Chromosome-level genome assembly of the autotetraploid yellow pitaya provides novel insights into evolution of trait patterning in pitaya species with different ploidy

Qamar Zaman; Ali Raza; Hui Liu; Mian Faisal Nazir; Vanika Garg; Muhammad Ikram; Guoqing Wang; Wei Lv; Darya Khan; Aamir Ali Khokhar; You Zhang; Annapurna Usman; Cui Jianpeng; Xulong Yang; Shiyou Zuo

doi:10.1186/s13059-025-03695-3

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Chromosome-level genome assembly of the autotetraploid yellow pitaya provides novel insights into evolution of trait patterning in pitaya species with different ploidy

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Chromosome-level genome assembly of the autotetraploid yellow pitaya provides novel insights into evolution of trait patterning in pitaya species with different ploidy

Qamar Zaman, Ali Raza, Hui Liu, Mian Faisal Nazir, Vanika Garg, Muhammad Ikram, Guoqing Wang, Wei Lv, Darya Khan, Aamir Ali Khokhar, …

Genome Biology, Vol.26, 234

2025

DOI: https://doi.org/10.1186/s13059-025-03695-3

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Abstract

Genome assembly

S. undatus, S. megalanthus

Genome compartmentalization

TADs

Diploid pitaya

Polyploid pitaya

Structural variations

Background Yellow pitaya (Selenicereus megalanthus, 2n = 4x = 44) breeding remains severely hindered due to the lack of a reference genome. Results Here, we present a high-quality chromosome-level genome assembly of yellow pitaya using PacBio HiFi sequencing and Hi-C scaffolding technologies. We identify yellow pitaya as an autotetraploid with a genome size of 1.79 Gb, harboring 27,246 high-confidence genes probably from diploid ancestors, red pitaya (S. undatus). By comparative analysis of the 3D chromatin architecture, we identify varying number of compartment A/B, topologically associated domains (TADs), and structural variations in diploid (red pitaya) and polyploid (yellow pitaya) species. We find that TAD boundaries are enriched with transcription factor motifs in both species. We find significant alterations in expression of genes in the betalain biosynthesis pathway in both species. We detect differential expression of genes encoding key regulators of pericarp color within the TAD regions of polyploid pitaya and diploid pitaya. We also identify the expression differences in candidate genes that likely influence betacyanin and betaxanthin synthesis in both species. Conclusions Our findings suggest that differential 3D genome organization, especially differences in TAD boundaries, may impact gene expression, which may further lead to different trait formation in different pitaya species. This provides theoretical implications for fast-forward breeding.

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Title: Chromosome-level genome assembly of the autotetraploid yellow pitaya provides novel insights into evolution of trait patterning in pitaya species with different ploidy
Authors/Creators: Qamar Zaman - Hainan University
Ali Raza - Shenzhen University
Hui Liu - Sanya University
Mian Faisal Nazir - Lushan Botanical Garden
Vanika Garg - Murdoch University
Muhammad Ikram - Sanya University
Guoqing Wang - Sanya University
Wei Lv - Sanya University
Darya Khan - Hainan University
Aamir Ali Khokhar - Hainan University
You Zhang
Annapurna Usman
Cui Jianpeng - Sanya University
Xulong Yang - Sanya University
Shiyou Zuo - Sanya University
Publication Details: Genome Biology, Vol.26, 234
Publisher: BioMed Central
Identifiers: 991005800373207891
Murdoch Affiliation: Centre for Crop and Food Innovation; State Agricultural Biotechnology Centre
Language: English
Resource Type: Journal article

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Chromosome-level genome assembly of the autotetraploid yellow pitaya provides novel insights into evolution of trait patterning in pitaya species with different ploidy

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