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Extremely fast and incredibly close: cotranscriptional splicing in budding yeast

机译：极快且极为接近：发芽酵母中的共转录剪接

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RNA splicing, an essential part of eukaryotic pre-messenger RNA processing, can be simultaneous with transcription by RNA polymerase II. Here, we compare and review independent next-generation sequencing methods that jointly quantify transcription and splicing in budding yeast. For many yeast transcripts, splicing is fast, taking place within seconds of intron transcription, while polymerase is within a few dozens of nucleotides of the 3′ splice site. Ribosomal protein transcripts are spliced particularly fast and cotranscriptionally. However, some transcripts are spliced inefficiently or mainly post-transcriptionally. Intron-mediated regulation of some genes is likely to be cotranscriptional. We suggest that intermediates of the splicing reaction, missing from current data sets, may hold key information about splicing kinetics.

机译：RNA剪接是真核信使前RNA加工的重要组成部分，可以与RNA聚合酶II的转录同时进行。在这里，我们比较并审查了独立的下一代测序方法，这些方法共同量化了发芽酵母中的转录和剪接。对于许多酵母转录物，剪接是快速的，发生在内含子转录的几秒钟之内，而聚合酶在3'剪接位点的几十个核苷酸之内。核糖体蛋白转录物被特别快速地剪接并共转录。但是，某些成绩单的拼接效率很低，或者主要是转录后的拼接。内含子介导的某些基因的调控可能是共转录的。我们建议当前数据集中缺少的剪接反应中间体可能包含有关剪接动力学的关键信息。

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期刊名称 RNA
作者
Edward W.J. Wallace; Jean D. Beggs;
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作者单位

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年(卷),期 2017(23),5
年度 2017
页码 601–610
总页数 10
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
CTD phosphorylation introns polymerase CTD polymerase pausing splicing kinetics;

机译：CTD磷酸化;内含子;聚合酶CTD;聚合酶暂停;剪接动力学;

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专利

1. Extremely fast and incredibly close: cotranscriptional splicing in budding yeast [J] . Wallace Edward W. J., Beggs Jean D. RNA . 2017,第5期

机译：非常快速且令人难以置信的关闭：COTRANSCREICE拼接在萌芽酵母中
2. Transcription rate strongly affects splicing fidelity and cotranscriptionality in budding yeast (vol 28, pg 203, 2018) [J] . Aslanzadeh Vahid, Huang Yuanhua, Sanguinetti Guido, Genome research . 2018,第4期

机译：转录率强烈影响剪接富裕和COTRANSICRINGY在Budding Yeast中（Vol 28，PG 203,2018）
3. Transcription rate strongly affects splicing fidelity and cotranscriptionality in budding yeast [J] . Aslanzadeh Vahid, Huang Yuanhua, Sanguinetti Guido, Genome research . 2018,第2期

机译：转录率强烈影响培养酵母中的剪接保真度和CotroAncriptionality
4. Trial development on the "new methods on the simplified numerical expression, using peaks I_p in scalar conductive currents of the first lightning return strokes to the earth I， in peaks E_p and B_p in the extremely far electric fields close to the ground E and extremely far magnetic fields close to the ground B caused by the first lightning return strokes" of downward flashes [C] . Hiroshi Kurita 放電研究会;開閉保護研究会;高電圧研究会 . 2017

机译：“简化数值表达式的新方法的试验开发”，使用了第一次雷击返回地面I的标量导电电流中的峰值I_p，在靠近地面E且非常远的电场中的峰值E_p和B_p中向下闪光的第一个雷电回击引起的靠近地面B的磁场
5. Incredibly Fast and Extremely Cold: Development of Low-Temperature Ultrafast Microscopy [D] . Cating, Emma-Elizabeth M. 2018

机译：令人难以置信的快速和极冷：低温超快显微镜的发展
6. Revisiting the window of opportunity for cotranscriptional splicing in budding yeast [O] . Vahid Aslanzadeh, Jean D. Beggs 2020

机译：重新探索萌芽酵母的COTRANSCRIPIONIONIONIONICE拼接的机会窗口
7. Revisiting the window of opportunity for cotranscriptional splicing in budding yeast [O] . Vahid Aslanzadeh, Jean D. Beggs 2020

机译：重新探索萌芽酵母的COTRANSCRIPIONIONIONIONICE拼接的机会窗口

Extremely fast and incredibly close: cotranscriptional splicing in budding yeast

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