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2. Mechanistic insight into substrate specificity of plant glucosinolate transporters

Author

Christa Kanstrup, Nikolai Wulff, Carlos Peña-Varas, Morten Egevang Jørgensen, Rose Bang-Sørensen, Christoph Crocoll, Flemming Steen Jørgensen, David Ramírez, Ingo Dreyer, Osman Mirza, and Hussam H. Nour-Eldin

Abstract

Plants depend on transport processes for correct allocation of specialized metabolites. This is important for optimal defense, avoidance of autotoxicity, connecting compartmented biosynthetic modules and more. Transport of a wide variety of specialized metabolites is mediated by transporters from the Nitrate and Peptide transporter Family (NPF), which belongs to the Major Facilitator Superfamily (MFS). However, the mechanism by which NPF members recognize and transport specialized metabolites remains unknown.Here we mutate eight residues to reciprocally swap the substrate-preference of two closely related glucosinolate transporters (GTRs). Seven of these residues assemble in a ring-like structure in all conformations of the transporters. We labeled the ring-like structure a selectivity filter and based on docking studies, we propose that the interaction between the selectivity filter and the glucosinolate side chain determines whether a given glucosinolate is recognized as a substrate. Besides partly explaining the distinct substrate preference of GTR1 (NPF2.10) and GTR3 (NPF2.9), this study proposes fundamental principles of substrate recognition in the NPF and establishes the GTR subclade as a novel model system for studying structure function relationships in the NPF.

Published
2023
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3. Prospects for the accelerated improvement of the resilient crop quinoa

Author

Sven-Erik Jacobsen, Davide Visintainer, Toni Wendt, Michael G. Palmgren, Max Moog, Caixia Gao, Christoph Dockter, Rosa L. López-Marqués, Morten Egevang Jørgensen, Jeppe Thulin Østerberg, Sergey Shabala, Andrés Torres Salvador, Rainer Hedrich, Anton F. Nørrevang, and Peter Ache

Subjects
0106 biological sciences, 0301 basic medicine, Salinity, Physiology, Drought tolerance, drought tolerance, Plant Science, molecular breeding, Biology, 01 natural sciences, Chenopodium quinoa, Salt Stress, Crop, 03 medical and health sciences, Opinion Paper, genome editing, Domestication, ComputingMilieux_MISCELLANEOUS, Molecular breeding, salt tolerance, business.industry, AcademicSubjects/SCI01210, fungi, food and beverages, Droughts, Plant Breeding, 030104 developmental biology, Agronomy, orphan crops, Food processing, Erratum, business, 010606 plant biology & botany
Abstract

Climate change is challenging food production worldwide. We propose a strategy to accelerate the improvement of a nutritious resilient crop to meet the future food production demands in a changing climate., Crops tolerant to drought and salt stress may be developed by two approaches. First, major crops may be improved by introducing genes from tolerant plants. For example, many major crops have wild relatives that are more tolerant to drought and high salinity than the cultivated crops, and, once deciphered, the underlying resilience mechanisms could be genetically manipulated to produce crops with improved tolerance. Secondly, some minor (orphan) crops cultivated in marginal areas are already drought and salt tolerant. Improving the agronomic performance of these crops may be an effective way to increase crop and food diversity, and an alternative to engineering tolerance in major crops. Quinoa (Chenopodium quinoa Willd.), a nutritious minor crop that tolerates drought and salinity better than most other crops, is an ideal candidate for both of these approaches. Although quinoa has yet to reach its potential as a fully domesticated crop, breeding efforts to improve the plant have been limited. Molecular and genetic techniques combined with traditional breeding are likely to change this picture. Here we analyse protein-coding sequences in the quinoa genome that are orthologous to domestication genes in established crops. Mutating only a limited number of such genes by targeted mutagenesis appears to be a promising route for accelerating the improvement of quinoa and generating a nutritious high-yielding crop that can meet the future demand for food production in a changing climate.

