什么是单个字符的向量

时间:2014-03-20 10:50:39

标签: r bioinformatics

我有以下功能(来自包seqinr):

translate(seq, frame = 0, sens = "F", numcode = 1, NAstring = "X", ambiguous = FALSE)

很快,它将DNA序列翻译成蛋白质序列。给出seq参数时遇到问题。文档说:

seq = the sequence to translate as a vector of single characters in lower case letters

我将DNA序列存储在data.frame中(在此处命名为seq):

seq <- data.frame(geneSeq="ATGTGTTGGGCAGCCGCAATACCTATCGCTATATCTGGCGCTCAGGCTATCAGTGGTCAGAACACTCAAGCCAAAATGATTGCCGTTCAGACCGCTGCTGGTCGTCGTCAAGCTATGGAAATCATGAGGCAGACGAACATCCAGAATGCTGACCTATCGTTGCAAGCTCGAAGTAACCTTGAGAAAGCGTCCGCCGAGTTGACCTCACAGAACATGCAKAAGGTCCAAGCTATTGGGTCTATCCGAGCGGCTATCGGAGAAAGTATGCTTGAAGGTTCCTCAATGGACCGTATTAAGCGAGTCACAGAAGGACAGTTCATTCGGGAAGCCAATATGGTAACTGAGAACTATCGCCGTGACTACCAAGCAATCTTCGTACAGCAACTTGGTGGTACTCAAAGTGCTGCAAGTCAGATTGACGAAATCTATAAGAGCGAACAGAAACAGAAGAGTAAGCTACAGATGGTTCTGGACCCACTGGCTATCATGGGGTCTTCCGCTGCGAGTGCTTACGCATCCGATGCGTTCGACTCTAAGTTCACAACTAAGGCACCTATTGTTGCCGCTAAAGGAACCAAGACGGGGAGGTAA", stringsAsFactors=FALSE)

每次我尝试使用translate函数时,都会返回错误:

Error in s2n(seq, levels = s2c("tcag")) : 
  sequence is not a vector of chars

我尝试了以下内容,都给出了上述错误:

trans<- seqinr::translate(tolower(seq[1,1]))
trans<- seqinr::translate(stringr::str_split(tolower(seq[1,1]), pattern=""))
trans<- seqinr::translate(as.character(stringr::str_split(tolower(seq[1,1]), pattern="")))

如何在单个字符的向量中转换我的DNA序列?

2 个答案:

答案 0 :(得分:2)

您可以使用strsplit

strsplit("ABCD", "")
# [[1]]
# [1] "A" "B" "C" "D"

## your example:
seqinr::translate(strsplit(seq[1,1], "")[[1]])

答案 1 :(得分:1)

?translate中的第一个示例几乎可以为您提供答案。

您不需要数据框,可以使用s2c,其生命中唯一的目的是将字符串转换为字符向量&# 34;:

geneSeq="ATGTGTTGGGCAGCCGCAATACCTATCGCTATATCTGGCGCTCAGGCTATCAGTGGTCAGAACACTCAAGCCAAAATGATTGCCGTTCAGACCGCTGCTGGTCGTCGTCAAGCTATGGAAATCATGAGGCAGACGAACATCCAGAATGCTGACCTATCGTTGCAAGCTCGAAGTAACCTTGAGAAAGCGTCCGCCGAGTTGACCTCACAGAACATGCAKAAGGTCCAAGCTATTGGGTCTATCCGAGCGGCTATCGGAGAAAGTATGCTTGAAGGTTCCTCAATGGACCGTATTAAGCGAGTCACAGAAGGACAGTTCATTCGGGAAGCCAATATGGTAACTGAGAACTATCGCCGTGACTACCAAGCAATCTTCGTACAGCAACTTGGTGGTACTCAAAGTGCTGCAAGTCAGATTGACGAAATCTATAAGAGCGAACAGAAACAGAAGAGTAAGCTACAGATGGTTCTGGACCCACTGGCTATCATGGGGTCTTCCGCTGCGAGTGCTTACGCATCCGATGCGTTCGACTCTAAGTTCACAACTAAGGCACCTATTGTTGCCGCTAAAGGAACCAAGACGGGGAGGTAA"

print(translate(s2c(geneSeq), frame = 0, sens = "F", numcode = 1, NAstring = "X", ambiguous = FALSE)

##   [1] "M" "C" "W" "A" "A" "A" "I" "P" "I" "A" "I" "S" "G" "A" "Q" "A" "I" "S" "G" "Q" "N" "T" "Q" "A" "K"
##  [26] "M" "I" "A" "V" "Q" "T" "A" "A" "G" "R" "R" "Q" "A" "M" "E" "I" "M" "R" "Q" "T" "N" "I" "Q" "N" "A"
##  [51] "D" "L" "S" "L" "Q" "A" "R" "S" "N" "L" "E" "K" "A" "S" "A" "E" "L" "T" "S" "Q" "N" "M" "X" "K" "V"
##  [76] "Q" "A" "I" "G" "S" "I" "R" "A" "A" "I" "G" "E" "S" "M" "L" "E" "G" "S" "S" "M" "D" "R" "I" "K" "R"
## [101] "V" "T" "E" "G" "Q" "F" "I" "R" "E" "A" "N" "M" "V" "T" "E" "N" "Y" "R" "R" "D" "Y" "Q" "A" "I" "F"
## [126] "V" "Q" "Q" "L" "G" "G" "T" "Q" "S" "A" "A" "S" "Q" "I" "D" "E" "I" "Y" "K" "S" "E" "Q" "K" "Q" "K"
## [151] "S" "K" "L" "Q" "M" "V" "L" "D" "P" "L" "A" "I" "M" "G" "S" "S" "A" "A" "S" "A" "Y" "A" "S" "D" "A"
## [176] "F" "D" "S" "K" "F" "T" "T" "K" "A" "P" "I" "V" "A" "A" "K" "G" "T" "K" "T" "G" "R" "*"