Professor Noni Franklin-Tong

Professor Noni Franklin-Tong

School of Biosciences
Emeritus Professor of Plant Cell Biology
Research Fellow

Contact details

School of Biosciences
University of Birmingham
B15 2TT

Noni Franklin-Tong’s research focuses on the cellular mechanisms involved in the model cell-cell recognition system of self-incompatibility (SI) in Papaver rhoeas (the Field Poppy). She is recognized at an international level for her work in the field of plant cell biology. Specifically she has made major contributions to the field of self-incompatibility, a field that has high importance in relation to the future focus on food security. Her research has had a world-wide impact in the broader fields of plant cell signalling, the plant cytoskeleton and programmed cell death in plants. 

A breakthrough in Noni's research was recently published in the journal Science - 5 November 2015

Her work includes several publications in Nature, has been highlighted in News & Views and “Editor’s Choice” in Nature and in “Leading Edge” in Cell. Noni is currently Secretary General for the International Association of Sexual Plant Reproduction Research (IASPRR) and has served on the Society for Experimental Biology (SEB) Plant Biology Committee for more than 10 years and has also served on Council. She is currently on the Editorial Board of Journal of Experimental Botany, and Sexual Plant Reproduction, and is a Review Editor for Frontiers in Plant Physiology.

Noni has a long-term commitment to enthusing children about science education and has been involved in providing the general public with a broader understanding of science through a number of activities. She was one of the original BBSRC Regional Coordinators of the Schools Liaison Scheme.


BSc (Hons) Biological Sciences (University of Birmingham) 1982

PhD Department of Genetics (University of Birmingham) 1986


Noni Franklin-Tong was born in London, U.K. She received her BSc in Biological Sciences and PhD in Genetics from the University of Birmingham.Most of her career has been based at Birmingham, though she has worked for brief periods of time in Umeå, Sweden, ICMB, University of Edinburgh and UMass, Amherst, USA. She obtained a BBSRC Advanced Research Fellowship in 1992, was appointed to a lectureship in 1997, and a Chair in Plant Cell Biology (2004-2014). Following breast cancer she is partially retired, working part-time research-only (2014-).


Research Theme within School of Biosciences: Plant Genetics and Cell Biology

Targets and mechanisms involved in the self-incompatibility response in Papaver rhoeas pollen

Sexual reproduction in higher plants involves pollination, involving specific interactions between pollen and pistil. A key mechanism to prevent inbreeding is self-incompatibility (SI), which is a controlled by a single, multi-allelic S-locus. Incompatible ("self") pollen is rejected and compatible ("non-self") pollen is allowed to fertilize the plant.

My lab is investigating the signalling cascades, targets and mechanisms regulating pollen tube tip growth inhibition induced by SI in Papaver. The "self" interaction triggers a Ca2+-dependent signalling network, resulting in incompatible pollen tube tip growth being inhibited and programmed cell death being induced. Our long-term goal is to establish how the different components integrate and interact in what has turned out to be a complex signalling network. Currently research falls into several areas:

1. Investigations into programmed cell death in the SI response.

Programmed cell death (PCD) is an important mechanism responsible for the controlled death of targeted cells in animal and plant cells. We demonstrated that PCD is triggered in incompatible pollen and identified several caspase-like activities (a VEIDase and a LEVDase) that are activated by an incompatible SI response. We identified increases in reactive oxygen species (ROS) and nitric oxide (NO) during SI-PCD and are currently investigating their role in incompatible pollen using a mass spectrometry approach. We are exploring further mechanisms involved in PCD with Dr Maurice Bosch (IBERS).


2. Analysis of phosphorylation of soluble inorganic pyrophosphatases (sPPases)

We previously identified soluble inorganic pyrophosphatases (sPPases) as a novel target for phosphorylation, as Pr-p26.1a/b was phosphorylated after SI.We are analysing the phosphorylation sites on Pr-p26.1a/b using mass spectrometry and using site-directed mutagenesis to attempt to establish those involved in sPPase phospho-regulation. We are also analysing the CDPK(s) involved in SI-induced phosphorylation of Pr-p26.1a/b.