Published
2020

4. FIND-IT:Accelerated trait development for a green evolution

Author

Søren Knudsen, Toni Wendt, Christoph Dockter, Hanne Cecilie Thomsen, Magnus Rasmussen, Morten Egevang Jørgensen, Qiongxian Lu, Cynthia Voss, Emiko Murozuka, Jeppe Thulin Østerberg, Jesper Harholt, Ilka Braumann, Jose A. Cuesta-Seijo, Sandip M. Kale, Sabrina Bodevin, Lise Tang Petersen, Massimiliano Carciofi, Pai Rosager Pedas, Jeppe Opstrup Husum, Martin Toft Simmelsgaard Nielsen, Kasper Nielsen, Mikkel K. Jensen, Lillian Ambus Møller, Zoran Gojkovic, Alexander Striebeck, Klaus Lengeler, Ross T. Fennessy, Michael Katz, Rosa Garcia Sanchez, Natalia Solodovnikova, Jochen Förster, Ole Olsen, Birger Lindberg Møller, Geoffrey B. Fincher, and Birgitte Skadhauge

Subjects
Multidisciplinary
Abstract

Improved agricultural and industrial production organisms are required to meet the future global food demands and minimize the effects of climate change. A new resource for crop and microbe improvement, designated FIND-IT (Fast Identification of Nucleotide variants by droplet DigITal PCR), provides ultrafast identification and isolation of predetermined, targeted genetic variants in a screening cycle of less than 10 days. Using large-scale sample pooling in combination with droplet digital PCR (ddPCR) greatly increases the size of low–mutation density and screenable variant libraries and the probability of identifying the variant of interest. The method is validated by screening variant libraries totaling 500,000 barley ( Hordeum vulgare ) individuals and isolating more than 125 targeted barley gene knockout lines and miRNA or promoter variants enabling functional gene analysis. FIND-IT variants are directly applicable to elite breeding pipelines and minimize time-consuming technical steps to accelerate the evolution of germplasm.

Published
2022
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5. MO633GLYCAEMIC MARKERS IN PATIENTS WITH TYPE 2 DIABETES UNDERGOING HAEMODIALYSIS EVALUATED BY LONG-TERM CONTINUOUS GLUCOSE MONITORING*

Author

Anders Larsson, Bo Feldt-Rasmussen, Susanne Rosthøj, Linda Hilsted, Tobias Bomholt, Morten Egevang Jørgensen, Filip K. Knop, Marianne Rix, Mads Hornum, Thomas Almdal, and Niels Søndergaard Heinrich

Subjects
Transplantation, medicine.medical_specialty, endocrine system diseases, biology, business.industry, Continuous glucose monitoring, medicine.medical_treatment, nutritional and metabolic diseases, Type 2 diabetes, biology.organism_classification, medicine.disease, Term (time), Nephrology, Internal medicine, Medicine, In patient, Hemodialysis, business, Loa loa
Abstract

Background and Aims The reliability of haemoglobin A1c (HbA1c) as a glycaemic marker in patients receiving haemodialysis (HD) remains unknown. To assess accuracy, we compared HbA1c and fructosamine levels with interstitial glucose levels measured by continuous glucose monitoring (CGM) in patients with type 2 diabetes receiving HD. Method The HD group (maintenance HD and type 2 diabetes) comprised 30 patients who completed the study period of 17 weeks; the control group (type 2 diabetes and an estimated glomerular filtration rate >60 mL/min/1.73 m2) comprised 36 individuals. CGM (Ipro2®, Medtronic) for periods up to seven days was performed five times (with four weeks intervals) during a 16-week period. HbA1c and fructosamine were measured at week 17. The mean sensor glucose from CGM was compared with the measured HbA1c, its estimated mean blood glucose (eMBGA1c) and fructosamine levels. Results In the HD group, the mean sensor glucose from CGM was 1.4 (95% confidence interval [CI]: 1.0–1.8) mmol/L higher than the eMBGA1c, whereas the difference was 0.1 mmol/L (95% CI: -0.1–[0.4]; P Conclusion HbA1c evaluated by CGM underestimates mean blood glucose levels in patients receiving maintenance HD; fructosamine appears to be more accurate. CGM-assessed blood glucose could complement or replace HbA1c in patients where HbA1c underestimates blood glucose levels.

Published
2021
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6. Contrasting groups’ standard setting for consequences analysis in validity studies: reporting considerations

Author

Lars Konge, Morten Egevang Jørgensen, and Yousif Subhi

Subjects
Medical education, False positives, Computer science, Methodology Article, Cumulative distribution function, False positives and false negatives, nutritional and metabolic diseases, General Medicine, Messick’s validity framework, lcsh:Computer applications to medicine. Medical informatics, nervous system diseases, Normal distribution, 03 medical and health sciences, 0302 clinical medicine, Standard setting, 030220 oncology & carcinogenesis, Medicine public health, Outlier, Statistics, False positive paradox, False negatives, lcsh:R858-859.7, 030211 gastroenterology & hepatology, Contrasting groups
Abstract

Background The contrasting groups’ standard setting method is commonly used for consequences analysis in validity studies for performance in medicine and surgery. The method identifies a pass/fail cut-off score, from which it is possible to determine false positives and false negatives based on observed numbers in each group. Since groups in validity studies are often small, e.g., due to a limited number of experts, these analyses are sensitive to outliers on the normal distribution curve. Methods We propose that these shortcomings can be addressed in a simple manner using the cumulative distribution function. Results We demonstrate considerable absolute differences between the observed false positives/negatives and the theoretical false positives/negatives. In addition, several important examples are given. Conclusions We propose that a better reporting strategy is to report theoretical false positives and false negatives together with the observed false positives and negatives, and we have developed an Excel sheet to facilitate such calculations. Trial registration Not relevant. Electronic supplementary material The online version of this article (10.1186/s41077-018-0064-7) contains supplementary material, which is available to authorized users.

