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Evolution of Yeast Noncoding RNAs Reveals an Alternative Mechanism for Widespread Intron Loss

机译：酵母非编码RNa的演进揭示了广泛内含损失的另一种机制

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The evolutionary forces responsible for intron loss are unresolved. Whereas research has focused on protein-coding genes, here we analyze noncoding small nucleolar RNA (snoRNA) genes in which introns, rather than exons, are typically the functional elements. Within the yeast lineage exemplified by the human pathogen Candida albicans, we find—through deep RNA sequencing and genome-wide annotation of splice junctions—extreme compaction and loss of associated exons, but retention of snoRNAs within introns. In the Saccharomyces yeast lineage, however, we find it is the introns that have been lost through widespread degeneration of splicing signals. This intron loss, perhaps facilitated by innovations in snoRNA processing, is distinct from that observed in protein-coding genes with respect to both mechanism and evolutionary timing.

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Quinn M. Mitrovich; Brian B. Tuch; Francisco M. De La Vega; Christine Guthrie; Alexander D. Johnson;
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年(卷),期 -1(330),6005
年度 -1
页码 838–841
总页数 8
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1. Evolution of Yeast Noncoding RNAs Reveals an Alternative Mechanism for Widespread Intron Loss [J] . Quinn M.Mitrovich, Brian B.Tuch, Francisco M.De La Vega, Science . 2010,第6005期

机译：酵母非编码RNA的进化揭示了广泛的内含子损失的另一种机制。
2. Test of intron predictions reveals novel splice sites, alternatively spliced mRNAs and new introns in meiotically regulated genes of yeast. [J] . Davis CA, Grate L, Spingola M, Nucleic Acids Research . 2000,第8期

机译：内含子预测的测试揭示了酵母减数分裂调控基因中的新剪接位点，选择性剪接的mRNA和新内含子。
3. Test of intron predictions reveals novel splice sites, alternatively spliced mRNAs and new introns in meiotically regulated genes of yeast [J] . Carrie A. Davis, Leslie Grate, Manuel Ares Jr, Nucleic acids research . 2000,第8期

机译：内含子预测的测试揭示了酵母减数分裂调控基因中的新剪接位点，选择性剪接的mRNA和新内含子
4. Poster: MIGL - a database for identifying the mechanisms of intron gain and loss [C] . Yenerall P., Yuanyuan Jiang, Leming Zhou Computational Advances in Bio and Medical Sciences (ICCABS), 2012 IEEE 2nd International Conference on . 2012

机译：海报：MIGL-用于识别内含子增减机制的数据库
5. Mechanism and targets of Sen1 helicase in termination of noncoding RNA synthesis in yeast [D] . Chen, Xin 2015

机译：Sen1解旋酶终止酵母中非编码RNA合成的机制和靶标
6. Test of intron predictions reveals novel splice sites alternatively spliced mRNAs and new introns in meiotically regulated genes of yeast [O] . Carrie A. Davis, Leslie Grate, Marc Spingola, 2000

机译：内含子预测的测试揭示了酵母减数分裂调控基因中的新剪接位点可变剪接的mRNA和新的内含子
7. Evolution of Yeast Noncoding RNAs Reveals an Alternative Mechanism for Widespread Intron Loss [O] . Q. M. Mitrovich, B. B. Tuch, F. M. De La Vega, 2010

机译：酵母非编码RNA的演变揭示了广泛的内含子损失的替代机制

Evolution of Yeast Noncoding RNAs Reveals an Alternative Mechanism for Widespread Intron Loss

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