Your search keyword '"Koehorst JJ"' showing total 2 results

1. Genomic convergence between Akkermansia muciniphila in different mammalian hosts.

Author

Geerlings SY, Ouwerkerk JP, Koehorst JJ, Ritari J, Aalvink S, Stecher B, Schaap PJ, Paulin L, de Vos WM, and Belzer C

Subjects

Akkermansia classification, Akkermansia genetics, Akkermansia isolation & purification, Akkermansia metabolism, Animals, Feces microbiology, Gastrointestinal Tract microbiology, Genetic Variation, Genomics, Humans, Mammals classification, Mice, Mucins metabolism, Phylogeny, RNA, Ribosomal, 16S genetics, Verrucomicrobia classification, Verrucomicrobia genetics, Verrucomicrobia isolation & purification, Genome, Bacterial genetics, Mammals microbiology

Abstract

Background: Akkermansia muciniphila is a member of the human gut microbiota where it resides in the mucus layer and uses mucin as the sole carbon, nitrogen and energy source. A. muciniphila is the only representative of the Verrucomicrobia phylum in the human gut. However, A. muciniphila 16S rRNA gene sequences have also been found in the intestines of many vertebrates., Results: We detected A. muciniphila-like bacteria in the intestines of animals belonging to 15 out of 16 mammalian orders. In addition, other species belonging to the Verrucomicrobia phylum were detected in fecal samples. We isolated 10 new A. muciniphila strains from the feces of chimpanzee, siamang, mouse, pig, reindeer, horse and elephant. The physiology and genome of these strains were highly similar in comparison to the type strain A. muciniphila Muc T . Overall, the genomes of the new strains showed high average nucleotide identity (93.9 to 99.7%). In these genomes, we detected considerable conservation of at least 75 of the 78 mucin degradation genes that were previously detected in the genome of the type strain Muc T ., Conclusions: The low genomic divergence observed in the new strains may indicate that A. muciniphila favors mucosal colonization independent of the differences in hosts. In addition, the conserved mucus degradation capability points towards a similar beneficial role of the new strains in regulating host metabolic health., (© 2021. The Author(s).)

Published

2021

2. A metabolic and physiological design study of Pseudomonas putida KT2440 capable of anaerobic respiration.

Author

Kampers LFC, Koehorst JJ, van Heck RJA, Suarez-Diez M, Stams AJM, and Schaap PJ

Subjects

Anaerobiosis, Computer Simulation, Databases, Genetic, Fermentation, Gene Expression Profiling, Microbial Viability, Pseudomonas putida genetics, Pseudomonas putida metabolism, Pyrimidines metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Metabolic Engineering methods, Pseudomonas putida growth & development

Abstract

Background: Pseudomonas putida KT2440 is a metabolically versatile, HV1-certified, genetically accessible, and thus interesting microbial chassis for biotechnological applications. However, its obligate aerobic nature hampers production of oxygen sensitive products and drives up costs in large scale fermentation. The inability to perform anaerobic fermentation has been attributed to insufficient ATP production and an inability to produce pyrimidines under these conditions. Addressing these bottlenecks enabled growth under micro-oxic conditions but does not lead to growth or survival under anoxic conditions., Results: Here, a data-driven approach was used to develop a rational design for a P. putida KT2440 derivative strain capable of anaerobic respiration. To come to the design, data derived from a genome comparison of 1628 Pseudomonas strains was combined with genome-scale metabolic modelling simulations and a transcriptome dataset of 47 samples representing 14 environmental conditions from the facultative anaerobe Pseudomonas aeruginosa., Conclusions: The results indicate that the implementation of anaerobic respiration in P. putida KT2440 would require at least 49 additional genes of known function, at least 8 genes encoding proteins of unknown function, and 3 externally added vitamins.

Published

2021