6

我试图只从 NCBI xml BLAST 文件中提取第一个命中。接下来我想只获得第一个 HSP。在最后阶段,我想根据最好成绩获得这些。为了清楚起见,这里有一个 xml 文件的示例:

<?xml version="1.0"?>
<!DOCTYPE BlastOutput PUBLIC "-//NCBI//NCBI BlastOutput/EN" "http://www.ncbi.nlm.nih.gov/dtd/NCBI_BlastOutput.dtd">
<BlastOutput>
  <BlastOutput_program>blastx</BlastOutput_program>
  <BlastOutput_version>blastx 2.2.22 [Sep-27-2009]</BlastOutput_version>
  <BlastOutput_reference>~Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer, ~Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997), ~&quot;Gapped BLAST and PSI-BLAST: a new generation of protein database search~programs&quot;,  Nucleic Acids Res. 25:3389-3402.</BlastOutput_reference>
  <BlastOutput_db>/Applications/blast/db/viral1.protein.faa</BlastOutput_db>
  <BlastOutput_query-ID>lcl|1_0</BlastOutput_query-ID>
  <BlastOutput_query-def>DSAD-090629_plate11A01a.g1 CHROMAT_FILE: DSAD-090629_plate11A01a.g1 PHD_FILE: DSAD-090629_plate11A01a.g1.phd.1 CHEM: term DYE: big TIME: Thu Sep 17 15:33:59 2009 TEMPLATE: DSAD-090629_plate11A01a DIRECTION: rev</BlastOutput_query-def>
  <BlastOutput_query-len>1024</BlastOutput_query-len>
  <BlastOutput_param>
    <Parameters>
      <Parameters_matrix>BLOSUM62</Parameters_matrix>
      <Parameters_expect>1e-05</Parameters_expect>
      <Parameters_gap-open>11</Parameters_gap-open>
      <Parameters_gap-extend>1</Parameters_gap-extend>
      <Parameters_filter>F</Parameters_filter>
    </Parameters>
  </BlastOutput_param>
  <BlastOutput_iterations>
    <Iteration>
      <Iteration_iter-num>1</Iteration_iter-num>
      <Iteration_query-ID>lcl|1_0</Iteration_query-ID>
      <Iteration_query-def>DSAD-090629_plate11A01a.g1 CHROMAT_FILE: DSAD-090629_plate11A01a.g1 PHD_FILE: DSAD-090629_plate11A01a.g1.phd.1 CHEM: term DYE: big TIME: Thu Sep 17 15:33:59 2009 TEMPLATE: DSAD-090629_plate11A01a DIRECTION: rev</Iteration_query-def>
      <Iteration_query-len>1024</Iteration_query-len>
      <Iteration_stat>
        <Statistics>
          <Statistics_db-num>68007</Statistics_db-num>
          <Statistics_db-len>19518578</Statistics_db-len>
          <Statistics_hsp-len>0</Statistics_hsp-len>
          <Statistics_eff-space>0</Statistics_eff-space>
          <Statistics_kappa>0.041</Statistics_kappa>
          <Statistics_lambda>0.267</Statistics_lambda>
          <Statistics_entropy>0.14</Statistics_entropy>
        </Statistics>
      </Iteration_stat>
      <Iteration_message>No hits found</Iteration_message>
    </Iteration>
    <Iteration>
<Iteration>
      <Iteration_iter-num>6</Iteration_iter-num>
      <Iteration_query-ID>lcl|6_0</Iteration_query-ID>
      <Iteration_query-def>DSAD-090629_plate11A05a.g1 CHROMAT_FILE: DSAD-090629_plate11A05a.g1 PHD_FILE: DSAD-090629_plate11A05a.g1.phd.1 CHEM: term DYE: big TIME: Thu Sep 17 15:33:59 2009 TEMPLATE: DSAD-090629_plate11A05a DIRECTION: rev</Iteration_query-def>
      <Iteration_query-len>1068</Iteration_query-len>
      <Iteration_hits>
        <Hit>
          <Hit_num>1</Hit_num>
          <Hit_id>gnl|BL_ORD_ID|23609</Hit_id>
          <Hit_def>gi|38707884|ref|NP_945016.1| Putative ribose-phosphate pyrophosphokinase [Enterobacteria phage Felix 01]</Hit_def>
