<?xml version='1.0' encoding='UTF-8'?><codeBook xmlns="ddi:codebook:2_5" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="ddi:codebook:2_5 https://ddialliance.org/Specification/DDI-Codebook/2.5/XMLSchema/codebook.xsd" version="2.5"><docDscr><citation><titlStmt><titl>Replication Data for: Seed Ripening and Quinolizidine Alkaloid Dynamics in Lupinus mutabilis: From Gene Activity to Metabolite</titl><IDNo agency="DOI">doi:10.26165/JUELICH-DATA/XNAIFH</IDNo></titlStmt><distStmt><distrbtr source="archive">Jülich DATA</distrbtr><distDate>2026-01-19</distDate></distStmt><verStmt source="DVN"><version date="2026-01-19" type="RELEASED">1</version></verStmt><biblCit>Sowa, Philipp; Gätgens, Jochem; Beers, Ashley; Pietruszka, Jörg; Noack, Stephan; Classen, Thomas, 2026, "Replication Data for: Seed Ripening and Quinolizidine Alkaloid Dynamics in Lupinus mutabilis: From Gene Activity to Metabolite", https://doi.org/10.26165/JUELICH-DATA/XNAIFH, Jülich DATA, V1</biblCit></citation></docDscr><stdyDscr><citation><titlStmt><titl>Replication Data for: Seed Ripening and Quinolizidine Alkaloid Dynamics in Lupinus mutabilis: From Gene Activity to Metabolite</titl><IDNo agency="DOI">doi:10.26165/JUELICH-DATA/XNAIFH</IDNo></titlStmt><rspStmt><AuthEnty affiliation="Heinrich Heine University, Düsseldorf">Sowa, Philipp</AuthEnty><AuthEnty affiliation="Forschungszentrum Jülich GmbH">Gätgens, Jochem</AuthEnty><AuthEnty affiliation="Heinrich Heine University, Düsseldorf">Beers, Ashley</AuthEnty><AuthEnty affiliation="Heinrich Heine University, Düsseldorf">Pietruszka, Jörg</AuthEnty><AuthEnty affiliation="Forschungszentrum Jülich GmbH">Noack, Stephan</AuthEnty><AuthEnty affiliation="Forschungszentrum Jülich GmbH">Classen, Thomas</AuthEnty></rspStmt><prodStmt/><distStmt><distrbtr source="archive">Jülich DATA</distrbtr><contact affiliation="Forschungszentrum Jülich GmbH" email="t.classen@fz-juelich.de">Classen, Thomas</contact><depositr>Classen, Thomas</depositr><depDate>2026-01-19</depDate></distStmt></citation><stdyInfo><subject><keyword>Chemistry</keyword><keyword>Medicine, Health and Life Sciences</keyword><keyword>lupanine</keyword><keyword>sparteine</keyword><keyword>quinolizidine alkaloids</keyword><keyword>alkaloid profile</keyword><keyword>bitter lupins</keyword><keyword>NMR</keyword><keyword>GC-ToF-MS</keyword><keyword>GC-MS</keyword></subject><abstract date="2026-01-19">&lt;h2>Dataset Description&lt;/h2>&#xd;
&#xd;
&lt;p>This dataset comprises raw and processed spectral data obtained from multiple analytical techniques, including &lt;strong>NMR (Nuclear Magnetic Resonance) spectroscopy&lt;/strong>, &lt;strong>GC-ToF-MS (Gas Chromatography - Time-of-Flight Mass Spectrometry)&lt;/strong>, and &lt;strong>GC-MS (Gas Chromatography - Mass Spectrometry)&lt;/strong>.&lt;/p>&#xd;
&#xd;
&lt;h3>Included Data Types:&lt;/h3>&#xd;
&lt;ul>&#xd;
  &lt;li>&lt;strong>Compound numbering:&lt;/strong> The compound numbers are in accordance with the companion publication (&lt;i>vide infra&lt;/i>).&lt;/li>&#xd;
  &lt;li>&lt;strong>NMR Spectra:&lt;/strong> Both raw spectra and evaluated/processed spectral data are provided.&lt;/li>&#xd;
  &lt;li>&lt;strong>GC-ToF-MS Data:&lt;/strong> High-resolution mass spectral data with time-of-flight detection.&lt;/li>&#xd;
  &lt;li>&lt;strong>GC-MS Data:&lt;/strong> Conventional gas chromatography coupled with mass spectrometry data.&lt;/li>&#xd;
&lt;/ul>&#xd;
&#xd;
&lt;h3>NIST-compliant Fragmentation Database&lt;/h3>&#xd;
&lt;p>For the GC-ToF-MS data, a &lt;em>NIST-compliant fragmentation database&lt;/em> is available for download. This database contains detailed fragmentation patterns for the following alkaloid compounds:&lt;/p>&#xd;
&#xd;
&lt;dl>&#xd;
  &lt;dt>&lt;strong>lupanine (13)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>24&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0001_E22 Lupanine&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>O=C1CCC[C@@]2([H])N1C[C@@H]3C[C@H]2CN4[C@@]3([H])CCCC4&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>sparteine (14)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>26&lt;/sub>N&lt;sub>2&lt;/sub>&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0003_Sparteine&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>[H][C@@]12N(C[C@@H]3C[C@H]2CN4[C@@]3([H])CCCC4)CCCC1&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>3β-hydroxylupanine (15)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>24&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub>&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0031_SF_12-14 