矮牵牛 S 座位 F -box 蛋白的氨基末端 F-box 结构域参与 S-RNase 为基础的自交不亲和机制。
The amino terminal F-box domain of Petunia inflata S-locus F-box protein is involved in the S-RNase-based self-incompatibility mechanism.
机构信息
Intercollege Graduate Degree Program in Plant Biology , The Pennsylvania State University , University Park, PA 16802 , USA.
出版信息
AoB Plants. 2011;2011:plr016. doi: 10.1093/aobpla/plr016. Epub 2011 Aug 19.
BACKGROUND AND AIMS
Pistils of flowering plants possessing self-incompatibility (SI) can distinguish between self and non-self pollen, and only allow non-self pollen to effect fertilization. For Petunia inflata, the S-RNase gene encodes pistil specificity and multiple S-locus F-box (SLF) genes encode pollen specificity. Each SLF produced in pollen interacts with a subset of non-self S-RNases to mediate their ubiquitination and degradation by the 26S proteasome.
RATIONALE
S-locus F-box has been proposed to function as a component of the conventional SCF (SKP1-CULLIN-F-box protein) complex, based on the finding that two SKP1-like proteins, AhSSK1 (Antirrhinum hispanicum SLF-interacting SKP1-like1) and PhSSK1 (Petunia hybrida SSK1), interact with the F-box domain of some allelic variants of SLF. However, we previously showed that PiSLF (P. inflata SLF) did not interact with any SKP1 of P. inflata or Arabidopsis thaliana, but instead interacted with a RING-finger protein, PiSBP1 (P. inflata S-RNase-Binding Protein1), which may also play the role of SKP1. Thus, the biochemical nature of the SLF-containing complex is as yet unclear.
PRINCIPAL RESULTS
To examine whether the F-box domain of PiSLF is required for SI function, we expressed a truncated PiSLF(2) (S(2) allelic variant) without this domain in S(2)S(3) plants and showed that, unlike the full-length PiSLF(2), it did not cause breakdown of SI in S(3) pollen. We identified PiSSK1 (P. inflata SSK1) and found that it did not interact with PiSLF(1), PiSLF(2) or PiSLF(3).
CONCLUSIONS
The finding that the truncated PiSLF(2) did not cause breakdown of SI in S(3) transgenic pollen suggests that the F-box domain of PiSLF(2) is required for mediating degradation of S(3)-RNase, a non-self S-RNase, in S(3) pollen, and thus is required for SI function. The finding that PiSSK1 did not interact with three allelic variants of PiSLF is consistent with our previous finding that PiSLF might not be in a conventional SCF complex.
背景与目的
具有自交不亲和性(SI)的开花植物雌蕊可以区分自交和非自交花粉,只允许非自交花粉进行受精。对于膨胀矮牵牛,S-RNase 基因编码雌蕊特异性,多个 S 座 F-box(SLF)基因编码花粉特异性。花粉中产生的每个 SLF 与非自身 S-RNase 的一个亚组相互作用,介导它们被 26S 蛋白酶体泛素化和降解。
理由
根据发现两个 SKP1 样蛋白(Antirrhinum hispanicum SLF-interacting SKP1-like1(AhSSK1)和 Petunia hybrida SSK1(PhSSK1))与 SLF 的一些等位变体的 F -box结构域相互作用,S- 座 F-box已被提出作为常规 SCF(SKP1-CULLIN-F-box 蛋白)复合物的组成部分。然而,我们之前表明,PiSLF(膨胀矮牵牛 SLF)与膨胀矮牵牛或拟南芥的任何 SKP1 均不相互作用,而是与 RING 指蛋白 PiSBP1(膨胀矮牵牛 S-RNase-结合蛋白 1)相互作用,该蛋白也可能发挥 SKP1 的作用。因此,SLF 包含的复合物的生化性质尚不清楚。
主要结果
为了检查 PiSLF 的 F -box结构域是否是 SI 功能所必需的,我们在 S(2)S(3)植物中表达了缺乏该结构域的截断 PiSLF(2)(S(2)等位变体),并表明与全长 PiSLF(2)不同,它不会导致 S(3)花粉中的 SI 破裂。我们鉴定了 PiSSK1(膨胀矮牵牛 SSK1),并发现它与 PiSLF(1)、PiSLF(2)或 PiSLF(3)均不相互作用。
结论
截断的 PiSLF(2)不会导致 S(3)转基因花粉中的 SI 破裂的发现表明,PiSLF(2)的 F -box结构域是介导 S(3)-RNase 降解所必需的,S(3)-RNase 是非自身 S-RNase,因此是 SI 功能所必需的。PiSSK1 与 PiSLF 的三个等位变体均不相互作用的发现与我们之前的发现一致,即 PiSLF 可能不在常规 SCF 复合物中。
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