ライフサイエンスコーパス: immunobiology

1 provide advances with broad implications in immunobiology.

2 they induce offer direct insight into human immunobiology.

3 ccine design and future research in TFH cell immunobiology.

4 and nonhuman primates for the study of human immunobiology.

5 hput selection represent major challenges in immunobiology.

6 ant animal models of HLA-E-restricted T cell immunobiology.

7 et in corneal transplant pharmacotherapy and immunobiology.

8 though little is known about its role in pDC immunobiology.

9 t histologic comparison of early engraftment immunobiology.

10 le of alternatively activated macrophages in immunobiology.

11 be very useful for in vivo studies of human immunobiology.

12 respiratory syncytial virus pathogenesis and immunobiology.

13 our evolving understanding of the disease's immunobiology.

14 rstanding of the paradoxical nature of liver immunobiology.

15 ion may be key to understanding and altering immunobiology.

16 c acid ligands has important implications in immunobiology.

17 luable tool for the study of transplantation immunobiology allergy, autoimmunity, and infectious dise

18 ations in the expression of genes related to immunobiology among the African-American patients, consi

19 peptide splicing events has implications for immunobiology and autoimmunity theories and may provide

20 ts may lead to better understanding of liver immunobiology and development of new strategies for trea

21 serve as a useful tool in the study of viral immunobiology and for the design of treatments for murin

22 tic cancer and should be considered in tumor immunobiology and for the development of new therapeutic

23 of patients and to fundamental paradigms in immunobiology and hemostasis.

24 study of these important APC in normal liver immunobiology and in immune-mediated hepatic disorders.

25 h play remarkably varied and potent roles in immunobiology and neurobiology.

26 provide a more detailed understanding of the immunobiology and pathogenesis of GVHD and GVL responses

27 Studies in the immunobiology and pathology of IBD and colitis-associate

28 in soluble form to facilitate study of their immunobiology and potential role in vaccines.

29 Rapidly advancing skin immunobiology and recently described parasite developmen

30 Current understanding of T cell immunobiology and the critical role of inflammatory proc

31 model for the study of human Treg ontogeny, immunobiology and therapy.

32 s, understanding of their role in transplant immunobiology and transplant rejection is extremely limi

33 These findings uncover facets of CAR immunobiology and underscore the potential of CRISPR/Cas

34 tory effects that could modify host-parasite immunobiology, and the lipid solubility of plant oils mi

35 act of CD11c-DTR and Langerin-DTR mice on DC immunobiology, and we highlight the problems to be aware

36 Advances in MRI, pathology, and immunobiology are needed to increase understanding of th

37 are DNA viruses, and their pathogenesis and immunobiology are similar.

38 Recent advances in immunobiology are very promising for the identification

39 mors indicate prominent differences in tumor immunobiology between African-American and European-Amer

40 This review summarizes the state of CD28/B7 immunobiology both in vitro and in vivo; summarizes the

41 his review of Brucella-host interactions and immunobiology discusses recent discoveries as the basis

42 These data revise the understanding of pDC immunobiology during SIV infection, indicating that pDCs

43 encing did not discernibly affect the cells' immunobiology (e.g., costimulatory molecules, chemokines

44 stic and structural studies of pathogenesis, immunobiology, environmental resistance, and biotransfor

45 the past 20 years, his expertise in mucosal immunobiology has been applied to the immunology of HIV/

46 munodeficiency virus type 1 (HIV-1) envelope immunobiology has been derived almost exclusively from a

47 ur enhanced understanding of transplantation immunobiology has refined clinical management and improv

48 To increase our understanding of CMV immunobiology in an animal model, we used a genomic appr

49 inophil cell biology, molecular biology, and immunobiology in health and disease.

50 obilization is fundamental to the underlying immunobiology in KD.

51 mmarize current views on monocyte/macrophage immunobiology in kidney transplantation.

52 ization of a murine model to enable study of immunobiology in the setting of ABOi transplantation.

53 In this study, we investigated MHC-E immunobiology in two common nonhuman primate species, In

54 and we have recently shown that endothelial immunobiology is anchorage dependent.

55 These studies demonstrate that ICAM-1 immunobiology is highly complex but that individual isof

56 Appreciation of this dichotomy in IL-10 immunobiology may allow for the design of more effective

57 sease processes, better understanding of its immunobiology might lead to the development of IL-18 and

58 We here review the immunobiology of 2 particularly promising TNFRSF target

59 Much of the immunobiology of allogeneic HSCT has been gleaned from p

60 The immunobiology of allogeneic HSCT is unique in transplant

61 elanoma cells may contribute to the clinical immunobiology of anti-CTLA4 responses.Significance: Thes

62 might, in part, explain the inheritance and immunobiology of asthma.

