Abstract
Poultry meat deterioration is caused by environmental conditions, as well as proliferation of different bacterial groups, and their interactions. It has been proposed that meat spoilage involves two bacterial groups: one group that initiates the deterioration process, known as specific spoilage organisms (SSOs), and the other known as spoilage associated organisms (SAOs) which represents all bacteria groups recovered from meat samples before, during, and after the spoilage process. Numerous studies have characterized the diversity of chicken meat SAOs; nonetheless, the identification of the SSOs remains a long-standing question. Based on recent genomic studies, it is suggested that the SSOs should possess an extensive genome size to survive and proliferate in raw meat, a cold, complex, and hostile environment. To evaluate this hypothesis, we performed comparative genomic analyses in members of the meat microbiota to identify microorganisms with extensive genome size and ability to cause chicken meat spoilage. Our studies show that members of the Pseudomonadaceae family have evolved numerous biological features such as large genomic size, slow-growing potential, low 16S rRNA copy number, psychrotrophic, and oligotrophic metabolism to initiate the spoilage of poultry meat. Moreover, inoculation experiments corroborated that these biological traits are associated with the potential to cause chicken meat deterioration. Together, these results provide new insights into the identification of SSO. Further studies are in progress to elucidate the impact of the SSO on meat quality and microbiota diversity.
Highlights
Microbiological quality of chicken meat is affected by handling during catching, transport, processing, and storage [1]
These analyses revealed that genome size in spoilage associated organisms (SAOs) varied between 6.2 and 1.8 Mb
The Pseudomonadaceae family possessed the largest (p < 0.05) number of protein coding sequences (5833 genes) and Leuconostocaceae the shortest number (1945 genes; Figure 1B). These results suggest that members of the Pseudomonadaceae family possess an extensive genomic repertoire with potential to survive meat processing conditions, colonize muscle tissue, and extract nutrients from this complex matrix consisting of myofibers, as well as connective and adipose tissue
Summary
Microbiological quality of chicken meat is affected by handling during catching, transport, processing, and storage [1]. After these steps occur, chicken meat holds a diversity of bacterial groups known as microbiota [2]. Proliferation and interactions between members of the microbiota leads to deterioration of poultry meat [3]. The SAOs represent all bacterial genera recovered from meat samples before, during, and after the spoilage process. This group includes members of the Pseudomonadaceae, Listeriaceae, Enterobacteriaceae, Foods 2020, 9, 225; doi:10.3390/foods9020225 www.mdpi.com/journal/foods
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