A NODULE-SPECIFIC GENE FAMILY FROM ALNUS-GLUTINOSA ENCODES GLYCINE-RICH AND HISTIDINE-RICH PROTEINS EXPRESSED IN THE EARLY STAGES OF ACTINORHIZAL NODULE DEVELOPMENT
K. Pawlowski et al., A NODULE-SPECIFIC GENE FAMILY FROM ALNUS-GLUTINOSA ENCODES GLYCINE-RICH AND HISTIDINE-RICH PROTEINS EXPRESSED IN THE EARLY STAGES OF ACTINORHIZAL NODULE DEVELOPMENT, Molecular plant-microbe interactions, 10(5), 1997, pp. 656-664
Two cDNAs representing different members (agNt84 and ag164) of a gene
family encoding glycine- and histidine-rich proteins have been isolate
d from cDNA libraries from Alnus glutinosa root nodules. Expression of
the corresponding genes could only be detected in nodules, With in si
tu hybridization, the expression in nodules was found to occur in youn
g, infected cells of the prefixation zone (zone 2), The encoded protei
ns contain putative signal peptides for targeting to the endomembrane
system, sharing sequence similarity with signal peptides from plant gl
ycine-rich proteins, among them nodulin 24, a nodule-specific protein
from soybean, This similarity suggests that, analogous to nodulin-24,
proteins encoded by agNt84/ag164 may be located at the interface betwe
en the host plant membrane and the matrix surrounding the endosymbiont
, The 3' untranslated regions of the cDNAs contain unusual poly(AT)(n)
stretches that may play a role in the regulation of RNA stability. Th
e protein encoded by agNt84 cDNA was expressed in Escherichia coli as
a fusion with maltose-binding protein, and was shown to have the abili
ty to bind to a nickel-chelating resin, indicating that it may functio
n as a metal-binding protein.