高分辨率单细胞分析为蝾螈的大脑再生铺平了细胞路径。

IF 4 Q2 CELL & TISSUE ENGINEERING Cell Regeneration Pub Date : 2022-10-19 DOI:10.1186/s13619-022-00144-5

Binxu Yin, Xinyun Li, Gufa Lin, Heng Wang

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摘要

蝾螈是研究脊椎动物大脑再生的绝佳模型，有望开发出治疗人类大脑病变的新疗法。然而，蝾螈大脑再生的分子和细胞机制在很大程度上仍然是难以捉摸的。对导致哺乳动物大脑高级功能的复杂大脑结构进化的认识也不足。利用高分辨率单细胞RNA测序和空间转录组学，最近的三项研究在《科学》杂志上报道了蝾螈端脑细胞的分化路径，将新旧细胞类型纳入焦点，并揭示了脊椎动物大脑的进化、发育和再生。

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High-resolution single-cell analysis paves the cellular path for brain regeneration in salamanders.

Salamanders are excellent models for studying vertebrate brain regeneration, with the promise of developing novel therapies for human brain lesions. Yet the molecular and cellular mechanism of salamander brain regeneration remains largely elusive. The insight into the evolution of complex brain structures that lead to advanced functions in the mammalian brain is also inadequate. With high-resolution single-cell RNA sequencing and spatial transcriptomics, three recent studies have reported the differentiation paths of cells in the salamander telencephalon in the journal Science, bringing both old and new cell types into the focus and shedding light on vertebrate brain evolution, development, and regeneration.

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来源期刊

Cell Regeneration Biochemistry, Genetics and Molecular Biology-Cell Biology

CiteScore

5.80

自引率

0.00%

发文量

审稿时长

35 days

期刊介绍： Cell Regeneration aims to provide a worldwide platform for researches on stem cells and regenerative biology to develop basic science and to foster its clinical translation in medicine. Cell Regeneration welcomes reports on novel discoveries, theories, methods, technologies, and products in the field of stem cells and regenerative research, the journal is interested, but not limited to the following topics: ◎ Embryonic stem cells ◎ Induced pluripotent stem cells ◎ Tissue-specific stem cells ◎ Tissue or organ regeneration ◎ Methodology ◎ Biomaterials and regeneration ◎ Clinical translation or application in medicine