Merge pull request #3196 from openjournals/joss.04200

Merging automatically

Author: editorialbot

joss.04200/10.21105.joss.04200.crossref.xml

@@ -0,0 +1,270 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<doi_batch xmlns="http://www.crossref.org/schema/5.3.1"
+           xmlns:ai="http://www.crossref.org/AccessIndicators.xsd"
+           xmlns:rel="http://www.crossref.org/relations.xsd"
+           xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
+           version="5.3.1"
+           xsi:schemaLocation="http://www.crossref.org/schema/5.3.1 http://www.crossref.org/schemas/crossref5.3.1.xsd">
+  <head>
+    <doi_batch_id>20220504T184448-5b3779146fb363a8614c9490202cf282c0b8b60c</doi_batch_id>
+    <timestamp>20220504184448</timestamp>
+    <depositor>
+      <depositor_name>JOSS Admin</depositor_name>
+      <email_address>[email protected]</email_address>
+    </depositor>
+    <registrant>The Open Journal</registrant>
+  </head>
+  <body>
+    <journal>
+      <journal_metadata>
+        <full_title>Journal of Open Source Software</full_title>
+        <abbrev_title>JOSS</abbrev_title>
+        <issn media_type="electronic">2475-9066</issn>
+        <doi_data>
+          <doi>10.21105/joss</doi>
+          <resource>https://joss.theoj.org/</resource>
+        </doi_data>
+      </journal_metadata>
+      <journal_issue>
+        <publication_date media_type="online">
+          <month>05</month>
+          <year>2022</year>
+        </publication_date>
+        <journal_volume>
+          <volume>7</volume>
+        </journal_volume>
+        <issue>73</issue>
+      </journal_issue>
+      <journal_article publication_type="full_text">
+        <titles>
+          <title>GEMMI: A library for structural biology</title>
+        </titles>
+        <contributors>
+          <person_name sequence="first" contributor_role="author">
+            <given_name>Marcin</given_name>
+            <surname>Wojdyr</surname>
+            <ORCID>https://orcid.org/0000-0003-3980-4092</ORCID>
+          </person_name>
+        </contributors>
+        <publication_date>
+          <month>05</month>
+          <day>04</day>
+          <year>2022</year>
+        </publication_date>
+        <pages>
+          <first_page>4200</first_page>
+        </pages>
+        <publisher_item>
+          <identifier id_type="doi">10.21105/joss.04200</identifier>
+        </publisher_item>
+        <ai:program name="AccessIndicators">
+          <ai:license_ref applies_to="vor">http://creativecommons.org/licenses/by/4.0/</ai:license_ref>
+          <ai:license_ref applies_to="am">http://creativecommons.org/licenses/by/4.0/</ai:license_ref>
+          <ai:license_ref applies_to="tdm">http://creativecommons.org/licenses/by/4.0/</ai:license_ref>
+        </ai:program>
+        <rel:program>
+          <rel:related_item>
+            <rel:description>Software archive</rel:description>
+            <rel:inter_work_relation relationship-type="references" identifier-type="doi">10.6084/m9.figshare.19678776</rel:inter_work_relation>
+          </rel:related_item>
+          <rel:related_item>
+            <rel:description>GitHub review issue</rel:description>
+            <rel:inter_work_relation relationship-type="hasReview" identifier-type="uri">https://github.com/openjournals/joss-reviews/issues/4200</rel:inter_work_relation>
+          </rel:related_item>
+        </rel:program>
+        <doi_data>
+          <doi>10.21105/joss.04200</doi>
+          <resource>https://joss.theoj.org/papers/10.21105/joss.04200</resource>
+          <collection property="text-mining">
+            <item>
+              <resource mime_type="application/pdf">https://joss.theoj.org/papers/10.21105/joss.04200.pdf</resource>
+            </item>
+          </collection>
+        </doi_data>
+        <citation_list>
+          <citation key="Yamashita:2021">
+            <article_title>Cryo-EM single-particle structure refinement
+and map calculation using Servalcat</article_title>
+            <author>Yamashita</author>
+            <journal_title>Acta Crystallographica Section
+D</journal_title>
+            <issue>10</issue>
+            <volume>77</volume>
+            <doi>10.1107/S2059798321009475</doi>
+            <cYear>2021</cYear>
+            <unstructured_citation>Yamashita, K., Palmer, C. M.,
+Burnley, T., &amp; Murshudov, G. N. (2021). Cryo-EM single-particle
+structure refinement and map calculation using Servalcat. Acta
+Crystallographica Section D, 77(10), 1282–1291.