3. Integrating signals and targets involved in mediating SI-PCD in incompatible pollen It has become evident that many of the PCD events are intertwined. Current focus is on understanding the mechanisms involved. The long-term goal is to establish how the different components integrate and interact in what has turned out to be a complex signalling network. 

Integrating signals and targets involved in mediating SI-PCD in incompatible pollen

4. Investigating the functionality of Papaver S-determinants in heterologous systems

We recently showed that the pollen S-determinant, PrpS could be expressed in compatible Arabidopsis thaliana, a self-compatible model plant. Exposing transgenic A. thaliana pollen to recombinant Papaver PrsS protein triggered remarkably similar responses to those observed in incompatible Papaver pollen. This demonstrated that PrpS is functional in a species with no SI system that diverged ~140 million years ago, and suggests that the Papaver SI system uses cellular targets that are, perhaps, common to all eudicots and that endogenous signaling components can be recruited to elicit a response that most likely never operated in this species. We are currently exploring if the Papaver S-determinants are functional in other plant species/genera and also if they work in other cell types.ction of F1 hybrids. 


Lin, Z., Eaves, D.J., Sanchez-Moran, E., Franklin, F.C.H., Franklin-Tong, V.E. (2015). The Papaver rhoeas S-determinants confer self-incompatibility to Arabidopsis thaliana in planta. Science 350 (issue 6261), 684-687. Doi: 10.1126/science.aad2983
Abstract - Reprint - Full text

Katie A. Wilkins, Maurice Bosch, Tamanna Haque, Nianjun Teng, Natalie Poulter and Vernonica E. Franklin-Tong (2015). Self-Incompatibility-induced Programmed Cell Death in Papaver pollen involves dramatic acidification of the incompatible pollen tube cytosol. Plant Physiology January 2015 pp.114.252742 doi: http:/​/​dx.​doi.​org/​10.​1104/​pp.​114.​252742

Wilkins KA, Poulter NS, Franklin-Tong VE (2014) Taking one for the team: self -recognition and cell suicide in pollen.J Exp Bot. 65 : 1331-1342.

Eaves DJ, Flores-Ortiz C, Haque T, Lin Z, Teng N, Franklin-Tong VE. (2014) Self-Incompatibility in Papaver: Advances in integrating the signalling network. Biochermical Transactions 42:370-6. doi: 10.1042/BST20130248

Barend H. J. de Graaf, Sabina Vatovec, Javier Andrés Juárez-Díaz, Lijun Chai, Kreepa Kooblall, Katie A. Wilkins, Huawen Zou, F. Christopher H. Franklin and Vernonica E. Franklin-Tong. The Papaver self-incompatibility pollen S-determinant, PrpS, functions in Arabidopsis thaliana. Current Biology 22 (2), 154-159. doi:10.1016/j.cub.2011.12.006

Katie A. Wilkins, James Bancroft, Maurice Bosch, Jennifer Ings, Nicholas Smirnoff and Vernonica E. Franklin-Tong (2011). ROS and NO mediate actin reorganization and programmed cell death in the Self-Incompatibility response of Papaver. Plant Physiology 156, 404-416. DOI: 10.1104/pp.110.167510.

Smertenko, A. & Franklin-Tong, VE (2011). Organization & Regulation of the cytoskeleton in plant programmed cell death. Cell Death & Differentiation 18, 1263-1270. doi:10.1038/cdd.2011.39

Wouter G. van Doorn, Eric P. Beers, Jeffery L. Dangl, Vernonica E. Franklin-Tong, Hiroo Fukuda, Patrick Gallois, Jean Greenberg, Ikuko Hara-Nishimura, Alan M. Jones, Maki Kawai-Yamada, Eric Lam11, John Mundy12, Luis Mur, Morten Petersen, Andrei Smertenko, Michael Taliansky, Frank van Breusegem16, Thomas Wolpert, Ernst Woltering, Boris Zhivotovsky, Peter V. Bozhkov(2011). Morphological classification of plant cell deaths. Cell Death & Differentiation 18, 8, 1241-1246.doi:10.1038/cdd.2011.36

Noni Franklin-Tong (2011). Self-fertilization: article in: Brenner’s Encyclopedia of Genetics.

