从端粒到端粒的X染色体:主要成就和未来机遇。

Faculty reviews Pub Date : 2021-07-30 eCollection Date: 2021-01-01 DOI:10.12703/r-01-000001

Edith Heard, Alexander D Johnson, Jan O Korbel, Charles Lee, Michael P Snyder, David Sturgill

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引用次数: 1

摘要

虽然人类基因组代表了迄今为止最精确的脊椎动物参考组合，但它仍然包含许多空白，包括着丝粒和其他大的含有重复序列的区域-通常被称为基因组的“阴暗面”-其中许多具有基本的生物学重要性。Miga等人1,2提出了人类X染色体的第一个无间隙组装，借助对单倍体完整包体鼹鼠(CHM13)基因组生成的超长读取纳米孔读取。他们重建了~3.1兆碱基的着丝粒卫星DNA阵列，并绘制了复杂串联重复序列和卫星阵列之间的DNA甲基化模式。这种端粒到端粒的组合为未来的性别测定和X连锁疾病研究提供了优越的人类X染色体参考，并为完成整个人类基因组序列提供了途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The X chromosome from telomere to telomere: key achievements and future opportunities.

While the human genome represents the most accurate vertebrate reference assembly to date, it still contains numerous gaps, including centromeric and other large repeat-containing regions - often termed the "dark side" of the genome - many of which are of fundamental biological importance. Miga et al.^1,2 present the first gapless assembly of the human X chromosome, with the help of ultra-long-read nanopore reads generated for the haploid complete hydatidiform mole (CHM13) genome. They reconstruct the ~3.1 megabase centromeric satellite DNA array and map DNA methylation patterns across complex tandem repeats and satellite arrays. This Telomere-to-Telomere assembly provides a superior human X chromosome reference enabling future sex-determination and X-linked disease research, and provides a path towards finishing the entire human genome sequence.

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