Journal
MOLECULAR PLANT-MICROBE INTERACTIONS
Volume 22, Issue 11, Pages 1466-1475Publisher
AMER PHYTOPATHOLOGICAL SOC
DOI: 10.1094/MPMI-22-11-1466
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Funding
- University Grants Commission [UGC/191/UPE/07]
- Department of Science and Technology [SR/SO/BB-24/2008]
- Council of Scientific and Industrial Research, India [9/28(638)2004-EMRI]
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In legume-rhizobia symbiosis, Ca2+/calmodulin-dependent protein kinase (CCaMK) is essential for rhizobial invasion through infection threads in the epidermis and nodule organogenesis in the cortex. Though CCaMK is actively transcribed in the infected zone of nodules, its role in the later stages of nodule development remain elusive because of the epidermal arrest of loss-of-function mutants. In Aeschynomeneae legumes such as Arachis hypogea, rhizobia directly access the cortex, where nodule organogenesis as well as endosymbiont dissemination take place by multiplication of infected cortical cells. We characterized CCaMK (GI:195542474) from A. hypogea and downregulated the kinase through RNA interference (RNAi) to understand its role during organogenesis of its characteristic aeschynomenoid nodules. In CCaMK downregulated plants, the inception of nodules was delayed by approximately 4 weeks and nodulation capacity was decreased (>90%). The infected zones of the RNA interference nodules were scattered with uninfected or binucleated cells as opposed to the homogeneous infection zone in empty-vector-transformed nodules. Symbiosomes in RNAi nodules were pleomorphic with diverse geometrical shapes or arrested during division in the final stages of their fission as opposed to uniform-sized, spherical symbiosomes in empty-vector-transformed nodules. Together, our results reveal CCaMK to be essential for development of functional aeschynomenoid nodules, with a critical role in rhizobial dissemination during nodule organogenesis.
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