+https://doi.org/10.1107/S2059798321009475</unstructured_citation>
+          </citation>
+          <citation key="Wojdyr:2017">
+            <article_title>UglyMol: A WebGL macromolecular viewer
+focused on the electron density</article_title>
+            <author>Wojdyr</author>
+            <journal_title>Journal of Open Source
+Software</journal_title>
+            <issue>18</issue>
+            <volume>2</volume>
+            <doi>10.21105/joss.00350</doi>
+            <cYear>2017</cYear>
+            <unstructured_citation>Wojdyr, M. (2017). UglyMol: A WebGL
+macromolecular viewer focused on the electron density. Journal of Open
+Source Software, 2(18), 350.
+https://doi.org/10.21105/joss.00350</unstructured_citation>
+          </citation>
+          <citation key="Greisman:2021">
+            <article_title>reciprocalspaceship: a Python library for
+crystallographic data analysis</article_title>
+            <author>Greisman</author>
+            <journal_title>Journal of Applied
+Crystallography</journal_title>
+            <issue>5</issue>
+            <volume>54</volume>
+            <doi>10.1107/S160057672100755X</doi>
+            <cYear>2021</cYear>
+            <unstructured_citation>Greisman, J. B., Dalton, K. M., &amp;
+Hekstra, D. R. (2021). reciprocalspaceship: a Python library for
+crystallographic data analysis. Journal of Applied Crystallography,
+54(5), 1521–1529.
+https://doi.org/10.1107/S160057672100755X</unstructured_citation>
+          </citation>
+          <citation key="Potterton:2018">
+            <article_title>CCP4i2: the new graphical user interface to
+the CCP4 program suite</article_title>
+            <author>Potterton</author>
+            <journal_title>Acta Crystallographica Section
+D</journal_title>
+            <issue>2</issue>
+            <volume>74</volume>
+            <doi>10.1107/S2059798317016035</doi>
+            <cYear>2018</cYear>
+            <unstructured_citation>Potterton, L., Agirre, J., Ballard,
+C., Cowtan, K., Dodson, E., Evans, P. R., Jenkins, H. T., Keegan, R.,
+Krissinel, E., Stevenson, K., Lebedev, A., McNicholas, S. J., Nicholls,
+R. A., Noble, M., Pannu, N. S., Roth, C., Sheldrick, G., Skubak, P.,
+Turkenburg, J., … Wojdyr, M. (2018). CCP4i2: the new graphical user
+interface to the CCP4 program suite. Acta Crystallographica Section D,
+74(2), 68–84.
+https://doi.org/10.1107/S2059798317016035</unstructured_citation>
+          </citation>
+          <citation key="Krissinel:2018">
+            <article_title>Distributed computing for macromolecular
+crystallography</article_title>
+            <author>Krissinel</author>
+            <journal_title>Acta Crystallographica Section
+D</journal_title>
+            <issue>2</issue>
+            <volume>74</volume>
+            <doi>10.1107/S2059798317014565</doi>
+            <cYear>2018</cYear>
+            <unstructured_citation>Krissinel, E., Uski, V., Lebedev, A.,
+Winn, M., &amp; Ballard, C. (2018). Distributed computing for
+macromolecular crystallography. Acta Crystallographica Section D, 74(2),
+143–151.
+https://doi.org/10.1107/S2059798317014565</unstructured_citation>
+          </citation>
+          <citation key="Nicholls:2021">
+            <article_title>The missing link: covalent linkages in
+structural models</article_title>
+            <author>Nicholls</author>
+            <journal_title>Acta Crystallographica Section
+D</journal_title>
+            <issue>6</issue>
+            <volume>77</volume>
+            <doi>10.1107/S2059798321003934</doi>
+            <cYear>2021</cYear>
+            <unstructured_citation>Nicholls, R. A., Wojdyr, M., Joosten,
+R. P., Catapano, L., Long, F., Fischer, M., Emsley, P., &amp; Murshudov,
+G. N. (2021). The missing link: covalent linkages in structural models.
