Vitract Proof of Concept

Magnoliopsida Details: NCBI 3398, gram-negative or unknown [class]

Nutritional Value: Many dicotyledonous plants are important food sources for humans. Fruits, vegetables, nuts, and seeds from dicot plants contribute essential nutrients to the human diet, including vitamins, minerals, and dietary fiber.
Medicinal Plants: Several dicot species have medicinal properties and are used in traditional medicine or as sources of pharmaceutical compounds. Examples include plants from the families Asteraceae, Solanaceae, and Rosaceae.
Edible Oils: Some dicot plants are cultivated for their seeds, which are rich in oils used for cooking and various industrial purposes. Examples include sunflower (Helianthus annuus), soybean (Glycine max), and olive (Olea europaea).
Spices and Herbs: Many culinary herbs and spices come from dicot plants. Examples include basil, oregano, thyme, and mint.
Fiber Production: Certain dicot plants, like cotton (Gossypium hirsutum), are cultivated for their fibers, which are used in the textile industry.
Wood Production: Some dicot trees provide wood for construction and various products. Examples include oaks (Quercus spp.), maples (Acer spp.), and walnuts (Juglans spp.).
Ornamental Plants: Many ornamental plants belong to the class Magnoliopsida, contributing to the aesthetics of gardens, parks, and landscapes.
Phytochemicals: Dicot plants produce a variety of phytochemicals, including antioxidants and secondary metabolites, which may have potential health benefits.

Visuals of Interactions with other bacteria of the same rank

A lot more information is available when you are logged in and raise the display level

Other Sources for more information:

Immune Epitope Database
The NCBI taxonomy database
UniProt
Immune Epitope Taxonomy Database (IEDB)
AI Engines For more Details: Perplexity Kagi Labs You

More Information
Statistics	NCBI	Data Punk	End Products Produced

Lab Reporting

Different labs use different software to read the sample. See this post for more details.
One lab may say you have none, another may say you have a lot! - This may be solely due to the software they are using to estimate.
We deem lab specific values using values from the KM method for each specific lab to be the most reliable.

Desired Levels Suggestions for Magnoliopsida

Frequency - how often do samples show this bacteria
UD - An alternative statistical algorithm (which factors in the frequency)
Kaltoft-Moldrup Heuristic Using uploaded data
Lab Low and High are calculated using the formula that most labs use: Mean - 2 Standard Deviation to Mean + 2 Standard Deviation

These are values that are computed from lab specific samples (Patent Pending)
Lab	Frequency	UD-Low	UD-High	KM Low	KM High	Lab High	Mean	Median	Standard Deviation	Box Plot Low	Box Plot High	KM Percentile Low	KM Percentile High
Other Labs	0.93			6	1192	961	310.8	261	331.6	0	499	0 %ile	100 %ile
biomesight	24.39	0	10	10	190	3334	148.7	30	1625.4	10	70	0 %ile	95.4 %ile
thryve	0.99			10	138	118	44.2	31	37.8	10	138	7.7 %ile	84.6 %ile
ubiome	2.28			22	557	424	124.9	52	152.4	22	557	0 %ile	100 %ile

External Reference Ranges for Magnoliopsida

Magnoliopsida (NCBI 3398) per million
Source of Ranges	Low Boundary	High Boundary	Low Boundary %age	High Boundary %age
PrecisionBiome	1.8086666386807337E-05	4.358297883300111E-05	0	0

Statistic by Lab Source for Magnoliopsida

These desired values are reported from the lab reports
Lab	Frequency Seen	Average	Standard Deviation	Sample Count	Lab Samples
BiomeSight	23.469 %	0.011 %	0.121 %	1092.0	4653
BiomeSightRdp	70.968 %	0.021 %	0.027 %	22.0	31
es-xenogene	3.125 %	0.003 %	%	1.0	32
Medivere	37.5 %	0.003 %	0.002 %	3.0	8
SequentiaBiotech	5.714 %	0.075 %	0.063 %	2.0	35
Thorne	5.536 %	0 %	0 %	16.0	289
Thryve	0.713 %	0.004 %	0.004 %	11.0	1543
uBiome	2.244 %	0.012 %	0.015 %	18.0	802
vitract	100 %	0.032 %	0.009 %	2.0	2

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