63 rus, identifies knowledge gaps regarding the immunobiology of both diseases, and aims to prioritise r

64 opment hampered by poor understanding of the immunobiology of C. jejuni infection.

65 The full understanding of the immunobiology of cancer immunosurveillance and immunoedi

66 tryptophan catabolism as a key factor in the immunobiology of cancer.

67 le for the HTLV-I SU binding proteins in the immunobiology of CD4(+) T cells.

68 Although much is known concerning the immunobiology of CD8+ T memory cells, the initial events

69 The immunobiology of CD80 expression by keratinocytes, espec

70 reat deal remains to be understood about the immunobiology of DC populations in relation to human tra

71 f some long-standing enigmas surrounding the immunobiology of dendritic cells, illuminating their opp

72 This review will primarily focus on the immunobiology of experimental acute GVHD with an emphasi

73 ow only limited understanding of the genuine immunobiology of FDCs in their native habitat.

74 gene expression patterns, which underlie the immunobiology of FHL.

75 IL-2 and TGF-beta1 play key roles in the immunobiology of Foxp3-expressing CD25(+)CD4(+) T cells

76 n combination has been used to elucidate the immunobiology of graft-vs-host disease (GVHD) following

77 hes are based on better understanding of the immunobiology of HIV and its impact on hematopoietic tis

78 cine development in the context of the basic immunobiology of HIV and SIV, review the evidence for th

79 y to inhibit apoptosis may be factors in the immunobiology of HSV infections.

80 th a focus on novel understanding of mucosal immunobiology of HSV-2, and vaccine efforts to date, in

81 We sought to study the immunobiology of human IgE-expressing B cells in healthy

82 Some of the recent key advances in the immunobiology of IL-18 are discussed in this review.

83 ions of this new appreciation concerning the immunobiology of IL-2 with respect to targeting IL-2 or

84 Here we provide an overview of the immunobiology of IL-27 and review advances in understand

85 ous antagonists of IL-6 and consider how the immunobiology of IL-6 may inform clinical decisions.

86 to 78 days, providing new insights into the immunobiology of LCs.

87 Recognition of such relevant proteins in the immunobiology of malignant tumors may lead to the develo

88 owever, many gaps in knowledge regarding the immunobiology of maternal immunisation prevent the optim

89 es recent insights into the pathogenesis and immunobiology of MF/SS and how these have shaped current

90 terface in humans, within an overview of the immunobiology of NKG2D and mechanisms underlying the reg

91 To elucidate the immunobiology of norovirus infection in humans, 15 volun

92 mmunity, but years of investigation into the immunobiology of other flaviviruses has helped to accele

93 role of this important human pathogen in the immunobiology of pelvic inflammatory disease.

94 ions should improve our understanding of the immunobiology of persistent viral infection.

95 The immunobiology of recombinant adenovirus was studied in m

96 This review summarizes the immunobiology of SP and its effect on immune cells and i

97 Recent advances in our understanding of the immunobiology of stem-cell engraftment, tolerance and tu

98 oral diseases, with special emphasis on the immunobiology of Streptococcus mutans, leading to active

99 arrow transplantation (BMT), but the complex immunobiology of the allogeneic environment on responses

100 An improved understanding of the immunobiology of the B-cell response to these vaccines m

101 hieved through a better understanding of the immunobiology of the HLA system and through more precise

102 This study highlights the unique immunobiology of the lung and the complexity of lung tra

103 Improved understanding of the immunobiology of these cells has increased the possibili

104 a greater understanding of the genetics and immunobiology of these diseases, facilitating the matchi

105 Advances in the immunobiology of these disorders are discussed including

106 rus outbreaks, yet little is known about the immunobiology of these viruses.

107 in understanding oncogenic signaling and the immunobiology of this cancer.

108 t cell is central to an understanding of the immunobiology of this intracellular parasite but is a ma

109 tion of life-threatening airway defects, the immunobiology of this organ system must be better charac

110 Recent advances in the understanding of the immunobiology of xenograft rejection has spurred experim

111 els have clarified the pathology, if not the immunobiology, of chronic intestinal allograft rejection

112 Several unanswered questions in T cell immunobiology relating to intracellular processing or in

113 such, the role of gammadelta T cells in RCC immunobiology remains questionable.

114 hed for neurobiology, growth, metabolism and immunobiology, suggesting that these biological processe

115 efining our understanding of transplantation immunobiology, these findings identify new therapeutic t

116 chlamydia natural history, pathogenesis, and immunobiology were reviewed and gaps in our knowledge th

117 paradoxical pro-tumor role for CXCR3 in lung immunobiology wherein the CXCR3 axis drives both the ant

118 ammation has emerged as an active process in immunobiology, with cells of the mononuclear phagocyte s

119 elated to C. trachomatis natural history and immunobiology, with implications for control programs;to