A new chromosome-scale duck genome shows a major histocompatibility complex with several expanded multigene families
Jiaxiang Hu,
Linfei Song,
Mengfei Ning,
Xinyu Niu,
Mengying Han,
Chuze Gao,
Xingwei Feng,
Han Cai,
Te Li,
Fangtao Li,
Huifang Li,
Daoqing Gong,
Weitao Song,
Long Liu,
Juan Pu,
Jinhua Liu,
Jacqueline Smith,
Honglei Sun,
Yinhua Huang
Affiliations
Jiaxiang Hu
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Linfei Song
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Mengfei Ning
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Xinyu Niu
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Mengying Han
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Chuze Gao
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Xingwei Feng
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Han Cai
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Te Li
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Fangtao Li
Key Laboratory for Prevention and Control of Avian Influenza and Other Major Poultry Diseases, Ministry of Agriculture and Rural Affairs, College of Veterinary Medicine, China Agricultural University
Huifang Li
Jiangsu Institute of Poultry Science
Daoqing Gong
College of Animal Science and Technology, Yangzhou University
Weitao Song
Jiangsu Institute of Poultry Science
Long Liu
College of Animal Science and Technology, Yangzhou University
Juan Pu
Key Laboratory for Prevention and Control of Avian Influenza and Other Major Poultry Diseases, Ministry of Agriculture and Rural Affairs, College of Veterinary Medicine, China Agricultural University
Jinhua Liu
Key Laboratory for Prevention and Control of Avian Influenza and Other Major Poultry Diseases, Ministry of Agriculture and Rural Affairs, College of Veterinary Medicine, China Agricultural University
Jacqueline Smith
The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh
Honglei Sun
Key Laboratory for Prevention and Control of Avian Influenza and Other Major Poultry Diseases, Ministry of Agriculture and Rural Affairs, College of Veterinary Medicine, China Agricultural University
Yinhua Huang
State Key Laboratory of Farm Animal Biotech Breeding, College of Biology Sciences, China Agricultural University
Abstract Background The duck (Anas platyrhynchos) is one of the principal natural hosts of influenza A virus (IAV), harbors almost all subtypes of IAVs and resists to many IAVs which cause extreme virulence in chicken and human. However, the response of duck’s adaptive immune system to IAV infection is poorly characterized due to lack of a detailed gene map of the major histocompatibility complex (MHC). Results We herein reported a chromosome-scale Beijing duck assembly by integrating Nanopore, Bionano, and Hi-C data. This new reference genome SKLA1.0 covers 40 chromosomes, improves the contig N50 of the previous duck assembly with highest contiguity (ZJU1.0) of more than a 5.79-fold, surpasses the chicken and zebra finch references in sequence contiguity and contains a complete genomic map of the MHC. Our 3D MHC genomic map demonstrated that gene family arrangement in this region was primordial; however, families such as AnplMHCI, AnplMHCIIβ, AnplDMB, NKRL (NK cell receptor-like genes) and BTN underwent gene expansion events making this area complex. These gene families are distributed in two TADs and genes sharing the same TAD may work in a co-regulated model. Conclusions These observations supported the hypothesis that duck’s adaptive immunity had been optimized with expanded and diversified key immune genes which might help duck to combat influenza virus. This work provided a high-quality Beijing duck genome for biological research and shed light on new strategies for AIV control.
