ライフサイエンスコーパス: vaccinology

1 ockade, adoptive cellular therapy and cancer vaccinology.

2 ay address current limitations of diagnostic vaccinology.

3 ry is a fundamental tenet of structure-based vaccinology.

4 utting into perspective the future of cancer vaccinology.

5 The COVID-19 pandemic has transformed vaccinology.

6 a revolutionary advancement in the field of vaccinology.

7 value of the macaque model for translational vaccinology.

8 fusion and are relevant to structure-guided vaccinology.

9 immunity remains a critical knowledge gap in vaccinology.

10 , thereby defining a type of rational cancer vaccinology.

11 erstanding this bacterium's epidemiology and vaccinology.

12 the potential application of such viruses in vaccinology.

13 andidate prediction program based on reverse vaccinology.

14 tworks to influenza pathogenesis and systems vaccinology.

15 ased vaccine design program based on reverse vaccinology.

16 vaccinomics, literature mining, and systems vaccinology.

17 ccinology, and case studies in computational vaccinology.

18 n a variety of settings from biocatalysis to vaccinology.

19 ibody responses remains a major challenge in vaccinology.

20 gs and highlight their importance to malaria vaccinology.

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

22 te an effective chemistry-driven approach to vaccinology.

23 gned to facilitate research in computational vaccinology.

24 ectious diseases are now within the realm of vaccinology.

25 on is a principal objective of computational vaccinology.

26 rted goal to develop practical computational vaccinology.

27 provide insight into the future direction of vaccinology.

28 and improving of adjuvants critical goals in vaccinology.

29 echnologies and platforms that may transform vaccinology.

30 ive vaccines through structure-based reverse vaccinology.

31 ful tool to complement and advance precision vaccinology.

32 gence of SARS-CoV-2 represents a landmark in vaccinology(1,2).

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

34 'Reverse vaccinology 2.0' aims to rationally reproduce template a

35 Systems vaccinology allows cutting-edge analysis of innate bioma

36 We performed a systems vaccinology analysis to investigate immune responses in

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

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

39 The system incorporates reverse vaccinology and immuno-informatics tools to screen genom

40 Here we summarize challenges facing vaccinology and immunology at the level of society, scie

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

42 ve significant implications for YFV biology, vaccinology and structure-based flavivirus antigen desig

43 ve analyzes the way COVID-19 is transforming vaccinology and the opportunities for vaccines to have a

44 l dose escalation at the Centre for Clinical Vaccinology and Tropical Medicine, Oxford, UK.

45 hase 1 trial done at the Centre for Clinical Vaccinology and Tropical Medicine, University of Oxford,

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

47 Here we show, using a systematic genome-led vaccinology approach and a mouse model of Trypanosoma vi

48 In this study, the reverse vaccinology approach combined with genomic, transcriptio

49 rrent viral infection, indicating that a new vaccinology approach is required.

50 nia vaccine, we engineered through a reverse vaccinology approach that maximizes translation to human

51 Here we used a systems vaccinology approach to comprehensively profile the inna

52 nd extend the overall concept of the reverse vaccinology approach to vaccine development.

53 Using a reverse vaccinology approach, the present study surveyed the gen

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

55 this Perspective, we highlight a 'One Health vaccinology' approach and discuss some key areas of syne

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

57 highlights the need to incorporate precision vaccinology approaches for the development of safe and e

58 Systems vaccinology approaches have been used successfully to de

59 Systems vaccinology approaches have introduced novel tools for t

60 ss in this field and inform new clinical and vaccinology approaches.

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

62 knowledge about innate immunity and systems vaccinology are revitalizing the science and development

63 riving immune response to vaccines ('systems vaccinology') are revealing mechanistic insights and pro

64 on article we propose paratransgenic quantum vaccinology as a new approach that integrates platform t

65 attracted immense interest and high hopes in vaccinology, as evidence of high immunogenicity and prot

66 onducted a comprehensive preclinical reverse vaccinology-based vaccine program that has included the

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

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

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

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

71 20 years ago, reverse vaccinology enabled vaccine discovery and design based o

72 labs undertaking research on basic virology, vaccinology, epidemiology, and surveillance.

