RLP

Receptor Like Proteins consists of a leucine-rich receptor-like repeat, a transmembrane region of ~25 AA, and a short cytoplasmic region, with no kinase domain. The extracellular leucine rich repeat (eLRR) shows high homology with the RLKs eLRR. RLPs can recognise avirulence genes in a indirect way like Cf2 that recognise the avirulence gene Avr2 through the cysteine protease Rcr3. There are also some hypotheses about a direct recognition, but this has not yet been demonstrated. RLPs lack an obvious signalling domain, suggesting that defence response activation is mediated through interactions with other partner proteins. Activation of RLP typically results in a rapid accumulation of active oxygen species (AOS), changes in cellular ion fluxes, activation of protein kinase cascades, changes in gene expression and, possibly, targeted protein degradation.

List of Genes from RLP class

PRGdb IDGene nameTypeSpecies
PRGDB2778173TraesTSP2A01G073300putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778193TraesTSP3A01G425700putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778202TraesTSP6D01G099100putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778208TraesTSP4B01G258600putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778221TraesTSP6B01G100300putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778232TraesTSP4A01G519800putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778240TraesTSP2B01G091000putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778247TraesTSP3A01G039500putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778253TraesTSP3D01G356200putativeTriticum spelta (Ensembl Plants release-51)
PRGDB2778266TraesTSP6D01G054800putativeTriticum spelta (Ensembl Plants release-51)