Published
2018
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7. Acidosis-induced activation of anion channel SLAH3 in the flooding-related stress response of Arabidopsis

Author

Julian Lehmann, Morten Egevang Jørgensen, Kai R. Konrad, Thomas D. Mueller, Heike M. Müller, Carlos Navarro-Retamal, Dominik Mayer, Ulrich Terpitz, Sönke Scherzer, Jennifer Böhm, Jana Kusch, Stefanie Fratz, Ingo Dreyer, Rainer Hedrich, Dietmar Geiger, Tobias Maierhofer, and Markus Sauer

Subjects
Anions, Xenopus, Arabidopsis, Ion Channels, General Biochemistry, Genetics and Molecular Biology, Stress, Physiological, medicine, Animals, Arabidopsis thaliana, Acidosis, biology, Arabidopsis Proteins, fungi, food and beverages, Depolarization, Plant cell, biology.organism_classification, Floods, Cytosol, Oocytes, Biophysics, Heterologous expression, medicine.symptom, General Agricultural and Biological Sciences
Abstract

Plants, as sessile organisms, gained the ability to sense and respond to biotic and abiotic stressors to survive severe changes in their environments. The change in our climate comes with extreme dry periods but also episodes of flooding. The latter stress condition causes anaerobiosis-triggered cytosolic acidosis and impairs plant function. The molecular mechanism that enables plant cells to sense acidity and convey this signal via membrane depolarization was previously unknown. Here, we show that acidosis-induced anion efflux from Arabidopsis (Arabidopsis thaliana) roots is dependent on the S-type anion channel AtSLAH3. Heterologous expression of SLAH3 in Xenopus oocytes revealed that the anion channel is directly activated by a small, physiological drop in cytosolic pH. Acidosis-triggered activation of SLAH3 is mediated by protonation of histidine 330 and 454. Super-resolution microscopy analysis showed that the increase in cellular proton concentration switches SLAH3 from an electrically silent channel dimer into its active monomeric form. Our results show that, upon acidification, protons directly switch SLAH3 to its open configuration, bypassing kinase-dependent activation. Moreover, under flooding conditions, the stress response of Arabidopsis wild-type (WT) plants was significantly higher compared to SLAH3 loss-of-function mutants. Our genetic evidence of SLAH3 pH sensor function may guide the development of crop varieties with improved stress tolerance.

Published
2021
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8. Development and validation of a multiple-choice questionnaire-based theoretical test in direct ophthalmoscopy

Author

Christos Christakopoulos, Lars Konge, Jakob Grauslund, Toke Bek, Yousif Subhi, Mona Meral Savran, Peter B. Toft, Focke Ziemssen, Torben Lykke Sørensen, and Morten Egevang Jørgensen

Subjects
medicine.medical_specialty, direct ophthalmoscopy, education, Certification, Direct Ophthalmoscopy, 03 medical and health sciences, 0302 clinical medicine, Cronbach's alpha, Surveys and Questionnaires, theoretical test, False positive paradox, medicine, Humans, Relevance (law), Sampling (medicine), Medical physics, Multiple choice, multiple-choice questionnaire, Messick, Reproducibility of Results, General Medicine, Models, Theoretical, Test (assessment), Ophthalmoscopy, Ophthalmology, Education, Medical, Graduate, 030221 ophthalmology & optometry, Clinical Competence, Educational Measurement, Psychology, 030217 neurology & neurosurgery
Abstract

