TY - JOUR
T1 - Quantitative proteomics to study the response of wheat to contrasting fertilisation regimes
AU - Tétard-Jones, Catherine
AU - Shotton, Peter
AU - Rempelos, Leonidas
AU - Cooper, Julia
AU - Eyre, Mick
AU - Orr, Caroline
AU - Leifert, Carlo
AU - Gatehouse, Angharad
N1 - Published online November 2012.
PY - 2013/2
Y1 - 2013/2
N2 - Negative environmental impacts from mineral fertilisers and pesticides used in conventional cropping have raised concern over the sustainability of arable crop production. Organic cropping uses alternatives that avoid many of these negative environmental effects; however, crop yields can be significantly reduced, possibly due to a lower proportion of plant-available nutrients. To gain insights into the molecular effects of organic compared to conventional cropping systems on plant utilisation of nutrients, we used proteomics to analyse winter wheat (Triticum aestivum). Our aim was to investigate the effects of contrasting fertility management and crop protection regimes in organic and conventional cropping systems on the wheat flag leaf proteome and the association between the proteome and physiological traits. Wheat flag leaves were flash-frozen, lyophilised and milled prior to protein extraction (TCA/acetone) and analysed using 2D gel electrophoresis and MALDI-TOF MS. The abundance of 111 protein spots varied significantly between fertilisation regimes. Flag leaf N and P composition were significant drivers of differences in protein spot abundance, including major proteins involved in nitrogen remobilisation, photosynthesis, metabolism and stress response. These results indicate that molecular-based mechanisms are involved in the effect of contrasting cropping systems on nutrient utilisation and wheat grain yield. Using a functional genomics approach, we were able to identify proteins that are linked to causal genes, enabling the potential development of functional molecular markers for crop improvement in nutrient use efficiency.
AB - Negative environmental impacts from mineral fertilisers and pesticides used in conventional cropping have raised concern over the sustainability of arable crop production. Organic cropping uses alternatives that avoid many of these negative environmental effects; however, crop yields can be significantly reduced, possibly due to a lower proportion of plant-available nutrients. To gain insights into the molecular effects of organic compared to conventional cropping systems on plant utilisation of nutrients, we used proteomics to analyse winter wheat (Triticum aestivum). Our aim was to investigate the effects of contrasting fertility management and crop protection regimes in organic and conventional cropping systems on the wheat flag leaf proteome and the association between the proteome and physiological traits. Wheat flag leaves were flash-frozen, lyophilised and milled prior to protein extraction (TCA/acetone) and analysed using 2D gel electrophoresis and MALDI-TOF MS. The abundance of 111 protein spots varied significantly between fertilisation regimes. Flag leaf N and P composition were significant drivers of differences in protein spot abundance, including major proteins involved in nitrogen remobilisation, photosynthesis, metabolism and stress response. These results indicate that molecular-based mechanisms are involved in the effect of contrasting cropping systems on nutrient utilisation and wheat grain yield. Using a functional genomics approach, we were able to identify proteins that are linked to causal genes, enabling the potential development of functional molecular markers for crop improvement in nutrient use efficiency.
KW - Nutrient use efficiency
KW - fertilisation regimes
KW - proteomics
KW - functional molecular markers
KW - winter wheat
KW - RuBisCO degradation
KW - Glutamine synthetase
U2 - 10.1007/s11032-012-9796-6
DO - 10.1007/s11032-012-9796-6
M3 - Article
SN - 1380-3743
VL - 31
SP - 379
EP - 393
JO - Molecular Breeding
JF - Molecular Breeding
IS - 2
ER -