Mitochondrial transcription factor A (TFAM), a crucial transcriptional activator of the mitochondrial genome, is synthesized in the cytoplasm and then translocated into mitochondria with the aid of the mitochondrial membrane transport system, which includes key components such as TOM70 and Tim44. BoHV-1 productive infection in cell cultures results in mitochondrial dysfunction with mechanisms poorly understood. In this study, we discovered that TFAM plays a significant role in BoHV-1 productive infection, and later stages of virus infection inhibit mitochondrial biosynthesis, supported by the decreased TFAM accumulation in mitochondria and reduced association of TOM70 and Tim44 proteins with mitochondria. Interestingly, we found that TFAM positively regulates β-catenin protein expression, with a subset of β-catenin residing in mitochondria, where it interacts with TFAM. Moreover, mitochondrial accumulation of β-catenin is reduced following virus infection, which may contribute to decreased mitochondrial biogenesis, as the β-catenin-specific inhibitor iCRT14 reduces the protein expression of Cytb, a key regulator of mitochondrial biosynthesis. Collectively, our findings suggest for the first time that β-catenin signaling may promote mitochondrial biogenesis, and the depletion of both TFAM and p-β-catenin(S552) protein levels in mitochondria may contribute to BoHV-1 productive infection-induced mitochondrial dysfunction.