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不同的生化反应速度导致物种特异性的分节时钟周期
作者:小柯机器人 发布时间:2020/9/18 15:27:30

日本理化学研究所Miki Ebisuya小组的最新研究表明,不同的生化反应速度导致物种特异性的分节时钟周期。这一研究成果于2020年9月18日发表在《科学》上。

研究人员表示,尽管小鼠和人类之间的胚胎发育机制相似,但人类的时间周期通常较长。
 
为了调查这些物种间的发育差异,研究人员测试了鼠类和人类分节时钟,其振荡周期分别为2到3个小时和5到6个小时。种间基因组交换分析表明,周期差异并非由于HES7基因座(分节时钟的核心基因)中的序列差异。
 
相反,研究人员证明了人类细胞中HES7的多种生化反应比小鼠细胞中要慢,包括降解和表达延迟。通过测得的生化参数,数学模型解释了物种之间两到三倍的周期差异。
 
研究人员认为,生化反应速度的细胞自主差异是物种之间发育时间差异的基础。
 
附:英文原文
 
Title: Species-specific segmentation clock periods are due to differential biochemical reaction speeds

Author: Mitsuhiro Matsuda, Hanako Hayashi, Jordi Garcia-Ojalvo, Kumiko Yoshioka-Kobayashi, Ryoichiro Kageyama, Yoshihiro Yamanaka, Makoto Ikeya, Junya Toguchida, Cantas Alev, Miki Ebisuya

Issue&Volume: 2020/09/18

Abstract: Although mechanisms of embryonic development are similar between mice and humans, the time scale is generally slower in humans. To investigate these interspecies differences in development, we recapitulate murine and human segmentation clocks that display 2- to 3-hour and 5- to 6-hour oscillation periods, respectively. Our interspecies genome-swapping analyses indicate that the period difference is not due to sequence differences in the HES7 locus, the core gene of the segmentation clock. Instead, we demonstrate that multiple biochemical reactions of HES7, including the degradation and expression delays, are slower in human cells than they are in mouse cells. With the measured biochemical parameters, our mathematical model accounts for the two- to threefold period difference between the species. We propose that cell-autonomous differences in biochemical reaction speeds underlie temporal differences in development between species.

DOI: 10.1126/science.aba7668

Source: https://science.sciencemag.org/content/369/6510/1450

期刊信息
Science:《科学》,创刊于1880年。隶属于美国科学促进会,最新IF:41.037