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2. Addressing Research Bottlenecks to Crop Productivity

Author

Reynolds, M., Atkin, O.K., Bennett, M., Cooper, M., Dodd, I.C., Foulkes, M.J., Frohberg, C., Hammer, G., Henderson, I.R., Huang, B., Korzun, V., McCouch, S.R., Messina, C.D., Pogson, B.J., Slafer, G.A., Taylor, N.L., Wittich, P.E., Reynolds, M., Atkin, O.K., Bennett, M., Cooper, M., Dodd, I.C., Foulkes, M.J., Frohberg, C., Hammer, G., Henderson, I.R., Huang, B., Korzun, V., McCouch, S.R., Messina, C.D., Pogson, B.J., Slafer, G.A., Taylor, N.L., and Wittich, P.E.

Abstract

Asymmetry of investment in crop research leads to knowledge gaps and lost opportunities to accelerate genetic gain through identifying new sources and combinations of traits and alleles. On the basis of consultation with scientists from most major seed companies, we identified several research areas with three common features: (i) relatively underrepresented in the literature; (ii) high probability of boosting productivity in a wide range of crops and environments; and (iii) could be researched in ‘precompetitive’ space, leveraging previous knowledge, and thereby improving models that guide crop breeding and management decisions. Areas identified included research into hormones, recombination, respiration, roots, and source–sink, which, along with new opportunities in phenomics, genomics, and bioinformatics, make it more feasible to explore crop genetic resources and improve breeding strategies.

Published
2021

3. Transcriptional landscapes of floral meristems in barley

Author

Thiel, J., primary, Koppolu, R., additional, Trautewig, C., additional, Hertig, C., additional, Kale, S. M., additional, Erbe, S., additional, Mascher, M., additional, Himmelbach, A., additional, Rutten, T., additional, Esteban, E., additional, Pasha, A., additional, Kumlehn, J., additional, Provart, N. J., additional, Vanderauwera, S., additional, Frohberg, C., additional, and Schnurbusch, T., additional

Published
2021
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7. Analysis of companion cell and phloem metabolism using a transcriptome-guided model of Arabidopsis metabolism.

Author

Hunt H, Brueggen N, Galle A, Vanderauwera S, Frohberg C, Fernie AR, Sonnewald U, and Sweetlove LJ

Subjects
Phloem genetics, Phloem metabolism, Transcriptome genetics, Biological Transport, Proton-Translocating ATPases metabolism, Arabidopsis metabolism, Arabidopsis Proteins metabolism
Abstract

Companion cells and sieve elements play an essential role in vascular plants, and yet the details of the metabolism that underpins their function remain largely unknown. Here, we construct a tissue-scale flux balance analysis (FBA) model to describe the metabolism of phloem loading in a mature Arabidopsis (Arabidopsis thaliana) leaf. We explore the potential metabolic interactions between mesophyll cells, companion cells, and sieve elements based on the current understanding of the physiology of phloem tissue and through the use of cell type-specific transcriptome data as a weighting in our model. We find that companion cell chloroplasts likely play a very different role to mesophyll chloroplasts. Our model suggests that, rather than carbon capture, the most crucial function of companion cell chloroplasts is to provide photosynthetically generated ATP to the cytosol. Additionally, our model predicts that the metabolites imported into the companion cell are not necessarily the same metabolites that are exported in phloem sap; phloem loading is more efficient if certain amino acids are synthesized in the phloem tissue. Surprisingly, in our model predictions, the proton-pumping pyrophosphatase (H+-PPiase) is a more efficient contributor to the energization of the companion cell plasma membrane than the H+-ATPase., Competing Interests: Conflict of interest statement. None declared., (© The Author(s) 2023. Published by Oxford University Press on behalf of American Society of Plant Biologists.)

Published
2023
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8. Wheat yield potential can be maximized by increasing red to far-red light conditions at critical developmental stages.

