Advanced Science (Jun 2024)

Building Haplotype‐Resolved 3D Genome Maps of Chicken Skeletal Muscle

  • Jing Li,
  • Yu Lin,
  • Diyan Li,
  • Mengnan He,
  • Hua Kui,
  • Jingyi Bai,
  • Ziyu Chen,
  • Yuwei Gou,
  • Jiaman Zhang,
  • Tao Wang,
  • Qianzi Tang,
  • Fanli Kong,
  • Long Jin,
  • Mingzhou Li

DOI
https://doi.org/10.1002/advs.202305706
Journal volume & issue
Vol. 11, no. 24
pp. n/a – n/a

Abstract

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Abstract Haplotype‐resolved 3D chromatin architecture related to allelic differences in avian skeletal muscle development has not been addressed so far, although chicken husbandry for meat consumption has been prevalent feature of cultures on every continent for more than thousands of years. Here, high‐resolution Hi‐C diploid maps (1.2‐kb maximum resolution) are generated for skeletal muscle tissues in chicken across three developmental stages (embryonic day 15 to day 30 post‐hatching). The sequence features governing spatial arrangement of chromosomes and characterize homolog pairing in the nucleus, are identified. Multi‐scale characterization of chromatin reorganization between stages from myogenesis in the fetus to myofiber hypertrophy after hatching show concordant changes in transcriptional regulation by relevant signaling pathways. Further interrogation of parent‐of‐origin‐specific chromatin conformation supported that genomic imprinting is absent in birds. This study also reveals promoter‐enhancer interaction (PEI) differences between broiler and layer haplotypes in skeletal muscle development‐related genes are related to genetic variation between breeds, however, only a minority of breed‐specific variations likely contribute to phenotypic divergence in skeletal muscle potentially via allelic PEI rewiring. Beyond defining the haplotype‐specific 3D chromatin architecture in chicken, this study provides a rich resource for investigating allelic regulatory divergence among chicken breeds.

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