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1.
J Agric Food Chem ; 66(4): 831-841, 2018 Jan 31.
Article in English | MEDLINE | ID: mdl-29257861

ABSTRACT

The reduction of the environmental footprint of crop production without compromising crop yield and their nutritional value is a key goal for improving the sustainability of agriculture. In 2009, the Balruddery Farm Platform was established at The James Hutton Institute as a long-term experimental platform for cross-disciplinary research of crops using two agricultural ecosystems. Crops representative of UK agriculture were grown under conventional and integrated management systems and analyzed for their water-soluble vitamin content. Integrated management, when compared with the conventional system, had only minor effects on water-soluble vitamin content, where significantly higher differences were seen for the conventional management practice on the levels of thiamine in field beans (p < 0.01), Spring barley (p < 0.05), and Winter wheat (p < 0.05), and for nicotinic acid in Spring barley (p < 0.05). However, for all crops, variety and year differences were of greater importance. These results indicate that the integrated management system described in this study does not significantly affect the water-soluble vitamin content of the crops analyzed here.


Subject(s)
Agriculture/methods , Crops, Agricultural/chemistry , Edible Grain/chemistry , Solanum tuberosum/chemistry , Vicia faba/chemistry , Vitamins/analysis , Ascorbic Acid/analysis , Hordeum/chemistry , Niacin/analysis , Nutritive Value , Seasons , Thiamine/analysis , Triticum/chemistry , United Kingdom , Vitamin B Complex/analysis
2.
Regul Toxicol Pharmacol ; 64(1): 177-85, 2012 Oct.
Article in English | MEDLINE | ID: mdl-22796474

ABSTRACT

Steroidal glycoalkaloids (GAs) are toxins, produced by plants of the Solanaceae family. The potato plant (Solanum tuberosum L.) and its tubers predominantly contain the two GAs α-chaconine and α-solanine. These compounds are believed to act in synergy, and the degree of toxicity may therefore depend on their ratio in the potato. To determine the influence of α-solanine: α-chaconine ratio in potatoes on toxicity, a GM potato line (SGT 9-2) with reduced α-solanine content, and the parental control line (Desirée wild-type) having a traditional α-solanine: α-chaconine ratio were (1) studied for compositional similarity by analysing for a range of potato constituents, and (2) used in a 90-day feeding trial with the Syrian Golden hamster to study differential toxicity. The animal feeding study used diets with up to 60% freeze-dried potato powder from either line. Whilst data indicated some compositional differences between the GM line and its wildtype control these did not raise concerns related to nutritional value or safety. Results of the feeding trials showed a low number of significant differences between potato lines with different α-solanine: α-chaconine ratio but none were considered to raise safety concerns with regard to human (or animal) consumption.


Subject(s)
Food, Genetically Modified/toxicity , Plants, Genetically Modified/toxicity , Solanine/toxicity , Solanum tuberosum/toxicity , Animal Feed , Animals , Blood Chemical Analysis , Consumer Product Safety , Cricetinae , Dose-Response Relationship, Drug , Female , Freeze Drying , Hematologic Tests , Mesocricetus , Nutritive Value , Plants, Genetically Modified/chemistry , Solanine/analogs & derivatives , Solanine/analysis , Solanum tuberosum/chemistry , Solanum tuberosum/genetics , Toxicity Tests
3.
J Agric Food Chem ; 60(9): 2090-101, 2012 Mar 07.
Article in English | MEDLINE | ID: mdl-22300527