Author

Dreccer MF, Zwart AB, Schmidt RC, Condon AG, Awasi MA, Grant TJ, Galle A, Bourot S, and Frohberg C

Subjects
Edible Grain, Light, Carbon Dioxide, Triticum physiology
Abstract

Sensing of neighbours via the Red to Far-Red light ratio (R:FR) may exert a cap to yield potential in wheat. The effects of an increased R:FR inside the canopy were studied in dense wheat mini canopies grown in controlled environments by lowering FR. To distinguish between effects exerted by light sensing and assimilate supply, the treatments were complemented with elevated CO 2 , applied between different developmental timepoints to specifically impact tillering, spike growth, floret fertility and grain filling, in different combinations. The yield response to high R:FR was strongly dependent on the developmental stage in all three cultivars and pivoted between positive if applied after the start of stem elongation, and negative or null if applied before. Yield gains of up to 70% and 120% were observed, respectively, in two cultivars, associated with a higher number of tiller spikes and grains per spike in the main shoot. The response to the combination of high R:FR and elevated CO 2 or CO 2 alone were cultivar dependent. Taken together, our results suggest that R:FR exerts a significant control on yield potential in wheat and achieving a high R:FR from stem elongation to maturity is a promising lever towards a significant increase in grain yield., (© 2022 The Authors. Plant, Cell & Environment published by John Wiley & Sons Ltd.)

Published
2022
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9. Overexpression of the WAPO-A1 gene increases the number of spikelets per spike in bread wheat.

Author

Wittern LM, Barrero JM, Bovill WD, Verbyla KL, Hughes T, Swain SM, Steed G, Webb AAR, Gardner K, Greenland A, Jacobs J, Frohberg C, Schmidt RC, Cavanagh C, Rohde A, Davey MW, and Hannah MA

Subjects
Chromosome Mapping, Chromosomes, Plant genetics, Phenotype, Quantitative Trait Loci, Bread, Triticum genetics
Abstract

Two homoeologous QTLs for number of spikelets per spike (SPS) were mapped on chromosomes 7AL and 7BL using two wheat MAGIC populations. Sets of lines contrasting for the QTL on 7AL were developed which allowed for the validation and fine mapping of the 7AL QTL and for the identification of a previously described candidate gene, WHEAT ORTHOLOG OF APO1 (WAPO1). Using transgenic overexpression in both a low and a high SPS line, we provide a functional validation for the role of this gene in determining SPS also in hexaploid wheat. We show that the expression levels of this gene positively correlate with SPS in multiple MAGIC founder lines under field conditions as well as in transgenic lines grown in the greenhouse. This work highlights the potential use of WAPO1 in hexaploid wheat for further yield increases. The impact of WAPO1 and SPS on yield depends on other genetic and environmental factors, hence, will require a finely balanced expression level to avoid the development of detrimental pleiotropic phenotypes., (© 2022. The Author(s).)

Published
2022
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10. Addressing Research Bottlenecks to Crop Productivity.

Author

Reynolds M, Atkin OK, Bennett M, Cooper M, Dodd IC, Foulkes MJ, Frohberg C, Hammer G, Henderson IR, Huang B, Korzun V, McCouch SR, Messina CD, Pogson BJ, Slafer GA, Taylor NL, and Wittich PE

Subjects
Crops, Agricultural genetics, Genomics, Phenotype, Crop Production, Plant Breeding
Abstract

Asymmetry of investment in crop research leads to knowledge gaps and lost opportunities to accelerate genetic gain through identifying new sources and combinations of traits and alleles. On the basis of consultation with scientists from most major seed companies, we identified several research areas with three common features: (i) relatively underrepresented in the literature; (ii) high probability of boosting productivity in a wide range of crops and environments; and (iii) could be researched in 'precompetitive' space, leveraging previous knowledge, and thereby improving models that guide crop breeding and management decisions. Areas identified included research into hormones, recombination, respiration, roots, and source-sink, which, along with new opportunities in phenomics, genomics, and bioinformatics, make it more feasible to explore crop genetic resources and improve breeding strategies., Competing Interests: Declaration of Interests The authors have no interests to declare., (Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2021
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11. The da1 mutation in wheat increases grain size under ambient and elevated CO 2 but not grain yield due to trade-off between grain size and grain number.

Author

Mora-Ramirez I, Weichert H, von Wirén N, Frohberg C, de Bodt S, Schmidt RC, and Weber H

Abstract

Grain size is potentially yield determining in wheat, controlled by the ubiquitin pathway and negatively regulated by ubiquitin receptor DA1. We analyzed whether increased thousand grain weight in wheat da1 mutant is translated into higher grain yield and whether additional carbon provided by elevated (e)CO 2 can be better used by the da1 , displaying higher grain sink strength and size. Yield-related, biomass, grain quality traits, and grain dimensions were analyzed by two-factorial mixed-model analysis, regarding genotype and eCO 2 . da1 increased grain size but reduced spikes and grains per plant, grains per spike, and spikelets per spike, independent of eCO 2 treatment, leaving total grain yield unchanged. eCO 2 increased yield and grain number additively and independently of da1 but did not overcome the trade-off between grain size and number observed for da1 . eCO 2 but not da1 impaired grain quality, strongly decreasing concentrations of several macroelement and microelement. In conclusion, intrinsic stimulation of grain sink strength and grain size, achieved by da1 , is not benefitting total yield unless trade-offs between grain size and numbers can be overcome. The results reveal interactions of yield components in da1 -wheat under ambient and eCO 2 , thereby uncovering limitations enhancing wheat yield potential., Competing Interests: The authors declare that they have no conflict of interest., (© 2021 The Authors. Journal of Plant‐Environment Interactions Published by John Wiley & Sons Ltd.)

