The bighead catfish (Clarias macrocephalus) and channel catfish (Ictalurus punctatus) are freshwater species in the Siluriformes order. C. macrocephalus has both gills and modified gill structures serving as an air-breathing organ (ABO), while I. punctatus does not possess such an organ, and cannot breathe in air, providing an excellent model for studying the molecular basis of ABO development in teleost fish. To investigate the critical time window for the development of air-breathing function, seven development stages were selected based on hypoxia challenge results, and RNA-seq was performed upon C. macrocephalus to compare with the non-air-breathing I. punctatus. Five-hundred million reads were generated and 25,239 expressed genes were annotated in C. macrocephalus. Among those, 8675 genes were differentially expressed across developmental stages. Comparative genomic analysis identified 1458 C. macrocephalus specific genes, which were absent in I. punctatus. Gene network and protein-protein interaction analyses identified 26 key hub genes involved in the air-breathing function. Three top candidate genes, mb, ngb, hbae, are mainly associated with oxygen carrying, oxygen binding, and heme binding activities. Our study provides a rich data set for exploring the genomic basis of air-breathing function in C. macrocephalus and offers insights into the adaption to hypoxic environments.
Keywords: Air-breathing catfish; Clarias macrocephalus; Oxygen binding; Oxygen transport; Transcriptome analysis.