ABSTRACT

In the European integrated research project SAFEFOODS, one of the aims was to further establish the potential of transcriptomics for the assessment of differences between plant varieties grown under different environmental conditions. Making use of the knowledge of cellular processes and interactions is one of the ways to obtain a better understanding of the differences found with transcriptomics. For the present study the potato genotype Santé was grown under both organic and conventional fertilizer, and each combined with either organic or conventional crop protection, giving four different treatments. Samples were derived from the European project QualityLowInputFood (QLIF). Microarray data were analyzed using different statistical tools (multivariate, principal components analysis (PCA); univariate, analysis of variance (ANOVA)) and with pathway analysis (hypergeometric distribution (HGD) and gene set enrichment analysis (GSEA)). Several biological processes were implicated as a result of the different treatments of the plants. Most obvious were the lipoxygenase pathway, with higher expression in organic fertilizer and lower expression in organic crop protection; the starch synthase pathway, with higher expression in both organic crop protection and fertilizer; and the biotic stress pathway, with higher expression in organic fertilizer. This study confirmed that gene expression profiling in combination with pathway analysis can identify and characterize differences between plants grown under different environmental conditions.


Subject(s)
Food, Organic , Plant Tubers/genetics , Solanum tuberosum/genetics , Transcriptome , Analysis of Variance , Fertilizers , Gene Expression Profiling , Microarray Analysis , Organic Agriculture , RNA, Plant/analysis
4.
Regul Toxicol Pharmacol ; 58(3 Suppl): S54-61, 2010 Dec.
Article in English | MEDLINE | ID: mdl-20627114

ABSTRACT

"Omics" technologies provide coverage of gene, protein and metabolite analysis that is unsurpassed compared with traditional targeted approaches. There are a growing number of examples indicating that profiling approaches can be used to expose significant sources of variation in the composition of crop and model plants caused by genetic background, breeding method, growing environment (site, season), genotype × environment interactions and crop cultural practices to name but a few. Whilst breeders have long been aware of such variation from tried and tested targeted analytical approaches, the broad-scale, so called "unbiased" analysis of the metabolome now possible, offers a major upside to our understanding of the true extent of variation in a plethora of metabolites relevant to human and animal health and nutrition. Metabolomics is helping to provide targets for plant breeding by linking gene expression, and allelic variation to variation in metabolite complement (functional genomics), and is also being deployed to better assess the potential impacts of climate change and reduced input agricultural systems on crop composition. This review will provide examples of the factors driving variation in the metabolomes of crop species.


Subject(s)
Crops, Agricultural/metabolism , Metabolomics/methods , Plants, Genetically Modified/metabolism , Animals , Climate Change , Crops, Agricultural/genetics , Gene Expression Profiling/methods , Gene Expression Regulation, Plant , Genome, Plant , Humans , Plants, Genetically Modified/genetics
5.
J Agric Food Chem ; 57(4): 1612-23, 2009 Feb 25.
Article in English | MEDLINE | ID: mdl-19173602

ABSTRACT

The use of profiling techniques such as transcriptomics, proteomics, and metabolomics has been proposed to improve the detection of side effects of plant breeding processes. This paper describes the construction of a food safety-oriented potato cDNA microarray (FSPM). Microarray analysis was performed on a well-defined set of tuber samples of two different potato varieties, grown under different, well-recorded environmental conditions. Data were analyzed to assess the potential of transcriptomics to detect differences in gene expression due to genetic differences or environmental conditions. The most pronounced differences were found between the varieties Sante and Lady Balfour, whereas differences due to growth conditions were less significant. Transcriptomics results were confirmed by quantitative PCR. Furthermore, the bandwidth of natural variation of gene expression was explored to facilitate biological and/or toxicological evaluation in future assessments.


Subject(s)
Agriculture/methods , Gene Expression Profiling , Plant Tubers/genetics , Solanum tuberosum/genetics , Breeding , DNA, Plant/analysis , Environment , Gene Expression , Oligonucleotide Array Sequence Analysis , Polymerase Chain Reaction , Species Specificity
6.
J Agric Food Chem ; 56(21): 10280-91, 2008 Nov 12.
Article in English | MEDLINE | ID: mdl-18937493

