解决遗留问题:绘制端粒图谱以及影响其长度的因素。
Pinning down loose ends: mapping telomeres and factors affecting their length.
作者信息
Burr B, Burr F A, Matz E C, Romero-Severson J
机构信息
Biology Department, Brookhaven National Laboratory, Upton, New York 11973.
出版信息
Plant Cell. 1992 Aug;4(8):953-60. doi: 10.1105/tpc.4.8.953.
Abstract
A degenerately repeated sequence, proximal to the telomere heptanucleotide repeat in maize, contains restriction enzyme sites that permit the separation of telomeres from the rest of the chromosomes. Probing with a telomere-specific oligonucleotide revealed genotype-dependent telomere lengths that vary more than 25-fold in maize among the 22 inbreds that have been surveyed. These lengths were found to segregate reproducibly in a recombinant inbred family where 50% of the variation can be accounted for by three loci. The dynamic control over telomere length in maize appears to act rapidly to achieve new genotypically determined telomere lengths in the F1. Clones of telomere proximal sequences were used to map restriction fragment length loci at the distal ends of eight of 20 chromosome arms.
摘要
在玉米中,靠近端粒七核苷酸重复序列的一个简并重复序列包含一些限制酶切位点,这些位点可使端粒与染色体的其余部分分离。用端粒特异性寡核苷酸进行探测发现,在已检测的22个自交系中,玉米的端粒长度存在基因型依赖性,其变化幅度超过25倍。在一个重组自交系家族中,这些长度能够可重复地分离,其中50%的变异可由三个基因座解释。玉米中端粒长度的动态控制似乎能迅速发挥作用,使F1代达到新的基因型决定的端粒长度。端粒近端序列的克隆被用于在20个染色体臂中的8个的远端定位限制片段长度基因座。
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