PURPOSE: Direct ophthalmoscopy can reveal systemic, neurologic and ophthalmic conditions, but is poorly mastered among young physicians. A theoretical test is needed to measure effect of educational interventions. We developed and gathered validity evidence for a multiple-choice questionnaire (MCQ)-based theoretical test in direct ophthalmoscopy.METHODS: The MCQ was developed by interviewing experts. Then, validity evidence was evaluated using Messick's validity framework. Content was ensured by inviting the experts to contribute in a Delphi-like process. Response process was ensured by piloting and by streamlining all instructions. Then, the test was taken by ophthalmologists and by medical students without experience in direct ophthalmoscopy. Results were used to evaluate internal structure (item quality analysis and internal consistency), relations to other variables (correlation of test scores to experience level) and consequences (establishment of pass-fail score and the consequences of its use).RESULTS: The first phase of the study yielded 100 MCQs. In second phase, we identified that 60 items fulfilled predefined relevance and item quality requirements. These items demonstrated very high internal consistency (Cronbach's alpha = 0.95), significantly discriminated medical students from specialists (p < 0.001, independent samples t-test) and the established pass-fail score of 50 (83%) correct answers resulted in no false positives (students passing) and no false negatives (specialists failing). A Decision study identified that sampling 15 items suffice for certification.CONCLUSION: We developed and validated an MCQ-based theoretical test in direct ophthalmoscopy that enables an evidence-based approach to measuring, evaluating and certifying the theoretical knowledge necessary for direct ophthalmoscopy.

Published
2019
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9. An Optimized Screen Reduces the Number of GA Transporters and Provides Insights Into Nitrate Transporter 1/Peptide Transporter Family Substrate Determinants

Author

Nikolai Wulff, Heidi Asschenfeldt Ernst, Morten Egevang Jørgensen, Sophie Lambertz, Tobias Maierhofer, Zeinu Mussa Belew, Christoph Crocoll, Mohammed Saddik Motawia, Dietmar Geiger, Flemming Steen Jørgensen, Osman Mirza, and Hussam Hassan Nour-Eldin

Subjects
0106 biological sciences, 0301 basic medicine, Membrane permeability, Xenopus, Peptide, Plant Science, lcsh:Plant culture, 01 natural sciences, 03 medical and health sciences, Arabidopsis, lcsh:SB1-1110, Original Research, chemistry.chemical_classification, biology, membrane permeable, pH, Chemistry, Substrate (chemistry), Transporter, in vitro, biology.organism_classification, Yeast, phytohormones, 030104 developmental biology, Membrane, transport, Biophysics, gibberellic acid, 010606 plant biology & botany, nitrate transporter 1/peptide transporter family
Abstract

Based on recent in vitro data, a relatively large number of the plant Nitrate transporter 1/Peptide transporter Family (NPF) proteins has been suggested to function as gibberellic acid (GA) transporters. Most GA transporting NPF proteins also appear to transport other structurally unrelated phytohormones or metabolites. Several of the GAs used in previous in vitro assays are membrane permeable weak organic acids whose movement across membranes are influenced by the pH-sensitive ion-trap mechanism. Moreover, a large proportion of in vitro GA transport activities have been demonstrated indirectly via long-term yeast-based GA-dependent growth assays that are limited to detecting transport of bioactive GAs. Thus, there is a need for an optimized transport assay for identifying and characterizing GA transport. Here, we develop an improved transport assay in Xenopus laevis oocytes wherein we directly measure movement of six different GAs across oocyte membranes over short time. We show that membrane permeability of GAs in oocytes can be predicted based on number of oxygen atoms and that several GAs do not diffuse over membranes regardless of changes in pH values. In addition, we show that small changes in internal cellular pH can result in strongly altered distribution of membrane permeable phytohormones. This prompts caution when interpreting heterologous transport activities. We use our transport assay to screen all Arabidopsis thaliana NPF proteins for transport activity towards six GAs (two membrane permeable and four non-permeable). The results presented here, significantly reduce the number of bona fide NPF GA transporters in Arabidopsis and narrow the activity to fewer subclades within the family. Furthermore, to gain first insight into the molecular determinants of substrate specificities towards organic molecules transported in the NPF, we charted all surface exposed amino acid residues in the substrate-binding cavity and correlated them to GA transport. This analysis identified distinct residues within the substrate-binding cavity that are shared between GA transporting NPF proteins; the potential roles of these residues in determining substrate specificity are discussed.

Published
2019
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10. An Optimized Screen Reduces the Number of GA Transporters and provides Insights into NPF Substrate Determinants

Author

Hussam Hassan Nour-Eldin, Tobias Maierhofer, Osman Mirza, Flemming Jørgensen, Mohammed Saddik Motawia, Dietmar Geiger, Sophie Konstanze Lambertz, Morten Egevang Jørgensen, Christoph Crocoll, Zeinu Mussa Belew, Heidi A. Ernst, and Nikolai Wulff

Subjects
chemistry.chemical_classification, Membrane, biology, chemistry, Membrane permeability, Arabidopsis, Xenopus, Biophysics, Substrate (chemistry), Transporter, Peptide, biology.organism_classification, Yeast
Abstract

