A century of gray: A genomic locus found in 2 distinct Pseudomonas spp. is associated with historical and contemporary color defects in dairy products worldwide

Reichler, Samuel J.; Martin, N.H.; Evanowski, Rachel L.; Kovač, Jasna; Wiedmann, Martin; Orsi, Renato H.

doi:10.3168/jds.2018-16192

Cited by 26 publications

(21 citation statements)

References 45 publications

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“…carnis strains UCD_MED3 and UCD_MED7 both contain at least two homologs of each of the trpABCDF genes. We also detected multiple homologs of these genes in confirmed blue pigment-producing Pseudomonas strains, as well as two Pseudomonas carnis strains that have been reported to produce black and grey diffusible pigments on multiple types of media, including refrigerated pig flesh [24,27,28]. These results corroborate previous findings and suggest that our analysis is comparable to others.…”

Section: Trpabcdf Genessupporting

confidence: 90%

“…A homolog was considered present if there was a hit with an E-value better than 1×E -10 . Ten isolates confirmed to produce blue pigment contain at least two homologs of each gene 24 , 27 . Two isolates contain two homologs of each trp gene but have not been reported to produce blue pigment 28 .…”

Section: Resultsmentioning

confidence: 99%

“…Five isolates that have not been reported to produce a blue pigment contain only one homolog of each gene 28 , 29 . In addition, five isolates for which blue pigment production was tested but not observed contain only one gene 24 , 27 (Table 5 ).…”

Section: Resultsmentioning

confidence: 99%

“…They are in a sister group to Pseudomonas lactis and Pseudomonas paracarnis. Additionally, P. lactis and P. fluorescens are among those species previously reported as present in blue-colored dairy products such as milks, cheeses and queso fresco [27,33]. Pseudomonas carnis UCD_MED3 and Pseudomonas carnis UCD_MED7 lie within a highly blue pigmented clade, however some other species designations in this clade remain debatable, and strains that produce a blue pigment are found outside of this main clade.…”

Section: Pseudomonasmentioning

confidence: 99%

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Draft Genome Sequences and Genomic Analysis for Pigment Production in Bacteria Isolated from Blue Discolored Soymilk and Tofu

León¹,

Wilson²,

Jospin³

et al. 2021

J. Genomics

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Cold-tolerant bacteria are known to contaminate and cause defects in refrigerated foods. Defects in food products can be observed as changes in appearance, texture, and/or flavor that detract from the product's intended look, feel, or taste. Two distinct organisms were cultured from blue pigmented soymilk and tofu that had been left opened and expired in a home refrigerator. The blue coloration was reproduced when isolates were cultured in fresh, sterile soymilk. These strains also produced a variety of colony color morphologies when cultured on different media types. We report two draft genome sequences of the potential causative agents of blue discoloration of soy foods, Pseudomonas carnis strains UCD_MED3 and UCD_MED7 as well as the 16S rRNA gene sequences of co-occurring strains isolated from the defective soy samples but that did not cause blue discoloration when cultured in fresh soymilk; Serratia liquefaciens strains UCD_MED2 and UCD_MED5.

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Section: Trpabcdf Genessupporting

confidence: 90%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Pseudomonasmentioning

confidence: 99%

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Draft Genome Sequences and Genomic Analysis for Pigment Production in Bacteria Isolated from Blue Discolored Soymilk and Tofu

León¹,

Wilson²,

Jospin³

et al. 2021

J. Genomics

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“…Pseudomonas are ubiquitous in natural environments, nutritionally versatile, often psychrotolerant, and capable of producing undesirable odors, flavors, and pigments that render affected food spoiled and possibly inedible (Hayes et al, 2002;Remenant et al, 2015). For these reasons, Pseudomonas has long been identified as a predominant spoiler of many fresh foods, including uncultured dairy products such as fluid milk and mozzarella cheese (del Olmo et al, 2018;Reichler et al, 2019). Although Pseudomonas spp.…”

Section: Introductionmentioning

confidence: 99%

Identification, subtyping, and tracking of dairy spoilage-associated Pseudomonas by sequencing the ileS gene

