Gygi Melanie P, Ferguson Mark D, Mefford Heather C, Lund Kevin P, O'Day Christine, Zhou Peiwen, Friedman Cynthia, van den Engh Ger, Stolowitz Mark L, Trask Barbara J
Department of Molecular Biotechnology, University of Washington, Seattle, WA 98195, USA.
Nucleic Acids Res. 2002 Jul 1;30(13):2790-9. doi: 10.1093/nar/gkf406.
In this paper, we demonstrate the use of synthetic polyamide probes to fluorescently label heterochromatic regions on human chromosomes for discrimination in cytogenetic preparations and by flow cytometry. Polyamides bind to the minor groove of DNA in a sequence-specific manner. Unlike conventional sequence-specific DNA or RNA probes, polyamides can recognize their target sequence without the need to subject chromosomes to harsh denaturing conditions. For this study, we designed and synthesized a polyamide to target the TTCCA-motif repeated in the heterochromatic regions of chromosome 9, Y and 1. We demonstrate that the fluorescently labeled polyamide binds to its target sequence in both conventional cytogenetic preparations of metaphase chromosomes and suspended chromosomes without denaturation. Chromosomes 9 and Y can be discriminated and purified by flow sorting on the basis of polyamide binding and Hoechst 33258 staining. We generate chromosome 9- and Y-specific 'paints' from the sorted fractions. We demonstrate the utility of this technology by characterizing the sequence of an olfactory receptor gene that is duplicated on multiple chromosomes. By separating chromosome 9 from chromosomes 10-12 on the basis of polyamide fluorescence, we determine and differentiate the haplotypes of the highly similar copies of this gene on chromosomes 9 and 11.
在本文中,我们展示了使用合成聚酰胺探针荧光标记人类染色体上的异染色质区域,以便在细胞遗传学标本中进行鉴别以及通过流式细胞术进行鉴别。聚酰胺以序列特异性方式与DNA的小沟结合。与传统的序列特异性DNA或RNA探针不同,聚酰胺无需对染色体进行苛刻的变性条件即可识别其靶序列。在本研究中,我们设计并合成了一种聚酰胺,以靶向在9号、Y和1号染色体的异染色质区域中重复出现的TTCCA基序。我们证明,荧光标记的聚酰胺在中期染色体和悬浮染色体的传统细胞遗传学标本中均能在未变性的情况下与其靶序列结合。基于聚酰胺结合和Hoechst 33258染色,9号和Y染色体可通过流式分选进行鉴别和纯化。我们从分选的组分中生成了9号和Y染色体特异性的“染色体涂染探针”。我们通过对在多条染色体上重复的嗅觉受体基因的序列进行表征,展示了该技术的实用性。通过基于聚酰胺荧光将9号染色体与10 - 12号染色体分离,我们确定并区分了9号和11号染色体上该基因高度相似拷贝的单倍型。