Shape and Director Field Deformation of Tactoids of Plate-Like Colloids in a Magnetic Field

SUMMARY High-quality reagents to study and detect glycans with high specificity for research and clinic applications are severely lacking. Here, we structurally and functionally characterize several variable lymphocyte receptor (VLR) based antibodies from lampreys immunized with O erythrocytes that specifically recognize the blood group H-trisaccharide type II antigen. Glycan microarray analysis and biophysical data reveal that these VLRs exhibit greater specificity for H-trisaccharide compared to the plant lectin UEA-1, which is widely used in blood typing. Amongst these antibodies, O13 exhibits superior specificity for H-trisaccharide, the basis for which is revealed by comparative analysis of high-resolution VLR:glycan crystal structures. Using a structure-guided approach, we designed an O13 mutant with further enhanced specificity for H-trisaccharide. These insights into glycan recognition by VLRs suggest that lampreys can produce highly specific glycan antibodies and are a valuable resource for the production of next-generation glycan reagents for biological and biomedical research and as diagnostics and therapeutics.

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Ikaros promotes rearrangement of TCR α genes in an Ikaros null thymoma cell line

Collins

Clambey

Scott‐Browne

et al. 2012

Eur J Immunol

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Summary Ikaros is important in the development and maintenance of the lymphoid system, functioning in part by associating with chromatin-remodeling complexes. We have studied the functions of Ikaros in the transition from pre-T cell to the CD4+CD8+ thymocyte using an Ikaros null CD4−CD8− mouse thymoma cell line (JE131). We demonstrate that this cell line carries a single functional TCR β gene rearrangement and expresses a surface pre-TCR. JE131 cells also carry non-functional rearrangements on both alleles of their TCR α loci. Retroviral re-introduction of Ikaros dramatically increased the rate of transcription in the α locus and TCR Vα/Jα recombination resulting in the appearance of many new αβTCR+ cells. The process is RAG dependent, requires SWI/SNF chromatin-remodeling complexes and is coincident with the binding of Ikaros to the TCR α enhancer. Furthermore, knockdown of Mi2/NuRD complexes increased the frequency of TCR α rearrangement. Our data suggest that Ikaros controls Vα/Jα recombination in T cells by controlling access of the transcription and recombination machinery to the TCR α loci. The JE131 cell line should prove to be a very useful tool for studying the molecular details of this and other processes involved in the pre-T cell to αβTCR+ CD4+CD8+ thymocyte transition.

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Structural Insights into VLR Fine Specificity for Blood Group Carbohydrates

Ikaros promotes rearrangement of TCR α genes in an Ikaros null thymoma cell line

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