Brouwer Cory, Bruce Wesley, Maddock Sheila, Avramova Zoya, Bowen Ben
Department of Zoology and Genetics, Iowa State University, Ames, Iowa 50011, USA.
Plant Cell. 2002 Sep;14(9):2251-64. doi: 10.1105/tpc.004028.
Matrix attachment regions (MARs) are DNA sequences that bind an internal nuclear network of nonhistone proteins called the nuclear matrix. Thus, they may define discrete gene-containing chromatin loops in vivo. We have studied the effects of flanking transgenes with MARs on transgene expression levels in maize callus and in transformed maize plants. Three MAR elements, two from maize (Adh1 5' MAR and Mha1 5' MAR) and one from yeast (ARS1), had very different effects on transgene expression that bore no relation to their affinity for the nuclear matrix in vitro. In callus, two of the MAR elements (Adh1 5' MAR and ARS1) reduced transgene silencing but had no effect on the variability of expression. In transgenic plants, Adh1 5' MAR had the effect of localizing beta-glucuronidase expression to lateral root initiation sites. A possible model accounting for the function of Adh1 5' MAR is discussed.
基质附着区域(MARs)是与一种称为核基质的非组蛋白蛋白质的内部核网络结合的DNA序列。因此,它们可能在体内定义包含离散基因的染色质环。我们研究了用MARs侧翼转基因对玉米愈伤组织和转化玉米植株中转基因表达水平的影响。三个MAR元件,两个来自玉米(Adh1 5' MAR和Mha1 5' MAR)和一个来自酵母(ARS1),对转基因表达有非常不同的影响,这与它们在体外对核基质的亲和力无关。在愈伤组织中,两个MAR元件(Adh1 5' MAR和ARS1)减少了转基因沉默,但对表达的变异性没有影响。在转基因植物中,Adh1 5' MAR具有将β-葡萄糖醛酸酶表达定位到侧根起始位点的作用。讨论了一个解释Adh1 5' MAR功能的可能模型。