<HashMap><database>biostudies-literature</database><scores/><additional><submitter>Jiang T</submitter><funding>Science and Technology Program of Guizhou Province</funding><funding>Guizhou Provincial Science and Technology Plan Project</funding><funding>Scientific Research Fund for Introducing Talents of Guizhou University</funding><pagination>435-445</pagination><full_dataset_link>https://www.ebi.ac.uk/biostudies/studies/S-EPMC10073376</full_dataset_link><repository>biostudies-literature</repository><omics_type>Unknown</omics_type><volume>29(3)</volume><pubmed_abstract>Low-phosphorus stress significantly impacts the development of maize kernels. In this study, the phosphor efficient maize genotype 082 and phosphor deficient maize genotype Ye107, were used to construct an F&lt;sub>2:3&lt;/sub> population. QTL mapping was then employed to determine the genetic basis of differences in the maize kernel traits of the two parents in a low-phosphorus environment. This analysis revealed several major QTL that control environmental impacts on kernel length, width, thickness, and weight. These QTL were detected in all three environments and were distributed on five genome segments of chromosomes 3, 5, 6, and 9, and some new kernel-trait QTL were also detected (eg: &lt;i>Qkwid6&lt;/i>, &lt;i>Qkthi3&lt;/i>, &lt;i>Qkwei9&lt;/i>, and &lt;i>Qklen3-1&lt;/i>). These environmentally insensitive QTL can be stably expressed in low phosphorus environments, indicating that they can lay a foundation for the breeding of high phosphorus utilization efficiency germplasm.&lt;h4>Supplementary information&lt;/h4>The online version contains supplementary material available at 10.1007/s12298-023-01300-0.</pubmed_abstract><journal>Physiology and molecular biology of plants : an international journal of functional plant biology</journal><pubmed_title>QTL mapping of maize (&lt;i>Zea mays&lt;/i> L.) kernel traits under low-phosphorus stress.</pubmed_title><pmcid>PMC10073376</pmcid><funding_grant_id>Guizhou University Talent Basic Cooperation [2013] No. 27</funding_grant_id><funding_grant_id>Qian Kehe Support [2022] key 026</funding_grant_id><funding_grant_id>Technology Cooperation Foundation-ZK [2021] general 129</funding_grant_id><funding_grant_id>Guizhou Science</funding_grant_id><pubmed_authors>Qiu H</pubmed_authors><pubmed_authors>Wen M</pubmed_authors><pubmed_authors>Zhang Z</pubmed_authors><pubmed_authors>Jiang T</pubmed_authors><pubmed_authors>Zhang C</pubmed_authors></additional><is_claimable>false</is_claimable><name>QTL mapping of maize (&lt;i>Zea mays&lt;/i> L.) kernel traits under low-phosphorus stress.</name><description>Low-phosphorus stress significantly impacts the development of maize kernels. In this study, the phosphor efficient maize genotype 082 and phosphor deficient maize genotype Ye107, were used to construct an F&lt;sub>2:3&lt;/sub> population. QTL mapping was then employed to determine the genetic basis of differences in the maize kernel traits of the two parents in a low-phosphorus environment. This analysis revealed several major QTL that control environmental impacts on kernel length, width, thickness, and weight. These QTL were detected in all three environments and were distributed on five genome segments of chromosomes 3, 5, 6, and 9, and some new kernel-trait QTL were also detected (eg: &lt;i>Qkwid6&lt;/i>, &lt;i>Qkthi3&lt;/i>, &lt;i>Qkwei9&lt;/i>, and &lt;i>Qklen3-1&lt;/i>). These environmentally insensitive QTL can be stably expressed in low phosphorus environments, indicating that they can lay a foundation for the breeding of high phosphorus utilization efficiency germplasm.&lt;h4>Supplementary information&lt;/h4>The online version contains supplementary material available at 10.1007/s12298-023-01300-0.</description><dates><release>2023-01-01T00:00:00Z</release><publication>2023 Mar</publication><modification>2025-06-27T03:05:26.786Z</modification><creation>2025-04-07T04:29:36.861Z</creation></dates><accession>S-EPMC10073376</accession><cross_references><pubmed>37033769</pubmed><doi>10.1007/s12298-023-01300-0</doi></cross_references></HashMap>