked how long an acquired food preference could be remembered.

78 ion resulted in a return to normal palatable food preference despite continued locomotor suppression,

79 hoice in the test for social transmission of food preference, despite showing a normal level of socia

80 e variation in early feedings to investigate food preference development.

81 The shifting of food preference driven by nutrient-specific hunger can b

82 In summary, we identified a set of adaptive food preferences during recovery ("recovery behavior"),

83 ity has been well documented, and it affects food preferences (eg, avoidance of cruciferous vegetable

84 Similarly, in rodents, behaviors, such as food preference, exploration of novel contexts, and soci

85 Normal rats exhibited memory of the acquired food preference for at least 3 months after learning.

86 ious food that meets their dietary needs and food preferences for an active and healthy life.

87 In addition, after the low-protein diet, food preferences for savory high-protein foods were enha

88 In formula-fed infants eating table foods, preferences for the basic tastes reflected the ty

89 Food preferences had a moderate genetic basis in late ad

90 This was not caused by alterations to food preference, hypothalamic signaling of neuropeptides

91 tia identified overeating or increased sweet food preference in 80 (78%), new or increased alcohol or

92 Dietary composition affects food preference in animals.

93 ize mechanisms of diet-induced plasticity of food preference in Drosophila melanogaster, we synthesiz

94 ession to backcross loci that control innate food preference in Drosophila simulans into the genomic

95 ation recognition and social transmission of food preference in Kctd13 mutants.

96 us attributes are combined to infer diet and food preference in the past.

97 ference, to quantify internal consistency of food preferences in Caenorhabditis elegans, a nematode w

98 red environmental experiences that influence food preferences in childhood may not have effects that

99 ch tubers, a conclusion further supported by food preferences in fasted animals.

100 hanges in sweet taste perception might alter food preferences in GDM, making dietary compliance diffi

101 e influences of genes and the environment on food preferences in late adolescence are unknown.

102 e palatability of the lipids and investigate food preferences in mice.

103 n of genetic and environmental influences on food preferences in older adolescents.

104 hors investigated the social transmission of food preferences in pine voles (Microtus pinetorum) and

105 abolished preexisting macronutrient-specific food preferences in rats.

106 ntal microwear can be used to infer diet and food preferences in the past, particularly for hominins

107 provides an eating environment that fosters food preferences inconsistent with dietary guidelines, w

108 However, postingestive effects can influence food preferences independently of palatability, although

109 and health ought to take sensory factors and food preferences into account.

110 The test for social transmission of food preference is based on the normal ability of mice i

111 reference in rodents but their role in human food preference is unknown.

112 The social transmission of food preferences is affected by factors including the le

113 Importantly, infants' reasoning about food preferences is flexibly calibrated to their own exp

114 Infants' reasoning about food preferences is fundamentally social: They generaliz

115 luding reduced appetite and changes in taste/food preferences, is now recognized as a key driver of t

116 nockdown also blocked social transmission of food preference learning and impaired social recognition

117 d for olfactory-based social transmission of food preference learning, sociality, and social recognit

118 d questionnaire measures of their children's food preferences (liking for vegetables and fruit) and t

119 The model assumes food preferences match the foods typically purchased by

120 (2 adults and 2 children) while considering food preferences, meal preparation time, and food costs.

121 How food-preference memory is acquired, consolidated and sto

122 Conversely, on a formal test of food preference, monkeys with amygdala lesions showed ab

123 gational task and the social transmission of food preference olfactory memory test.

124 e found six loci contributing to D. simulans food preference, one of which overlaps a previously disc

125 as designed using the social transmission of food preference paradigm.

126 motivation to work for a food reinforcer, or food preferences, per se.

127 After a protein deficit, food intake and food preferences show adaptive changes that suggest that

128 odor recognition and social transmission of food preference (STFP) despite eliminating or silencing

129 Social transmission of food preference (STFP) is a test of olfactory memory tha

130 Social transmission of food preference (STFP) is an ecologically relevant memor

131 Using a modified Social Transmission of Food Preference (STFP) task, we report that male tgDISC1

132 ade amnesia for the social transmission of a food preference (STFP) within our experimental protocol.

133 recognition (SOR) and social transmission of food preference (STFP), but no LTM 24 h post training.

134 During social transmission of food preference (STFP), mice form long-term memory of fo

135 During social transmission of food preference (STFP), the combination of an olfactory

136 for the acquisition of socially transmitted food preferences (STFPs) in mice.

137 In food preference studies using Orange 4 and Blue 1 as a d

138 ge G also works with Blue 1 as a dye pair in food preference studies.

139 l in Con-Ex and can be used as a dye pair in food preference studies.

140 -) mice failed in the social transmission of food preference task, another cognitive paradigm.

141 we tested the effects of glycopyrrolate on a food preference task.

142 n allowed to choose foods alone, either on a food preference test among six different foods or after

143 s intrinsic reward value, as determined from food preference testing.

144 nderlie foraging behavior and performance in food preference tests.

145 o showed a lower incidence of acquired sweet food preference than patients without C9ORF72 mutations.

146 er genetic predispositions are manifested in food preferences that foster healthy diets depends on th

147 s the nutrient value of sugar and influences food preference, the neural circuitry that mediates the

148 ostingestive nutrient stimulation conditions food preferences through striatal dopamine and may be as

149 contrast, parents often perceive children's food preferences to be inborn.

150 her she will constrain her generalization of food preferences to people who speak the same language.

151 y reducing total calorie intake and altering food preference towards a healthy low-fat diet.

152 eating habits (U = 69.5, z = 3.8, P = .001), food preferences (U = 57.0, z = 4.1, P = .001), swallowi

153 Food preferences vary substantially among adults and chi

154 ies, and can be paired with Blue 1 to assess food preference via both Con-Ex and EX-Q.

155 rawal, when drug preference was elevated but food preference was decreased.

156 Food preference was unaltered, suggesting that the sympa

157 glucose tolerance, insulin sensitivity, and food preference were analyzed.

158 Food preferences were a predictor of dietary intakes and

159 alpha- and beta-carotene were measured, and food preferences were assessed by questionnaire.

160 Food preferences were measured by using a self-report qu

161 est meal, and their total caloric intake and food preferences were measured.

162 semantic-like memory (social transmission of food preference) were detected from 3 to 4 months of age

163 Learned food preferences, which are developed through repeated p

164 ce that IP can be used to alter high-calorie food preferences, which could promote healthier eating h