Two Shewanella putrefaciens strains (00A and 00B) were inoculated into sterile bigeye tuna blocks. The biochemical changes (trichloroacetic acid (TCA)-soluble peptides, total volatile basic nitrogen (TVB-N), ammonia, trimethylamine (TMA), biogenic amines (BAs), free amino acids (FAA), and total amino acids (TAA)), decarboxylation and deamination activities of S. putrefaciens in bigeye tuna blocks were investigated in this study. All indicators, except for histamine, showed that 00A had a stronger spoilage potential than 00B. The extremely low histamine decarboxylation activities of 00A and 00B may be the main reason for the non-significant difference (p > 0.05) between the two groups in tuna. Meanwhile, arginine deiminase pathway can produce large amounts of putrescine and energy, and arginine deiminase may be the main rate-limiting enzyme of the whole pathway. Principal component analysis (PCA) revealed that the difference between TCA-soluble peptide and FAA content in the inoculated groups may be the main reason for the difference in the spoilage potential of the two strains. • S. putrefaciens contribution to the tuna flesh biochemical changes were studied. • Strain 00A had greater spoilage potential than that of strain 00B. • S. putrefaciens was more inclined to utilize umami/sweet amino acids. • Ornithine and lysine decarboxylation by both strains was higher than histidine. • Levels of TCA-soluble peptides were associated with spoilage potential. [ABSTRACT FROM AUTHOR]