Genomic imbalance refers to the more severe phenotypic consequences of changing part of a chromosome compared with the whole genome set.Previous genome imbalance studies in maize have identified prevalent inverse modu...Genomic imbalance refers to the more severe phenotypic consequences of changing part of a chromosome compared with the whole genome set.Previous genome imbalance studies in maize have identified prevalent inverse modulation of genes on the unvaried chromosomes(trans)with both the addition or subtraction of chromosome arms.Transposable elements(TEs)comprise a substantial fraction of the genome,and their reaction to genomic imbalance is therefore of interest.Here,we analyzed TE expression using RNA-seq data of aneuploidy and ploidy series and found that most aneuploidies showed an inverse modulation of TEs,but reductions in monosomy and increases in disomy and trisomy were also common.By contrast,the ploidy series showed little TE modulation.The modulation of TEs and genes in the same experimental group were compared,and TEs showed greater modulation than genes,especially in disomy.Class Ⅰ and Ⅱ TEs were differentially modulated in most aneuploidies,and some superfamilies in each TE class also showed differential modulation.Finally,the significantly upregulated TEs in three disomies(TB-7Lb,TB9Lc,and TB-10L19)did not increase the proportion of adjacent gene expression when compared with non-differentially expressed TEs,indicating that modulations of TEs do not compound the effect on genes.These results suggest that the prevalent inverse TE modulation in aneuploidy results from stoichiometric upset of the regulatory machinery used by TEs,similar to the response of core genes to genomic imbalance.展开更多
Objective To investigate the relationship between genomic DNA imbalance in oligodendroglial tumors and its different classification. Methods 16 oligodendrogliomas and 17 anaplastic oligodendrogliomas were investigated...Objective To investigate the relationship between genomic DNA imbalance in oligodendroglial tumors and its different classification. Methods 16 oligodendrogliomas and 17 anaplastic oligodendrogliomas were investigated by comparative genomic hybridization on Paraffin-Embedded tissue samples,and the chromosomal genomic DNA imbalances were analyzed. Results Chromosome DNA imbalance rates in oligodendrogliomas展开更多
基金supported by National Science Foundation USA grant IOS-1545780Computation for this work was performed on the highperformance computing infrastructure provided by Research Computing Support Services and in part by the National Science Foundation USA under grant number CNS-1429294 at the University of Missouri,Columbia,MO,https://doi.org/10.32469/10355/69802.
文摘Genomic imbalance refers to the more severe phenotypic consequences of changing part of a chromosome compared with the whole genome set.Previous genome imbalance studies in maize have identified prevalent inverse modulation of genes on the unvaried chromosomes(trans)with both the addition or subtraction of chromosome arms.Transposable elements(TEs)comprise a substantial fraction of the genome,and their reaction to genomic imbalance is therefore of interest.Here,we analyzed TE expression using RNA-seq data of aneuploidy and ploidy series and found that most aneuploidies showed an inverse modulation of TEs,but reductions in monosomy and increases in disomy and trisomy were also common.By contrast,the ploidy series showed little TE modulation.The modulation of TEs and genes in the same experimental group were compared,and TEs showed greater modulation than genes,especially in disomy.Class Ⅰ and Ⅱ TEs were differentially modulated in most aneuploidies,and some superfamilies in each TE class also showed differential modulation.Finally,the significantly upregulated TEs in three disomies(TB-7Lb,TB9Lc,and TB-10L19)did not increase the proportion of adjacent gene expression when compared with non-differentially expressed TEs,indicating that modulations of TEs do not compound the effect on genes.These results suggest that the prevalent inverse TE modulation in aneuploidy results from stoichiometric upset of the regulatory machinery used by TEs,similar to the response of core genes to genomic imbalance.
文摘Objective To investigate the relationship between genomic DNA imbalance in oligodendroglial tumors and its different classification. Methods 16 oligodendrogliomas and 17 anaplastic oligodendrogliomas were investigated by comparative genomic hybridization on Paraffin-Embedded tissue samples,and the chromosomal genomic DNA imbalances were analyzed. Results Chromosome DNA imbalance rates in oligodendrogliomas