ライフサイエンスコーパス: nucleic acid metabolism

1 als fundamental insights into nucleotide and nucleic acid metabolism.

2 DNA may affect various cellular processes of nucleic acid metabolism.

3 tidase (cN1A; NT5C1A), a protein involved in nucleic acid metabolism.

4 ed to myonuclear degeneration and disordered nucleic acid metabolism.

5 w that IBM pathophysiology includes abnormal nucleic acid metabolism.

6 manner and play essential roles in cellular nucleic acid metabolism.

7 onent of RNA:DNA hybrids and is important in nucleic acid metabolism.

8 or collection of nuclear genes skewed toward nucleic acid metabolism.

9 development, possibly through the control of nucleic acid metabolism.

10 proteins engaged in processive reactions in nucleic acid metabolism.

11 anism-based inhibition of enzymes central to nucleic acid metabolism.

12 double-strand breaks is a critical event in nucleic acid metabolism.

13 families and are required for all aspects of nucleic acid metabolism.

14 ontrolling cellular anti-viral responses and nucleic acid metabolism.

15 CANA-treated female mice showed increases in nucleic acid metabolism.

16 bryogenesis, out of which 22 are involved in nucleic acid metabolism.

17 numerous pathways involved in all aspects of nucleic acid metabolism.

18 n Type III-A CRISPR-Cas immunity and central nucleic acid metabolism.

19 ucose and fatty acids metabolism, as well as nucleic acids metabolism.

20 lammatory encephalopathy caused by defective nucleic acids metabolism.

21 s identified were primarily ones involved in nucleic acid metabolism and cell cycle regulation.

22 Topoisomerases are essential for orderly nucleic acid metabolism and cell survival and are proven

23 ding protein that plays an important role in nucleic acid metabolism and gene expression regulation.

24 he apicoplast genome and enzymes involved in nucleic acid metabolism and gene expression.

25 groups together numerous enzymes involved in nucleic acid metabolism and implicated in many biologica

26 HBV) capsids play an important role in viral nucleic acid metabolism and other elements of the virus

27 hment for transcriptional pathways linked to nucleic acid metabolism and proliferation in the liver.

28 t protein profile changes and alterations in nucleic acid metabolism and spliceosome pathways.

29 aintaining normal cellular function, such as nucleic acid metabolism and the proliferation of cells.

30 ecently become clear that various aspects of nucleic acid metabolism and the ubiquitin-proteasome pat

31 is mutation correlates with changes in viral nucleic acid metabolism and/or secretion.

32 b only in hepatocytes dysregulates lipid and nucleic acid metabolisms and increases the abundance of

33 Metabolites related to polyamine metabolism, nucleic acid metabolism, and methylation, identified tum

34 nd functional groups involved in protein and nucleic acid metabolism, and the formation of structural

35 ctivation of the viral sensors STING, "self" nucleic acid metabolism, and the ubiquitin-proteasome sy

36 rbohydrates, proteins, and redox), lipid and nucleic acid metabolisms are also affected.

37 ar antigen (PCNA) plays an essential role in nucleic acid metabolism as a component of the DNA replic

38 ar antigen (PCNA) plays an essential role in nucleic acid metabolism as a component of the replicatio

39 They are known to interfere with nucleic acid metabolism, but their direct effect on tran

40 nded DNA-binding proteins play many roles in nucleic acid metabolism, but their importance during tra

41 tiviral immunity, and mutations that disrupt nucleic acid metabolism can lead to autoinflammatory dis

42 ing of functions variously involved in phage nucleic acid metabolism for intron propagation.

43 ion and positive selection of amino acid and nucleic acid metabolism genes.

44 acid enzymes is fundamental to understanding nucleic acid metabolism, genome replication and repair.

45 RNRs' central role in nucleic acid metabolism has resulted in five therapeutic

46 regulators of chloroplast and mitochondrial nucleic acid metabolism in plants.

47 tosis and is required for several aspects of nucleic acid metabolism, including chromosome condensati

48 Mutations in genes that function in nucleic acid metabolism, including RNASEH2, are linked t

49 Medications that alter nucleic acid metabolism, including some common immunosup

50 y innovative studies of pathways in cellular nucleic acid metabolism is demonstrated.

51 The role of the capsid in subsequent nucleic acid metabolism is unknown.

52 indicated circadian regulation of lipid and nucleic acid metabolism; it also predicted circadian var

53 further evidence that altered mitochondrial nucleic acid metabolism may have pathogenic significance

54 Azathioprine interference in nucleic acid metabolism may interact with the mitochondr

55 dysfunction, protein dyshomeostasis, altered nucleic acid metabolism, myonuclear degeneration and the

56 Inborn errors of nucleic acid metabolism often cause aberrant activation

57 caused by disturbances in the intracellular nucleic acid metabolism or in cytosolic nucleic acid-sen

58 e various mitochondrial processes, including nucleic acid metabolism, oxidative phosphorylation, prot

59 The tricarboxylic acid cycle and nucleic acid metabolism pathways were also negatively af

60 (known as C3POs) and participate in various nucleic acid metabolism pathways.

61 ainly in cell death, cancer, cell cycle, and nucleic acid metabolism pathways.

62 tant contribution to better understanding of nucleic acids metabolism plants.

63 mage response, and other pathways regulating nucleic acid metabolism, such as gene expression and cel

64 ad captured cellular domains associated with nucleic acid metabolism that have not been previously fo

65 Although WRNp functions in nucleic acid metabolism, there is little or no informati

66 rucial functions ranging from nucleotide and nucleic acid metabolism to phospholipid hydrolysis.

67 onuclease complex has a critical function in nucleic acid metabolism to prevent immune activation wit

68 interactions in various pathways of cellular nucleic acid metabolism with an emphasis on DNA replicat