Zolman Bethany K, Monroe-Augustus Melanie, Silva Illeana D, Bartel Bonnie
Department of Biochemistry and Cell Biology, Rice University, Houston, Texas 77005, USA.
Plant Cell. 2005 Dec;17(12):3422-35. doi: 10.1105/tpc.105.035691. Epub 2005 Nov 4.
Peroxins are genetically defined as proteins necessary for peroxisome biogenesis. By screening for reduced response to indole-3-butyric acid, which is metabolized to active auxin in peroxisomes, we isolated an Arabidopsis thaliana peroxin4 (pex4) mutant. This mutant displays sucrose-dependent seedling development and reduced lateral root production, characteristics of plant peroxisome malfunction. We used yeast two-hybrid analysis to determine that PEX4, an apparent ubiquitin-conjugating enzyme, interacts with a previously unidentified Arabidopsis protein, PEX22. A pex4 pex22 double mutant enhanced pex4 defects, confirming that PEX22 is a peroxin. Expression of both Arabidopsis genes together complemented yeast pex4 or pex22 mutant defects, whereas expression of either gene individually failed to rescue the corresponding yeast mutant. Therefore, it is likely that the Arabidopsis proteins can function similarly to the yeast PEX4-PEX22 complex, with PEX4 ubiquitinating substrates and PEX22 tethering PEX4 to the peroxisome. However, the severe sucrose dependence of the pex4 pex22 mutant is not accompanied by correspondingly strong defects in peroxisomal matrix protein import, suggesting that this peroxin pair may have novel plant targets in addition to those important in fungi. Isocitrate lyase is stabilized in pex4 pex22, indicating that PEX4 and PEX22 may be important during the remodeling of peroxisome matrix contents as glyoxysomes transition to leaf peroxisomes.
过氧化物酶体生物发生因子在遗传学上被定义为过氧化物酶体生物发生所必需的蛋白质。通过筛选对吲哚 - 3 - 丁酸反应减弱的突变体(吲哚 - 3 - 丁酸在过氧化物酶体中代谢为活性生长素),我们分离出了拟南芥过氧化物酶体生物发生因子4(pex4)突变体。该突变体表现出蔗糖依赖性的幼苗发育以及侧根产生减少,这些都是植物过氧化物酶体功能异常的特征。我们利用酵母双杂交分析确定,PEX4(一种明显的泛素结合酶)与一种先前未鉴定的拟南芥蛋白PEX22相互作用。pex4 pex22双突变体增强了pex4的缺陷,证实PEX22是一种过氧化物酶体生物发生因子。拟南芥这两个基因共同表达可互补酵母pex4或pex22突变体的缺陷,而单个基因表达则无法拯救相应的酵母突变体。因此,拟南芥中的这两种蛋白可能与酵母PEX4 - PEX22复合物具有相似功能,其中PEX4使底物泛素化,PEX22将PEX4拴系到过氧化物酶体上。然而,pex4 pex22突变体对蔗糖的严重依赖性并未伴随着过氧化物酶体基质蛋白导入相应强烈的缺陷,这表明除了在真菌中重要的那些靶点外,这一对过氧化物酶体生物发生因子可能还有新的植物靶点。异柠檬酸裂解酶在pex4 pex22中稳定存在,这表明在乙醛酸循环体向叶片过氧化物酶体转变过程中,当进行过氧化物酶体基质成分重塑时,PEX4和PEX22可能很重要。