RNAi Knock-Down of ENOD40s Leads to Significant Suppression of Nodule Formation in Lotus japonicus

doi:10.1093/pcp/pcj081

Plant and Cell Physiology Advance Access originally published online on July 2, 2006
Plant and Cell Physiology 2006 47(8):1102-1111; doi:10.1093/pcp/pcj081

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© The Author 2006. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oxfordjournals.org

RNAi Knock-Down of ENOD40s Leads to Significant Suppression of Nodule Formation in Lotus japonicus

Hirotaka Kumagai¹, Eri Kinoshita², Robert W. Ridge² and Hiroshi Kouchi¹^,*

¹ National Institute of Agrobiological Sciences, 2-1-2 Kannondai, Tsukuba, Ibaraki, 305-8602 Japan
² International Christian University, 3-10-2, Osawa, Mitaka, Tokyo, 181-8585 Japan

* Corresponding author: E-mail, kouchih{at}nias.affrc.go.jp; Fax, +81-29-838-8347.

ENOD40 is one of the most intriguing early nodulin genes thatis known to be induced very early in response to interactionof legume plants with symbiotic Rhizobium bacteria, but itsfunction in the nodulation process is still not known. Lotusjaponicus has two ENOD40 genes: LjENOD40-1 is abundantly inducedin very early stages of bacterial infection or Nod factor application,whereas LjENOD40-2 is abundantly expressed only in mature nodules.We generated transgenic lines of L. japonicus with an RNAi (RNAinterference) construct that expresses hairpin double-strandedRNA for LjENOD40-1 to induce sequence-specific RNA silencing.In the transgenic plants, expression of both LjENOD40-1 and-2 was significantly reduced, and no accumulation of ENOD40transcripts was detected upon Mesorhizobium loti inoculation.The transgenic plants exhibited very poor nodulation (only 0–2nodules per plant) and could not grow well without additionalnitrogen supply. Analysis of segregation in the T₂ progeny indicatedthat the suppression of nodulation is perfectly linked withthe presence of the transgene. Microscopic observation of theinfection process using lacZ-labeled M. loti, together withexpression analysis of infection-related nodulin genes, demonstratedthat ENOD40 knock-down did not inhibit the initiation of thebacterial infection process. In contrast, nodule primordiuminitiation and subsequent nodule development were significantlysuppressed in the transgenic plants. These results clearly indicatethat ENOD40 is required for nodule initiation and subsequentorganogenesis, but is not involved in early infection events.

(Received May 28, 2006; Accepted June 23, 2006)
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