LSHTM_analysis/scripts/functions/logoP_msa.R

#logo plots

# one for multiple muts
  # --> select/drop down option to filter count of nsSNPs
  # --> select/drop down  option for colour
  # --> should include WT

# Data used

#tab_mt # mutant logo plot
#tab_wt # wt logo plot

# Make it hover over position and then get the corresponding data table!
#%%======================================================================

#==================
# logo data: OR
#==================
# NOTE: my_logo_col

LogoPlotMSA <- function(msaSeq_mut
                        , msaSeq_wt
                        , plot_positions
                        , msa_method = 'bits' # or probability
                        , my_logo_col = "chemistry" 
                        , x_lab = "Wild-type position"
                        , y_lab = ""
                        , x_ats = 13 # text size
                        , x_tangle = 90 # text angle
                        , x_axis_offset = 0.07 # dist b/w y-axis and plot start
                        , y_ats = 13
                        , y_tangle = 0
                        , x_tts = 13 # title size
                        , y_tts = 13
                        , leg_pos = "top" # can be top, left, right and bottom or c(0.8, 0.9)
                        , leg_dir = "horizontal" #can be vertical or horizontal
                        , leg_ts = 16 # leg text size
                        , leg_tts = 16 # leg title size
                     )

{
  
  ############################################
  # Data processing for logo plot for nsSNPS
  ###########################################
  cat("\nLength of MSA", length(msaSeq_mut)
      , "\nlength of WT seq:", length(msaSeq_wt))
  
  if(missing(plot_positions)){
  #if(is.null(plot_positions)){
    cat("\n======================="
      , "\nPlotting entire MSA"
      , "\n========================")
    msa_seq_plot = msaSeq_mut
    msa_all_interim = sapply(msa_seq_plot, function(x) unlist(strsplit(x,"")))
    msa_all_interimDF = data.frame(msa_all_interim)
    msa_all_pos = as.numeric(rownames(msa_all_interimDF))

    wt_seq_plot = msaSeq_wt
    wt_all_interim = sapply(wt_seq_plot, function(x) unlist(strsplit(x,"")))
    wt_all_interimDF = data.frame(wt_all_interim)
    wt_all_pos = as.numeric(rownames(wt_all_interimDF))
    
    
  } else {
    cat("\nUser specified plotting positions for MSA:"
        , "\nThese are:\n", plot_positions
        , "\nSorting plot positions...")
    
    plot_positions = sort(plot_positions)
    
    cat("\nPlotting positions sorted:\n"
        , plot_positions)

    #-----------
    # MSA: mut
    #-----------
    cat("\n==========================================="
      , "\nGenerating MSA: filtered positions"
      , "\n===========================================")

    msa_interim = sapply(msaSeq_mut, function(x) unlist(strsplit(x,"")))
    msa_interimDF = data.frame(msa_interim)
    msa_pos = as.numeric(rownames(msa_interimDF))
    
    if (all(plot_positions%in%msa_pos)){
      cat("\nAll positions within range"
          , "\nProceeding with generating requested position MSA seqs..."
          , "\nNo. of positions in plot:", length(plot_positions))
      i_extract = plot_positions
      dfP1 = msa_interimDF[i_extract,]
      
      }else{
        cat("\nNo. of positions selected:", length(plot_positions))
        i_ofr = plot_positions[!plot_positions%in%msa_pos]
        cat("\n1 or more plot_positions out of range..."
            , "\nThese are:\n", i_ofr
            , "\nQuitting! Resubmit with correct plot_positions")
        #i_extract = plot_positions[plot_positions%in%msa_pos]
        #cat("\nFinal no. of positions being plottted:", length(i_extract)
        #   , "\nNo. of positions dropped from request:", length(i_ofr))
        quit()
    }
    
    #matP1 = msa_interim[i_extract, 1:ncol(msa_interim)]
    #dfP1 = msa_interimDF[i_extract,]
    dfP1 = data.frame(t(dfP1))
    names(dfP1) = i_extract
    cols_to_paste = names(dfP1)
    dfP1['chosen_seq'] = apply(dfP1[ , cols_to_paste]
                                , 1
                                , paste, sep = ''
                                , collapse = "")
    
    msa_seq_plot = dfP1$chosen_seq
    
    #-----------
    # WT: fasta
    #-----------
    cat("\n========================================="
      , "\nGenerating WT fasta: filtered positions"
      ,"\n===========================================")
    wt_interim = sapply(msaSeq_wt, function(x) unlist(strsplit(x,"")))
    wt_interimDF = data.frame(wt_interim)
    wt_pos = as.numeric(rownames(wt_interimDF))
    
    if (all(plot_positions%in%wt_pos)){
      cat("\nAll positions within range"
          , "\nProceeding with generating requested position MSA seqs..."
          , "\nplot positions:", length(plot_positions))
      i2_extract = plot_positions
    }else{
      cat("\nNo. of positions selected:", length(plot_positions))
      i2_ofr = plot_positions[!plot_positions%in%wt_pos]
      cat("\n1 or more plot_positions out of range..."
          , "\nThese are:\n", i_ofr
          , "\nQuitting! Resubmit with correct plot_positions")
      #i2_extract = plot_positions[plot_positions%in%wt_pos]
      #cat("\nFinal no. of positions being plottted:", length(i2_extract)
      #   , "\nNo. of positions dropped from request:", length(i2_ofr))
      quit()
    }
    
