AtMHX 的内含子的启动子能够在没有剪接的情况下引发低水平的内含子介导的增强作用,这种增强作用依赖于内含子的内部序列。
The leader intron of AtMHX can elicit, in the absence of splicing, low-level intron-mediated enhancement that depends on the internal intron sequence.
机构信息
The Mina and Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Ramat-Gan, Israel.
出版信息
BMC Plant Biol. 2010 May 20;10:93. doi: 10.1186/1471-2229-10-93.
BACKGROUND
Introns stimulate gene expression in a wide range of organisms by increasing the levels of mature mRNA, without affecting mRNA stability. Although introns sometimes function as transcriptional enhancers, they usually stimulate expression by a process termed intron-mediated enhancement (IME). The mechanism of IME is largely unknown. While splicing per se is not sufficient for IME, as evident from the fact that not all introns increase expression, it is not clear yet whether splicing of the enhancing introns is essential for enhancement. The leader intron (LI) of the Arabidopsis AtMHX gene was previously shown to substantially increase the expression of the AtMHX promoter. Here we investigated whether this LI acts as a transcriptional enhancer and whether its splicing is essential for IME.
RESULTS
Expression in transformed Arabidopsis plants of an AtMHX::GUS construct from which the LI was eliminated was similar to a construct that included only the minimal promoter fused to GUS. Yet, almost no expression was seen in constructs that included the LI in addition to the minimal promoter or the LI inserted in various locations in the promoter. While the LI enhanced 272-fold the expression of the weak AtMHX promoter, only a 3-fold enhancement was observed for the strong CaMV 35S promoter. In the context of the AtMHX promoter, an unspliceable version of the LI that had mutated 5' and 3' splice sites mediated a low-level (5-fold) enhancement. Eliminating the internal 320 nt of the 416 nt unspliceable intron resulted in loss of ability to mediate low-level enhancement.
CONCLUSIONS
Although AtMHX promoter shows almost no expression in the absence of its LI, this intron does not act as a transcriptional enhancer and is unable to support expression in the absence of the enhancer elements of the promoter. It is also shown that the same intron can have very different contributions to expression of different promoters. Our results also demonstrate that while splicing is essential for substantial IME, in the absence of splicing low-level enhancement can be obtained. Notably, it is shown that the internal intron sequence plays a significant role in mediating the low-level enhancement of unspliced introns.
背景
内含子通过增加成熟 mRNA 的水平来刺激广泛的生物体中的基因表达,而不影响 mRNA 的稳定性。虽然内含子有时作为转录增强子发挥作用,但它们通常通过一种称为内含子介导增强(IME)的过程来刺激表达。IME 的机制在很大程度上是未知的。虽然剪接本身不足以进行 IME,因为并非所有内含子都能增加表达,但增强内含子的剪接是否对增强至关重要还不清楚。拟南芥 AtMHX 基因的前导内含子(LI)先前已被证明可大大增加 AtMHX 启动子的表达。在这里,我们研究了这个 LI 是否作为一个转录增强子,以及它的剪接是否对 IME 至关重要。
结果
在转化的拟南芥植物中,表达了一种从 AtMHX::GUS 构建体中消除了 LI 的构建体,其表达与仅包含与 GUS 融合的最小启动子的构建体相似。然而,在包含最小启动子或 LI 插入启动子不同位置的构建体中,几乎没有观察到表达。虽然 LI 增强了弱 AtMHX 启动子的 272 倍,但对于强 CaMV 35S 启动子,只观察到 3 倍的增强。在 AtMHX 启动子的情况下,具有 5'和 3'剪接位点突变的不可剪接的 LI 版本介导了低水平(5 倍)的增强。消除 416nt 不可剪接内含子的内部 320nt 导致丧失介导低水平增强的能力。
结论
尽管 AtMHX 启动子在没有其 LI 的情况下几乎没有表达,但这个内含子不作为转录增强子,并且在没有启动子增强元件的情况下不能支持表达。还表明,同一个内含子可以对不同启动子的表达有非常不同的贡献。我们的结果还表明,虽然剪接对于实质性的 IME 至关重要,但在没有剪接的情况下,可以获得低水平的增强。值得注意的是,结果表明内含子的内部序列在介导未剪接内含子的低水平增强中起着重要作用。
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