Silas Kieser
@silask.bsky.social
Microbiome researcher, co-leader of a family of soon five, Developer of metagenome-atlas.
silask.github.io
silask.github.io
Because our subspecies are genome-based, we can identify specific genes or mutations that explain differential associations. This provides a direct path to mechanistic understanding.
August 29, 2025 at 10:06 AM
Because our subspecies are genome-based, we can identify specific genes or mutations that explain differential associations. This provides a direct path to mechanistic understanding.
We found many cases where only one subspecies associates with disease while sibling-subspecies don't. Sometimes no association is detected at species level because opposing subspecies associations cancel each other out.
August 29, 2025 at 10:06 AM
We found many cases where only one subspecies associates with disease while sibling-subspecies don't. Sometimes no association is detected at species level because opposing subspecies associations cancel each other out.
Why it matters: Subspecies explain disease associations invisible at the species level. For example, in colorectal cancer, subspecies-based ML models consistently outperformed species-level ones.
August 29, 2025 at 10:06 AM
Why it matters: Subspecies explain disease associations invisible at the species level. For example, in colorectal cancer, subspecies-based ML models consistently outperformed species-level ones.
We created a sourmash-based method for fast & accurate subspecies quantification, enabling large-scale analysis across entire datasets, e.g., the whole SRA.
August 29, 2025 at 10:06 AM
We created a sourmash-based method for fast & accurate subspecies quantification, enabling large-scale analysis across entire datasets, e.g., the whole SRA.
We built HuMSub: the most comprehensive catalog of human gut microbiota subspecies (5,361 OSUs across 977 species).
We found that 1/3 of species in the human gut have subspecies, most of which we knew nothing about.
We found that 1/3 of species in the human gut have subspecies, most of which we knew nothing about.
August 29, 2025 at 10:06 AM
We built HuMSub: the most comprehensive catalog of human gut microbiota subspecies (5,361 OSUs across 977 species).
We found that 1/3 of species in the human gut have subspecies, most of which we knew nothing about.
We found that 1/3 of species in the human gut have subspecies, most of which we knew nothing about.
Going down to the strain-level isn't useful for most comparative studies, because everyone has person-specific strains for most of their microbes!
We need an intermediate level: Subspecies.
We need an intermediate level: Subspecies.
August 29, 2025 at 10:06 AM
Going down to the strain-level isn't useful for most comparative studies, because everyone has person-specific strains for most of their microbes!
We need an intermediate level: Subspecies.
We need an intermediate level: Subspecies.
Most microbiome studies stop at the species level. But strains within a species can differ dramatically in function. This obscures associations and limits reproducibility.
August 29, 2025 at 10:06 AM
Most microbiome studies stop at the species level. But strains within a species can differ dramatically in function. This obscures associations and limits reproducibility.
Yes, the church leaders acepted heliocentrism once the evidence convinced them that's better for calculating dates. I don't think any evidence could convince RFK Jr
November 28, 2024 at 7:49 AM
Yes, the church leaders acepted heliocentrism once the evidence convinced them that's better for calculating dates. I don't think any evidence could convince RFK Jr
I find surprising that CLR is not helpful for the associations, rather it is counterproductive.
But then they didn't used the multiplicative replacement for zero-imputing.
But then they didn't used the multiplicative replacement for zero-imputing.
November 20, 2024 at 8:29 AM
I find surprising that CLR is not helpful for the associations, rather it is counterproductive.
But then they didn't used the multiplicative replacement for zero-imputing.
But then they didn't used the multiplicative replacement for zero-imputing.