Project description:High throughput sequencing of immunoglobulin (Ig) heavy (IgH) and light (IgL) chain repertoires

Project description:In this research, we used RNA-sequencing technology to detect genome-wide differentially expressed genes in spleen and gill of Vibrio harveyi -infected Takifugu rubripes.This high-throughput sequencing could help us to understand new mechanisms of action of V. harveyi induced aquaculture fish disease.

Project description:In response to antigen challenge, human B cells clonally expand, undergo selection and differentiate within secondary lymphoid tissues to produce mature B cell subsets and high affinity antibodies necessary for an effective immune response. However, the interplay between affinity, antibody class and different B cell fates has proved challenging to decipher in primary human tissue. We have applied an integrated analysis of bulk and single-cell antibody repertoires paired with single-cell transcriptomics of human B cells from a model secondary lymphoid tissue. Specifically, here we have performed bulk B cell repertoire sequencing of the immunoglobulin heavy chain (IgH) for sorted B cell subsets from paediatric tonsil tissue. Matched single-cell gene expression and single-cell VDJ data are also available for the same patient donors.

Project description:Repertoire sequencing of immunoglobulin A heavy chain

Project description:RNA-Seq gene expression profile of the notochord composing the intervertebral joints in fugu, Takifugu rubripes

Project description:B cells are known to have different properties and BCR repertoires depending on the time of development. Our objective is to investigate the BCR repertoire of B cells across embryonic, neonatal, and adult stages, particularly in cells with a RAG2 expression history. We focus on sequencing and analyzing the immunoglobulin heavy chain (IGH) genes of these cells to understand their BCR diversity and specificity. Additionally, we explore the relationship between B-1a cells and bone marrow IgM+ plasmablasts/plasma cells, aiming to shed light on the development and function of B-1a cells in the immune system.

Project description:Heavy chain immunoglobulin sequencing of Lyme disease PBMCs

Project description:Human antibody heavy chain repertoires in dengue

Project description:Recent advancements in microfluidics and high-throughput sequencing technologies have enabled recovery of paired heavy- and light- chain of immunoglobulins (Ig) and VDJ- and VJ- chains of T cell receptors (TCR) from thousands of single cells simultaneously. Due to the complexity of these polyclonal receptors, for many species single-cell immune repertoire sequencing assays are not yet commercially available. Rhesus macaques are one of the most well-studied model organisms of the human adaptive immune response; application of these new immune repertoire sequencing assays is highly relevant to vaccine and infectious disease studies. Here we use custom designed primers to target and enrich for every known Ig and TCR chain and isotype in the rhesus macaque animal model. We sequenced more than 110,000 cell barcodes from rhesus macaque repertoires using PBMC, splenocyte, and FACS-sorted T and B cell. We were able to recover every Ig and TCR isotype, measure clonal expansion in proliferating T cells, and pair repertoires with gene expression profiles of single cells. Our results establish the ability to perform single-cell based immune repertoire analysis in rhesus macaque.

Project description:Lyme disease (Borrelia burgdorferi infection) is increasingly recognized as a significant source of morbidity world-wide. Here, we investigated B cell responses to Lyme disease through molecular identifier-enabled antibody heavy chain sequencing of bulk B cells from PBMCs. Single-cell immunoglobulin sequencing of paired heavy- and light-chain genes from this project will also be separately deposited. Additional information regarding patient characteristics and overlap with other data from the SLICE study is available upon request.