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Chromosome-level genome of Ambrosia trifida provides insights into adaptation and the evolution of pollen allergens. | LitMetric

Chromosome-level genome of Ambrosia trifida provides insights into adaptation and the evolution of pollen allergens.

Int J Biol Macromol

Shenzhen Branch, Guangdong Laboratory for Lingnan Modern Agriculture, Genome Analysis Laboratory of the Ministry of Agriculture and Rural Affairs, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen 518120, China. Electronic address:

Published: February 2024

AI Article Synopsis

  • Ambrosia trifida, or giant ragweed, is an invasive plant linked to environmental damage and serious allergic reactions, yet its genetic adaptations and allergy-causing proteins are not well understood.
  • Researchers sequenced a detailed 1.66 Gb reference genome for giant ragweed, discovering genome duplications that enhance its ability to adapt to different environments and develop pollen.
  • The study also identified potential allergens specific to giant ragweed, including repeat arrays of certain proteins that may contribute to its allergenic properties, providing valuable insights for further research on plant invasiveness and allergies.

Article Abstract

Ambrosia trifida (giant ragweed) is an invasive plant that can cause serious damage to natural ecosystems and severe respiratory allergies. However, the genomic basis of invasive adaptation and pollen allergens in Ambrosia species remain largely unknown. Here, we present a 1.66 Gb chromosome-scale reference genome for giant ragweed and identified multiple types of genome duplications, which are responsible for its rapid environmental adaptation and pollen development. The largest copies number and species-specific expansions of resistance-related gene families compared to Heliantheae alliance might contribute to resist stresses, pathogens and rapid adaptation. To extend the knowledge of evolutionary process of allergic pollen proteins, we predicted 26 and 168 potential pollen allergen candidates for giant ragweed and other Asteraceae plant species by combining machine learning and identity screening. Interestingly, we observed a specific tandemly repeated array for potential allergenic pectate lyases among Ambrosia species. Rapid evolutionary rates on putative pectate lyase allergens may imply a crucial role of nonsynonymous mutations on amino acid residues for plant biological function and allergenicity. Altogether, this study provides insight into the molecular ecological adaptation and putative pollen allergens prediction that will be helpful in promoting invasion genomic research and evolution of putative pollen allergy in giant ragweed.

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Source
http://dx.doi.org/10.1016/j.ijbiomac.2024.129232DOI Listing

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