ABSTRACT

Phytochemical diversity with respect to a range of polar (including amino acids, organic acids, sugars, and sugar alcohols) and nonpolar (including fatty acids, alkanols, and sterols) metabolites was examined within tubers from a total of 29 genetically diverse potato cultivars and Chilean landraces using a metabolomics approach by gas chromatography-mass spectrometry. From principal component analysis of the polar and nonpolar metabolite data there was insufficient variation to differentiate the majority of cultivars and landraces. Analysis of all polar metabolite profiles revealed separation of two cultivars (Glenna and Morag) from the other cultivars and landraces and a separate cluster of one landrace line, largely due to higher levels of sugars. Pentland Javelin was distinct in containing high levels of many amino acids. The two Solanum tuberosum group phureja cultivars (Inca Sun and Mayan Gold) were not particularly similar and were not separated from the S. tuberosum group tuberosum cultivars. Analysis of the nonpolar metabolite data revealed partial separation of two landrace lines and, on the basis of some minor fatty acids, Mayan Gold was distinct. The differences in metabolite profiles are considered in terms of the taxonomy and breeding history of the cultivars and possible influences from other factors such as developmental stage of the tuber. With a view to exploring biosynthetic links between metabolites, a pairwise correlation analysis was performed on all metabolites. The significance of high correlations between many amino acids and between several nonpolar metabolites is discussed.


Subject(s)
Metabolomics , Plant Tubers/metabolism , Solanum tuberosum/metabolism , Amino Acids/chemistry , Amino Acids/metabolism , Carbohydrate Metabolism , Fatty Acids/chemistry , Fatty Acids/metabolism , Gas Chromatography-Mass Spectrometry , Plant Tubers/chemistry , Solanum tuberosum/chemistry , Solanum tuberosum/classification
7.
Proteomics ; 7(4): 597-604, 2007 Feb.
Article in English | MEDLINE | ID: mdl-17309105

ABSTRACT

A range of studies have compared the level of nutritionally relevant compounds in crops from organic and nonorganic farming systems, but there is very limited information on the effect of farming systems and their key components on the protein composition of plants. We addressed this gap by quantifying the effects of different farming systems and key components of such systems on the protein profiles of potato tubers. Tuber samples were produced in the Nafferton factorial systems study, a group of long-term, replicated factorial field experiments designed to identify and quantify the effect of fertility management methods, crop protection practices and rotational designs used in organic, low input and conventional production systems. Protein profiles were determined by 2-DE and subsequent protein identification by HPLC-ESI-MS/MS. Principal component analysis of 2-DE data showed that only fertility management practices (organic matter vs. mineral fertiliser based) had a significant effect on protein composition. Quantitative differences were detected in 160 of the 1100 tuber proteins separated by 2-DE. Proteins identified by MS are involved in protein synthesis and turnover, carbon and energy metabolism and defence responses, suggesting that organic fertilisation leads to an increased stress response in potato tubers.


Subject(s)
Agriculture/methods , Plant Proteins/analysis , Plant Tubers/metabolism , Proteome/metabolism , Solanum tuberosum/metabolism , Crops, Agricultural/chemistry , Crops, Agricultural/metabolism , Electrophoresis, Gel, Two-Dimensional , Nitrogen/analysis , Phosphorus/analysis , Plant Tubers/chemistry , Potassium/analysis , Solanum tuberosum/chemistry , Spectrometry, Mass, Electrospray Ionization , Tandem Mass Spectrometry
8.
Phytochemistry ; 68(3): 327-34, 2007 Feb.
Article in English | MEDLINE | ID: mdl-17157337

