利用BAC-FISH和C-PRINS技术检测向日葵染色体的单拷贝序列。

Biocell : official journal of the Sociedades Latinoamericanas de Microscopia Electronica ... et. al Pub Date : 2011-04-01 DOI:10.32604/BIOCELL.2011.35.019

P. Talia, E. Greizerstein, H. Hopp, N. Paniego, L. Poggio, R. Heinz

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引用次数: 9

摘要

对细菌人工染色体荧光原位杂交(BAC-FISH)和循环引物原位标记(C-PRINS)技术在向日葵物理图谱和遗传图谱整合中的应用进行了评价。从高密度向日葵遗传图谱的3个连锁群中选择单位点SSR标记。这一选择是基于先前确定的与菌核葡萄球菌相关的QTL。这些标记用于选择含有单拷贝序列的BAC-FISH应用。阻断高度分散的重复向日葵序列减少了非特异性杂交，并允许检测含有SSR标记HA4222和HA2600的BACs的特异性信号，分别锚定在LG 16和LG 10上。通过调整阻断DNA中存在的未标记重复序列的相对数量和质量，优化了单位点FISH信号检测。用C-PRINS对固定在LG 17上的SSR标记ORS1247进行检测，荧光信号特异性强。利用BAC-FISH和间接C-PRINS策略定位向日葵单拷贝序列的这一进展将促进遗传图谱和物理图谱的整合，使鉴定含有向日葵重要农艺性状关键基因和/或QTL的染色体成为可能。

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Detection of single copy sequences using BAC-FISH and C-PRINS techniques in sunflower chromosomes.

Bacterial artificial chromosome-fluorescence in situ hybridization (BAC-FISH) and cycling-primed in situ labeling (C-PRINS) techniques were evaluated for integration of physical and genetic maps of sunflower (Helianthus annuus L.). Single-site SSR markers were selected from three linkage groups of a high-density sunflower genetic map. This selection was based on previously identified QTL associated to S. sclerotiorum. These markers were used to select BACs contaning single copy sequences for BAC-FISH aplication. Blocking of highly dispersed repetitive sunflower sequences reduced unspecific hybridization, and allowed the detection of specific signals for BACs containing SSR markers HA4222 and HA2600, anchored to LG 16 and LG 10, respectively. Single-site FISH signal detection was optimized by adjusting the relative quantity and quality of unlabelled repetitive sequences present in the blocking DNA. The SSR marker ORS1247 anchored to the LG 17 was detected by C-PRINS, which yielded fluorescence signals that were specific and intense. This progress in localizing single-copy sequences using BAC-FISH and indirect C-PRINS strategies in sunflower will facilitate the integration of genetic and physical maps, allowing the identification of chromosomes containing key genes and/or QTL associated to agronomic important traits in sunflower.

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Biocell : official journal of the Sociedades Latinoamericanas de Microscopia Electronica ... et. al

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