[通过标记寡核苷酸原位杂交快速鉴定染色体并与PRINS方法比较]。

P Coullin, A Valent, I Barbounaki, J J Candelier, F Pellestor, A Bernheim
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引用次数: 0

摘要

我们提出了一种简单、快速和廉价的方法来鉴定人类中期染色体和间期细胞核上的着丝粒。这是基于标记寡核苷酸的原位杂交。该方法的有效性在人类异倍体和人类x仓鼠杂交细胞系的细胞遗传学制备以及使用1号染色体α -卫星DNA特异性寡核苷酸的冷冻组织切片上得到了证明。合成了三种不同版本的该寡核苷酸,分别用1、4和10个荧光素分子标记。寡核苷酸与4种荧光素偶联所提供的信号强度允许使用经典细胞遗传学显微镜明确地检测染色体并建立其倍体,而无需扩增程序。使用不同的荧光染料,并可能结合在3'的未标记延伸的寡核苷酸,以稳定其杂交,导致一个简单的多色方法。对标记的寡核苷酸原位杂交获得的信号进行初步定量分析,并与使用相同核苷酸作为引物的引物原位标记(primed in situ labelling, PRINS)获得的信号进行比较,结果表明,与溶液中的PCR相比,PRINS产生的延伸可能非常短。这种有限的原位延伸效率可能反映了目前PRINS和DISC PCR(直接原位单拷贝聚合酶链反应)对非重复序列特异性引物的困难。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Rapid identification of chromosomes by in situ hybridization of labelled oligonucleotides and comparison with the PRINS method].

We propose a simple, fast and inexpensive method of identification of human centromeres on metaphasic chromosomes and interphasic nuclei. This is based on in situ hybridization of labelled oligonucleotides. The efficiency of the methodology was demonstrated on cytogenetic preparations from human heteroploid and human x hamster hybrid cell lines and also on frozen tissue sections using an oligonucleotide specific for the alpha-satellite DNA of chromosome 1. Three versions of this oligonucleotide respectively labelled with 1, 4 and 10 fluorescein molecules were synthesized. The signal intensity provided by the oligonucleotide coupled with 4 fluoresceins allowed unambiguously the detection of the chromosome and the establishment of its ploidy using a classical cytogenetic microscope without the need for an amplification procedure. The use of different fluorochromes and possibly combination with an unlabelled elongation in 3' of the oligonucleotides which stabilize its hybridization, lead to a simple multicolour method. Preliminary quantification of the signals obtained by in situ hybridization of labelled oligonucleotides and comparison with those obtained by primed in situ labelling (PRINS) using the same nucleotides as primers, suggest that the elongation generated by PRINS may be very short compared with a PCR in solution. This limited efficiency of the in situ elongation may reflect the present difficulties of PRINS and DISC PCR (direct in situ single copy polymerase chain reaction) with primers specific for non-repetitive sequencies.

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