73 to build the scientific leadership for these vaccinology-focused programs.

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

75 s and emphasize the importance of structural vaccinology for malaria.

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

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

78 Systems vaccinology has defined molecular signatures and mechani

79 From our perspective, the challenges in tick vaccinology have encouraged the implementation of new in

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

81 Consequently, systems vaccinology helps pave the way for personalized vaccinat

82 Our previous study using systems vaccinology identified an association between the sterol

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

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

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

86 Structural vaccinology, in which protein structure information is u

87 Systems vaccinology integrates a range of "omics" technologies t

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

89 Reverse vaccinology is an emerging and revolutionary vaccine dev

90 Genetic vaccinology is particularly useful for microbes that do

91 A foundational principle of rational vaccinology is that vaccine structure plays a critical r

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

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

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

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

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

97 he scientific organizers of the Transforming Vaccinology Keystone, which moved to a virtual format in

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

99 In this study, in silico reverse vaccinology method were used to evaluate the prevalence

100 developing a vaccine, and modern structural vaccinology methods that could be used to create an effe

101 th impacts on the ecology, pathogenesis, and vaccinology of anthrax.

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

103 Computational vaccinology or vaccine informatics is an interdisciplina

104 Computational vaccinology overlaps with many other fields such as immu

105 ntigen design and could transform the entire vaccinology pipeline, including immune responses and eme

106 structure-based multiepitope fusion antigen vaccinology platform, we constructed a polyvalent protei

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

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

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

110 The emerging field of systems vaccinology provides detailed information on host respon

111 es and the role they may play in settings of vaccinology remain relatively little explored.

112 However, realizing the promise of AI for vaccinology requires more high-quality data.

113 tissue-derived antibody has implications for vaccinology, respiratory and CNS pathogen transmission,

114 , (ii) rational vaccine design using reverse vaccinology (RV) and structural vaccinology (SV) and (ii

115 Reverse vaccinology (RV) is a milestone in rational vaccine desi

116 Reverse vaccinology (RV) is a state-of-the-art technique to pred

117 itidis B, reporting the invention of Reverse Vaccinology (RV), which allows to identify vaccine candi

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

119 The COVID-19 pandemic placed the field of vaccinology squarely at the center of global consciousne

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

121 Systems vaccinology studies have been used to build computationa

122 Immunology and vaccinology studies in mice are typically performed in n

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

124 This pneumococcal precision vaccinology study in older adults uncovered distinct bas

125 sing reverse vaccinology (RV) and structural vaccinology (SV) and (iii) post-licensure vaccine succes

126 Technological revolutions such as reverse vaccinology, synthetic biology, and structure-based desi

127 lly in livestock, using present and emerging vaccinology technologies to discover that elusive liver

128 key areas of synergy in human and veterinary vaccinology that could be exploited to accelerate the de

129 Here, using reverse vaccinology the authors identify SPy_2191 as a cross-pro

130 In vaccinology, the induction of precise antibody responses

131 is proof-of-concept study applies structural vaccinology to enhance intramolecular interactions for t

132 s across multiple medical applications, from vaccinology to immune-oncology.

133 Exploitation of nano-vaccinology to intensify the cancer vaccine potency may

134 Here we apply systems vaccinology to investigate antibody responses in adolesc

135 cterial adhesion based on the Vaxign reverse vaccinology tool.

136 will be shaped by new discoveries in mucosal vaccinology, tumor immunology, immuno-therapeutic screen

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

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

139 ous innovative approaches, including reverse vaccinology, virus like particles, and recombinant modif

140 By applying subtractive reverse vaccinology, which involved the use of random peptide ph

141 b-based vaccine design program using reverse vaccinology with machine learning.

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

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