ABSTRACT

Steroidal glycoalkaloids (SGAs) are potentially harmful specialty metabolites found in Solanaceous plants. Two tri-glycosylated alkaloids, alpha-chaconine and alpha-solanine accumulate in potato tubers. Expressed sequence tags (ESTs) were identified in the available database by searching for protein homology to the Sgt1 (SOLtu:Sgt1) steriodalalkaloid galactosyltransferase. The EST sequence data was used to isolate Sgt3 cDNA sequences by polymerase chain reaction (PCR) from a wounded potato tuber cDNA library. The resulting 1515bp open reading frame of Sgt3, encodes a predicted SGT3 amino acid sequence that is 18 residues longer than, 45% identical to, and 58% homologous to the SGT1 protein. The amino-terminal region of the Sgt3 cDNA was used to create an antisense transgene under control of the granule bound starch synthase, GBSS6, promoter and the ubiquitin, Ubi3, polyadenylation signal. Analysis of SGA metabolites in selected transgenic tubers revealed a dramatic decrease in the accumulation of alpha-chaconine and alpha-solanine. This decrease was compensated by an increase in beta-solanine and beta-chaconine with minor accumulation of alpha-SGAs. These results allowed the identification of the function for SGT3 as the beta-solanine/beta-chaconine rhamnosyl transferase, the terminal step in formation of the potato glycoalkaloid triose side chains.


Subject(s)
Bacterial Proteins/metabolism , Hexosyltransferases/metabolism , Solanum tuberosum/enzymology , Amino Acid Sequence , Bacterial Proteins/chemistry , Bacterial Proteins/genetics , Base Sequence , DNA Primers , DNA, Complementary , Genes, Plant , Hexosyltransferases/chemistry , Hexosyltransferases/genetics , Molecular Sequence Data , Sequence Homology, Amino Acid , Solanum tuberosum/genetics , Transgenes
9.
Proteomics ; 6(22): 6042-52, 2006 Nov.
Article in English | MEDLINE | ID: mdl-17106910

ABSTRACT

The tuber of potato (Solanum tuberosum) is commonly used as a model for underground storage organs. In this study, changes in the proteome were followed from tuberization, through tuber development and storage into the sprouting phase. Data interrogation using principal component analysis was able to clearly discriminate between the various stages of the tuber life cycle. Moreover, five well-defined protein expression patterns were found by hierarchical clustering. Altogether 150 proteins showing highly significant differences in abundance between specific stages in the life cycle were highlighted; 59 of these were identified. In addition, 50 proteins with smaller changes in abundance were identified, including several novel proteins. Most noticeably, the development process was characterized by the accumulation of the major storage protein patatin isoforms and enzymes involved in disease and defense reactions. Furthermore, enzymes involved in carbohydrate and energy metabolism and protein processing were associated with development but decreased during tuber maturation. These results represent the first comprehensive picture of many proteins involved in the tuber development and physiology.


Subject(s)
Gene Expression Regulation, Plant , Plant Proteins/metabolism , Plant Tubers/metabolism , Proteomics/methods , Solanum tuberosum/metabolism , Electrophoresis, Gel, Two-Dimensional , Plant Proteins/classification , Plant Tubers/physiology , Proteome/metabolism , Solanum tuberosum/genetics , Solanum tuberosum/growth & development , Solanum tuberosum/physiology
10.
Transgenic Res ; 15(4): 409-25, 2006 Aug.
Article in English | MEDLINE | ID: mdl-16906442

ABSTRACT

Targeted compositional analysis was carried out on transgenic potato tubers of either cultivar (cv.) Record or cv. Desirée to assess the potential for unintended effects caused by the genetic modification process. The range of transgenic lines analysed included those modified in primary carbohydrate metabolism, polyamine biosynthesis and glycoprotein processing. Controls included wildtype tubers, tubers produced from plants regenerated through tissue culture (including a callus phase) and tubers derived from transformation with the 'empty vector' i.e. no specific target gene included (with the exception of the kanamycin resistance gene as a selectable marker). Metabolite analysis included soluble carbohydrates, glycoalkaloids, vitamin C, total nitrogen and fatty acids. Trypsin inhibitor activity was also assayed. These cover the major compounds recommended by the OECD in their Consensus Document on Compositional Considerations for New Varieties of Potatoes: Key Food and Feed Nutrients, Anti-Nutrients and Toxicants (2002). Data was statistically analysed using analysis of variance (ANOVA) for individual compounds and, where applicable, principal component analysis (PCA). In general, targeted compositional analysis revealed no consistent differences between GM lines and respective controls. No construct specifically induced unintended effects. Statistically significant differences between wildtype controls and specific GM lines did occur but appeared to be random and not associated with any specific construct. Indeed such significant differences were also found between wildtypes and both tissue culture derived tubers and tubers derived from transformation with the empty vector. This raises the possibility that somaclonal variation (known to occur significantly in potato, depending on genotype) may be responsible for an unknown proportion of any differences observed between specific GM lines and the wildtype. The most obvious differences seen in GC-MS profiles were between the two potato varieties used in the study.


