ライフサイエンスコーパス: glycobiology

1 etion, protein folding, quality control, and glycobiology.

2 specificities is fundamental to the study of glycobiology.

3 d to study multivalency effects operative in glycobiology.

4 the application of glycocalyx engineering in glycobiology.

5 systems to antibodies, which led directly to glycobiology.

6 catalysis concomitant with the complexity of glycobiology.

7 nces in the understanding and application of glycobiology.

8 of glycoconjugates is critical for advancing glycobiology.

9 imulated an explosive growth in the study of glycobiology.

10 near glycopeptides and glycocyclopeptides in glycobiology.

11 nt CBMs that could have broad application in glycobiology.

12 and debated recent advances in the field of glycobiology.

13 minoglycans (HLGAGs) is a major challenge in glycobiology.

14 ols have proven indispensable for studies in glycobiology.

15 related to inhibition of enzymes involved in glycobiology.

16 d stemness features alongside new avenues in glycobiology.

17 d have served as valuable tools for studying glycobiology.

18 their rational design for drug discovery and glycobiology.

19 hose that fall under the general category of glycobiology.

20 d for defined glycans as tools for molecular glycobiology.

21 ch and be of use to anyone using lectins for glycobiology.

22 g the push toward multiglycomics and systems glycobiology.

23 e, thus, facilitating applications of MSI in glycobiology.

24 n is still required to better understand CBG glycobiology.

25 , glycoprotein biosynthesis and cell surface glycobiology (ABO, ASGR1, FUT2, GPLD1 and ST3GAL4), infl

26 Recent advances in glycobiology and cancer research have defined the key pr

27 e interested in structural biology, cloning, glycobiology and chemical biology.

28 It is broadly applicable to help advance glycobiology and develop GSL-based diagnostics and thera

29 The pace of discovery research in glycobiology and development of carbohydrate-based thera

30 of glycorandomization as a powerful tool in glycobiology and drug discovery.

31 obe interactions, develop new techniques for glycobiology and exploit these pathways for novel diagno

32 Thanks to technological advances in glycobiology and glycochemistry we entered a new era in

33 Es for advanced future studies of intestinal glycobiology and host-pathogen interactions.

34 After a very brief primer on glycobiology and its connection to medicine, these emerg

35 odels akin to MCNet reach beyond traditional glycobiology and make it possible to anticipate interact

36 r glycan architectures, with implications in glycobiology and material sciences.

37 er insight into a broad concept in microbial glycobiology and provide prototype systems and bioinform

38 carbohydrates presents a major challenge for glycobiology and the analysis of glycoconjugates.

39 which will lead to a deeper understanding of glycobiology and to new glyco-materials with improved de

40 virion-derived gp120 has implications in HIV glycobiology and vaccine design.

41 f a direct interface between RNA biology and glycobiology, and an expanded role for RNA in extracellu

42 This chemical glycobiology approach offers valuable insights into the

43 Using this integrated glycobiology approach, we identified multiple novel mode

44 Among of the most urgent needs of the glycobiology community is to generate libraries of pure

45 To advance the field of glycobiology, efficient synthesis methods of oligosaccha

46 versatile and should be applicable to other glycobiology enzyme systems.

47 ese approaches are paving the way for future glycobiology-focused therapeutics.

48 The latest developments in glycobiology, glycochemistry, and glycoproteomics have m

49 As a harbinger of this activity, glycobiology has already produced several drugs that hav

50 The study of glycans, known as glycobiology, has entered an era of renaissance that coi

51 hese enzymes will provide critical tools for glycobiology, help to avoid undesired side effects of an

52 nderstanding of the widespread importance of glycobiology in development.

53 structure and function, but also on archaeal glycobiology in general.

54 lycoforms is set to revolutionize structural glycobiology in the coming postgenomic era.

55 de linkage and dynamics information from the Glycobiology Institute experimental database and protein

56 lycoSystems, and by the establishment of the Glycobiology Institute.

57 Today, glycobiology is poised to make major new contributions t

58 These examples illustrate how chemical glycobiology is providing new insight into the functiona

59 The reason glycobiology lags behind its counterparts dealing with n

60 dings highlight a potentially wider role for glycobiology manipulation by plant pathogens across the

61 toward innovative perspectives in chemistry, glycobiology, materials science and nanoscience, with a

62 cs and tools from chemical biology have made glycobiology more tractable and understandable.

63 ons in a multitude of genes that disrupt the glycobiology of alpha-dystroglycan, thereby affecting it

64 at is unique among pathogenic fungi, and the glycobiology of C. neoformans has been a focus of resear

65 Thus, this study provides new insight on the glycobiology of insect cells and describes a new transge

66 As such, we highlight the glycobiology of the SARS-CoV-2 infection process, where

67 ols for fostering our basic understanding of glycobiology or as therapeutics.

68 tance of glycosylated peptides in structural glycobiology, pharmacology, and therapeutics, the method

69 lopment, homeostasis, and remodeling, from a glycobiology point of view.

70 Outside glycobiology, polytheonamides represent the most heavily

71 complex oligosaccharides for applications in glycobiology research and drug discovery.

72 Glycoinformatics plays a major role in glycobiology research, and the development of a comprehe

73 ide range of applications in areas including glycobiology research, cancer screening, and antiviral t

74 DI-2-MSI could constitute a valuable tool in glycobiology research.

75 ins and should be useful in diverse areas of glycobiology research.

76 approach for developing useful reagents for glycobiology research.

77 d plant classes provides molecular tools for glycobiology research.

78 us acceleration of knowledge in the field of glycobiology, revealing many intricacies and functional

79 Systems glycobiology studies the interaction of various pathways

80 Glycobiology, the study of glycan structures and their f

81 cal methods have ushered in a renaissance in glycobiology, the study of the biosynthesis, structures,

82 e spotlight on the most important element of glycobiology: the glycans themselves.

83 Analysis of site-specific protein glycobiology through glycoproteomics has evolved rapidly

84 ons ranged from the clinical applications of glycobiology to novel approaches for unravelling carbohy

85 this report reveals an intimate relation of glycobiology to osteoarthritic cartilage degeneration.

86 ylation process and the potential of systems glycobiology tools for analyzing conventional biochemica

87 results demonstrate the potential of systems glycobiology tools for elucidating key glycan biomarkers

88 tanding of heptose modification, provide new glycobiology tools to synthesize novel heptose derivativ

89 enzymes to synthesize novel sugars useful as glycobiology tools.

90 Glycoconjugate chemistry and glycobiology were rapidly evolving scientific discipline