Difference between revisions of "ENA Submission Pipeline"
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BEGIN SETS; | BEGIN SETS; |
Revision as of 10:03, 12 February 2021
Attention: BGBM submissions to ENA including registration of new names should only be done by authorised staff! Please contact the DNA Bank if you want to submit sequences SIX weeks ahead of paper submission! The following guide shall help you to prepare all required data and to understand the complexity of sequence submissions. The submission itself will be done by authorised staff only!
!To Do: Text includes a Mix of German and English !
Contents
[hide]- 1 Researchers
- 2 DNA Bank
- 2.1 Registration of all new names at NCBI/ENA
- 2.2 Create project at ENA to get project number
- 2.3 Überprüfung der Korrespondenz zwischen DNA-Alignment und Metadaten
- 2.4 Schritt 6 DNA Bank: Konvertierung des DNA-Alignments von NEXUS-Format zu Flatfile-Format, Integration der Metadaten
- 2.5 Validierung des EMBL-Flatfile
- 2.6 Entscheidung zwischen Art der Submission
- 2.7 9a Konvertierung des EMBL-Flatfiles zu einer ENA Checklist
- 2.8 9b Upload der ENA Checklist unter Angabe der Projektnummer
- 2.9 10a DNA Bank: Vorbereiten der xml-Dateien
- 2.10 10b DNA Bank: Hochladen der Dateien über ftp und command line
1 Researchers
1.1 INPUT required for any submission
- DNA alignment in NEXUS format with annotations following the INSDC vocabulary
- Sample metadata in CSV format following the BGBM standard (TODO: description of this standard)
- List of standardized scientific names
- Project metadata (short name, title of study, abstract, release date, autors/contributors)
1.2 Check all taxon names against NCBI Taxonomy
Option A: Use the NCBI tool: https://www.ncbi.nlm.nih.gov/Taxonomy/TaxIdentifier/tax_identifier.cgi
Option B: Use OpenRefine: TODO: documentation
- Names muss follow IPNI standard (except for unidenified organisms and new described taxa), most common mistakes are blanks in authorship (e.g. H. Karst); IPNI always without blanks (H.Karst); BGBM follows this standard in all its collection databases
- Names not found at ENA/NCBI Taxonomy must be registered at ENA (by BGBM DNA Bank!). Note, that you will only find names associated to published sequences!
- ENA has rules in place for registration of new names one must follow. BGBM documents those name submissions centrally, to enable updating sequence records after publication of new names.
- Unidentified or unpublished names must be unique, e.g. "Minuartia sp. G.Parolly et al. 15015" instead of "Minuartia spec. 1"
Attention: the registration of new names might require up to two weeks, make sure ALL names are checked carefully and submitted right in time
1.3 Add Annotations to Sequences
- Required Software: Phyde, Geneious, every common text editor (e.g. Geany, Notepad++, Textpad)
- Video Tutorial: https://www.youtube.com/watch?v=CY1e2RkULas
- Attention: ENA requires use of certain vocabulary for annotations see Annotations
Export your file into Nexus format! In the nexus file annotations show up at the end of the file in following format:
BEGIN SETS; charset 18S_rRNA = 1-378; charset 18S gene = 1-378; END;
2 DNA Bank
2.1 Registration of all new names at NCBI/ENA
- Login at ENA's Webin
- Click on "Taxonomy Check/Request" --> Next
- Enter organism name / upload list of names
- Save list of names as txt file (one per row) or enter individually
- todo: Beispiel-Anfragen hinzufügen
Email von Carol Hotton (NCBI): Here’s the GenBank format for non-canonical names:
- Sensu stricto names are treated as canonical, e.g.: Arabis hirsuta s. str. = Arabis hirsuta
- Sensu lato names are treated as cf., e.g.: Festuca ovina s. l. = Festuca cf. ovina
- Cf. (and aff.) names we treat as non-unique, to which a unique string is attached, e.g.: Festuca cf. ovina GD-2019
- Hybrid formulas repeat the genus, i.e.: Carex cespitosa x Carex nigra
- We use an ‘x’ rather than a multiplication sign in hybrid names because not all applications can handle non-ASCII characters (as you have done, so that’s not a problem).
