Wichman H A, Van den Bussche R A, Hamilton M J, Baker R J
Department of Biological Sciences, University of Idaho, Moscow 83843.
Genetica. 1992;86(1-3):287-93. doi: 10.1007/BF00133727.
All mammalian transposable elements characterized to date appear to be nonrandomly distributed in the mammalian genome. While no element has been found to be exclusively restricted in its chromosomal location, LINE elements and some retrovirus-like elements are preferentially accumulated in G-banding regions of the chromosomes, and in some cases in the sex chromosomes, while SINE elements occur preferentially in R-banding regions. Four mechanisms are presented which may explain the nonrandom genomic distribution of mammalian transposons: i) sequence-specific insertion, ii) S-phase insertion, iii) ectopic excision, and iv) recombinational editing. Some of the available data are consistent with each of these four models, but no single model is sufficient to explain all of the existing data.
迄今为止所鉴定的所有哺乳动物转座元件似乎在哺乳动物基因组中呈非随机分布。虽然尚未发现有元件在染色体定位上完全受限,但长散在核元件(LINE)和一些类逆转录病毒元件优先积累在染色体的G带区域,在某些情况下也积累在性染色体中,而短散在核元件(SINE)则优先出现在R带区域。本文提出了四种机制,它们可能解释哺乳动物转座子的非随机基因组分布:i)序列特异性插入,ii)S期插入,iii)异位切除,以及iv)重组编辑。一些现有数据与这四种模型中的每一种都相符,但没有一个单一模型足以解释所有现有数据。