Subject(s)
Plants, Genetically Modified , Solanum tuberosum/genetics , Alkaloids/chemistry , Ascorbic Acid/metabolism , Carbohydrates/chemistry , Chromatography, Gas/methods , Crops, Agricultural/metabolism , Fatty Acids/metabolism , Fructokinases/metabolism , Genetic Techniques , Genetic Vectors , Mass Spectrometry/methods , Nitrogen/chemistry , Nitrogen/metabolism , Nutritive Value , Solanum tuberosum/metabolism , Trypsin/pharmacology
11.
Phytochemistry ; 67(15): 1590-7, 2006 Aug.
Article in English | MEDLINE | ID: mdl-16298403

ABSTRACT

To provide tools for breeders to control the steroidal glycoalkaloid (SGA) pathway in potato, we have investigated the steroidal alkaloid glycosyltransferase (Sgt) gene family. The committed step in the SGA pathway is the glycosylation of solanidine by either UDP-glucose or UDP-galactose leading to alpha-chaconine or alpha-solanine, respectively. The Sgt2 gene was identified by deduced protein sequence homology to the previously identified Sgt1 gene. SGT1 has glucosyltransferase activity in vitro, but in vivo serves as the UDP-galactose:solanidine galactosyltransferase. Two alleles of the Sgt2 gene were isolated and its function was established with antisense transgenic lines and in vitro assays of recombinant protein. In tubers of transgenic potato (Solanum tuberosum) cvs. Lenape and Desirée expressing an antisense Sgt2 gene construct, accumulation of alpha-solanine was increased and alpha-chaconine was reduced. Studies with recombinant SGT2 protein purified from yeast show that SGT2 glycosylation activity is highly specific for UDP-glucose as a sugar donor. This data establishes the function of the gene product (SGT2), as the primary UDP-glucose:solanidine glucosyltransferase in vivo.


Subject(s)
Alkaloids/metabolism , Glucosyltransferases/metabolism , Solanum tuberosum/enzymology , Amino Acid Sequence , Base Sequence , Cloning, Molecular , DNA Primers , DNA, Complementary , Glucosyltransferases/chemistry , Glucosyltransferases/genetics , Molecular Sequence Data , Plants, Genetically Modified
12.
Plant Physiol ; 138(3): 1690-9, 2005 Jul.
Article in English | MEDLINE | ID: mdl-15951487

ABSTRACT

Crop improvement by genetic modification remains controversial, one of the major issues being the potential for unintended effects. Comparative safety assessment includes targeted analysis of key nutrients and antinutritional factors, but broader scale-profiling or "omics" methods could increase the chances of detecting unintended effects. Comparative assessment should consider the extent of natural variation and not simply compare genetically modified (GM) lines and parental controls. In this study, potato (Solanum tuberosum) proteome diversity has been assessed using a range of diverse non-GM germplasm. In addition, a selection of GM potato lines was compared to assess the potential for unintended differences in protein profiles. Clear qualitative and quantitative differences were found in the protein patterns of the varieties and landraces examined, with 1,077 of 1,111 protein spots analyzed showing statistically significant differences. The diploid species Solanum phureja could be clearly differentiated from tetraploid (Solanum tuberosum) genotypes. Many of the proteins apparently contributing to genotype differentiation are involved in disease and defense responses, the glycolytic pathway, and sugar metabolism or protein targeting/storage. Only nine proteins out of 730 showed significant differences between GM lines and their controls. There was much less variation between GM lines and their non-GM controls compared with that found between different varieties and landraces. A number of proteins were identified by mass spectrometry and added to a potato tuber two-dimensional protein map.


