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粉色(P),一个新的基因座,它导致洋葱(葱属)出现粉色性状,该性状由花青素合酶的自然突变产生。

Pink (P), a new locus responsible for a pink trait in onions (Allium cepa) resulting from natural mutations of anthocyanidin synthase.

作者信息

Kim S, Binzel M L, Yoo K S, Park S, Pike L M

机构信息

Vegetable & Fruit Improvement Center, Department of Horticultural Sciences, Texas A&M University, College Station, TX 77845, USA.

出版信息

Mol Genet Genomics. 2004 Aug;272(1):18-27. doi: 10.1007/s00438-004-1041-5. Epub 2004 Jul 28.

DOI:10.1007/s00438-004-1041-5
PMID:15480791
Abstract

A new locus conditioning a pink trait in onions was identified. Unusual pink onions were found in haploid populations induced from an F(1) hybrid between yellow and dark red parents and in F(3) populations originating from the same cross. Segregation ratios of red to pink in F(2), backcross, and F(3) populations indicated that this pink trait is determined by a single recessive locus. RT-PCR was carried out to look for any differential expression of anthocyanin synthesis genes between dark red and pink F(3) lines. The transcript level of anthocyanidin synthase (ANS) was significantly reduced in the pink line. To determine whether this reduced transcription is caused by other regulatory factors or by mutations in the ANS gene itself, ANS gene sequences from both dark red and pink F(3) lines were compared to detect any polymorphisms. Polymorphisms were identified, and subsequently utilized as molecular markers for the selection of ANS alleles. Absolute co-segregation of the pink allele and the ANS allele from the pink line was observed in parents, F(1) and F(3) populations. These results indicate that reduced transcription of the ANS gene caused by mutations in a cis -acting element is likely to result in the pink trait in onions.

摘要

鉴定出一个调控洋葱粉色性状的新基因座。在由黄色和深红色亲本杂交得到的F(1)杂种诱导产生的单倍体群体以及源自同一杂交组合的F(3)群体中发现了异常的粉色洋葱。F(2)、回交和F(3)群体中红色与粉色的分离比例表明,这种粉色性状由单个隐性基因座决定。进行逆转录聚合酶链反应(RT-PCR)以寻找深红色和粉色F(3)品系之间花青素合成基因的任何差异表达。粉色品系中花青素合酶(ANS)的转录水平显著降低。为了确定这种转录减少是由其他调控因子还是ANS基因本身的突变引起的,比较了深红色和粉色F(3)品系的ANS基因序列以检测任何多态性。鉴定出多态性,随后将其用作选择ANS等位基因的分子标记。在亲本、F(1)和F(3)群体中观察到粉色等位基因与粉色品系的ANS等位基因完全共分离。这些结果表明,顺式作用元件中的突变导致ANS基因转录减少可能导致洋葱出现粉色性状。

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