ライフサイエンスコーパス: vaccinology

1 erstanding this bacterium's epidemiology and vaccinology.

2 the potential application of such viruses in vaccinology.

3 ased vaccine design program based on reverse vaccinology.

4 vaccinomics, literature mining, and systems vaccinology.

5 ccinology, and case studies in computational vaccinology.

6 n a variety of settings from biocatalysis to vaccinology.

7 ibody responses remains a major challenge in vaccinology.

8 gs and highlight their importance to malaria vaccinology.

9 may have keen importance is in the field of vaccinology.

10 te an effective chemistry-driven approach to vaccinology.

11 gned to facilitate research in computational vaccinology.

12 ectious diseases are now within the realm of vaccinology.

13 on is a principal objective of computational vaccinology.

14 rted goal to develop practical computational vaccinology.

15 provide insight into the future direction of vaccinology.

16 andidate prediction program based on reverse vaccinology.

17 tworks to influenza pathogenesis and systems vaccinology.

18 We are entering a "reverse vaccinology 2.0" era.

19 This represents an advance in schistosome vaccinology and allows for the development of a therapeu

20 r challenges for the future of computational vaccinology and identifies developing themes that will e

21 Despite the common origins of vaccinology and immunology more than 200 years ago, the

22 inding regions, vaccine design using reverse vaccinology, and case studies in computational vaccinolo

23 Using a systems vaccinology approach, we find that every measured respon

24 ive neutralizing antibodies using structural vaccinology approaches could enhance intrinsic cross-imm

25 Such "systems vaccinology" approaches offer an integrated picture of t

26 ics, epidemiology, immunology, therapeutics, vaccinology/clinical trials research, vector biology, an

27 nic antigens (identified with use of reverse vaccinology) combined with bacterial outer-membrane vesi

28 As a service to the immunology and vaccinology communities at large, we have implemented, a

29 We review these recent structural vaccinology efforts to engineer germline-targeting, epit

30 20 years ago, reverse vaccinology enabled vaccine discovery and design based o

31 on after vaccination is an important part of vaccinology for both theoretical and practical reasons.

32 a general and practical approach of analytic vaccinology for the development of subunit vaccines agai

33 A central challenge in ETEC vaccinology has been the identification of conserved sur

34 Reverse and structural vaccinology have revealed novel antigen candidates and m

35 Here we discuss the promise of systems vaccinology in probing humanity's diverse immune systems

36 he first fully successful example of reverse vaccinology in the HIV vaccine field with rationally des

37 Major advances in vaccinology in the past year include the experimental us

38 Structural vaccinology, in which protein structure information is u

39 om the field of human immunodeficiency virus vaccinology involves a novel in silico mosaic approach t

40 Reverse vaccinology is an emerging and revolutionary vaccine dev

41 Genetic vaccinology is particularly useful for microbes that do

42 A central goal in vaccinology is the induction of high and sustained Ab re

43 t they have focused chiefly on vaccines, and vaccinology is thriving.

44 A major challenge in vaccinology is to prospectively determine vaccine effica

45 at this type of chemistry-driven approach to vaccinology is underexplored and may provide routes to v

46 ive immunization, which is the foundation of vaccinology, is an anticipatory strategy with inherent l

47 n advisory board of international experts in vaccinology, malariology and field trials provides the s

48 Recent advances in vaccinology offer new promise for an effective HIV vacci

49 Computational vaccinology or vaccine informatics is an interdisciplina

50 Computational vaccinology overlaps with many other fields such as immu

51 er fields such as immunoinformatics, reverse vaccinology, postlicensure vaccine research, vaccinomics

52 larified aspects of rotavirus immunology and vaccinology previously considered controversial.

53 ains impeded by lack of understanding of key vaccinology principles in humans.

54 We designate this approach "genetic vaccinology," since it exploits genetic variants to draw

55 periphery of the trimer indicates potential vaccinology strategies to elicit broadly neutralizing an

56 Such 'systems vaccinology' studies are beginning to provide mechanisti

57 dresses scientific and clinical questions in vaccinology using computational and informatics approach

58 nd SpAKKAA), which was identified by genetic vaccinology using sortase A mutants, raised antigen-spec

59 The second ISV Pre-conference Computational Vaccinology Workshop (ICoVax 2012) was held on October 1

60 unite the estranged fields of immunology and vaccinology, yielding unexpected insights about mechanis