Subject(s)
Plant Proteins/genetics , Plants, Genetically Modified/genetics , Proteome , Solanum tuberosum/genetics , Electrophoresis, Gel, Two-Dimensional , Recombinant Proteins/metabolism , Solanum tuberosum/classification
13.
Plant Cell Physiol ; 46(7): 1103-15, 2005 Jul.
Article in English | MEDLINE | ID: mdl-15890680

ABSTRACT

Potato plants (Solanum tuberosum L. cvs Desiree and Record) transformed with sense and antisense constructs of a cDNA encoding the potato fructokinase StFK1 exhibited altered transcription of this gene, altered amount of protein and altered enzyme activities. Measurement of the maximal catalytic activity of fructokinase revealed a 2-fold variation in leaf (from 90 to 180% of wild type activity) and either a 10- or 30-fold variation in tuber (from 10 or 30% to 300% in Record and Desiree, respectively) activity. The comparative effect of the antisense construct in leaf and tuber tissue suggests that this isoform is only a minor contributor to the total fructokinase activity in the leaf but the predominant isoform in the tuber. Antisense inhibition of the fructokinase resulted in a reduced tuber yield; however, its overexpression had no impact on this parameter. The modulation of fructokinase activity had few, consistent effects on carbohydrate levels, with the exception of a general increase in glucose content in the antisense lines, suggesting that this enzyme is not important for the control of starch synthesis. However, when metabolic fluxes were estimated, it became apparent that the transgenic lines display a marked shift in metabolism, with the rate of redistribution of radiolabel to sucrose markedly affected by the activity of fructokinase. These data suggest an important role for fructokinase, acting in concert with sucrose synthase, in maintaining a balance between sucrose synthesis and degradation by a mechanism independent of that controlled by the hexose phosphate-mediated activation of sucrose phosphate synthase.


Subject(s)
Fructokinases/metabolism , Plant Tubers/metabolism , Solanum tuberosum/metabolism , Carbohydrate Metabolism , Fructokinases/genetics , Phenotype , Plant Leaves/metabolism , Plant Tubers/enzymology , Plants, Genetically Modified , Solanum tuberosum/enzymology , Solanum tuberosum/genetics , Transcription, Genetic
14.
J Agric Food Chem ; 52(20): 6075-85, 2004 Oct 06.
Article in English | MEDLINE | ID: mdl-15453669

ABSTRACT

Metabolite profiling has been carried out to assess the compositional changes occurring in potato tubers after genetic modifications have been made to different metabolic pathways. Most major features in the (1)H NMR and HPLC-UV profiles of tuber extracts have been assigned. About 40 GM lines and controls belonging to 4 groups of samples (derived from cv. Record or cv. Desirée and modified in primary carbon metabolism, starch synthesis, glycoprotein processing, or polyamine/ethylene metabolism) were analyzed. Differences were assessed at the level of whole profiles (by PCA) or individual compounds (by ANOVA). The most obvious differences seen in both NMR and HPLC-UV profiles were between the two varieties. There were also significant differences between two of the four Desirée GM lines with modified polyamine metabolism and their controls. Compounds notably affected were proline, trigonelline, and numerous phenolics. However, that modification gave rise to a very abnormal phenotype. Certain lines from the other groups had several compounds present in significantly higher or lower amounts compared to the control, but the differences in mean values amounted to no more than a 2-3-fold change: in the context of variability in the whole data set, such changes did not appear to be important.


Subject(s)
Chromatography, High Pressure Liquid , Magnetic Resonance Spectroscopy , Plants, Genetically Modified/metabolism , Solanum tuberosum/genetics , Solanum tuberosum/metabolism , Analysis of Variance , Phenols/metabolism , Plant Roots/metabolism , Polyamines/metabolism , Principal Component Analysis
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