{"title":"更正:评估高通量密集单核苷酸多态性PCR多重新一代测序在人类遗骸鉴定中的应用,Radecke等人。法医基因组学2023;3(3):75-93;doi: 10.1089 / forensic.2023.0005","authors":"","doi":"10.1089/forensic.2023.0005.correx","DOIUrl":null,"url":null,"abstract":"Forensic GenomicsAhead of Print Open AccessCorrection to: Evaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification, by Radecke, et al. Forensic Genomics 2023;3(3):75–93; doi: 10.1089/forensic.2023.0005is erratum ofEvaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains IdentificationPublished Online:27 Oct 2023https://doi.org/10.1089/forensic.2023.0005.correxAboutSectionsPDF/EPUB Permissions & CitationsDownload CitationsTrack CitationsAdd to favorites Back To Publication ShareShare onFacebookTwitterLinked InRedditEmail In the October 2023 issue of Forensic Genomics (vol. 3, no. 3; pp. 75–93) the article entitled “Evaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification”, by Radecke et al. requires correction.This article was originally published under the copyright of Mary Ann Liebert, Inc. publishers. 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引用次数: 0
摘要
法医基因组学——打印开放访问前纠正:评价高通量密集单核苷酸多态性PCR多重新一代测序在人类遗骸鉴定中的应用,Radecke等人。法医基因组学2023;3(3):75-93;doi: 10.1089/ Forensic .2023.0005is evaluation of a高通量密集单核苷酸多态性PCR Multiplex下一代测序应用于人类遗骸鉴定出版在线:2023年10月27日https://doi.org/10.1089/forensic.2023.0005.correxAboutSectionsPDF/EPUB许可和引文下载CitationsTrack引文添加到收藏回到出版物共享分享在facebook上推特链接InRedditEmail在2023年10月的法医基因组学(卷3,no. 3)。3;第75-93页)Radecke等人发表的题为“评估高通量密集单核苷酸多态性PCR多重新一代测序在人类遗骸鉴定中的应用”的文章需要更正。本文最初由Mary Ann Liebert, Inc.出版社版权所有。它现在已经更新,以反映开放获取,版权转让给作者,并添加了创作共用许可证(CC-BY) (http://creativecommons.org/licenses/by/4.0)。CC-BY许可证将于2023年10月27日生效。为了反映这一点,本文的在线版本已经进行了更正。图参考文献相关细节相关文章评价高通量密集单核苷酸多态性PCR多重新一代测序在人类遗骸鉴定中的应用2023年10月10日法医基因组学卷第0期信息版权所有2023,Mary Ann Liebert, Inc.,出版商引用本文:更正:评估高通量密集单核苷酸多态性PCR多重测序在人类遗骸鉴定中的应用,由Radecke等。法医基因组学2023;3(3):75-93;doi: 10.1089 / forensic.2023.0005。法医基因组学。提前打印https://doi.org/10.1089/forensic.2023.0005.correxcreative commons licenseOnline提前打印:2023年10月27日pdf下载
Correction to: Evaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification, by Radecke, et al. Forensic Genomics 2023;3(3):75–93; doi: 10.1089/forensic.2023.0005
Forensic GenomicsAhead of Print Open AccessCorrection to: Evaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification, by Radecke, et al. Forensic Genomics 2023;3(3):75–93; doi: 10.1089/forensic.2023.0005is erratum ofEvaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains IdentificationPublished Online:27 Oct 2023https://doi.org/10.1089/forensic.2023.0005.correxAboutSectionsPDF/EPUB Permissions & CitationsDownload CitationsTrack CitationsAdd to favorites Back To Publication ShareShare onFacebookTwitterLinked InRedditEmail In the October 2023 issue of Forensic Genomics (vol. 3, no. 3; pp. 75–93) the article entitled “Evaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification”, by Radecke et al. requires correction.This article was originally published under the copyright of Mary Ann Liebert, Inc. publishers. It has now been updated to reflect Open Access, with copyright transferring to the author(s), and a Creative Commons License (CC-BY) added (http://creativecommons.org/licenses/by/4.0). The CC-BY license goes into effect October 27, 2023.The online version of this article has been corrected to reflect this.FiguresReferencesRelatedDetailsRelated articlesEvaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification10 Oct 2023Forensic Genomics Volume 0Issue 0 InformationCopyright 2023, Mary Ann Liebert, Inc., publishersTo cite this article:Correction to: Evaluation of a High-Throughput Dense Single-Nucleotide Polymorphism PCR Multiplex Next Generation Sequencing Application for Human Remains Identification, by Radecke, et al. Forensic Genomics 2023;3(3):75–93; doi: 10.1089/forensic.2023.0005.Forensic Genomics.ahead of printhttp://doi.org/10.1089/forensic.2023.0005.correxcreative commons licenseOnline Ahead of Print:October 27, 2023PDF download
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