Based on recent in vitro data, a relatively large number of the plant Nitrate transporter 1/Peptide transporter Family (NPF) proteins has been suggested to function as gibberellic acid (GA) transporters. Most GA transporting NPF proteins also appear to transport other structurally unrelated phytohormones or metabolites. Several of the GAs used in previous in vitro assays are membrane permeable weak organic acids whose movement across membranes are influenced by the pH-sensitive ion-trap mechanism. Moreover, a large proportion of in vitro GA transport activities have been demonstrated indirectly via long-term yeast-based GA-dependent growth assays that are limited to detecting transport of bioactive GAs. Thus, there is a need for an optimized transport assay for identifying and characterizing GA transport. Here, we develop an improved transport assay in Xenopus laevis oocytes wherein we directly measure movement of six different GAs across oocyte membranes over short time. We show that membrane permeability of GAs in oocytes can be predicted based on number of oxygen atoms and that several GAs do not diffuse over membranes regardless of changes in pH values. In addition, we show that small changes in internal cellular pH can result in strongly altered distribution of membrane permeable phytohormones. This prompts caution when interpreting heterologous transport activities. We use our transport assay to screen all Arabidopsis thaliana NPF proteins for transport activity towards six GAs (two membrane permeable and four non-permeable). The results presented here, significantly reduce the number of bona fide NPF GA transporters in Arabidopsis and narrow the activity to fewer subclades within the family. Furthermore, to gain first insight into the molecular determinants of substrate specificities towards organic molecules transported in the NPF, we charted all surface exposed amino acid residues in the substrate-binding cavity and correlated them to GA transport. This analysis identified distinct residues within the substrate-binding cavity that are shared between GA transporting NPF proteins; the potential roles of these residues in determining substrate specificity are discussed.

Published
2019
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11. Correction: Origin and evolution of transporter substrate specificity within the NPF family

Author

David Ramírez, Deyang Xu, Barbara Ann Halkier, Mohammed Saddik Motawia, Osman Mirza, Heidi A. Ernst, Morten Egevang Jørgensen, Christoph Crocoll, Carl Erik Olsen, and Hussam Hassan Nour-Eldin

Subjects
General Immunology and Microbiology, Chemistry, QH301-705.5, General Neuroscience, Science, Chemical biology, Transporter, General Medicine, Plant biology, General Biochemistry, Genetics and Molecular Biology, Biochemistry, Substrate specificity, Medicine, Biology (General)
Published
2019

13. A tandem amino acid residue motif in guard cell SLAC1 anion channel of grasses allows for the control of stomatal aperture by nitrate

Author

Peter Ache, Morten Egevang Jørgensen, Jörg Fromm, Silke Lautner, Katharina von Meyer, Christof Lind, Nadine Schäfer, Marius Felder, Johannes Herrmann, Tobias Maierhofer, Alistair M. Hetherington, Dietmar Geiger, and Rainer Hedrich

Subjects
0301 basic medicine, Anions, hordeum volgare, Aba-signaling, Barley, Guard Cells, Hordeum Volgare, Nitrate Activated Anion Channel, S-type Anion Channel, Slac1, Stomata, Protein Conformation, Amino Acid Motifs, guard cells, stomata, Xenopus, Arabidopsis, ABA-signaling, Poaceae, nitrate activated anion channel, General Biochemistry, Genetics and Molecular Biology, SLAC1, Ion, Evolution, Molecular, 03 medical and health sciences, chemistry.chemical_compound, Xenopus laevis, Nitrate, Plant Growth Regulators, Guard cell, Botany, Animals, Plant Proteins, Nitrates, Tandem, biology, Arabidopsis Proteins, fungi, Xylem, myr, Membrane Proteins, barley, food and beverages, Hordeum, biology.organism_classification, 030104 developmental biology, chemistry, Plant Stomata, Oocytes, S-type anion channel, General Agricultural and Biological Sciences, Transcriptome, Ion Channel Gating, Abscisic Acid, Signal Transduction
Abstract

