Djordjevic Lab - Root architecture, root nodule formation, nitrogen fixation, regulatory peptides, plant development, Rhizobium

Developing root

Lab description

Sustainable food security is of utmost importance to the future of the planet. The root systems of plants play vital roles in the overall fitness and productivity of plants. The architecture of the root system is greatly influenced by nutrient availability and the environmental conditions they line in. Environmental conditions also influence the ability of certain plants (predominantly legumes) to engage in an agriculturally-important symbiosis with nitrogen fixing bacteria called rhizobia.  Rhizobia invade the root tissues and this results in the production of new organs, root nodules, which are capable of fixing substantial quantities of nitrogen which ultimately becomes bio-available in an ecologically-sustainable manner. Understanding the complex regulatory networks controlling root architecture and root nodule formation has the potential to address major issues threatening agricultural and ecological sustainability and human health. 

Recent work from our lab has identified new classes of secreted regulatory peptides which have hormone-like properties. The genes encoding these peptides are regulated by environmental stimuli and control important aspect of root and shoot growth and architecture as well as enhance root nodule formation in pasture legumes. Our main focus is to investigate how these peptides act in the model species Arabidopsis, Medicago and Brachypodium. We are also interested in how our work can be translated into crop species and their relatives, such as soybean, canola, rice and wheat, with a view to improving crop architecture and the ability of crops to react to stresses in more favourable ways.

Members

Leader

Michael Djordjevic

Michael Djordjevic
Associate Professor Michael Djordjevic obtained a Bachelor of Science with First Class Honours from the University of...

Honours Student

Occupational Trainee

PhD Student

Postdoctoral Scientist

Senior Technical Officer

Special Project Student

Technical Assistant

Visiting Fellow

Projects

Open to students

Publications

Selected publications

  • Delay C, Imin N, Djordjevic MA. (2013). CEP genes regulate root and shoot development in response to environmental cues and are specific to seed plants. J Experimental Botany 64: 5383-5394.
  • Imin N, Mohd-Radzman NA, Ogilvie HA, Djordjevic MA (2013). The peptide encoding gene CEP1 modulates lateral root and nodule numbers in Medicago truncatula.  J Experimental Botany 64: 5395-5409.
  • Bobay BG, diGennaro P, Scholl E, Imin N, Djordjevic MA, Bird, DM (2013) Solution NMR studies of the plant peptide hormone CEP inform function. FEBS Letters 587: 3979-3985.
  • Saur I, Oakes M, Djordjevic MA, Imin N (2011). Crosstalk between the nodulation signaling pathway and the autoregulation of nodulation in Medicago truncatula. New Phytologist. 190: 865-874.
  • James G.O., Hocart CH, Hillier W., Chen, H., Kordbacheh F., Price D and Djordjevic MA. (2010) Fatty Acid Profiling of Chlamydomonas reinhardtii under Nitrogen Deprivation. Bioresearch Biotechnology. 102: 3343-3351
  • Hueber SD, Weiller GF, Djordjevic MA, Frickey T. (2010). Improving Hox Protein Classification across the Major Model Organisms. PLOS ONE 5: e10820
  • Buer CS, Djordjevic MA. (2009) Architectural phenotypes in the transparent testa mutants of Arabidopsis thaliana. J Experimental Botany 60 : 751-763.
  • Miyahara A, Hirani TA, Oakes M Kereszt A, Kobe B, Djordjevic M A., Gresshoff PM. (2008) Soybean nodule autoregulation receptor kinase phosphorylates two kinase-associated protein phosphatases in vitro. Journal of Biological Chemistry: 283: 25381-253
  • Djordjevic M.A., Oakes M.., Hocart C., Li, D. and Gresshoff, P.M. (2007). Analysis of secreted proteins present in Glycine max xylem sap. Journal of Proteome Research. 6: 3771-3779. 
  • Buer CS, Muday GK and Djordjevic M.A. (2007). Flavonoids are differentially taken up, converted to downstream products, and transported long distances in Arabidopsis. Plant Physiology. 145 : 478-490. 
  • Djordjevic M.A., Chen H-C, Natera, SHA, van Noorden G., Menzel, C, Taylor, S., Geiger O, Weiller, G. (2003). A global analysis of protein expression profiles in Sinorhizobium meliloti: Discovery of new genes for nodule occupancy and stress adaptation. Molecular Plant-Microbe Interactions.16: 508-524. 
  • Mathesius U, Schlaman HRM, Spaink HP, Sautter C, Rolfe BG and Djordjevic MA (1998) Auxin transport inhibition precedes nodule initiation in white clover roots and is regulated by flavonoids and derivatives of chitin oligosaccharides. Plant Journal. 14: 23-34 
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All publications

News & events

News

UNA-RSB
02
Feb
2015
Congratulations to the six RSB members who have been promoted to Level E Professor as of 1 January 2015.
ARC logo
17
Nov
2014
The School has done very well with regards to Discovery projects and DECRA fellowships. Congratulations to all successful applicants.
ARC logo
03
Nov
2011
The Research School of Biology achieved a 52% success rate in the recently-announced ARC Discovery Grant round, as well as significant success in the ARC Linkage and LIEF Grant schemes.

Highlights

Nodulation in Legumes

Legumes are a large family of flowering plants that are economically important due to their wide variety of uses in agriculture, most notably as a staple food source.

Updated:  21 September 2017/Responsible Officer:  Director RSB/Page Contact:  Webmaster RSB