Nathan M. Chu scite author profile

Nathan M. Chu

4Publications

91Citation Statements Received

54Citation Statements Given

How they've been cited

152

How they cite others

Affiliations

Rockefeller University, University of California, Irvine

Publications

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Plant cells do not properly recognize animal gene polyadenylation signals

et al. 1987

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We have introduced chimeric genes containing polyadenylation signals from a human gene and two animal virus genes into tobacco cells. We see, in all three cases, inefficient and 'aberrant' utilization of the foreign polyadenylation signals. We find that a chimeric gene carrying the polyadenylation site of the human growth hormone gene is polyadenylated at three sites in the vicinity of the site that is polyadenylated in human cells. A chimeric gene containing the polyadenylation site from the adenovirus 5 E1A gene is polyadenylated at a site 11 bases downstream from that reported in animal cells. A gene carrying the polyadenylation site from the SV40 early region is polyadenylated some 80 bases upstream from the site that is polyadenylated in animal cells. In all three cases, related mRNAs ending at flanking 'authentic' plant polyadenylation sites can be detected, indicating that the foreign polyadenylation signals are inefficiently utilized in tobacco cells.

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Arrangement of the ribosomal RNA genes in chloroplast DNA of Leguminosae

Chu

Tewari

1982

Molec. Gen. Genet.

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The SV40 small t intron is accurately and efficiently spliced in tobacco cells

et al. 1991

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We have introduced the SV40 small t intron into tobacco cells as part of a cauliflower mosaic virus 35S promoter-chloramphenicol acetyltransferase-SV40 transcription unit. We find that the small t intron is efficiently and accurately spliced in transgenic tobacco cells that carry this transcription unit. Our results indicate that there is substantial conservation of RNA processing signals between plants and animals, more than has been previously assumed. They also suggest that pre-mRNA processing in plants requires multiple branch sites for efficient processing.

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Structure of Chloroplast DNA

Tewari

Kolodner

Chu

et al. 1977

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Nathan M. Chu

Plant cells do not properly recognize animal gene polyadenylation signals

Arrangement of the ribosomal RNA genes in chloroplast DNA of Leguminosae

The SV40 small t intron is accurately and efficiently spliced in tobacco cells

Structure of Chloroplast DNA

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