V.E. Franklin-Tong (ed.) Self-Incompatibility in Flowering Plants – Evolution, Diversity, and MechanismsPubl. Springer-Verlag Berlin Heidelberg 2008. This is the first monograph on this topic for 30 years.

Natalie S. Poulter, Maurice Bosch, &Vernonica E. Franklin-Tong (2011) Proteins implicated in mediating Self-Incompatibility-induced alterations to the actin cytoskeleton of Papaver pollen. Annals of Botany: doi:10.1093/aob/mcr022.

Juyou Wu, Su Wang, Yuchun Gu, Shaoling Zhang, Stephen J Publicover and V. E. Franklin-Tong (2011) Self-incompatibility in Papaver rhoeasactivates non-specific cation conductance(s) permeable to Ca2+and K+. Plant Physiology 155: 963-973.

Maurice Bosch, Natalie S. Poulter, Ruth M. Perry, Katie Wilkins and V. E. Franklin-Tong (2010). Characterization of a legumain/vacuolar processing enzyme and YVADase activity in Papaver pollen. Plant Molecular Biology 74 (4), 381-393. DOI: 10.1007/s11103-010-9681-9.

Natalie S. Poulter, Christopher J. Staiger, Joshua Z. Rappoport, and Vernonica E. Franklin-Tong (2010). Actin-Binding Proteins Implicated in the Formation of the Punctate Actin Foci Stimulated by the Self-Incompatibility Response in Papaver. Plant Physiol. 152: 1274-1283.

Wheeler, M.J., de Graaf, B.H.J., Hadjiosif, N.E., Perry, R.M., Poulter, N.S., Osman, K., Vatovec, S., Harper, A., Franklin, F.C.H & Franklin-Tong, V.E. (2009). Identification of the pollen self-incompatibility determinant in Papaver rhoeas. Nature 459, 992-995.

Poulter, N. S., Vatovec, S. and Franklin-Tong VE. (2008). Microtubules Are a Target for Self-Incompatibility Signaling in Papaver Pollen. Plant Physiol. 146, 1358-1367.

Bosch M. & Franklin-Tong VE. (2007). Temporal and spatial activation of caspase-like enzymes induced by self-incompatibility in Papaver pollen. Proc. Natl. Acad. Sci. USA. 104 (46) 18327-18332. 

S. Li, J. Samaj & V. E. Franklin-Tong. (2007). A MAP kinase signals to Programmed Cell Death induced by Self-Incompatibility in Papaver pollen. Plant Physiol 145, 236-245.

B.H.J. de Graaf, J.J. Rudd, M. J. Wheeler, R.M. Perry, E. M. Bell, K. Osman, F. C.H. Franklin & V. E. Franklin-Tong (2006). Self-incompatibility in Papavertargets soluble inorganic pyrophosphatases in pollen. Nature 444, 490-493. Selected for "Editor’s Choice" in Nature.

Thomas, S. Huang , S. Li, C.J. Staiger and V.E.  Franklin-Tong. (2006). Actin depolymerization is sufficient to induce programmed cell death in self-incompatible pollen. S.G. Journal of Cell Biology 174, 221-229. This article was selected for a highlight JCB "In This Issue" section and by Cell in a "Leading Edge"; Aug 11th 2006 issue of Cell).

Huang, S., Blanchoin, L., Chaudhry, F., Franklin-Tong, V.E. and Staiger, C.J. (2004) A gelsolin-like protein from Papaver rhoeaspollen (PrABP80) stimulates calcium-regulated severing and depolymerization of actin filaments. Journal of Biological Chemistry 279, 23364-23375.

Thomas, S.G. & Franklin-Tong, VE. (2004) Programmed Cell Death is triggered by self-incompatibility in Papaver pollen. Nature 429, 305-309.

View all publications in research portal


Sexual reproduction in higher plants; preventing inbreeding through self-incompatibility; the mechanisms, including programmed cell death that tells incompatible pollen to commit suicide