The latest major group of plants to evolve were the grasses. These became important in the mid-Paleogene about 40 million years ago. During evolution, leaf CO2 uptake and transpirational water loss were optimized by the acquisition of grass-specific stomatal complexes. In contrast to the kidney-shaped guard cells (GCs) typical of the dicots such as Arabidopsis, in the grasses and agronomically important cereals, the GCs are dumbbell shaped and are associated with morphologically distinct subsidiary cells (SCs). We studied the molecular basis of GC action in the major cereal crop barley. Upon feeding ABA to xylem sap of an intact barley leaf, stomata closed in a nitrate-dependent manner. This process was initiated by activation of GC SLAC-type anion channel currents. HvSLAC1 expressed in Xenopus oocytes gave rise to S-type anion currents that increased several-fold upon stimulation with >3 mM nitrate. We identified a tandem amino acid residue motif that within the SLAC1 channels differs fundamentally between monocots and dicots. When the motif of nitrate-insensitive dicot Arabidopsis SLAC1 was replaced by the monocot signature, AtSLAC1 converted into a grass-type like nitrate-sensitive channel. Our work reveals a fundamental difference between monocot and dicot GCs and prompts questions into the selective pressures during evolution that resulted in fundamental changes in the regulation of SLAC1 function. Schäfer et al. report that guard cells of the cereal crop barley require nitrate for ABA-induced stomatal closure—a feature accomplished by the guard cell anion channel HvSLAC1. Nitrate-dependent gating of HvSLAC1 and other monocot SLAC1-type anion channels evolved from a TMD3 tandem motif after the split between monocots and dicots.

Published
2018
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14. A Functional EXXEK Motif is Essential for Proton Coupling and Active Glucosinolate Transport by NPF2.11

Author

Osman Mirza, Morten Egevang Jørgensen, Barbara Ann Halkier, Carl Erik Olsen, Hussam Hassan Nour-Eldin, and Dietmar Geiger

Subjects
Threonine, Monosaccharide Transport Proteins, Physiology, Amino Acid Motifs, Glucosinolates, Molecular Sequence Data, Arabidopsis, Sequence alignment, Plant Science, Defense compound transporters, Substrate Specificity, POTs, Kelch motif, Epitopes, Structure-Activity Relationship, Sequence Analysis, Protein, Amino Acid Sequence, NPF2.11, Peptide sequence, chemistry.chemical_classification, biology, Arabidopsis Proteins, Proton-coupling, Regular Papers, Biological Transport, Cell Biology, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Glucosinolate transport, Culture Media, Amino acid, TEVC electrophysiology, Biochemistry, chemistry, Mutation, Symporter, Mutant Proteins, Protons, EXXERFYY motif, Sequence Alignment
Abstract

The proton-dependent oligopeptide transporter (POT/PTR) family shares a highly conserved E1X1X2E2RFXYY (E1X1X2E2R) motif across all kingdoms of life. This motif is suggested to have a role in proton coupling and active transport in bacterial homologs. For the plant POT/PTR family, also known as the NRT1/PTR family (NPF), little is known about the role of the E1X1X2E2R motif. Moreover, nothing is known about the role of the X1 and X2 residues within the E1X1X2E2R motif. We used NPF2.11—a proton-coupled glucosinolate (GLS) symporter from Arabidopsis thaliana—to investigate the role of the E1X1X2E2K motif variant in a plant NPF transporter. Using liquid chromatography–mass spectrometry (LC-MS)-based uptake assays and two-electrode voltage clamp (TEVC) electrophysiology, we demonstrate an essential role for the E1X1X2E2K motif for accumulation of substrate by NPF2.11. Our data suggest that the highly conserved E1, E2 and K residues are involved in translocation of protons, as has been proposed for the E1X1X2E2R motif in bacteria. Furthermore, we show that the two residues X1 and X2 in the E1X1X2E2[K/R] motif are conserved as uncharged amino acids in POT/PTRs from bacteria to mammals and that introducing a positive or negative charge in either position hampers the ability to overaccumulate substrate relative to the assay medium. We hypothesize that introducing a charge at X1 and X2 interferes with the function of the conserved glutamate and lysine residues of the E1X1X2E2K motif and affects the mechanism behind proton coupling.

Published
2015
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15. Transport of defense compounds from source to sink: lessons learned from glucosinolates

Author

Morten Egevang Jørgensen, Barbara Ann Halkier, and Hussam Hassan Nour-Eldin

Subjects
biology, Ecology, Plant composition, Glucosinolates, Arabidopsis, Biological Transport, Plant Science, Computational biology, biology.organism_classification, Glucosinolate transport, chemistry.chemical_compound, chemistry, Glucosinolate, Distribution pattern, Source to sink, Plant Proteins
Abstract

Plants synthesize a plethora of defense compounds crucial for their survival in a challenging and changing environment. Transport processes are important for shaping the distribution pattern of defense compounds, albeit focus hitherto has been mostly on their biosynthetic pathways. A recent identification of two glucosinolate transporters represents a breakthrough in our understanding of glucosinolate transport in Arabidopsis and has advanced knowledge in transport of defense compounds. In this review, we discuss the role of the glucosinolate transporters in establishing dynamic glucosinolate distribution patterns and source-sink relations. We focus on lessons learned from glucosinolate transport that may apply to transport of other defense compounds and discuss future avenues in the emerging field of defense compound transport.

