G6.rmd

---
title: "IGHV1-46"
output:
  distill::distill_article:
    toc: true
    toc_float: false
---

```{r setup, include=FALSE}
knitr::opts_chunk$set(echo = FALSE, warning = F, error=F, message = F)
pacman::p_load('dplyr', 'tidyr', 'htmltools', 'bbplot',
               'ggplot2', 'rdrop2', 'shiny', 'BiocManager',
               'dendextend', 'data.table', 'Biostrings', 'alakazam', "unikn", 
               'plotly', 'ggdendro', "RColorBrewer", install = F)
```

```{r}
source("functions.R")
```

```{r, echo=FALSE}
load("data.rda")

chain = "IGH"
func <-  data.frame(allele = names(vgerms[[chain]]), functionality = !grepl("(ORF|P)",sapply(seqinr::getAnnot(vgerms_full[[chain]]), function(x) unlist(strsplit(x,"[|]"))[4])), sign = sapply(seqinr::getAnnot(vgerms_full[[chain]]), function(x) unlist(strsplit(x,"[|]"))[4]), stringsAsFactors = F)

mat <- mat_list$IGH$functional$nonsingle$all$`318`

load("data_frac_new2.rda")
data <- setDT(data_frac$IGH$functional$nonsingle$all$`318`$complete$`95`)
data[,v_call:=paste0(v_gene,"*",v_allele)]
load("alleles_dbs.rda")
allele_db <- alleles_dbs$IGH$functional$nonsingle$all$`318`$complete$`95`
allele_db <- allele_db %>% dplyr::rowwise() %>% dplyr::mutate(gene = alakazam::getGene(or_allele, strip_d = F, omit_nl = F), group = strsplit(gsub(gene, "", new_allele),"[*]")[[1]][1], gene_group = alakazam::getGene(new_allele, strip_d = F, omit_nl = F))
load("functional_groups.rda")
func_groups <- functional_groups$IGH$functional$nonsingle$all$`318`$complete$`95`

cols <- c("#FAAB18", "#1380A1","#990000", "#588300")

pal <- cols %>% 
  newpal(names = c("orangy", "bluish", "redish", "greeny"))

edit_links <- readLines("edit_links.txt")
share_links <- readLines("share_links.txt")
```

```{r,echo=FALSE}
g_group = "IGHV1-46G6"
group = names(func_groups)[func_groups==g_group]
gr <- allele_db %>% filter(gene_group == g_group) %>% pull(group) %>% unique()
g <- allele_db %>% filter(gene_group == g_group) %>% pull(gene) %>% unique()
```

## Allele appearnce 

The group of `r group` includes `r sum(grepl(paste0(g,"[*]", collapse = "|"), func$allele))` alleles, `r sum(func$functionality[grepl(paste0(g,"[*]", collapse = "|"), func$allele)])` out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid. 

```{r}
allele_appearance(data, g_group)
```

## Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

```{r, fig.width=18,fig.height=30}
v_calls <- unique(data[grepl(g_group,v_gene),v_call])
seq_align(v_calls, allele_db, vgerms, chain, mat, g_group)
```

## Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

```{r}
sequence_depth(data, g_group)
```

## 0.5% cutoff 

We set an initial cutoff of $0.5\%$ to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.


```{r}

tmp_allele_db <-
  allele_db %>% dplyr::filter(grepl(as.character(g_group), new_allele)) %>%
  dplyr::group_by(new_allele) %>% dplyr::summarise(or_allele = paste0(or_allele, collapse = "/"))

or_allele <-
  setNames(gsub(chain, "", as.character(tmp_allele_db$or_allele)), as.character(gsub(
    paste0(g_group, "[*]"),
    "",
    tmp_allele_db$new_allele
  )))

allele_thresh = 0.5

tmp <- data_cutoff(data, func_g_groups, g_group, allele_thresh, or_allele)

```

With the selected cutoff we saw that there are `r length(unique(tmp %>% arrange(zygousity_state) %>% pull(zygousity_state)))` zygousity states.

```{r, warning = F, error=F, message = F}
p_list <- c()
for(i in as.character(unique(tmp %>% dplyr::arrange(zygousity_state) %>% dplyr::pull(zygousity_state)))){
  p_list[[i]] <- plot_zygousity(tmp, i, allele_thresh, g_group) %>% config(edits = list(shapePosition = TRUE),
                    scrollZoom = FALSE) %>% layout(title = paste0("state ", i))
  #
}

tagList(p_list)
```

## Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from [here](`r edit_links[grep(g_group,edit_links)]`)

```{r, message=F, echo=F, warning=F}
knitr::include_url(paste0("https://peresay.shinyapps.io/G2_group/?group=",g_group))
# # Authenticate and save token for later use2
# token <- drop_auth(rdstoken = "dropbox_token.rds")
# 
# # Retrieveing your file is as simple as
# drop_download("public/conclusions/IGHV1-2.docx", local_path = "docs/IGHV1-2.docx",
#               overwrite = TRUE, verbose = FALSE, progress = FALSE)
# drop_df <- textreadr::read_docx("docs/IGHV1-2.docx")
# invisible(rmarkdown::pandoc_convert(input = "IGHV1-2.docx", to = "markdown", output = "IGHV1-2_docx.md", options = c("--wrap=none","--reference-links","--metadata-file=metadata.yaml","--standalone"), wd = "docs", verbose = FALSE))
# 
# ui <- fluidPage(
# 
#     # Application title
#     mainPanel(
#       shiny::actionButton(inputId='ab1', label="Edit text", 
#                           icon = icon("edit"), 
#                           onclick ="window.open('https://www.dropbox.com/scl/fi/crphl3u49fmkw8wnb5v71/IGHV1-2.docx?dl=0&rlkey=l54oqhrlxx8wyp6bywr224sx0')"),
#       
#       shiny::actionButton(inputId='ab2', label="Reload text", 
#                           icon = icon("sync-alt")),
#       
#       #htmlOutput("df_output"),
#       uiOutput('markdown')
#     )
# )
# 
# server <- function(input, output) {
#     
#   observeEvent(input$ab2, {
#     drop_download("public/conclusions/IGHV1-2.docx", local_path = "docs/IGHV1-2.docx",
#               overwrite = TRUE, verbose = F)
#     #drop_df <- textreadr::read_docx("docs/IGHV1-2.docx")
#     
#     rmarkdown::pandoc_convert(input = "IGHV1-2.docx", to = "markdown", output = "IGHV1-2_docx.md", options = c("--wrap=none","--reference-links","--metadata-file=metadata.yaml","--standalone"), wd = "docs", verbose = F)
#     output$markdown <- renderUI({
#       #withMathJax(includeMarkdown(knitr::knit('IGHV1-2_docx.md', quiet = TRUE)))
#     HTML(markdown::markdownToHTML(knitr::knit('docs/IGHV1-2_docx.md', quiet = TRUE)))
#   })
#     
#   })
#     
#   # output$df_output <- renderUI({
#   #       if(input$ab2) return()
#   #       HTML(paste(drop_df, collapse = "<br/><br/>"))
#   #   })
#   
#   output$markdown <- renderUI({
#     #withMathJax(includeMarkdown(knitr::knit('docs/IGHV1-2_docx.md', quiet = TRUE)))
#     HTML(markdown::markdownToHTML(knitr::knit('docs/IGHV1-2_docx.md', quiet = TRUE)))
#   })
# }
# 
# shinyApp(ui = ui, server = server)

```

## Conclusions