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R package for fitting droplet fluorescence populations of dPCR amplitude data using Expectation Maximization.
Install from CRAN
install.packages("popPCR")
Install from GitHub
install.packages("devtools")
::install_github("Zeroh729/popPCR") devtools
popPCR(x, dist = "t")
3 example datasets are available upon import
library(popPCR)
hist(x_onePop, breaks = 100) # dPCR sample w/ 1 population
hist(x_twoPop, breaks = 100) # dPCR sample w/ 2 populations
hist(x_multiPop, breaks = 100) # dPCR sample w/ >=3 populations
Case 1. One population sample
<- popPCR(x_onePop, dist = "t")
result # Populations detected : 1
# Total droplets : 8000
# Positive : 1 (0.01%)
# Negative : 7999 (99.99%)
#
# Target copies in sample : 2.9414 ( 95% CI: [ -2.8237 , 8.7064 ] )
# Mean target copies per partition : 1e-04 ( 95% CI: [ -1e-04 , 4e-04 ] )
# Increasing negProbThres makes negative classification stricter
<- popPCR(x_onePop, dist = "t", negProbThres = 1e-4)
result # Populations detected : 1
# Total droplets : 8000
# Positive : 691 (8.64%)
# Negative : 7309 (91.36%)
#
# Target copies in sample : 2125.5312 ( 95% CI: [ 1966.9936 , 2284.0688 ] )
# Mean target copies per partition : 0.0903 ( 95% CI: [ 0.0836 , 0.0971 ] )
Case 2. Two population sample
<- popPCR(x_twoPop, dist = "t")
result # Populations detected : 2
# Total droplets : 10254
# Positive : 8693 (84.78%)
# Negative : 1561 (15.22%)
#
# Target copies in sample : 44290.3819 ( 95% CI: [ 43215.6408 , 45365.1231 ] )
# Mean target copies per partition : 1.8823 ( 95% CI: [ 1.8367 , 1.928 ] )
Case 3. Multiple population sample
<- popPCR(x_multiPop, dist = "t", maxComponents = 4)
result # Populations detected : 4
# Total droplets : 1814
# Positive : 44 (2.43%)
# Negative : 1252 (69.02%)
# Rain (1) : 258 (14.22%)
# Rain (2) : 260 (14.33%)
#
# Target copies in sample : 8724.5195 ( 95% CI: [ 7999.0578 , 9449.9812 ] )
# Mean target copies per partition : 0.3708 ( 95% CI: [ 0.34 , 0.4016 ] )
# In the output above, we see 2 rain populations! Let's examine its plot.
plot(density(x_multiPop))
# We can see that Rain (1) is very close to the Negative population.
# Let's include droplets in Rain (1) in the negative droplet count.
<- result@dropletCount$neg + result@dropletCount$rain1
nNegative <- result@dropletCount$total
nTotal
# Re-estimate concentration as follows
<- calculateConc(nNegative, nTotal, volSamp = 20, volDrp = 0.85)
newEstimates
newEstimates# Output:
# $lambda
# lambda lower upper
# 0.1834247 0.1627763 0.2040731
#
# $conc
# conc lower upper
# 4315.875 3830.031 4801.719
Print results summary
<- popPCR(x_twoPop, dist = "t")
result printSummaryFit(result)
# Results of fitting a 2-component t mixture model
#
# Negative Population
# Mix prop. : 0.1522
# Mu : 2136.7435
# Sigma : 4126.8357
# Dof : 12.3562
#
# Positive Population
# Mix prop. : 0.8478
# Mu : 7580.1275
# Sigma : 42621.1894
# Dof : 2.415
Available dist
values : normal
,
skewed-normal
, t
, and
skewed-t
Use ?popPCR
to view complete documentation.
Pull requests are welcome. For major changes, please open an issue first to discuss what you would like to change.
Please make sure to update tests as appropriate.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.