Several studies have demonstrated potential role of plant-derived miRNAs in cross-kingdom species relationships by transferring into non-plant host cells to regulate certain host cellular functions. How nutrient-rich plants regulate host cellular functions, which in turn alleviate physiological and disease conditions in the host remains to be explored in detail. This computational study explores the potential targets, putative role, and functional implications of miRNAs derived from
Carica papaya
L., one of the most cultivated tropical crops in the world and a rich source of phytochemicals and enzymes, in human diet. Using the next-generation sequencing, -Illumina HiSeq2500, ~ 30 million small RNA sequence reads were generated from
C. papaya
young leaves, resulting in the identification of a total of 1798 known and 49 novel miRNAs. Selected novel
C. papaya
miRNAs were predicted to regulate certain human targets, and subsequent annotation of gene functions indicated a probable role in various biological processes and pathways, such as MAPK, WNT, and GPCR signaling pathways, and platelet activation. These presumptive target gene in humans were predominantly linked to various diseases, including cancer, diabetes, mental illness, and platelet disorder. The computational finding of this study provides insights into how
C. papaya
-derived miRNAs may regulate certain conditions of human disease and provide a new perspective on human health. However, the therapeutic potential of
C. papaya
miRNA can be further explored through experimental studies.
Supplementary Information
The online version contains supplementary material available at 10.1007/s00438-022-01904-3.