Published
2021
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12. A double-blind, placebo-controlled, cross-over study to establish the bifidogenic effect of a very-long-chain inulin extracted from globe artichoke (Cynara scolymus) in healthy human subjects.

Author

Costabile A, Kolida S, Klinder A, Gietl E, Bäuerlein M, Frohberg C, Landschütze V, and Gibson GR

Subjects
Adult, Bifidobacterium growth & development, Cross-Over Studies, Double-Blind Method, Feces chemistry, Female, Gases, Humans, Inflorescence, Inulin adverse effects, Lactobacillus drug effects, Lactobacillus growth & development, Male, Plant Extracts adverse effects, Polysaccharides, Reference Values, Young Adult, Bifidobacterium drug effects, Colon microbiology, Cynara scolymus chemistry, Dietary Fiber administration & dosage, Inulin pharmacology, Plant Extracts pharmacology, Prebiotics
Abstract

There is growing interest in the use of inulins as substrates for the selective growth of beneficial gut bacteria such as bifidobacteria and lactobacilli because recent studies have established that their prebiotic effect is linked to several health benefits. In the present study, the impact of a very-long-chain inulin (VLCI), derived from globe artichoke (Cynara scolymus), on the human intestinal microbiota compared with maltodextrin was determined. A double-blind, cross-over study was carried out in thirty-two healthy adults who were randomised into two groups and consumed 10 g/d of either VLCI or maltodextrin, for two 3-week study periods, separated by a 3-week washout period. Numbers of faecal bifidobacteria and lactobacilli were significantly higher upon VLCI ingestion compared with the placebo. Additionally, levels of Atopobium group significantly increased, while Bacteroides-Prevotella numbers were significantly reduced. No significant changes in faecal SCFA concentrations were observed. There were no adverse gastrointestinal symptoms apart from a significant increase in mild and moderate bloating upon VLCI ingestion. These observations were also confirmed by in vitro gas production measurements. In conclusion, daily consumption of VLCI extracted from globe artichoke exerted a pronounced prebiotic effect on the human faecal microbiota composition and was well tolerated by all volunteers.

Published
2010
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13. Mass spectrometric quantification of the relative amounts of C6 and C3 position phosphorylated glucosyl residues in starch.

Author

Haebel S, Hejazi M, Frohberg C, Heydenreich M, and Ritte G

Subjects
Glucose chemistry, Glucose-6-Phosphate chemistry, Glucosephosphates chemistry, Magnetic Resonance Spectroscopy, Phosphorylation, Glucose analysis, Starch chemistry, Tandem Mass Spectrometry methods
Abstract

The quantification of phosphate bound to the C6 and C3 positions of glucose residues in starch has received increasing interest since the importance of starch phosphorylation for plant metabolism was discovered. The method described here is based on the observation that the isobaric compounds glucose-6-phosphate (Glc6P) and glucose-3-phosphate (Glc3P) exhibit significantly different fragmentation patterns in negative ion electrospray tandem mass spectrometry (MS/MS). A simple experiment involving collision-induced dissociation (CID) MS(2) spectra of the sample and the two reference substances Glc3P and Glc6P permitted the quantification of the relative amounts of the two compounds in monosaccharide mixtures generated by acid hydrolysis of starch. The method was tested on well-characterized potato tuber starch. The results are consistent with those obtained by NMR analysis. In contrast to NMR, however, the presented method is fast and can be performed on less than 1 mg of starch. Starch samples of other origins exhibiting a variety of phosphorylation degrees were analyzed to assess the sensitivity and robustness of the method.

Published
2008
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14. Glucan, water dikinase phosphorylates crystalline maltodextrins and thereby initiates solubilization.

