The `popkin`

(“population kinship”) R package estimates the kinship matrix of individuals and FST from their biallelic genotypes. Our estimation framework is the first to be practically unbiased under arbitrary population structures.

The stable version of the package is now on CRAN and can be installed using

The current development version can be installed from the GitHub repository using `devtools`

:

```
install.packages("devtools") # if needed
library(devtools)
install_github('StoreyLab/popkin', build_opts = c())
```

You can see the package vignette, which has more detailed documentation, by typing this into your R session:

The examples below assume the following R data variables are present for `n`

individuals and `m`

loci:

- The
`m`

-by-`n`

genotype matrix`X`

, containing only unphased biallelic variants encoded as 0,1,2 counting a given reference allele per locus. - The length-
`n`

vector`subpops`

that assigns each individual to a subpopulation.

The `subpops`

vector is not required, but its use is recommended to improve estimation of the baseline kinship value treated as zero.

If your data is in BED format, `popkin`

will process it efficiently using BEDMatrix. If `file`

is the path to the BED file (excluding .bed extension):

`popkin`

functionsThis is a quick overview of every `popkin`

function, covering estimation and visualization of kinship and FST from a genotype matrix.

First estimate the `kinship`

matrix from the genotypes `X`

. All downstream analysis require `kinship`

, none use `X`

after this

Plot the kinship matrix, marking the subpopulations. Note `inbr_diag`

replaces the diagonal of `kinship`

with inbreeding coefficients

Extract inbreeding coefficients from `kinship`

Estimate FST

```
weights <- weights_subpops(subpops) # weigh individuals so subpopulations are balanced
Fst <- fst(kinship, weights) # use kinship matrix and weights to calculate fst
Fst <- fst(inbreeding, weights) # estimate more directly from inbreeding vector (same result)
```

Estimate and visualize the pairwise FST matrix

```
pairwise_fst <- pwfst(kinship) # estimated matrix
leg_title <- expression(paste('Pairwise ', F[ST])) # fancy legend label
plot_popkin(pairwise_fst, labs = subpops, leg_title = leg_title) # NOTE no need for inbr_diag() here!
```

Rescale the kinship matrix using different subpopulations (implicitly changes the most recent common ancestor population used as reference)

Please see the `popkin`

R vignette for a description of the key parameters and more detailed examples, including complex plots with multiple kinship matrices and multi-level subpopulation labeling.

Ochoa, Alejandro, and John D. Storey. 2016a. “FST And Kinship for Arbitrary Population Structures I: Generalized Definitions.” bioRxiv doi:10.1101/083915.

Ochoa, Alejandro, and John D. Storey. 2016b. “FST And Kinship for Arbitrary Population Structures II: Method of Moments Estimators.” bioRxiv doi:10.1101/083923.