ライフサイエンスコーパス: humanization

1 andom location (so-called KO-plus-transgenic humanization).

2 mouse IgG3 mAb is lost upon chimerization or humanization.

3 aluable insights into the optimization of IF humanization.

4 two potential modes of adaptation to histone humanization.

5 rine lungs and spleens indicating successful humanization.

6 facilitate further antibody optimization and humanization.

7 2.5-A resolution and used as a template for humanization.

8 rent and random location; KO-plus-transgenic humanization.

9 f immunodeficient mouse strains suitable for humanization.

10 animals with a notion that such mAbs bypass humanization.

11 ts were allowed to heal on naive mice before humanization.

12 e changes necessary to regain activity after humanization.

13 and also suggest a possible means of enzyme "humanization."

14 We present the humanization, affinity maturation, and epitope mapping o

15 A method for simultaneous humanization and affinity maturation of monoclonal antib

16 uld not be identified by sequential in vitro humanization and affinity muturation strategies.

17 the fields of antibody engineering, antibody humanization and CAR-T cell therapy.

18 We report the humanization and characterization of monoclonal antibody

19 the Ebola virus now provides a framework for humanization and development of a postexposure immunothe

20 the immunogenicity of rodent antibodies via humanization and generation of antibodies in transgenic

21 he TKO hu-PBMC mouse model not only supports humanization and HIV-1 infection but also has a delayed

22 gn strategy could be applied during antibody humanization and library design for in vitro display met

23 Advances in antibody technologies, such as humanization and robust methods for human antibody gener

24 Here, we report the humanization and testing of these antibodies for clinica

25 Here, we present data on the identification, humanization, and in vitro pharmacology of an antidote f

26 ovides a detailed description of our genetic humanization approach, and the companion paper reports t

27 stant regions intact, using a unique in situ humanization approach.

28 rparts at the same genetic location (in situ humanization), but such efforts involved laborious proce

29 Liver humanization by intrasplenic injection of human hepatocy

30 Removal of foreign amino acid content by humanization can lower the immunogenic risk of the thera

31 l in which combined human liver and cytokine humanization confer enhanced human erythropoiesis and RB

32 oach (i) provides a rapid route for antibody humanization constraining the content of original mouse

33 and prior experience conducting research in humanization contexts may reduce costs and time spent, a

34 ht chain Ig loci, by far the largest genetic humanizations ever described.

35 an effective replacement for trial-and-error humanization experiments, producing similar results in a

36 Humanization had as a consequence that efficacy studies

37 notransplantation with human immune systems (humanization) has been problematic because C57BL/6 SIRPa

38 Heretofore, most genetic humanizations have involved disruption of the endogenous

39 of concept for the emerging appreciation of humanization in synthetic biology for human health.

40 nimal immunization and also commonly require humanization in the case of therapeutic applications.

41 One important example of genetic humanization involves mice humanized for their Ig genes,

42 e development of a new strategy for antibody humanization is described.

43 ther the primacy of gender categorization in humanization is more likely to be a culturally specific

44 Humanization is normally carried out in a largely trial-

45 mAb discovery is rapid and humanization is straightforward, establishing the utilit

46 Hu-mAb (humanness scoring and humanization) is freely available to use at opig.stats.o

47 of its high affinity and its high degree of humanization, JC-7U IgG1 is an excellent drug candidate

48 Liver humanization led to reprogrammed diurnal gene expression

49 in the CDRs, which are typically avoided in humanization methods.

50 Here, we describe the isolation and humanization of a potent monoclonal antibody cross-neutr

51 Humanization of a potent neutralizing mouse anti-human I

52 Here we describe the affinity maturation and humanization of a rabbit mAb that binds human and mouse

53 y technology, we recently reported the first humanization of a rabbit monoclonal antibody.

54 Hence, the humanization of ABC transporters in mice has become a ma

55 activation of GP130 in human hepatocytes, or humanization of an Il6 allele in recipient mice, substan

56 The humanization of animal model immune systems by genetic e

57 The humanization of animals is a powerful tool for the explo

58 bilities come moral concerns about the moral humanization of animals, especially when it comes to the

59 platforms, a rapid and reliable process for humanization of antibodies from nonhuman sources is requ

60 y either exogenous catestatin replacement or humanization of Chga mice.

