| Chloroflexaeota| Chloroflexaeota Oren et al. 2015| Chloroflexi| Chloroflexi Garrity and Holt 2001 emend. Hugenholtz and Stackebrandt 2004| Chloroflexota| GNS bacteria| green non-sulfur bacteria| green nonsulfur bacteria| Thermomicrobaeota| Thermomicrobaeota Oren et al. 2015| Thermomicrobia| Thermomicrobia Garrity and Holt 2002| Thermomicrobiota
Environmental Roles: Chloroflexi bacteria are often found in diverse environments, and they have been identified in soil ecosystems, sediments, and other habitats. They contribute to nutrient cycling, organic matter decomposition, and other ecological processes in these environments.
Phototrophic Members: Some Chloroflexi bacteria are capable of photosynthesis, using light as an energy source. However, their photosynthetic mechanisms differ from those of more well-known photosynthetic bacteria, such as cyanobacteria. Some Chloroflexi species are green non-sulfur bacteria that utilize light energy for anaerobic photosynthesis.
Thermophilic Members: Some Chloroflexi are thermophiles, thriving in high-temperature environments such as hot springs. Their ability to withstand extreme temperatures makes them interesting for research on extremophiles.
Limited Association with Human Health: Chloroflexi bacteria are not typically associated with infections or diseases in humans. They are considered environmental bacteria with roles in natural ecosystems.
A lot more information is available when you are logged in and raise the display level
Other Sources for more information:
Statistics | NCBI | Data Punk | End Products Produced |
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.
Lab | Frequency | UD-Low | UD-High | KM Low | KM High | Lab Low | Lab High | Mean | Median | Standard Deviation | Box Plot Low | Box Plot High | KM Percentile Low | KM Percentile High |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Other Labs | 2.07 | 9 | 35071 | 0 | 15808 | 2173.1 | 60 | 6956.3 | 0 | 1054 | 0 %ile | 100 %ile | ||
biomesight | 50.8 | 0 | 30 | 10 | 770 | 0 | 554 | 110 | 40 | 226.5 | 0 | 140 | 0 %ile | 97.6 %ile |
thorne | 100 | 46 | 491 | 0 | 455 | 201.3 | 154 | 129.3 | 28 | 396 | 0 %ile | 100 %ile | ||
thryve | 64.26 | 0 | 42 | 14 | 108 | 0 | 5346 | 331.1 | 40 | 2558.4 | 6 | 120 | 8.1 %ile | 89.5 %ile |
ubiome | 1.52 | 18 | 1038 | 0 | 798 | 201.7 | 82 | 304.1 | 18 | 1038 | 7.1 %ile | 85.7 %ile |
Source of Ranges | Low Boundary | High Boundary | Low Boundary %age | High Boundary %age |
---|---|---|---|---|
Thorne (20/80%ile) | 36.42 | 86.71 | 0.0036 | 0.0087 |
Lab | Frequency Seen | Average | Standard Deviation | Sample Count | Lab Samples |
---|---|---|---|---|---|
BiomeSight | 54.19 % | 0.01 % | 0.021 % | 1552.0 | 2864 |
BiomeSightRdp | 34.375 % | 0.007 % | 0.015 % | 11.0 | 32 |
bugspeak | 100 % | 0.005 % | % | 1.0 | 1 |
CerbaLab | 66.667 % | 0.001 % | 0 % | 2.0 | 3 |
CosmosId | 3.125 % | 0.003 % | % | 1.0 | 32 |
custom | 5.085 % | 0.003 % | 0.002 % | 3.0 | 59 |
es-xenogene | 17.241 % | 0.029 % | 0.016 % | 5.0 | 29 |
Medivere | 100 % | 0.024 % | 0.028 % | 7.0 | 7 |
SequentiaBiotech | 41.667 % | 0.653 % | 1.136 % | 15.0 | 36 |
Thorne | 85.393 % | 0.011 % | 0.012 % | 76.0 | 89 |
Thryve | 64.787 % | 0.028 % | 0.228 % | 896.0 | 1383 |
Tiny | 100 % | 0.005 % | % | 1.0 | 1 |
uBiome | 1.515 % | 0.02 % | 0.03 % | 12.0 | 792 |
Click on Impact for information if high or low levels are causing the impact
Magnitude | Impact | Symptom |
---|
|
And display level must be raised above public.
Data comes from FoodMicrobionet. For the meaning of weight, see that site. The bacteria does not need to be alive to have an effect.
This is an Academic site. It generates theoretical models of what may benefit a specific microbiome results.
Copyright 2016-2024 Lassesen Consulting, LLC [2007], DBA, Microbiome Prescription. All rights served.
Permission to data scrap or reverse engineer is explicitly denied to all users. U.S. Code Title 18 PART I CHAPTER 47 Β§β―1030, CETS No.185, CFAA
Use of data on this site is prohibited except under written license. There is no charge for individual personal use. Use for any commercial applications or research requires a written license.
Caveat emptor: Analysis and suggestions are based on modelling (and thus infererence) based on studies. The data sources are usually given for those that wish to consider alternative inferences. theories and models.
Inventions/Methodologies on this site are Patent Pending.
Microbiome Prescription do not make any representations that data or analyses available on this site is suitable for human diagnostic purposes, for informing treatment decisions, or for any other purposes and accept no responsibility or liability whatsoever for such use.
This site is not Health Insurance Portability and Accountability Act of 1996 (HIPAA) compliant.