Published
2015
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16. Uptake Assays in

Author

Morten Egevang, Jørgensen, Christoph, Crocoll, Barbara Ann, Halkier, and Hussam Hassan, Nour-Eldin

Subjects
Methods Article
Abstract

Xenopus laevis oocytes are a widely used model system for characterization of heterologously expressed secondary active transporters. Historically, researchers have relied on detecting transport activity by measuring accumulation of radiolabeled substrates by scintillation counting or of fluorescently labelled substrates by spectrofluorometric quantification. These techniques are, however, limited to substrates that are available as radiolabeled isotopes or to when the substrate is fluorescent. This prompted us to develop a transport assay where we could in principle detect transport activity for any organic metabolite regardless of its availability as radiolabeled isotope or fluorescence properties. In this protocol we describe the use of X. laevis oocytes as a heterologous host for expression of secondary active transporters and how to perform uptake assays followed by detection and quantification of transported metabolites by liquid chromatography-mass spectrometry (LC-MS). We have successfully used this method for identification and characterization of transporters of the plant defense metabolites called glucosinolates and cyanogenic glucosides ( Jørgensen et al., 2017 ), however the method is usable for the characterization of any transporter whose substrate can be detected by LC-MS.

Published
2017

17. A review of nasal, paranasal, and skull base tumors invading the orbit

Author

Steffen Heegaard and Morten Egevang Jørgensen

Subjects
Nasal cavity, Adult, Male, Pathology, medicine.medical_specialty, medicine.medical_treatment, Nose Neoplasms, Biology, Skull Base Neoplasms, 03 medical and health sciences, 0302 clinical medicine, otorhinolaryngologic diseases, medicine, Humans, Chemotherapy, Cartilage, Carcinoma, Histology, Sarcoma, Ophthalmology, Skull, medicine.anatomical_structure, Paranasal sinuses, 030221 ophthalmology & optometry, Orbital Neoplasms, Female, Undifferentiated carcinoma, Meningioma, 030217 neurology & neurosurgery, Paranasal Sinus Neoplasms, Orbit (anatomy)
Abstract

Tumors that invade the orbit are uncommon. The majority are meningiomas arising from the sphenoid ridge (66%). Others are bone and cartilage tumors arising from the surrounding bones of the orbit, pituitary adenomas, and epithelial tumors arising from the paranasal sinuses and nasal cavity. Meningiomas occur more often in women, whereas epithelial tumors have a predilection for men. Meningiomas and epithelial tumors typically present in the sixth decade of life, whereas bone tumors tend to affect individuals in their third decade of life. Patients often present with a combination of ophthalmological and otorhinolaryngological symptoms, including proptosis, pain, decreased visual acuity, restrictions in motility of the eye, epistaxis, and nasal obstruction. Sarcomas and benign bone and cartilage tumors arise from surrounding structures, whereas carcinomas usually arise from the paranasal sinuses. Surgery is the mainstay of treatment. Depending on the aggressiveness and histology of the tumor, surgery may be combined with radiation and chemotherapy. The prognosis is generally poor, but varies depending on histology and cell origin, size of the tumor, and degree of invasion. Meningiomas and benign bone tumors have the best prognoses. Sinonasal undifferentiated carcinomas, small-cell neuroendocrine carcinomas, osteosarcomas, and rhabdomyosarcomas have poorer prognoses.

Published
2017

18. Origin and evolution of transporter substrate specificity within the NPF family

Author

Deyang Xu, Osman Mirza, Hussam Hassan Nour-Eldin, Mohammed Saddik Motawia, Carl Erik Olsen, Morten Egevang Jørgensen, Heidi A. Ernst, David Ramírez, Christoph Crocoll, and Barbara Ann Halkier

Subjects
0106 biological sciences, 0301 basic medicine, QH301-705.5, Science, Xenopus, Glucosinolates, Plant Biology, Biology, Biochemistry, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Substrate Specificity, Evolution, Molecular, Magnoliopsida, 03 medical and health sciences, chemistry.chemical_compound, metabolite transporters, Biochemistry and Chemical Biology, substrate specificity and electrogenicity, Arabidopsis thaliana, Biology (General), indole glucosinolate transport, cyanogenic glucoside transport, Phylogeny, transporter evolution, General Immunology and Microbiology, General Neuroscience, fungi, Membrane Transport Proteins, Correction, food and beverages, Transporter, General Medicine, Substrate (biology), Plant biology, biology.organism_classification, 030104 developmental biology, chemistry, A. thaliana, Glucosinolate, Medicine, Substrate specificity, Bacterial outer membrane, Research Article, 010606 plant biology & botany
Abstract

