# Genome assembly and population genomic analysis reveal the genetic basis of popcorn evolution

**Authors:** Xiaojian Fang, Hangqin Liu, Jiacheng Liu, Yang Song, Min Xu, Xing Jian, Li Dong, Qianwen Zhang, Le Xu, Guorui Fan, Zhaoying Wang, Yiwen You, Tianyu Feng, Wenyu Li, Yuling Li, Rentao Song, Zhongwei Lin

PMC · DOI: 10.1111/pbi.70125 · 2025-05-05

## TL;DR

This study reveals the genetic changes that led to the evolution of popcorn and its unique popping traits through genome assembly and population analysis.

## Contribution

The study identifies key genes and genetic variants responsible for kernel-popping traits in popcorn through high-quality genome sequencing and population analysis.

## Key findings

- A high-quality genome of Strawberry Popcorn was assembled, revealing a large inversion on chromosome 8 and millions of genetic variants.
- Genes like KW1 and O7 were identified as pivotal for kernel-popping performance, influencing endosperm vitreousness and kernel hardness.
- Population analysis identified 12 marker genes under human selection that enhance popping traits, including genes for pericarp thickness and starch biosynthesis.

## Abstract

Popcorn, one of the world's most popular snack foods, represents the most ancient type of maize domesticated by humans. However, the genetic basis underlying popcorn evolution and kernel‐popping traits remains largely unknown. In this study, we assembled a high‐quality genome sequence of the popcorn landrace Strawberry Popcorn (SP) and conducted extensive population genomic analyses. The SP genome spans 2.3 Gb and harbours a large inversion on chromosome 8, along with millions of genetic variants that enable the discovery of beneficial alleles. Translocations and substantial duplications of the Ga1 gene occurred in the locus associated with unilateral cross‐incompatibility on chromosome 4. Tandemly duplicated Ga1 genes underwent pseudogenisation and truncation with complete loss of gene function. The P1 gene experienced gene expansion and regulatory modifications, leading to downregulation of transcription and subsequent loss of pericarp colour during maize domestication and improvement. Population genomic analysis further identified a subset of 12 marker genes from over 2494 genes under human selection, which were reshaped to enhance kernel‐popping traits during domestication. These marker genes include Pl1 and Dek1 for pericarp and aleurone layer thickness; THP9, Sh2, SUS1, Smk10, KW1, O7, and NKD1 for protein and starch biosynthesis; and VP5, CCD7, and Crti3 for carotene biosynthesis, which all influence endosperm vitreousness, a key factor determining kernel hardness for popping. Among these genes, KW1 and O7 stand out as pivotal genes with a significant impact on kernel‐popping performance. These results provide a wealth of gene targets to greatly accelerate the molecular breeding of improved popcorn varieties.

## Linked entities

- **Genes:** GA1 (Terpenoid cyclases/Protein prenyltransferases superfamily protein) [NCBI Gene 828182], CRYGFP (crystallin gamma F, pseudogene) [NCBI Gene 1423], PL1 (probable pectate lyase 8) [NCBI Gene 100232902], DEK1 (calpain-type cysteine protease family) [NCBI Gene 841981], sh2 (succinate:cytochrome c oxidoreductase subunit 2) [NCBI Gene 32891832], ENY2 (ENY2 transcription and export complex 2 subunit) [NCBI Gene 56943], IGKV3D-34 (immunoglobulin kappa variable 3D-34 (pseudogene)) [NCBI Gene 28871], NKD1 (NKD inhibitor of Wnt signaling pathway 1) [NCBI Gene 85407], VP5 (VP5) [NCBI Gene 3882225], CCD7 (carotenoid cleavage dioxygenase 7) [NCBI Gene 819107]

## Full-text entities

- **Genes:** ENY2 (ENY2 transcription and export complex 2 subunit) [NCBI Gene 56943] {aka DC6, Sus1, e(y)2}, NKD1 (NKD inhibitor of Wnt signaling pathway 1) [NCBI Gene 85407] {aka Naked1}
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12205860/full.md

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Source: https://tomesphere.com/paper/PMC12205860