Lineage tracing of human development through somatic mutations

Spencer Chapman Michael; Ranzoni Anna Maria; Myers Brynelle; Williams Nicholas; Coorens Tim H. H.; Mitchell Emily; Butler Timothy; Dawson Kevin J.; Hooks Yvette; Moore Luiza; Nangalia Jyoti; Robinson Philip S.; Yoshida Kenichi; Hook Elizabeth; Campbell Peter J.; Cvejic Ana

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Lineage tracing of human development through somatic mutations

机译：通过躯体突变划分人类发展的追踪

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The ontogeny of the human haematopoietic system during fetal development has previously been characterized mainly through careful microscopic observations(1). Here we reconstruct a phylogenetic tree of blood development using whole-genome sequencing of 511 single-cell-derived haematopoietic colonies from healthy human fetuses at 8 and 18 weeks after conception, coupled with deep targeted sequencing of tissues of known embryonic origin. We found that, in healthy fetuses, individual haematopoietic progenitors acquire tens of somatic mutations by 18 weeks after conception. We used these mutations as barcodes and timed the divergence of embryonic and extra-embryonic tissues during development, and estimated the number of blood antecedents at different stages of embryonic development. Our data support a hypoblast origin of the extra-embryonic mesoderm and primitive blood in humans.

机译：在胎儿发育过程中人血包膜系统的组织发生以前主要通过仔细的微观观察（1）。在这里，我们使用在概念8和18周的健康人胎儿中使用全基因组测序来重建511个单细胞衍生的血液菌落的全基因组测序，与已知胚胎起源的组织的深度靶向测序相结合。我们发现，在健康的胎儿中，个体出血祖祖母在概念后18周内获得数十个躯体突变。我们将这些突变用作条形码，并在发育过程中定时胚胎和胚胎组织的分歧，并估计胚胎发育不同阶段的血液前一种衰退。我们的数据支持人类胚胎中胚层和原始血液的副血细胞来源。

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《Nature》 |2021年第7865期|85-90|共6页
作者
Spencer Chapman Michael; Ranzoni Anna Maria; Myers Brynelle; Williams Nicholas; Coorens Tim H. H.; Mitchell Emily; Butler Timothy; Dawson Kevin J.; Hooks Yvette; Moore Luiza; Nangalia Jyoti; Robinson Philip S.; Yoshida Kenichi; Hook Elizabeth; Campbell Peter J.; Cvejic Ana;
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作者单位

Wellcome Trust Sanger Inst Hinxton England|Imperial Coll Healthcare NHS Trust Dept Haematol Hammersmith Hosp London England|Cambridge Univ Hosp NHS Fdn Trust Dept Haematol Cambridge England;

Wellcome Trust Sanger Inst Hinxton England|Wellcome Trust Med Res Council Cambridge Stem Cel Cambridge England|Univ Cambridge Dept Haematol Cambridge England;

Wellcome Trust Sanger Inst Hinxton England|Wellcome Trust Med Res Council Cambridge Stem Cel Cambridge England|Univ Cambridge Dept Haematol Cambridge England;

Wellcome Trust Sanger Inst Hinxton England;

Wellcome Trust Sanger Inst Hinxton England;

Wellcome Trust Sanger Inst Hinxton England|Cambridge Univ Hosp NHS Fdn Trust Dept Haematol Cambridge England|Wellcome Trust Med Res Council Cambridge Stem Cel Cambridge England;

Wellcome Trust Sanger Inst Hinxton England;

Wellcome Trust Sanger Inst Hinxton England;

Wellcome Trust Sanger Inst Hinxton England;

Wellcome Trust Sanger Inst Hinxton England|Cambridge Univ Hosp NHS Fdn Trust Dept Histopathol Cambridge England;

Wellcome Trust Sanger Inst Hinxton England|Wellcome Trust Med Res Council Cambridge Stem Cel Cambridge England|Univ Cambridge Dept Haematol Cambridge England;

Wellcome Trust Sanger Inst Hinxton England|Univ Cambridge Dept Paediat Cambridge England;

Wellcome Trust Sanger Inst Hinxton England;

Cambridge Univ Hosp NHS Fdn Trust Dept Histopathol Cambridge England;

Wellcome Trust Sanger Inst Hinxton England|Wellcome Trust Med Res Council Cambridge Stem Cel Cambridge England;

Wellcome Trust Sanger Inst Hinxton England|Wellcome Trust Med Res Council Cambridge Stem Cel Cambridge England|Univ Cambridge Dept Haematol Cambridge England;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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1. Lineage Tracing in Humans Enabled by Mitochondrial Mutations and Single-Cell Genomics [J] . Ludwig Leif S., Lareau Caleb A., Ulirsch Jacob C., Cell . 2019,第6期

机译：通过线粒体突变和单细胞基因组学的人类划线追踪
2. Cell lineage tracing in human epithelial tissues using mitochondrial DNA mutations as clonal markers [J] . Walther Viola, Alison Malcolm R. Wiley Interdisciplinary Reviews. Developmental Biology . 2016,第1期

机译：使用线粒体DNA突变作为克隆标记物追踪人上皮组织中的细胞谱系
3. Tracing cell fates in human colorectal tumors from somatic microsatellite mutations: Evidence of adenomas withs stem cell architecture [J] . Jen-Lan Tsao Jingsong Zhang Reijo Salovaara Zhi-Hua Li et al The American Journal of Pathology . 1998,第4期

机译：从体细胞微卫星突变追踪人大肠肿瘤中的细胞命运：腺瘤与干细胞结构的证据
4. Analysis of Cancer Somatic Mutations Taking into Consideration Human Genetic Variations [C] . Bin He, Hanaa Torkey, Azam S. Z. Moosavi, International Conference on Bioinformatics and Computational Biology . 2014

机译：考虑人类遗传变异的癌症体突变分析
5. The Essential Roles of DNA Resection and The Impact of Loss of Function NHEJ Mutations on DSB Repair In Human Somatic Cells. [D] . Lee, Eu Han. 2014

机译：DNA切除的基本作用以及NHEJ功能缺失对人体细胞DSB修复的影响。
6. Tracing Cell Fates in Human Colorectal Tumors from Somatic Microsatellite Mutations [O] . Jen-Lan Tsao, Jingsong Zhang, Reijo Salovaara, 1998

机译：从体细胞微卫星突变追踪人类结直肠肿瘤中的细胞命运。
7. Lineage tracing of human embryonic development and foetal haematopoiesis through somatic mutations [O] . Michael Spencer Chapman, Anna Maria Ranzoni, Brynelle Myers, 2020

机译：人体胚胎发育的谱系追踪和胎儿血臭通过体细胞突变

Lineage tracing of human development through somatic mutations

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