Identification of multiple highly similar XIP-type xylanase inhibitor genes in hexaploid wheat

In hexaploid wheat, Xip-I is the only XIP-type xylanase inhibitor gene whose expression and function have been characterized in detail. Here we demonstrate the existence of new XIP-type genes with the identification of Xip-R1 and Xip-R2 in the root cDNAs. Southern blot analysis with the Xip-R1 probe revealed that XIP-type genes comprised a significantly greater gene family than previously speculated on in studies with the Xip-I probe. The transcript level of Xip-R genes was increased upon an inoculation with Erysiphe graminis in the leaves, but not with Fusarium graminearum in the spikelets. RT-PCR with the RNA samples followed by extensive sequencing of the cloned amplified products revealed the presence of 12 highly similar Xip-R genes. Among these genes, Xip-R1 was the only predominant Xip-R family member induced to express in response to E. graminis. XIP-R1 was located in the apoplastic space and inhibited family 11 xylanases, but the protein did not show chitinolytic activity. These results suggest that hexaploid wheat has a large family of XIPs in its genome, but that only some of them are expressed for plant defense in limited tissues.