Multi-omics reveals functional genomic and metabolic mechanisms of milk production and quality in dairy cows

MOTIVATION: Enhancing the utilization of human-inedible crop by-products by ruminants to produce high-quality milk for human consumption is an emerging global task. We performed a multi-omics based study to decipher the regulatory biological processes of milk production when cows fed low-quality crop by-products with the aim to improve their utilization. RESULTS: Seven types of different high-throughput omics data were generated across three central organs (rumen, liver, and mammary gland) and biofluids (rumen fluid, blood) that involved in milk production. The integrated multi-omics analysis including metabolomics, metagenomics, and transcriptomics showed altered microbiome at compositional and functional levels, microbial metabolites in the rumen, down-regulated genes and associated functions in liver and mammary gland. These changes simultaneously contributed to down-regulated three key metabolic nodes (propionate, glucose, and amino acid) across these organs and biofluids that led to lowered milk yield and quality when cows consumed corn stover (CS). Hippuric acid was identified as a biomarker that led to low milk production in CS-fed cows, suggesting a future evaluation parameter related to the metabolic mechanism of low-quality forage utilization. This study unveils the milk production related biological mechanism across different biofluids and tissues under a low-quality forage diet, which provides a novel understanding and potential improvement strategies for future crop by-products utilization and sustainable ruminant production. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.