Welcome to microbe.cards

This platform represents an effort to synchronize phenotypic information for microbes. We have applied and collected various models, primarily Large Language Model (LLM) based, to predict phenotypes and compare these predictions to high-quality phenotypes documented in scientific literature or phenotyping studies. For each microbe, we've generated a "card" page that collects this information and illustrates how the predictions overlap with ground truth. Additionally, we provide model performance estimates for widely used public LLM models based on these high-quality data. Use the search functionality below to explore these microbe cards and compare predictions with documented phenotypes.

Total Species with high-quality annotations

19163

Species with Additional AI-based Predictions

3884

Evaluated Phenotypes

14

Evaluated Models

18

Enter a taxonomy or microbe name to search for detailed information:

Microbe of the Day: Corynebacterium tuberculostearicum

Corynebacterium tuberculostearicum is a fascinating member of the Corynebacterium genus, notable for its unique metabolic capabilities. This organism is primarily recognized for its ability to degrade complex lipids, particularly those found in the environment, which makes it an interesting subject for research in bioremediation and environmental microbiology. Its capacity to metabolize sterols and other lipids positions it as a potential candidate for applications in waste treatment and the breakdown of pollutants, especially in lipid-rich environments. Another intriguing aspect of Corynebacterium tuberculostearicum is its role in the human microbiome. It has been isolated from various human sources, including skin and mucosal surfaces, suggesting a potential symbiotic relationship with its host. This raises questions about its contributions to human health and disease, particularly in understanding how it interacts with other microbial communities. Furthermore, the organism's genetic and biochemical pathways for lipid metabolism are of significant interest. Studying these pathways can provide insights into metabolic engineering, potentially leading to the development of novel biotechnological applications. Researchers are particularly keen on exploring how these pathways can be harnessed for the production of biofuels or other valuable bioproducts. In summary, Corynebacterium tuberculostearicum stands out due to its unique lipid-degrading abilities, its presence in the human microbiome, and its potential applications in biotechnology and environmental science. Its study could yield valuable insights into microbial metabolism and its implications for health and industry.

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Annotation types:
Phenotype Status
Motility Literature-based
Gram staining Literature-based
Aerophilicity Literature-based
Extreme environment tole… Literature-based
Biofilm formation LLM-based
Animal pathogenicity Literature-based
Biosafety level Literature-based
Health association LLM-based
Host association Literature-based
Plant pathogenicity Literature-based
Spore formation Literature-based
Hemolysis LLM-based
Cell shape Literature-based