2.2 Create project at ENA to get project number
- Login at ENA's Webin
- Click on "Register study (project)" --> Next
- Fill out relevant information (Short name, Title of study, Abstract, Release date)
2.3 Überprüfung der Korrespondenz zwischen DNA-Alignment und Metadaten
Benötigte Software: beliebiger Software für Tabellenkalkulation (z.B. LibreOffice), beliebiger Texteditor (z.B. Geany)
- Die Sequenznamen des DNA-Alignments müssen den Einträgen einer der Spalten der Metadaten-Datei exakt entsprechen.
- Die Metadaten-Datei darf hierbei mehr Einträge haben als das DNA-Alignment, aber das DNA-ALignment darf nicht mehr Einträge haben als die Metadaten-Datei.
2.4 Schritt 6 DNA Bank: Konvertierung des DNA-Alignments von NEXUS-Format zu Flatfile-Format, Integration der Metadaten
Benötigte Software: https://github.com/michaelgruenstaeudl/annonex2embl
2.4.1 Metadaten-File
- darf keine Leerzeilen enthalten
- muss mit Komma separiert sein (Windows -> Region zu Englisch (USA) ändern -> CSV export dann mit Komma statt Semikolon
- darf keine Umlaute enthalten
- Spaltennamen müssen den INSDC-Featuren entsprechen
- für matK wird organelle = plastid benötigt
##LINUX## INPUT=examples/DNA_Alignment.nex METAD=examples/Metadata.csv DESCR="description_of_alignment" EMAIL=your_email_here@bgbm.org AUTHR="Your_name_here" annonex2embl -n $INPUT -c $METAD -o ${INPUT%.nex*}.embl -d $DESCR -e $EMAIL -a $AUTHR ##WINDOWS## SET INPUT=examples/DNA_Alignment.nex SET METAD=examples/Metadata.csv SET DESCR="description_of_alignment" SET EMAIL=your_email_here@bgbm.org SET AUTHR="Your_name_here" annonex2embl -n %INPUT% -c %METAD% -o output.embl -d %DESCR% -e %EMAIL% -a %AUTHR%
Beispiele für DESCR:
- ITS: "18S rRNA gene (partial), ITS1, 5.8S rRNA gene, ITS2 and 28S rRNA gene (partial)"
- trnLF: "tRNA-Leu (trnL) gene, partial sequence; trnL-trnF intergenic spacer, complete sequence; and tRNA-Phe (trnF) gene"
- trnKmatK: "tRNA-Lys (trnK) gene and intron, partial sequence; maturase K (matK) gene, complete cds; psbA gene, partial sequence"
- rpl16: "rpl16 intron, partial sequence"
- 18S: "partial 18S rRNA gene"
2.4.2 Kontrolle des EMBL-Files
- erste Zeile mol_type richtig übernommen?
- Datumsangaben in ISO?
- Identifier können so bleiben
- "isolate DB" ersetzen mit "isolate DB "
- "isolate=DB" ersetzen mit "isolate=DB "
- description_of_alignment ersetzen
- 58S etc. ersetzen
2.5 Validierung des EMBL-Flatfile
Benötigte Software: https://mvnrepository.com/artifact/uk.ac.ebi.ena.sequence/embl-api-validator -> eine Version auswählen und dann das jar runterladen
##LINUX## INPUT=examples/DNA_Alignment.embl java -jar embl-api-validator-1.1.265.jar $INPUT ###Check current version number!!! ##WINDOWS## SET INPUT=examples/DNA_Alignment.embl java -jar embl-api-validator-1.1.265.jar %INPUT% ###Check current version number!!!
