Publications

2017

Heureux, A.M.C., Young, J.N., Whitney, S.M, Eason-Hubbard, M.R., Lee, R. B. Y., Sharwood, R., Rickaby, R.E.M. (2017) The Role of Rubisco kinetics and pyrenoid morphology in shaping the CCM of Haptophyte microalgae" Journal of Experimental Botany erx179

 

Young, J.N, Hopkinson, B.M. (2017) The potential for co-evolution of CO2 concentrating mechanisms and RubisCO in diatoms. Journal of Experimental Botany erx130

 

Young, J.N., Heureux, A.M.C., Sharwood, R.E., Rickaby, R.E.M., Whitney, S.M. (2017) Rubisco extraction and purification from diatoms. Bioprotocols 7(6): e2191

 

2016

Deming, J.W. and Young, J.N. (2016) The role of expolysaccharides in microbial adaptation to cold habitats, in Psychrophiles: From Biodiversity to Biotechnology, 2nd Edition Ed Rosa Margesin, Springer p259-284

 

Young, J.N., Heureux, A.M.C., Sharwood, R.E., Rickaby, R.E.M., Whitney, S.M. (2016) The variation in diatom Rubisco kinetics reveals diversity in the efficiency of their carbon concentrating mechanisms. Journal of Experimental Botany, 67(11): 3445-3456. doi:10.1093/jxb/erw163

* Commentary article: Hanson, D. (2016) Breaking the rules of Rubisco catalysis. Journal of Experimental Botany, 67(11): 3180-3182

 

2015

Young, J. N. & Morel, F. M. M. (2015) Biological oceanography: The CO2 switch in diatoms. Nature Climate Change, 5: 722-723, doi:10.1038/nclimate2691.

 

Young, J.N., Kranz, S., Goldman, J., Tortell, P.D., Morel, F.M.M. (2015) Under high CO2, Antarctic phytoplankton down-regulate their carbon concentrating mechanisms with no change in growth rates. Marine Ecology Progress Series 532: 13-28, doi: 10.3354/meps11336

 

Young, J.N., Goldman, J., Kranz, S., Tortell, P.D., Morel, F.M.M. (2015) Slow carboxylation of Rubisco constrains the rate of carbon fixation during Antarctic phytoplankton blooms. New Phytologist 205 (1): 172-181. DOI: 10.1111/nph.13021

 

Goldman, J., Kranz, S., Young, J.N., Tortell, P.D., Bender, M., Morel, F.M.M. (2015) Gross and net production during the spring bloom along the Western Antarctic Peninsula New Phytologist 205 (1): 182-191. DOI: 10.1111/nph.13125.

 

Kranz, S., Young, J.N., Goldman, J., Tortell, P.D., Bender, M., Morel, F.M.M. (2015) Low temperature reduces the energetic requirement for the CO2 concentrating mechanism in diatoms. New Phytologist 205 (1): 192-201. DOI: 10.1111/nph.12976

 

2014

Hopkinson, B., Young, J.N., Tanskik, A.L., Binder, B. J. (2014) The minimal CO2 concentrating mechanism of Prochlorococcus (MED4) is effective and efficient. Plant Physiology 166(4):2205-17

 

Tortell, P.D., Asher, E.C., Dacey, J.W.H. Kranz, S., Young, J.N., Goldman, J. Ducklow, H., Grzymski, J. Stanley, R., Morel, F.M.M. (2014) Metabolic balance of coastal Antarctic waters revealed by autonomous high frequency pCO2 and O2 /Ar measurements Geophysical Research Letters DOI: 10.1002/2014GL061266

 

2013

Young, J.N., Bruggeman, J. Rickaby, R.E.M., Erez, J., Conte, M. (2013) Evidence of changes in isotopic fractionation by phytoplankton between 1960 and 2010. Global Biogeochemical Cycles 27 DOI:10.1002/gbc.20045

 

Losh, J., Young, J.N. Morel, F.M (2013) Rubisco is a small fraction of total protein in marine phytoplankton, New Phytologist 198: 52-58

* Commentary article: Raven, J.A. (2013) Rubisco: still the most abundant protein of Earth?, New Phytologist 198(3): 1-3

2012

Young, J.N., Rickaby, R.E.M, Kapralov, M., Filatov, D. (2012) Adaptive signals in algal Rubisco reveal a history of ancient atmospheric carbon dioxide. Phil Trans Roy Soc B 267 (1588):483-492

 

2010

Rickaby, R.E.M., Henderiks, J., Young, J.N. (2010) Perturbing phytoplankton: a tale of isotopic fractionation in two coccolithophore species. Clim. Past Discuss. 6:771-785

 

2007

Onate-Sanchez, L., Anderson, J.P., Young, J.N., Singh, K.B. (2007) AtERF14, a member of the ERF family of transcription factors, plays a non-redundant role in plant defense. J. Plant Physiology 143:400-409