3β-Hydroxylupanine&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>[H][C@@]12N(C[C@@H]3C[C@H]2CN4[C@@]3([H])CCCC4)C([C@@H](O)CC1)=O&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>13α-hydroxylupanine (16)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>24&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub>&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0001_ABE49_13α-Hydroxylupanine&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>[H][C@@]12N(C[C@@H]3C[C@H]2CN4[C@@]3([H])C[C@@H](O)CC4)C(CCC1)=O&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>tetrahydrorhombifoline (17)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>24&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0004_E11 Tetrahydrorhombifoline&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>C=CCCN(C1[H])C[C@@H]2C[C@H]1CN3C(CCC[C@@]32[H])=O&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>hydroxytetrahydrorhombifoline (18)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>24&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub>&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0004_E11 SF 16+20 Hydroxytetrahydrorhombifoline&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>C=CCCN(C1)C[C@@H]2C[C@H]1C(O)N3C(CCC[C@@]32[H])=O&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>angustifoline (19)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>14&lt;/sub>H&lt;sub>22&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0001_E22 Angustifoline&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>C=CCC1NC[C@@H]2C[C@H]1CN3C(CCC[C@@]32[H])=O&lt;/code>&lt;/dd>&#xd;
&#xd;
  &lt;dt>&lt;strong>isolupanine (20)&lt;/strong>&lt;/dt>&#xd;
  &lt;dd>Molecular Formula: C&lt;sub>15&lt;/sub>H&lt;sub>24&lt;/sub>N&lt;sub>2&lt;/sub>O&lt;/dd>&#xd;
  &lt;dd>Sample Identifier (GC-MS): PSO0027_ABE49 Isolupanine&lt;/dd>&#xd;
  &lt;dd>SMILES Code: &lt;code>[H][C@@]12N(C[C@@H]3C[C@H]2CN4[C@]3([H])CCCC4)C(CCC1)=O&lt;/code>&lt;/dd>&#xd;
&lt;/dl>&#xd;
&#xd;
&lt;p>This comprehensive dataset enables detailed chemical characterization and identification of alkaloid compounds through complementary analytical methods and supports advanced data analysis workflows.&lt;/p></abstract><sumDscr/></stdyInfo><method><dataColl><sources/></dataColl><anlyInfo/></method><dataAccs><setAvail/><useStmt><citReq>Sowa, Philipp; Gätgens, Jochem; Beers, Ashley; Pietruszka, Jörg; Noack, Stephan; Classen, Thomas, 2026, "Replication Data for: Seed Ripening and Quinolizidine Alkaloid Dynamics in Lupinus mutabilis: From Gene Activity to Metabolite", https://doi.org/10.26165/JUELICH-DATA/XNAIFH, Jülich DATA, DRAFT VERSION </citReq></useStmt></dataAccs><othrStdyMat><relPubl><citation><biblCit>Philipp Sowa, Marco Loehrer, Jochem Gätgens, Mansi Singh, Ashley Beers, Anika Wiese Klinkenberg, Sebastian Beier, Stephan Noack, Ulrich Schaffrath, Jörg Pietruszka, Thomas Classen*; Seed Ripening and Quinolizidine Alkaloid Dynamics in &lt;i>Lupinus mutabilis&lt;/i>: From Gene Activity to Metabolite; Submitted</biblCit></citation></relPubl></othrStdyMat></stdyDscr><otherMat ID="f46312" URI="https://data.fz-juelich.de/api/access/datafile/46312" level="datafile"><labl>GC-ToF.7z</labl><txt>NIST-conform library for fragmentation and analysis of quinolizidine alkaloids.</txt><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/x-compressed</notes></otherMat><otherMat ID="f46313" URI="https://data.fz-juelich.de/api/access/datafile/46313" level="datafile"><labl>isolates_TIC.7z</labl><txt>GC-MS-chromatograms (major alkaloids)</txt><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/x-compressed</notes></otherMat><otherMat ID="f46310" URI="https://data.fz-juelich.de/api/access/datafile/46310" level="datafile"><labl>raw_data_2024.7z</labl><txt>GC-MS-integrals, calibrations and raw data of figures (major alkaloids). Harvest year 2024. MXExcel xlsx</txt><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/x-compressed</notes></otherMat><otherMat ID="f46311" URI="https://data.fz-juelich.de/api/access/datafile/46311" level="datafile"><labl>raw_data_2025.7z</labl><txt>GC-MS-integrals, calibrations and raw data of figures (major alkaloids). Harvest year 2025. MXExcel xlsx</txt><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/x-compressed</notes></otherMat><otherMat ID="f46314" URI="https://data.fz-juelich.de/api/access/datafile/46314" level="datafile"><labl>raw_spectra_NMR.7z</labl><txt>Bruker raw NMR-spectra for major alkaloids. Annotated/integrated data are available in Mestre-format.</txt><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/x-compressed</notes></otherMat></codeBook>