Transcriptomic Leaf Profiling Reveals Differential Responses of the Two Most Traded Coffee Species to Elevated [CO₂]

• Main Authors: Isabel Marques, Isabel Fernandes, Pedro H.C. David, Octávio S. Paulo, Luis F. Goulao, Ana S. Fortunato, Fernando C. Lidon, Fábio M. DaMatta, José C. Ramalho, Ana I. Ribeiro-Barros
• Format: Article
• Language: English
• Published: MDPI AG 2020-12-01
• Series: International Journal of Molecular Sciences
• Subjects: climate change; coffee tree; elevated air [CO₂]; functional analysis; leaf RNAseq
• Online Access: https://www.mdpi.com/1422-0067/21/23/9211
• ISSN: 1661-6596; 1422-0067

As atmospheric [CO₂] continues to rise to unprecedented levels, understanding its impact on plants is imperative to improve crop performance and sustainability under future climate conditions. In this context, transcriptional changes promoted by elevated CO₂ (eCO₂) were studied in genotypes from the two major traded coffee species: the allopolyploid <i>Coffea arabica</i> (Icatu) and its diploid parent, <i>C. canephora</i> (CL153). While Icatu expressed more genes than CL153, a higher number of differentially expressed genes were found in CL153 as a response to eCO₂. Although many genes were found to be commonly expressed by the two genotypes under eCO₂, unique genes and pathways differed between them, with CL153 showing more enriched GO terms and metabolic pathways than Icatu. Divergent functional categories and significantly enriched pathways were found in these genotypes, which altogether supports contrasting responses to eCO₂. A considerable number of genes linked to coffee physiological and biochemical responses were found to be affected by eCO₂ with the significant upregulation of photosynthetic, antioxidant, and lipidic genes. This supports the absence of photosynthesis down-regulation and, therefore, the maintenance of increased photosynthetic potential promoted by eCO₂ in these coffee genotypes.