最近在上生物信息学原理,打算记录一些课上的作业。第一次作业:如题。
基本思路:
1.从GFF中读取CDS的起始终止位置以及正负链信息。GFF格式见 http://blog.sina.com.cn/s/blog_8a4f556e0102yd3l.html.
2.利用起始/终止位置等信息从FNA文件中提取CDS序列。FNA格式见 http://boyun.sh.cn/bio/?p=1192.
3.利用CDS序列及密码子表得到FAA文件并输出。
注意:最需要注意的一点是:当GFF中CDS位于负链时,需要进行碱基互补配对,即反向互补(5'到3'配3'到5')。
下面给出python代码。python3.6
以下问题有待解决:得到的FNA文件和FAA文件的注释信息不全,并且没有提供命令行参数,交完作业再补充。
1 #bioinformatics homework 2 import re 3 class CDS2AA(): 4 pa = re.compile(r'\s+') 5 Pa = re.compile(r'[TCAG]TG') # 细菌起始密码子NTG 6 def __init__(self,fna,gff): 7 self.fna = fna 8 self.gff = gff 9 def N2M(self,sequence): 10 hash = {'A': 'T', 'T': 'A', 'C': 'G', 'G': 'C'} 11 sequence = ''.join([hash[i] for i in sequence]) #正负链转换 12 return sequence[::-1] 13 def Get_CDS_index(self,line): 14 line = self.pa.split(line) 15 CDS = (line[0], line[3], line[4], line[6]) 16 return CDS 17 def Seq2AA(self,sequence,hash): 18 AA = hash[sequence[:3]] 19 if self.Pa.match(sequence[:3]): 20 AA = 'M' #起始密码子 21 for i in range(3, len(sequence) - 3, 3): 22 AA += hash[sequence[i:i + 3]] 23 return AA 24 def CDS2AA(self): 25 fn = open(self.fna, 'r') 26 gf = open(self.gff,'r') 27 r = open('AA_sequence.txt', 'w') 28 w = open('CDS.txt', 'w') 29 hash_AA = {} # AA hash,sequence2AA 30 with open('AA.txt', 'r') as f: 31 for line in f: 32 line = line.strip() 33 if line: 34 line = self.pa.split(line) 35 hash_AA[line[0]] = line[1] #AA hash 36 hash_CDS = {} # CDS hash,CDS2sequence 37 for line in fn: 38 line = line.strip() 39 if line.startswith('>'): 40 A = self.pa.split(line)[0].replace('>', '') 41 hash_CDS[A] = '' 42 else: 43 hash_CDS[A] += line 44 fn.close() 45 for line in gf: 46 line = line.strip() 47 if 'CDS' in line: 48 i = self.Get_CDS_index(line) 49 sequence = hash_CDS[i[0]][int(i[1]) - 1:int(i[2])] 50 if i[3] == '-': 51 sequence = self.N2M(sequence) 52 #w.write(i[0] + '\n' + sequence + '\n') 53 s = self.pa.split(line) 54 p = re.compile(r'ID=(.*?);.*?Dbxref=(.*?);.*?Name=(.*?);.*?gbkey=(.*?);.*?product=(.*?);.*?protein_id=(.*?);') 55 m = re.findall(p,line) 56 s = s[0]+'_'+m[0][0]+m[0][2]+'\tdbxref='+m[0][1]+'\tprotein='+m[0][4]+'\tprotein_id='+m[0][5]+'\tgbkey='+m[0][3] 57 w.write(s + '\n' + sequence + '\n') 58 AA = self.Seq2AA(sequence, hash_AA) 59 r.write(i[0] + '\n' + AA + '\n') 60 w.close() 61 r.close() 62 63 if __name__=='__main__': 64 fna = 'GCA_000160075.2_ASM16007v2_genomic.fna' 65 gff = 'GCA_000160075.2_ASM16007v2_genomic.gff' 66 m = CDS2AA(fna,gff) 67 m.CDS2AA()
一些其他的问题我会在交作业前完善。后面的有意思作业题目会陆续上传。