          <Hit_accession>23609</Hit_accession>
          <Hit_len>293</Hit_len>
          <Hit_hsps>
            <Hsp>
              <Hsp_num>1</Hsp_num>
              <Hsp_bit-score>49.2914</Hsp_bit-score>
              <Hsp_score>116</Hsp_score>
              <Hsp_evalue>5.15408e-06</Hsp_evalue>
              <Hsp_query-from>580</Hsp_query-from>
              <Hsp_query-to>792</Hsp_query-to>
              <Hsp_hit-from>202</Hsp_hit-from>
              <Hsp_hit-to>273</Hsp_hit-to>
              <Hsp_query-frame>-1</Hsp_query-frame>
              <Hsp_identity>26</Hsp_identity>
              <Hsp_positive>45</Hsp_positive>
              <Hsp_gaps>2</Hsp_gaps>
              <Hsp_align-len>73</Hsp_align-len>
              <Hsp_qseq>MHIIGDVE--GRTCILVDDMVDTAGTLCHAAKALKERGAAKVYAYCTHPVLSGRAIENIENSVLDELVVTNTI</Hsp_qseq>
              <Hsp_hseq>MRILDDVDLTDKTVMILDDICDGGRTFVEAAKHLREAGAKRVELYVTHGIFS-KDVENLLDNGIDHIYTTNSL</Hsp_hseq>
              <Hsp_midline>M I+ DV+   +T +++DD+ D   T   AAK L+E GA +V  Y TH + S + +EN+ ++ +D +  TN++</Hsp_midline>
            </Hsp>
          </Hit_hsps>
        </Hit>
        <Hit>
          <Hit_num>2</Hit_num>
          <Hit_id>gnl|BL_ORD_ID|2466</Hit_id>
          <Hit_def>gi|51557505|ref|YP_068339.1| large tegument protein [Suid herpesvirus 1]</Hit_def>
          <Hit_accession>2466</Hit_accession>
          <Hit_len>3084</Hit_len>
          <Hit_hsps>
            <Hsp>
              <Hsp_num>1</Hsp_num>
              <Hsp_bit-score>48.9062</Hsp_bit-score>
              <Hsp_score>115</Hsp_score>
              <Hsp_evalue>6.70494e-06</Hsp_evalue>
              <Hsp_query-from>369</Hsp_query-from>
              <Hsp_query-to>875</Hsp_query-to>
              <Hsp_hit-from>2312</Hsp_hit-from>
              <Hsp_hit-to>2465</Hsp_hit-to>
              <Hsp_query-frame>-2</Hsp_query-frame>
              <Hsp_identity>52</Hsp_identity>
              <Hsp_positive>70</Hsp_positive>
              <Hsp_gaps>4</Hsp_gaps>
              <Hsp_align-len>173</Hsp_align-len>
          <Hsp_qseq>APESQEPGASTWRSSTSVVKKGQPSQK*CTSSVTSKAVPASWSTTWSTLPAPCATPPKR*KSAAPPRSTPTAPTRCCPAAPSRTSRIPSWTSWWSPTPSRCPLRRSPARVFASSTSPR-SSPKRSAASATKNRSAP---CSAKRNWPDHTAPPRAGLFALPPEAGRKPQGGLV</Hsp_qseq>
          <Hsp_hseq>APPAQKPPAQPATAAATTAPKATPQTQPPTRAQTQTAPPPPSAAT-----AAAQVPPQ------PPSSQPAAKPRGAPPAPPAPP--PPSAQTTLPRPAAPPAPPPPS---AQTTLPRPAPPPPSAPAATPTPPAPGPAPSAKKSDGDRIVEPKAG---APPDVRDAKFGGKV</Hsp_hseq>
          <Hsp_midline>AP +Q+P A    ++ +   K  P  +  T + T  A P   + T     A    PP+      PP S P A  R  P AP      P       P P+  P    P+   A +T PR + P  SA +AT    AP    SAK++  D    P+AG    PP+      GG V</Hsp_midline>
        </Hsp>
      </Hit_hsps>
    </Hit>
  </Iteration_hits>
  <Iteration_stat>
    <Statistics>
      <Statistics_db-num>68007</Statistics_db-num>
      <Statistics_db-len>19518578</Statistics_db-len>
      <Statistics_hsp-len>0</Statistics_hsp-len>
      <Statistics_eff-space>0</Statistics_eff-space>
      <Statistics_kappa>0.041</Statistics_kappa>
      <Statistics_lambda>0.267</Statistics_lambda>
      <Statistics_entropy>0.14</Statistics_entropy>
    </Statistics>
  </Iteration_stat>
</Iteration>

