| ... | ... | @@ -139,11 +139,17 @@ then do the plotting :) |
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taxtable[, 5], taxtable[, 6], as.character(1:length(taxtable[, 1])), sep="-")
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seqtab <- seqtab[, grep("Chloroplast|Mitochondria", colnames(seqtab), invert=TRUE)]
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seqtab <- seqtab/rowSums(seqtab)
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seqtab <- seqtab[, sapply(seqtab, function(x) max(x)) >= min_abund]
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seqtab1 <- seqtab[, sapply(seqtab, function(x) max(x)) >= min_abund]
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seqtab2 <- seqtab[, sapply(seqtab, function(x) max(x)) < min_abund]
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colnames(seqtab2) <- paste0(colnames(seqtab2), "_Others")
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seqtab3 <- merge(seqtab1, seqtab2, by="row.names")
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row.names(seqtab3) <- row.names(seqtab)
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seqtab <- seqtab3
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seqtab$sample <- rownames(seqtab)
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seqtab.m <- melt(seqtab)
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seqtab.m <- seqtab.m[grep(taxon, seqtab.m$variable),]
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seqtab.m$variable <- gsub("NA", "uncultured", seqtab.m$variable)
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seqtab.m$variable <- gsub(".*Others", "Below_Min_Abund-Below_Min_Abund-Below_Min_Abund-Below_Min_Abund-Below_Min_Abund-Below_Min_Abund-Below_Min_Abund", seqtab.m$variable)
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seqtab.m$variable <- as.character(seqtab.m$variable)
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seqtab.m$Domain <- sapply(strsplit(seqtab.m$variable, "-"), "[[", 1)
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seqtab.m$Phylum <- sapply(strsplit(seqtab.m$variable, "-"), "[[", 2)
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| ... | ... | |
