T J Liu scite author profile

T J Liu

2Publications

2Citation Statements Received

0Citation Statements Given

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Florida State University, Albert Einstein College of Medicine

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The Efficiency of 3′-End Formation Contributes to the Relative Levels of Different Histone mRNAs

Liu

Levine²,

Skoultchi³

et al. 1989

Molecular and Cellular Biology

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Sequences at both the 5' and 3' ends of mouse histone genes contribute to the expression of individual genes. The 3' sequences required for high expression of the mouse H2a-614 gene are the same as the sequences required for 3'-end formation. When these sequences were substituted for the 3' end of the poorly expressed H2a-291 gene, expression of the H2a-291 gene was increased fivefold. A 65-nucleotide fragment containing the H2a-614 3' processing signal increased expression of the H2a-291 gene when it was placed in the proper orientation downstream of the H2a-291 3' end. The only mRNAs that accumulated from this gene ended at the H2a-291 3' end, which suggests that the transcript is sequentially processed. In an in vitro processing system, the different histone 3' ends showed different processing efficiencies, which correlated with their expression in cells. These results suggest that the efficiency of processing is important in determining the steady-state levels of individual mouse histone mRNAs.

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Differential Expression of Individual Members of the Histone Multigene Family Due to Sequences in the 5′ and 3′ Regions of the Genes

Levine

Liu

Marzluff

et al. 1988

Molecular and Cellular Biology

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Histone proteins are encoded by a multigene family. The H3.2(614) and H2a(614) genes are present as single copies which are expressed at high levels, accounting for 30 to 40% of the H3 and H2a mRNAs, respectively, in different types of mouse cells. The other genes which have been isolated each contribute only a very small amount to the total type-specific mRNA pool. We demonstrate here that the differences in the level of expression of these genes are partly due to differences in their transcription rates. To investigate the sequences responsible for these differences in expression among the members of each family, we carried out DNA-mediated gene transfer experiments with both intact and chimeric histone genes. The 5' region of a highly expressed gene [H3.2(614) or H2a(614)] was attached to the 3' region of a histone gene which was expressed at low levels (H3-221 or H2a-291) and vice versa. The results show that sequences in both the 5' and 3' regions of the H3.2(614) and H2a(614) genes contribute to their high level of mRNA production by two independent mechanisms. The effect of the 3' sequences on mRNA accumulation has been narrowed to a 65-base-pair region including the 3'-terminal palindrome and downstream signal implicated in mRNA processing.

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T J Liu

The Efficiency of 3′-End Formation Contributes to the Relative Levels of Different Histone mRNAs

Differential Expression of Individual Members of the Histone Multigene Family Due to Sequences in the 5′ and 3′ Regions of the Genes

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