+Acta Crystallographica Section D, 77(6), 727–745.
+https://doi.org/10.1107/S2059798321003934</unstructured_citation>
+          </citation>
+          <citation key="autoBUSTER">
+            <article_title>autoBUSTER</article_title>
+            <author>Bricogne</author>
+            <cYear>2020</cYear>
+            <unstructured_citation>Bricogne, G., Blanc, E., Brandl, M.,
+Flensburg, C., Keller, P., Paciorek, W., Roversi, P., Sharff, A., Smart,
+O. S., Vonrhein, C., &amp; Womack, T. O. (2020). autoBUSTER. Global
+Phasing Ltd., Cambridge, UK.
+https://www.globalphasing.com/buster/</unstructured_citation>
+          </citation>
+          <citation key="ksw2">
+            <article_title>Minimap2: Pairwise alignment for nucleotide
+sequences</article_title>
+            <author>Li</author>
+            <journal_title>Bioinformatics</journal_title>
+            <issue>18</issue>
+            <volume>34</volume>
+            <doi>10.1093/bioinformatics/bty191</doi>
+            <cYear>2018</cYear>
+            <unstructured_citation>Li, H. (2018). Minimap2: Pairwise
+alignment for nucleotide sequences. Bioinformatics, 34(18), 3094–3100.
+https://doi.org/10.1093/bioinformatics/bty191</unstructured_citation>
+          </citation>
+          <citation key="qcp">
+            <article_title>Fast determination of the optimal rotational
+matrix for macromolecular superpositions</article_title>
+            <author>Liu</author>
+            <journal_title>Journal of computational
+chemistry</journal_title>
+            <issue>7</issue>
+            <volume>31</volume>
+            <doi>10.1002/jcc.21439</doi>
+            <cYear>2010</cYear>
+            <unstructured_citation>Liu, P., Agrafiotis, D. K., &amp;
+Theobald, D. L. (2010). Fast determination of the optimal rotational
+matrix for macromolecular superpositions. Journal of Computational
+Chemistry, 31(7), 1561–1563.
+https://doi.org/10.1002/jcc.21439</unstructured_citation>
+          </citation>
+          <citation key="larch">
+            <article_title>Larch: An analysis package for XAFS and
+related spectroscopies</article_title>
+            <author>Newville</author>
+            <journal_title>Journal of physics: Conference
+series</journal_title>
+            <volume>430</volume>
+            <doi>10.1088/1742-6596/430/1/012007</doi>
+            <cYear>2013</cYear>
+            <unstructured_citation>Newville, M. (2013). Larch: An
+analysis package for XAFS and related spectroscopies. Journal of
+Physics: Conference Series, 430, 012007.
+https://doi.org/10.1088/1742-6596/430/1/012007</unstructured_citation>
+          </citation>
+          <citation key="cctbx">
+            <article_title>The Computational Crystallography Toolbox:
+crystallographic algorithms in a reusable software
+framework</article_title>
+            <author>Grosse-Kunstleve</author>
+            <journal_title>Journal of Applied
+Crystallography</journal_title>
+            <issue>1</issue>
+            <volume>35</volume>
+            <doi>10.1107/S0021889801017824</doi>
+            <cYear>2002</cYear>
+            <unstructured_citation>Grosse-Kunstleve, R. W., Sauter, N.
+K., Moriarty, N. W., &amp; Adams, P. D. (2002). The Computational
+Crystallography Toolbox: crystallographic algorithms in a reusable
+software framework. Journal of Applied Crystallography, 35(1), 126–136.
+https://doi.org/10.1107/S0021889801017824</unstructured_citation>
+          </citation>
+          <citation key="clipper">
+            <article_title>The Clipper C++ libraries for X-ray
+crystallography</article_title>
+            <author>Cowtan</author>
+            <journal_title>IUCr Computing Commission
+Newsletter</journal_title>
+            <issue>4</issue>
+            <volume>2</volume>
+            <cYear>2003</cYear>
+            <unstructured_citation>Cowtan, K. (2003). The Clipper C++
+libraries for X-ray crystallography. IUCr Computing Commission
+Newsletter, 2(4), 9.</unstructured_citation>
+          </citation>
+        </citation_list>
+      </journal_article>
+    </journal>
+  </body>
+</doi_batch>