Integrated Peptidogenomics Decoding Yak Non-Conventional Peptides: Functional Mapping and Biopotential Mining of Genetic Resources

chen, jingyun; yang, lu; zhang, weilu; liu, yili; wei, yong Yong; wang, li; jiang, mingfeng; li, biao

doi:.0.0.0

Article

https://doi.org/10.5713/ab.25.0408 [Accepted] Published online September 30, 2025.

Integrated Peptidogenomics Decoding Yak Non-Conventional Peptides: Functional Mapping and Biopotential Mining of Genetic Resources

jingyun chen^1,*, lu yang¹, weilu zhang¹, yili liu¹, yong Yong wei², li wang¹, mingfeng jiang¹, biao li^1,*

¹southwest minzu University, chengdu, China
²Sichuan Animal Sciences Academy, chengdu, China

Correspondence: jingyun chen,Email: chen17805493490@163.com
biao li,Email: 18874028579@163.com

Received: 5 June 2025 • Revised: 10 August 2025 • Accepted: 9 September 2025

Abstract

Objective
Non-conventional peptides, have been found to play a key role in basic plant and animal biological processes. This study aims to investigate from the perspective of NCPs to reveal the adaptive molecular genetic mechanisms of yaks.
Methods
We established an integrated peptidogenomic pipeline, constructed a customized six-frame translation database using high-throughput mass spectrometry, and applied it to the large-scale identification of NCPs in several vital organs/tissues of yaks.
Results
Compared to conventional peptides, these NCPs exhibit unique properties derived from introns, UTRs, out-of-frame exons, and intergenic regions. Additionally, our findings indicate that translation events are more prevalent in unannotated transcripts than previously believed. Combined with transcriptome analysis and ribosome mapping analysis, 727 NCPs were determined to be derived from lncRNA and 944 NCPs were determined to be derived from circRNA. Interestingly, the number of hydrophobic amino acids in NCPs was found to be higher than that of hydrophilic amino acids in almost all tissues; whereas for CPs the results were reversed. These findings suggest their potential involvement in maintaining protein stability and combating oxidative stress. Furthermore, the in vitro antioxidant activity of the 38 candidate peptides further confirmed their physiological functions; however, specific physiological mechanisms require further investigation.
Conclusion
In conclusion, this study demonstrates that a substantial portion of the yak genome can be translated into molecules with biological functions which is highly significant for functional genome research, and these unique hidden molecules will provide basic data for future biomedical development and plateau disease treatment.

Keywords: Yak; Peptideogenomics; Non-conventional peptide; Mass spectrometry; Six-frame translation