Author

Hejazi M, Fettke J, Haebel S, Edner C, Paris O, Frohberg C, Steup M, and Ritte G

Subjects
Phosphorylation, Plant Proteins metabolism, Plants enzymology, Polysaccharides chemistry, Solubility, Starch metabolism, Substrate Specificity, Phosphotransferases (Paired Acceptors) metabolism, Polysaccharides metabolism
Abstract

Starch phosphorylation by glucan, water dikinase (GWD; EC 2.7.9.4) is an essential step in the breakdown of native starch particles, but the underlying mechanisms have remained obscure. In this paper, the initial reactions of starch degradation were analyzed using crystallized maltodextrins as model carbohydrates. As revealed by X-ray diffraction analysis, the crystallized maltodextrins represent the B-type starch allomorph. Recombinant GWD phosphorylated crystalline maltodextrins with a high specific activity (55-60 nmol mg-1 protein min-1), but exhibited very little activity with the same maltodextrins that had been solubilized by heat treatment. Recombinant phosphoglucan, water dikinase (PWD; EC 2.7.9.5) utilized the crystalline maltodextrins only when pre-phosphorylated by GWD. Phosphorylation of crystalline maltodextrins, as catalyzed by GWD, initiated solubilization of neutral as well as phosphorylated glucans. In both the insoluble and the soluble state, mono-, di- and triphosphorylated alpha-glucans were observed, with wide and overlapping ranges of degree of polymerization. Thus, the substrate specificity of the GWD is defined by the physical arrangement of alpha-glucans rather than by structural parameters, such as the distribution of branching points or degree of polymerization. Unlike GWD and PWD, recombinant beta-amylase isozyme 3 (BAM3), which has been shown to be essential for plastidial starch degradation, preferentially degraded soluble maltodextrins rather than crystallized glucans. In summary, two conclusions were reached. Firstly, carbohydrate targets of GWD are primarily defined by the molecular order of glucan helices. Secondly, GWD-catalyzed phosphorylation mediates the phase transition of glucans from a highly ordered to a less ordered and hydrated state.

Published
2008
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15. Stringent repression and homogeneous de-repression by tetracycline of a modified CaMV 35S promoter in intact transgenic tobacco plants.

Author

Gatz C, Frohberg C, and Wendenburg R

Subjects
Base Sequence, DNA genetics, Escherichia coli genetics, Glucuronidase genetics, Kinetics, Molecular Sequence Data, Mosaic Viruses genetics, Operator Regions, Genetic, Plants, Genetically Modified microbiology, Plants, Toxic, Repressor Proteins genetics, Nicotiana genetics, Plants, Genetically Modified genetics, Promoter Regions, Genetic drug effects, Tetracycline pharmacology
Abstract

A cauliflower mosaic virus (CaMV) 35S promoter derivative, which is tightly repressed by the Tn 10 encoded Tet repressor in a transient expression system as well as in transgenic plants has been constructed. After treatment of transgenic plants with tetracycline (Tc) the activity of the reporter enzyme beta-glucuronidase (GUS) increased up to 500-fold in tissue culture as well as under greenhouse conditions. Efficient de-repression was achieved by Tc uptake through the roots as well as by Tc treatment of leaves of intact plants. As Tc is not very stable in the plants, this system can also be used for a transient expression of a transgene. This system provides a unique tool for regenerating transgenic plants carrying a repressed transgene and for efficiently de-repressing its activity by a specific inducer at any time point of further development.

Published
1992
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16. The Tn10-encoded Tet repressor blocks early but not late steps of assembly of the RNA polymerase II initiation complex in vivo.

Author

Heins L, Frohberg C, and Gatz C

Subjects
Genes, Viral, Mosaic Viruses genetics, Operator Regions, Genetic, Promoter Regions, Genetic, R Factors genetics, RNA Polymerase II metabolism, TATA Box, Transcription Factors metabolism, Transcription, Genetic, DNA Transposable Elements, RNA Polymerase II genetics, Repressor Proteins genetics
Abstract

We have studied the effect of the Tn10-encoded Tet repressor on expression from 13 cauliflower mosaic virus (CaMV) 35S promoter derivatives that contain a tet operator sequence in various positions downstream of the TATAbox. When the operator sequence was inserted less than 33 bp away from the TATAbox (position +9 with respect to the transcription start site), the repressor interfered with transcription, whereas increasing the distance to 35 bp (position +11) abolished repression. This result indicates that initiation of transcription from the CaMV 35S promoter occurs in at least two different steps: (1) binding of transcription factors, involving sequences extending to position +9; this step can be inhibited by binding of the Tet repressor protein; and (2) initiation of transcription from this complex, which is not affected by the repressor protein. We suggest that the Tet repressor can be used to investigate whether transcription conditions in vitro truly reflect the in vivo situation.

Published
1992
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