基本上每个查询搜索都会创建一个迭代元素。每次迭代都可以有多个命中,而这些命中又可以有多个 HSP。我只想获得第一个命中,它是每次迭代的第一个 HSP。如果 BLAST 没有找到命中,我想忽略迭代。我编写了这个简单的代码:

#!/usr/bin/env python
from elementtree.ElementTree import parse
from elementtree import ElementTree as ET
file = open("/Applications/blast/blanes_viral_nr_results.xml", "r")
save_file = open("/Applications/blast/Blast_parse_ET.txt", 'w')
tree = parse(file)
elem = tree.getroot()
print elem
Per_ID = ()

save_file.write('>%s\t%s\t%s\t%s\t%s\t%s\t\n\n\n\n' % ("It_Num\t", "It_ID\t", "Hit_Def\t", "Num\t", "ID\t", "ACC\t"))
iteration = tree.findall('BlastOutput_iterations/Iteration')
for iteration in iteration:
   for hit in iteration.findall('Iteration_hits/Hit'):
  It_Num = iteration.findtext('Iteration_iter-num')
  It_ID = iteration.findtext('Iteration_query-def')
  Hit_Def = hit.findtext('Hit_def')
  Num =  hit.findtext('Hit_num')
  ID = hit.findtext('Hit_id')
  DEF =  hit.findtext('Hit_def')
  ACC = hit.findtext('Hit_accession')
  save_file.write('>%s\t%s\t%s\t%s\t%s\t%s\t' % (It_Num, It_ID[12:26], Hit_Def[1:10], Num, ID, ACC,))
  for hsp in hit.findall('Hit_hsps'):
        HSPN = hsp.findtext('Hsp/Hsp_num')
        identities = hsp.findtext('Hsp/Hsp_identity')
        #print 'id: ', identities.rjust(4),
        length = hsp.findtext('Hsp/Hsp_align-len')
        #print 'len:', length.rjust(4),
        Per_ID = int(identities) * 100.0 / int(length)
        #print hsp.findtext('Hsp/Hsp_qseq')[:50]
        #print hsp.findtext('Hsp/Hsp_midline')[:50]
        #print hsp.findtext('Hsp/Hsp_hseq')[:50]
        save_file.write('%s\t%s\t%s\%st\n' % ('***', '%', HSPN, Per_ID))
  save_file.write('n\n' % ())

任何帮助将不胜感激!

4

3 回答 3

9

虽然构建自己的解析器可能很“有趣”,但已经有一个可以解析 BLAST xml 文件的包......如果您愿意,它甚至可以为您执行本地 BLAST 实例的中间调用。

主站点在这里: http ://biopython.org/wiki/Biopython

XML BLAST 解析器在这里: http ://biopython.org/DIST/docs/tutorial/Tutorial.html#htoc82

就像是:

from Bio.Blast import NCBIXML
with open('xml/results/file') as handle:
    all_records = NCBIXML.parse(handle)
    first_record = all_records.next()

应该管用。我通常喜欢 BioPython 解析器和编写器,但我不喜欢类结构组织。所以我通常只使用解析器并将我需要的信息提取到我自己的结构中。YMMV

希望有帮助。

于 2009-12-21T01:03:29.443 回答
6

我将支持 JudoWill 的建议——使用 BioPython 解析器更聪明地工作,而不是更努力地工作。这应该让你更进一步:

from Bio.Blast import NCBIXML
blast = NCBIXML.parse(open('results.xml','rU'))
for record in blast:
    if record.alignments:
        # to print the "best" matches e-score
        print record.alignments[0].hsps[0].expect
        # to print the "best" matches bit-score
        print record.alignments[0].hsps[0].score
        break

这将在第一个查询之后停止(返回第一个和最佳匹配)。由于我怀疑您可能想要同一文件中其他查询的结果,因此只需break从最后一行中删除。

于 2010-01-30T07:44:18.993 回答
1

如果我了解您的基本要求,那么您希望获得查询蛋白质/核苷酸序列的最高命中/HSP。为什么不在您的系统上安装带有格式化的 nr/nt 数据库的独立爆炸。键入选项

blastall -p {blast programme blastp for protein,blastn for nucleotide} -d {database} -i {input query} -v 1{for top hit} -b 1{alignment of the top hit with query} -m 7{xml blast output} -o example.xml

在 MS excel 中打开 xml 输出文件,您可以在其中看到爆炸输出的表格形式,其中每个查询序列的顶部单次命中

于 2011-01-26T02:35:28.457 回答