ライフサイエンスコーパス: fat metabolism

1 and methyl palmoxirate (MP; an inhibitor of fat metabolism).

2 ncreased glycolysis, energy expenditure, and fat metabolism.

3 is coupled with the production of energy via fat metabolism.

4 icating a complex link between FTO, IRX3 and fat metabolism.

5 boundaries and regulate different aspects of fat metabolism.

6 ed a possible role of mIndy in human hepatic fat metabolism.

7 hormone that also plays a regulatory role in fat metabolism.

8 mitochondrial H(2)O(2) produced by increased fat metabolism.

9 organism's health, from immune regulation to fat metabolism.

10 c processes including glucose regulation and fat metabolism.

11 ed in the control of glucose homeostasis and fat metabolism.

12 a diet of 20% butter fat would have altered fat metabolism.

13 important for PGC-1alpha function and brown fat metabolism.

14 matase activity, and seems to be linked with fat metabolism.

15 bile salt interactions are likely to play in fat metabolism.

16 transcription factors and genes involved in fat metabolism.

17 ver have a novel direct effect on hepatocyte fat metabolism.

18 ggesting that endocannabinoids also regulate fat metabolism.

19 iabetes and may be related to alterations in fat metabolism.

20 Mir-14 also regulates fat metabolism.

21 ng development, and in stress resistance and fat metabolism.

22 cell cycle control, cytokine signaling, and fat metabolism.

23 ance occurs may be related to alterations in fat metabolism.

24 iabetes and may be related to alterations in fat metabolism.

25 athetic overactivity and regulation of brown fat metabolism.

26 cultured pancreatic islets to regulate their fat metabolism.

27 a sympathetically-mediated increase in brown fat metabolism; (2) reduced thermogenesis probably contr

28 responses but also has been shown to affect fat metabolism and adipocyte gene expression.

29 intake in pregnancy may influence offspring fat metabolism and adiposity.

30 Leptin is a hormone that regulates fat metabolism and appetite.

31 t oxidation, which is a central component of fat metabolism and body weight regulation.

32 ies have been associated with alterations in fat metabolism and bone mineral density.

33 aryl hydrocarbon receptor (AHR) may disrupt fat metabolism and contribute to obesity.

34 n both the mammalian stress response, and in fat metabolism and energy regulation, making it of incre

35 esults establish that TDP-43 is critical for fat metabolism and ES cell survival.

36 Fat metabolism and glucose homeostasis are processes tha

37 nd the metabolic and behavioral processes of fat metabolism and ingestion.

38 ncreatic lipase (PL) plays a central role in fat metabolism and is a validated target for weight loss

39 amma) is a transcription factor important in fat metabolism and is emerging as an important regulator

40 The mechanisms involve a metabolic shift to fat metabolism and ketone production, and stimulation of

41 se results suggest a link between C. elegans fat metabolism and longevity.

42 Thus abnormalities of fat metabolism and the associated pathology might involv

43 ated receptor-alpha), and a key regulator of fat metabolism, and 2 downstream genes: fat-5 and acs-2

44 Secondary outcomes included glucose and fat metabolism, and clinical outcomes.

45 protein response and altered host energy and fat metabolism, and eventually reduced survival to polym

46 es dauer diapause, reproductive development, fat metabolism, and life span.

47 cific fatty acids and physiological roles of fat metabolism are important subjects that are still poo

48 cetone levels that indicate intensified body fat metabolism, as validated by parallel venous blood be

49 istance in muscle contributes to the altered fat metabolism associated with type 2 diabetes, but tiss

50 ga-6 fatty acids and regulatory functions of fat metabolism beyond its well-known role in energy stor

51 G0S2 is known to regulate fat metabolism by attenuating adipose triglyceride lipas

52 d is thus involved in the control of hepatic fat metabolism by endocannabinoids.

53 ous developmental input regulates intestinal fat metabolism by engaging mTORC2 signaling to promote t

54 ealthy humans, unlike rodents, regulation of fat metabolism does not require an adaptive response at

55 -methylglutaryl-CoA synthase 2, and enhances fat metabolism during fasting.

