MHC Region and Its Related Disease Study: Method for Decipher the Polymorphism and Fine-Mapping Disease Causal Mutations of MHC Region

Hongzhi Cao

MHC Region and Its Related Disease Study: Method for Decipher the Polymorphism and Fine-Mapping Disease Causal Mutations of MHC Region

Hongzhi Cao

Abstract

The major histocompatibility complex (MHC) is one of the most gene dense regions in the human genome and many disorders, including primary immune deficiencies, autoimmune conditions, infections, cancers and mental disorder have been found to be associated with this region. However, due to a high degree of polymorphisms within the MHC, the detection of variants in this region, and diagnostic HLA typing, still lacks a coherent, standardized, cost effective and high coverage protocol of clinical quality and reliability. And owing to marked linkage disequilibrium of MHC region, genes/mutations involved in the above diseases have not, with very few exceptions, been identified. Currently popular next-generation sequencing (NGS) technology, comprising massively parallel single-molecule sequencing, can generate billions of bases from amplified single DNA molecules within several days, holding great promise for achieving cost-effective and highthroughput and high accurate genotyping. Based on the NGS platform, by using delicately designed bioinformatics methods, we systematically developed new tools/methods, including high throughput HLA genotyping method – RCHSBT, targeted sequencing based SNV detection as well as HLA gene typing and large structural variation detection using optical mapping technic, to provide comprehensive and accurate information of the MHC region and apply them into disease causal mutation’s fine-mapping.

Original language	English

Publisher	Department of Biology, Faculty of Science, University of Copenhagen
Publication status	Published - 2015

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@phdthesis{839af44b04ba4da598011e24da68e53c,

title = "MHC Region and Its Related Disease Study: Method for Decipher the Polymorphism and Fine-Mapping Disease Causal Mutations of MHC Region ",

abstract = "The major histocompatibility complex (MHC) is one of the most gene dense regions in the human genome and many disorders, including primary immune deficiencies, autoimmune conditions, infections, cancers and mental disorder have been found to be associated with this region. However, due to a high degree of polymorphisms within the MHC, the detection of variants in this region, and diagnostic HLA typing, still lacks a coherent, standardized, cost effective and high coverage protocol of clinical quality and reliability. And owing to marked linkage disequilibrium of MHC region, genes/mutations involved in the above diseases have not, with very few exceptions, been identified. Currently popular next-generation sequencing (NGS) technology, comprising massively parallel single-molecule sequencing, can generate billions of bases from amplified single DNA molecules within several days, holding great promise for achieving cost-effective and highthroughput and high accurate genotyping. Based on the NGS platform, by using delicately designed bioinformatics methods, we systematically developed new tools/methods, including high throughput HLA genotyping method – RCHSBT, targeted sequencing based SNV detection as well as HLA gene typing and large structural variation detection using optical mapping technic, to provide comprehensive and accurate information of the MHC region and apply them into disease causal mutation{\textquoteright}s fine-mapping.",

author = "Hongzhi Cao",

year = "2015",

language = "English",

publisher = "Department of Biology, Faculty of Science, University of Copenhagen",

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T1 - MHC Region and Its Related Disease Study

T2 - Method for Decipher the Polymorphism and Fine-Mapping Disease Causal Mutations of MHC Region

AU - Cao, Hongzhi

PY - 2015

Y1 - 2015

N2 - The major histocompatibility complex (MHC) is one of the most gene dense regions in the human genome and many disorders, including primary immune deficiencies, autoimmune conditions, infections, cancers and mental disorder have been found to be associated with this region. However, due to a high degree of polymorphisms within the MHC, the detection of variants in this region, and diagnostic HLA typing, still lacks a coherent, standardized, cost effective and high coverage protocol of clinical quality and reliability. And owing to marked linkage disequilibrium of MHC region, genes/mutations involved in the above diseases have not, with very few exceptions, been identified. Currently popular next-generation sequencing (NGS) technology, comprising massively parallel single-molecule sequencing, can generate billions of bases from amplified single DNA molecules within several days, holding great promise for achieving cost-effective and highthroughput and high accurate genotyping. Based on the NGS platform, by using delicately designed bioinformatics methods, we systematically developed new tools/methods, including high throughput HLA genotyping method – RCHSBT, targeted sequencing based SNV detection as well as HLA gene typing and large structural variation detection using optical mapping technic, to provide comprehensive and accurate information of the MHC region and apply them into disease causal mutation’s fine-mapping.

AB - The major histocompatibility complex (MHC) is one of the most gene dense regions in the human genome and many disorders, including primary immune deficiencies, autoimmune conditions, infections, cancers and mental disorder have been found to be associated with this region. However, due to a high degree of polymorphisms within the MHC, the detection of variants in this region, and diagnostic HLA typing, still lacks a coherent, standardized, cost effective and high coverage protocol of clinical quality and reliability. And owing to marked linkage disequilibrium of MHC region, genes/mutations involved in the above diseases have not, with very few exceptions, been identified. Currently popular next-generation sequencing (NGS) technology, comprising massively parallel single-molecule sequencing, can generate billions of bases from amplified single DNA molecules within several days, holding great promise for achieving cost-effective and highthroughput and high accurate genotyping. Based on the NGS platform, by using delicately designed bioinformatics methods, we systematically developed new tools/methods, including high throughput HLA genotyping method – RCHSBT, targeted sequencing based SNV detection as well as HLA gene typing and large structural variation detection using optical mapping technic, to provide comprehensive and accurate information of the MHC region and apply them into disease causal mutation’s fine-mapping.

UR - https://rex.kb.dk/primo-explore/fulldisplay?docid=KGL01009153830&context=L&vid=NUI&search_scope=KGL&tab=default_tab&lang=da_DK

M3 - Ph.D. thesis

BT - MHC Region and Its Related Disease Study

PB - Department of Biology, Faculty of Science, University of Copenhagen

ER -

MHC Region and Its Related Disease Study: Method for Decipher the Polymorphism and Fine-Mapping Disease Causal Mutations of MHC Region

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