61 Humanization of E06 was carried out by converting over 6

62 Here we demonstrate marked effects of this humanization of Foxp2 on learning and striatal neuroplas

63 Microbiota humanization of germ-free mice with fecal samples from t

64 Humanization of germ-free mice with pre-LFD feces caused

65 Improvement of affinity, as well as humanization of GNC92H2, would be advantageous in immuno

66 phism in vivo, we performed targeted genomic humanization of mice by using CRISPR/Cas9 (clustered reg

67 kb of a tailored Trp53 locus, as well as for humanization of mice using 116 kb and 180 kb human ACE2

68 it immune repertoires for the generation and humanization of monoclonal antibodies that bind with str

69 Here, we report the humanization of mouse 38C2 based on rational design guid

70 hain variable regions (VH), is important for humanization of mouse antibodies.

71 This approach was applied to the humanization of mouse mAb LM609 that is directed to huma

72 designed combinatorial V gene libraries, the humanization of mouse monoclonal antibody LM609 directed

73 In this report, we describe the humanization of muMAb VEGF A.4.6.1. by site-directed mut

74 Humanization of NSG mice with pediatric thymus was succe

75 More recently, efforts have turned to the humanization of other animal species such as the rat, wh

76 The humanization of rabbit antibodies, however, has not been

77 a dramatic, unexpected discovery during the humanization of rbt4A11 where, two variants of humanized

78 Humanization of rhLCV with EBV gp350 also confers suscep

79 rived from mice bearing human Ig transgenes, humanization of rodent Abs, or phage libraries.

80 ural information and computational tools the humanization of rodent antibodies for clinical use often

81 In addition, we determined that humanization of SCID mice following engraftment and vasc

82 provides a framework for further design and humanization of shark IgNARs.

83 We have applied this method to humanization of the anti-vascular endothelial growth fac

84 es, such as cocaethylene, and for additional humanization of the antibody.

85 goal of this study was to determine whether humanization of the As3mt gene confers a human-like patt

86 We report the humanization of the glycosylation pathway in the yeast P

87 Physiologic humanization of the hematopoietic stem cell niche proves

88 Humanization of the HRS-3 scFv coupled with the 4-1BB sp

89 themes emerged: 1) a feeling of support, 2) humanization of the medical system, 3) an opportunity fo

90 In situ genetic humanization of the mouse Cbln2 enhancer drives increase

91 r findings have significant implications for humanization of the mouse IgG1 currently in clinical tri

92 ecifically mutated to increase the degree of humanization of the nanobody VHH-B11.

93 Homozygous humanization of TPO led to increased levels of human eng

94 In this review, the immune and tissue humanization of various species is presented with an emp

95 ies, especially as they relate to potential "humanization" of host animals.

96 ell-binding antibodies, these data show that humanization offers a significant reduction in immunogen

97 Antibody humanization often requires the replacement of key resid

98 tibody-derived antibody sequence used during humanization, only the CDR3 region from a murine antibod

99 Humanization procedures aim to produce antibody therapeu

100 hus overcoming the major drawback of current humanization procedures, the requirement to construct an

101 ut these systems involve a long and variable humanization process, are expensive, and require the use

102 The best available methods for liver humanization rely on cell transplantation into immunodef

103 Humanization significantly changed the murine intestinal

104 cells and stromal cells occurs 2 weeks after humanization, so investigators should expect to observe

105 The novel humanization strategy described here provides a robust a

106 ndogenous epithelium with subsequent stromal humanization takes 1 month.

107 highly successful in the clinic, all current humanization techniques have potential limitations, such

108 We previously developed the ultra-humanization technology "Augmented Binary Substitution"

109 The best available model of liver humanization, the uroplasminogen-activator transgenic mo

110 lassifiers to develop a novel, computational humanization tool, Hu-mAb, that suggests mutations to an

111 for very large, in situ, and precise genetic humanization using large compound bacterial artificial c

112 e to HCV entry in vitro, we attempted murine humanization via a genetic approach.

113 This study examines how ultra-humanization, via CDR germlining, is facilitated while m

114 because of the manner in which their genetic humanization was carried out.

115 immunodeficiency virus, type 1 disease, its humanization was desired to minimize the potential for i

116 Humanization was performed by adoptive transfer of human

117 For rabbit antibody humanization, we then used a selection strategy that com

118 For humanization, we transplanted pooled feces from healthy,

119 Genetic humanization, which involves replacing mouse genes with

120 translational roadblock, by combining liver humanization with AAV receptor (AAVR) ablation, renderin

121 tive microbiome, were germ free, or received humanization without pretreatment or received sham gavag