2.6 Entscheidung zwischen Art der Submission
Option A: Interaktiver/GUI-basierter Submission; beschrieben in Schritten 9a und 9b
Option B: Programmatic/Command-Line-basierter Submission; beschrieben in Schritt 10
2.7 9a Konvertierung des EMBL-Flatfiles zu einer ENA Checklist
Benötigte Software: EMBL2checklists (Gruenstaeudl & Hartmaring 2019)
See details here: https://www.protocols.io/view/usage-of-embl2checklists-v6me9c6
##LINUX## INPUT=examples/DNA_Alignment.embl CHOSEN_CHECKLIST="trnK_matK" EMBL2checklists_CLI -i $INPUT -o ${INPUT%.embl*}.tsv -c $CHOSEN_CHECKLIST -e no ##WINDOWS## SET INPUT=examples/DNA_Alignment.embl SET CHOSEN_CHECKLIST="trnK_matK" EMBL2checklists_CLI -i %INPUT% -o output.tsv -c %CHOSEN_CHECKLIST% -e no
2.8 9b Upload der ENA Checklist unter Angabe der Projektnummer
- Bei ENA's Webin einloggen
- Klicke auf "Submit other assembled and annotated sequences [formerly EMBL-Bank]" --> Next
- Richtige Studie auswählen (nämlich jene, die unter Schritt 1 angelegt wurde) --> Next
- Klicke auf "Submit Completed Spreadsheet" und jene Datei auswählen, die unter Schritt 8a erstellt wurde --> Next
2.9 10a DNA Bank: Vorbereiten der xml-Dateien
- packen der embl-Datei und Checksumme bestimmen
gzip Akhani-et-al_Willdenowia_Tamarix_trnG-S_ENA-submission.embl md5sum Akhani-et-al_Willdenowia_Tamarix_trnG-S_ENA-submission.embl.gz
- Es werden zwei xml-Dateien benötigt *_submission.xml und *_analysis.xml
- Ausfüllen der *_analysis.xml - Datei; die STUDY_REF accession ist die Nummer, der Study, die wir in Schritt 1 angelegt haben!
- die *_submission.xml - Datei beinhaltet nur ein leeres Schema
2.10 10b DNA Bank: Hochladen der Dateien über ftp und command line
- Der ftp-Server von ENA kann entweder direkt über die Command Line angesprochen werden, oder man nutzt ein beliebiges ftp-Programm. In jedem Fall werden die ENA Webin-Login-Daten benötigt
ftp webin.ebi.ac.uk ##Login Type bin to use binary mode. Type ls command to check the content of your drop box. Type prompt to switch off confirmation for each file uploaded. Use mput command to upload files. ##lade folgendes hoch: 1) das *.gz file, das *_submission.xml und das *_analysis.xml Use by commande to exit the ftp client.
- Testsubmission auf dem ENA-Testserver (IMMER vor der echten Submission machen!)
curl -u Webin-NUMMER:TOPSECRETPASSWORD -F "SUBMISSION=@Akhani-et-al_Willdenowia_Tamarix_trnG-S_ENA-submission.xml" -F "ANALYSIS=@Akhani-et-al_Willdenowia_Tamarix_trnG-S_ENA-analysis.xml" "https://wwwdev.ebi.ac.uk/ena/submit/drop-box/submit/" > Akhani-et-al_Willdenowia_Tamarix_trnG-S_Test.xml
- Ausgabe des Tests prüfen -> *_Test.xml
- Wenn Test erfolgreich -> Submission auf dem ENA-Server
curl -u Webin-NUMMER:TOPSECRETPASSWORD -F "SUBMISSION=@Akhani-et-al_Willdenowia_Tamarix_trnG-S_ENA-submission.xml" -F "ANALYSIS=@Akhani-et-al_Willdenowia_Tamarix_trnG-S_ENA-analysis.xml" "https://www.ebi.ac.uk/ena/submit/drop-box/submit/" > Akhani-et-al_Willdenowia_Tamarix_trnG-S_Test.xml
Done!