Reichler

Murphy

Martin

et al. 2021

Journal of Dairy Science

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Pseudomonas spp. are important spoilage bacteria that negatively affect the quality of refrigerated fluid milk and uncultured cheese by generating unwanted odors, flavors, and pigments. They are frequently found in dairy plant environments and enter dairy products predominantly as postpasteurization contaminants. Current subtyping and characterization methods for dairy-associated Pseudomonas are often labor-intensive and expensive or provide limited and possibly unreliable classification information (e.g., to the species level). Our goal was to identify a single-copy gene that could be analyzed in dairy spoilage-associated Pseudomonas for preliminary species-level identification, subtyping, and phenotype prediction. We tested 7 genes previously targeted in a Pseudomonas fluorescens multilocus sequence typing scheme for their individual suitability in this application using a set of 113 Pseudomonas spp. isolates representing the diversity of typical pasteurized milk contamination. For each of the 7 candidate genes, we determined the success rate of PCR and sequencing for these 113 isolates as well as the level of discrimination for species identification and subtyping that the sequence data provided. Using these metrics, we selected a single gene, isoleucyl tRNA synthetase (ileS), which had the most suitable traits for simple and affordable single-gene Pseudomonas characterization. This was based on the number of isolates successfully sequenced for ileS (113/113), the number of unique allelic types assigned (83, compared with 50 for 16S rDNA), nucleotide and sequence diversity measures (e.g., number of unique SNP and Simpson index), and tests for genetic recombination. The discriminatory ability of ileS sequencing was confirmed by separation of 99 additional dairy Pseudomonas spp. isolates, which were indistinguishable by 16S rDNA sequencing, into 28 different ileS allelic types. Further, we used wholegenome sequencing data to demonstrate the similarities in ileS-based phylogenetic clustering to whole-genomebased clustering for 27 closely related dairy-associated Pseudomonas spp. isolates and for 178 Pseudomonas type strains. We also found that dairy-associated Pseudomonas within an ileS cluster typically shared the same proteolytic and lipolytic activities. Use of ileS sequencing provides a promising strategy for affordable initial characterization of Pseudomonas isolates, which will help the dairy industry identify, characterize, and track Pseudomonas in their facilities and products.

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Adaptive Laboratory Evolution of Probiotics toward Oxidative Stress Using a Microfluidic‐Based Platform

Nguyen,

Yaghoobi,

Zhang

et al. 2024

Small

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Adaptive laboratory evolution (ALE) can be used to make bacteria less susceptible to oxidative stress. An alternative to large batch scale ALE cultures is to use microfluidic platforms, which are often more economical and more efficient. Microfluidic ALE platforms have shown promise, but many have suffered from subpar cell passaging mechanisms and poor spatial definition. A new approach is presented using a microfluidic Evolution on a Chip (EVoc) design which progressively drives microbial cells from areas of lower H2O2 concentration to areas of higher concentration. Prolonged exposure, up to 72 h, revealed the survival of adaptive strains of Lacticaseibacillus rhamnosus GG, a beneficial probiotic often included in food products. After performing ALE on this microfluidic platform, the bacteria persisted under high H2O2 concentrations in repeated trials. After two progressive exposures, the ability of L. rhamnosus to grow in the presence of H2O2 increased from 1 mm H2O2 after a lag time of 31 h to 1 mm after 21 h, 2 mm after 28 h, and 3 mm after 42 h. The adaptive strains have different morphology, and gene expression compared to wild type, and genome sequencing revealed a potentially meaningful single nucleotide mutation in the protein omega‐amidase.

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A century of gray: A genomic locus found in 2 distinct Pseudomonas spp. is associated with historical and contemporary color defects in dairy products worldwide

Cited by 26 publications

References 45 publications

Draft Genome Sequences and Genomic Analysis for Pigment Production in Bacteria Isolated from Blue Discolored Soymilk and Tofu

Draft Genome Sequences and Genomic Analysis for Pigment Production in Bacteria Isolated from Blue Discolored Soymilk and Tofu

Identification, subtyping, and tracking of dairy spoilage-associated Pseudomonas by sequencing the ileS gene

Adaptive Laboratory Evolution of Probiotics toward Oxidative Stress Using a Microfluidic‐Based Platform

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