Dispersed repetitive sequence is mainly transposable elements which are composed of transposon and retroposon.
散在重复序列主要是可转移因子,可转移因子分为转座子和返座子两种类型。
In particular, they tracked the positions of transposable elements.
尤其是,他们跟踪了转位因子的位置。
This paper introduced the studies advances of P transposable element in Drosophila .
本文介绍了果蝇P转座因子的一些研究进展。
Evidence accumulated demonstrated that transposable sequences are most likely undergoing horizontal transferring.
转座序列是生物中最易于发生水平转移的基因类型;
Our article deals with the recent studies on the transposable elements controlling heredity and evolution in organisms.
本文简述近代对控制生物遗传和进化的转座因子的研究动态。
Cytosine methylation silences transposable elements in plants, vertebrates, and fungi but also regulates gene expression.
胞嘧啶的甲基化能够沉默植物、脊椎动物和真菌的转座元件,同时也能调控基因的表达。
Finally, the prospects of transposable elements were discussed in the application of functional gene research of protozoa.
最后对转座元件在原生动物寄生虫的进一步研究和应用作了展望。
These results indicated that degradative and transposable genes of the naphthalene-degrading bacteria are highly conserved.
这些结果表明,萘降解细菌的降解基因和转座基因具有高度的保守性。
The idea that transposable elements (TEs) are mainly 'selfish' or 'junk' DNA with little importance for host evolution has challenged.
转座因子主要是一些“自在”或“无功能”的DNA,其对宿主进化无关紧要的观点受到了质疑。
The scientists based this ancestral census on a reading of modern human genomes. In particular, they tracked the positions of transposable elements.
科学家们是解读现代人类基因组后得出这个远古数据的,他们还特别追踪了转位因子的位置。
Noncoding DNA, containing introns, repetitive elements, and potentially active transposable elements, requires effective mechanisms for its long-term silencing.
非编码DNA,包括内含子,重复元件,和潜在激活转座子,其长期的沉默需要有效的机制。
Recent completion of rice genome sequencing has revealed that more than 40% of its genome consists of repetitive sequences, and most of them are related to inactive transposable elements.
水稻基因组测序完成后发现超过40%的基因组序列中含有重复序列,其中大多数重复序列与不活动的的转座子元件有关。
Other special topics will include transposable elements, genetic control of breeding systems such as self-incompatibility, and molecular mechanisms of resistances to biotic and abiotic stresses.
其他特殊的主题包括跳跃基因、育种体系如自交不亲和性的遗传控制、植物对抗生物及非生物逆境的分子机制等。
Other special topics will include transposable elements, genetic control of breeding systems such as self-incompatibility, and molecular mechanisms of resistances to biotic and abiotic stresses.
其他特殊的主题包括跳跃基因、育种体系如自交不亲和性的遗传控制、植物对抗生物及非生物逆境的分子机制等。
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