56 at cortisol may play a key role in increased fat metabolism during highly energetically demanding per

57 ndrial enzymes involved in cellular defense, fat metabolism, energy supply, and chaperones were ident

58 spectrum of peripheral functions, including fat metabolism, genetic examples are still needed to ill

59 physiological processes including apoptosis, fat metabolism, glucose homeostasis, and neurodegenerati

60 the assessment of food quality and signal to fat metabolism, growth, feeding behavior, reproduction,

61 Fat metabolism has been linked to fertility and reproduc

62 Increased resting fat metabolism (i.e., low RQ) and obesity were observed

63 nergy balance and the regulation of cellular fat metabolism in C. elegans.

64 The hallmark of fat metabolism in insects centers on the lipid transport

65 The study of fat metabolism in insects has received considerable atte

66 directly the role of the AHR in obesity and fat metabolism in lieu of exogenous toxicants.

67 e coordinated regulation of carbohydrate and fat metabolism in liver by mechanisms that are independe

68 ncreases the size of its midgut and enhances fat metabolism in order to provide the energy needed for

69 roup of regulators that regulate glucose and fat metabolism in peripheral tissues and modulate inflam

70 yl-CoA carboxylase, suggesting activation of fat metabolism in response to energy depletion.

71 es1/Es-x) plays a regulatory role in hepatic fat metabolism in the mouse.

72 d nSREBP-1c have distinct roles in adipocyte fat metabolism in vivo.

73 ta on single substrate (pyruvate, succinate, fat) metabolism in both normal diet (CON) and high-fat d

74 n of gene expression involved in glucose and fat metabolism, including glucose transporter-4, hexokin

75 ation of genes of mitochondrial function and fat metabolism indicated increased thermogenic activity,

76 regulated functional pathways for long-chain fat metabolism, indicating that these two enzymes are li

77 CoA carboxylase, a key regulator of cellular fat metabolism known to be a part of the cytosolic subst

78 e show that this feeding behavior depends on fat metabolism mediated by the SREBP-SCD pathway, an ace

79 This indicates an effect on fat metabolism mediated through residual Tk2 deficiency

80 trengthens the pathophysiologic link between fat metabolism, mitochondria and Parkinson's disease.

81 tional roles of the lymphatic vasculature in fat metabolism, obesity, inflammation, and the regulatio

82 Our results show that the major fat metabolism pathway regulates feeding behavior and NR

83 Abnormal fat metabolism plays an important role in the pathogenes

84 , have emerged as key players in glucose and fat metabolism previously thought controlled largely by

85 re hypophagic, suggesting that IGFII affects fat metabolism rather than feeding behavior in adult mic

86 Fat metabolism, reproduction, and aging are intertwined

87 developmental transitions (EcR activity) and fat metabolism (SREBP activity) during the larval-pupal

88 This fat metabolism switch in H3K4me3 methyltransferase-defic

89 t that ABCA7 plays a novel role in lipid and fat metabolism that Abca7-/- mice can be used to elucida

90 logical processes from insulin secretion and fat metabolism to cellular proliferation and differentia

91 transported from the intestine, the site of fat metabolism, to the oocytes yolk, which is a lipoprot

92 We measured glucose metabolism and fat metabolism via tracer methodology and intracellular

93 Most importantly, we found that the body fat metabolism was especially pronounced for most volunt

94 opposite relationship between polyamine and fat metabolism was observed.

95 aging livers have alterations in glucose and fat metabolism, we examined a possible role of SIRT1 in

96 ne the effect of an ACC2 deletion on hepatic fat metabolism, we studied the regulation of the enzymes

97 ocyte hypertrophy, glycerol permeability and fat metabolism were studied in adipocytes isolated from

98 /PGC1alpha and Id1/Ebf2 in controlling brown fat metabolism, which has significant implications in th

99 ne concentrations, and 2) inadequate hepatic fat metabolism, which leads to steatosis (fatty accumula

100 conclude that TM6SF2 is a regulator of liver fat metabolism with opposing effects on the secretion of

101 xhibit postnatal growth retardation, altered fat metabolism with profound hyperglycerolemia and eleva

102 usly affects multiple aspects of glucose and fat metabolism within the muscle, which can adversely af