dorsal/arxiv
View SchematRNA-isoleucine-tryptophan Composite Gene
| Authors | Zhumur Ghosh, Jayprokas Chakrabarti, Bibekanand Mallick, Smarajit Das, Satyabrata Sahoo, Harmeet Singh Sethi |
|---|---|
| Categories | |
| ArXiv ID | q-bio/0510053 |
| URL | https://arxiv.org/abs/q-bio/0510053 |
| DOI | 10.1016/j.bbrc.2005.10.183 |
| Journal | Biochemical and biophysical Research Communications 339 (2005) 37-40 |
Abstract
Transfer-RNA genes in archaea often have introns intervening between exon sequences. The structural motif at the boundary between exon and intron is the bulge-helix-bulge. Computational investigations of these boundary structures in H. marismortui lead us to propose that tRNA-isoleucine and tRNA-tryptophan genes are co-located. Precise insilico identification of the splice-sites on the bulges at the exon-intron boundaries conduce us to infer that a single intron-containing composite tRNA-gene can give rise to more than one gene produc.
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"abstract": "Transfer-RNA genes in archaea often have introns intervening between exon\nsequences. The structural motif at the boundary between exon and intron is the\nbulge-helix-bulge. Computational investigations of these boundary structures in\nH. marismortui lead us to propose that tRNA-isoleucine and tRNA-tryptophan\ngenes are co-located. Precise insilico identification of the splice-sites on\nthe bulges at the exon-intron boundaries conduce us to infer that a single\nintron-containing composite tRNA-gene can give rise to more than one gene\nproduc.",
"arxiv_id": "q-bio/0510053",
"authors": [
"Zhumur Ghosh",
"Jayprokas Chakrabarti",
"Bibekanand Mallick",
"Smarajit Das",
"Satyabrata Sahoo",
"Harmeet Singh Sethi"
],
"categories": [
"q-bio.GN"
],
"doi": "10.1016/j.bbrc.2005.10.183",
"journal_ref": "Biochemical and biophysical Research Communications 339 (2005)\n 37-40",
"title": "tRNA-isoleucine-tryptophan Composite Gene",
"url": "https://arxiv.org/abs/q-bio/0510053"
},
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