Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.

Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.

Experimental study was made by keeping human peripheral blood lymphocytes under simulated microgravity in a Rotary Cell Culture System bioreactor to investigate the changes that occur in the number of chromosomes, the expression rate of chromosome fragile site, and the expressions of DNA replication...

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Main Authors: Lijun Wei, Chuanpeng Liu, Li Kang, Yufeng Liu, Shuliang Shi, Qiong Wu, Yu Li
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4070949?pdf=render
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spelling doaj-43e7e75a25e040ff9e3772fe6e4ebaea2020-11-25T01:59:46ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0196e10059510.1371/journal.pone.0100595Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.Lijun WeiChuanpeng LiuLi KangYufeng LiuShuliang ShiQiong WuYu LiExperimental study was made by keeping human peripheral blood lymphocytes under simulated microgravity in a Rotary Cell Culture System bioreactor to investigate the changes that occur in the number of chromosomes, the expression rate of chromosome fragile site, and the expressions of DNA replication- and repair-related genes. Experimental results indicate simulated microgravity has no effect on the numerical chromosome instability of human peripheral blood lymphocytes, but it enhances the structural chromosome instability of human peripheral blood lymphocytes through the inhibition of DNA replication and the reduction of DNA repair. So, the mechanism of chromosome fragile site induced by simulated microgravity can be explained using the changes that occur in the chromosome structure of human peripheral blood lymphocytes, the DNA replication and repair under the effect of simulated microgravity.http://europepmc.org/articles/PMC4070949?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Lijun Wei
Chuanpeng Liu
Li Kang
Yufeng Liu
Shuliang Shi
Qiong Wu
Yu Li
spellingShingle Lijun Wei
Chuanpeng Liu
Li Kang
Yufeng Liu
Shuliang Shi
Qiong Wu
Yu Li
Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
PLoS ONE
author_facet Lijun Wei
Chuanpeng Liu
Li Kang
Yufeng Liu
Shuliang Shi
Qiong Wu
Yu Li
author_sort Lijun Wei
title Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
title_short Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
title_full Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
title_fullStr Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
title_full_unstemmed Experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
title_sort experimental study on effect of simulated microgravity on structural chromosome instability of human peripheral blood lymphocytes.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description Experimental study was made by keeping human peripheral blood lymphocytes under simulated microgravity in a Rotary Cell Culture System bioreactor to investigate the changes that occur in the number of chromosomes, the expression rate of chromosome fragile site, and the expressions of DNA replication- and repair-related genes. Experimental results indicate simulated microgravity has no effect on the numerical chromosome instability of human peripheral blood lymphocytes, but it enhances the structural chromosome instability of human peripheral blood lymphocytes through the inhibition of DNA replication and the reduction of DNA repair. So, the mechanism of chromosome fragile site induced by simulated microgravity can be explained using the changes that occur in the chromosome structure of human peripheral blood lymphocytes, the DNA replication and repair under the effect of simulated microgravity.
url http://europepmc.org/articles/PMC4070949?pdf=render
work_keys_str_mv AT lijunwei experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
AT chuanpengliu experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
AT likang experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
AT yufengliu experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
AT shuliangshi experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
AT qiongwu experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
AT yuli experimentalstudyoneffectofsimulatedmicrogravityonstructuralchromosomeinstabilityofhumanperipheralbloodlymphocytes
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