    #matP1 = msa_interim[i_extract, 1:ncol(msa_interim)]
    dfP2 = wt_interimDF[i2_extract,]
    dfP2 = data.frame(t(dfP2))
    names(dfP2) = i2_extract
    cols_to_paste2 = names(dfP2)
    dfP2['chosen_seq'] = apply( dfP2[ , cols_to_paste2]
                                , 1
                                , paste, sep = ''
                                , collapse = "")
    
    wt_seq_plot  = dfP2$chosen_seq
}

   ######################################
   # Generating plots for muts and wt
   #####################################
   LogoPlotMSAL <- list()
  
   if (my_logo_col %in% c('clustalx','taylor')) {
    cat("\nSelected colour scheme:", my_logo_col
        , "\nUsing black theme\n")
    
    theme_bgc  = "black"
    xfont_bgc  = "white"
    yfont_bgc  = "white"
    xtt_col    = "white"
    ytt_col    = "white"
  }
  
  if (my_logo_col %in% c('chemistry', 'hydrophobicity')) {
    cat("\nstart of MSA"
      , '\nSelected colour scheme:', my_logo_col
      , "\nUsing grey theme")
    
    theme_bgc = "grey"
    xfont_bgc  = "black"
    yfont_bgc  = "black"
    xtt_col    = "black"
    ytt_col    = "black"
  }
  
  #####################################
  # Generating logo plots for nsSNPs
  #####################################
  
  #-------------------
  # Mutant logo plot
  #-------------------
  p0 = ggseqlogo(msa_seq_plot
                 , facet = "grid"
                 , method = msa_method
                 , col_scheme = my_logo_col
                 , seq_type = 'aa') +
    theme(legend.position = leg_pos
          , legend.direction = leg_dir
          #, legend.title = element_blank()
          , legend.title = element_text(size = leg_tts
                                        , colour = ytt_col)
          , legend.text = element_text(size = leg_ts)

          , axis.text.x = element_text(size = x_ats
                                       , angle = x_tangle
                                       , hjust = 1
                                       , vjust = 0.4
                                       , colour = xfont_bgc)
          #, axis.text.y = element_blank()
           , axis.text.y = element_text(size = y_ats
                                        , angle = y_tangle
                                        , hjust = 1
                                        , vjust = -1.0
                                        , colour = yfont_bgc)
          , axis.title.x = element_text(size = x_tts
                                        , colour = xtt_col)
          , axis.title.y = element_text(size = y_tts
                                        , colour = ytt_col)
          , plot.background = element_rect(fill = theme_bgc))+
    xlab(x_lab)
  
  if (missing(plot_positions)){
    msa_mut_logo_P = p0 +
      scale_x_discrete(breaks = msa_all_pos
                       , expand = c(0.02,0)
                       , labels = msa_all_pos
                       , limits = factor(msa_all_pos))

  }else{
    msa_mut_logo_P = p0 +
      scale_y_continuous(expand = c(0,0.09)) +
      scale_x_discrete(breaks = i_extract
                       , expand = c(x_axis_offset,0)
                       , labels = i_extract
                       , limits = factor(i_extract))
  }
  
  cat('\nDone: MSA plot for mutations')
  #return(msa_mut_logoP)
  LogoPlotMSAL[['msa_mut_logoP']] <- msa_mut_logo_P

  #---------------------------------
  # Wild-type MSA: gene_fasta file
  #---------------------------------
  p1 = ggseqlogo(wt_seq_plot
                 , facet = "grid"
                 , method = msa_method
                 , col_scheme = my_logo_col
                 , seq_type = 'aa') + 
    
    theme(legend.position = "none"
          , legend.direction = leg_dir
          #, legend.title = element_blank()
          , legend.title = element_text(size = leg_tts
                                        , colour = ytt_col)
          , legend.text = element_text(size = leg_ts)
          
          , axis.text.x = element_text(size = x_ats
                                       , angle = x_tangle
                                       , hjust = 1
                                       , vjust = 0.4
                                       , colour = xfont_bgc)
          , axis.text.y = element_blank()
          
          , axis.title.x = element_text(size = x_tts
                                        , colour = xtt_col)
          , axis.title.y = element_text(size = y_tts
                                        , colour = ytt_col)
          
          , plot.background = element_rect(fill = theme_bgc)) +
      ylab("") + xlab("Wild-type position")

    if (missing(plot_positions)){
      msa_wt_logo_P = p1 +  
        scale_x_discrete(breaks = wt_all_pos
                         , expand = c(0.02,0)
                         , labels = wt_all_pos
                         , limits = factor(wt_all_pos) )
      
    }else{
      msa_wt_logo_P = p1 +
        scale_y_continuous(expand = c(0,0.09)) +
        scale_x_discrete(breaks = i2_extract
                         , expand = c(x_axis_offset, 0)
                         , labels = i2_extract
                         , limits = factor(i2_extract))
    }
    
  cat('\nDone: MSA plot for WT')
  #return(msa_wt_logoP)
  LogoPlotMSAL[['msa_wt_logoP']] <- msa_wt_logo_P
  
  #=========================================
  # Output
  # Combined plot: logo_MSA
  #=========================================

  cat('\nDone: msa_mut_logoP + msa_wt_logoP')

  # colour scheme: https://rdrr.io/cran/ggseqlogo/src/R/col_schemes.r
  #cat("\nOutput plot:", LogoSNPs_comb, "\n")
  #svg(LogoSNPs_combined, width = 32, height = 10)

  LogoMSA_comb = cowplot::plot_grid(LogoPlotMSAL[['msa_mut_logoP']]
                                     , LogoPlotMSAL[['msa_wt_logoP']]
                                          , nrow = 2
                                          , align = "v"
                                          , rel_heights = c(3/4, 1/4))

  return(LogoMSA_comb)

}