Nirmala Jayaveeramuthu, Brueggeman Robert, Maier Christina, Clay Christine, Rostoks Nils, Kannangara C Gamini, von Wettstein Diter, Steffenson Brian J, Kleinhofs Andris
Department of Crop and Soil Sciences, Washingston State University, Pullman, WA 99164, USA.
Proc Natl Acad Sci U S A. 2006 May 9;103(19):7518-23. doi: 10.1073/pnas.0602379103. Epub 2006 Apr 28.
The Rpg1 gene confers resistance to many pathotypes of the stem rust fungus Puccinia graminis f. sp. tritici and has protected barley from serious disease losses for over 60 years. Rpg1 encodes a constitutively expressed protein with two tandem kinase domains. Fractionation by differential centrifugation and aqueous two-phase separation of the microsome proteins located Rpg1 mainly in the cytosol but also in the plasma membrane and intracellular membranes. Recombinant Rpg1 autophosphorylates in vitro intramolecularly only serine and threonine amino acids with a preference for Mn(2+) cations and a K(m) of 0.15 and a V(max) of 0.47 nmol.min(-1).mg(-1) protein. The inability of wild-type Rpg1 to transphosphorylate a recombinant Rpg1 inactivated by site-directed mutation confirmed that Rpg1 autophosphorylation proceeds exclusively via an intramolecular mechanism. Site-directed mutagenesis of the two adjacent lysine residues in the ATP anchor of the two-kinase domains established that the first of the two tandem kinase domains is nonfunctional and that lysine 461 of the second domain is the catalytically active residue. Transgenic barley, expressing Rpg1 mutated in either the kinase 1 or 2 domains, were fully susceptible to P. graminis f. sp. tritici revealing requirement of both kinase domains for resistance. In planta-expressed Rpg1 mutant protein confirmed that mutation in domain 2, but not 1, rendered the protein incapable of autophosphorylation.
Rpg1基因赋予大麦对秆锈菌小麦专化型(Puccinia graminis f. sp. tritici)多种致病型的抗性,在过去60多年里保护大麦免受严重病害损失。Rpg1编码一种组成型表达的蛋白质,具有两个串联激酶结构域。通过差速离心和微体蛋白的双水相分离进行分级分离,结果表明Rpg1主要位于细胞质中,但也存在于质膜和内膜中。重组Rpg1在体外仅对丝氨酸和苏氨酸氨基酸进行分子内自磷酸化,偏好Mn(2+)阳离子,K(m)为0.15,V(max)为0.47 nmol·min(-1)·mg(-1)蛋白质。野生型Rpg1无法对通过定点突变失活的重组Rpg1进行转磷酸化,这证实了Rpg1自磷酸化仅通过分子内机制进行。对两个激酶结构域的ATP结合位点中相邻的两个赖氨酸残基进行定点诱变,结果表明两个串联激酶结构域中的第一个无功能,第二个结构域的赖氨酸461是催化活性残基。表达在激酶1或2结构域中发生突变的Rpg1的转基因大麦对小麦秆锈菌完全敏感,这表明两个激酶结构域对于抗性都是必需的。在植物中表达的Rpg1突变蛋白证实,结构域2而非结构域1中的突变使该蛋白无法进行自磷酸化。