Despite vast diversity in metabolites and the matching substrate specificity of their transporters, little is known about how evolution of transporter substrate specificities is linked to emergence of substrates via evolution of biosynthetic pathways. Transporter specificity towards the recently evolved glucosinolates characteristic of Brassicales is shown to evolve prior to emergence of glucosinolate biosynthesis. Furthermore, we show that glucosinolate transporters belonging to the ubiquitous NRT1/PTR FAMILY (NPF) likely evolved from transporters of the ancestral cyanogenic glucosides found across more than 2500 species outside of the Brassicales. Biochemical characterization of orthologs along the phylogenetic lineage from cassava to A. thaliana, suggests that alterations in the electrogenicity of the transporters accompanied changes in substrate specificity. Linking the evolutionary path of transporter substrate specificities to that of the biosynthetic pathways, exemplify how transporter substrate specificities originate and evolve as new biosynthesis pathways emerge. DOI: http://dx.doi.org/10.7554/eLife.19466.001, eLife digest All living cells are surrounded by membranes that protect them from the external environment. The membrane contains proteins called transporters, which move nutrients and other molecules (known as substrates) across the membrane. A variety of transporters have evolved to move the hundreds of thousands of different substrates found in nature. Plant cells make many different compounds to protect themselves from pests and diseases. A group of transporters known as the NPF family move some of these compounds across the cells outer membrane. The types of substrates they transport vary in different plants. In cassava, for example, NPF transporters move compounds called cyanogenic glucosides, which are poisonous to humans and other animals. On the other hand, NPF transporters in another plant called Arabidopsis thaliana can move bitter-tasting compounds called glucosinolates. The process that makes glucosinolates in plants evolved from the process that makes cyanogenic glucosides. Can transporters evolve the ability to move a new substrate before or after that substrate first appears? To answer this question, Jørgensen et al. studied the NPF family in A. thaliana, cassava and another plant called papaya that makes both cyanogenic glucosides and glucosinolates. The experiments suggest that NPF transporters able to move both cyanogenic glucosides and glucosinolates evolved before plants evolved the ability to make glucosinolates. Later in evolution, these multi-specific transporters specialized to only move glucosinolates. Jørgensen et al. also show that early glucosinolate transporters could move a broad variety of glucosinolates but later evolved to only transport particular types. These findings show how transporters and the processes that make compounds in cells may evolve together. A future challenge will be to understand the molecular changes in a transporter that make it specific for a certain substrate. This may help researchers to develop new ways of controlling the amount of toxic compounds in crops we eat by manipulating how the compounds are transported. DOI: http://dx.doi.org/10.7554/eLife.19466.002

Published
2017
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19. Design and Direct Assembly of Synthesized Uracil-containing Non-clonal DNA Fragments into Vectors by USERTM Cloning

Author

Majse Nafisi, Cuiwei Wang, Nikolai Wulff, Hussam Hassan Nour-Eldin, Zeinu Mussa Belew, Morten Egevang Jørgensen, Sophie Konstanze Lambertz, and Deyang Xu

Subjects
0106 biological sciences, 0301 basic medicine, Cloning, Strategy and Management, Mechanical Engineering, Metals and Alloys, Uracil, Computational biology, Molecular cloning, 01 natural sciences, Combinatorial chemistry, Industrial and Manufacturing Engineering, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Plant science, chemistry, 010608 biotechnology, Methods Article, Vector (molecular biology), In vitro recombination, DNA
Abstract

This protocol describes how to order and directly assemble uracil-containing non-clonal DNAfragments by uracil excision based cloning (USER cloning). The protocol was generated with the goal ofmaking synthesized non-clonal DNA fragments directly compatible with USERTM cloning. The protocol ishighly efficient and would be compatible with uracil-containing non-clonal DNA fragments obtained fromany synthesizing company. The protocol drastically reduces time and handling between receiving thesynthesized DNA fragments and transforming with vector and DNA fragment(s).

Published
2017
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20. Uptake Assays in Xenopus laevis Oocytes Using Liquid Chromatography-mass Spectrometry to Detect Transport Activity

Author

Morten Egevang Jørgensen, Hussam Hassan Nour-Eldin, Christoph Crocoll, and Barbara Ann Halkier

Subjects
0106 biological sciences, 0301 basic medicine, biology, Strategy and Management, Mechanical Engineering, Metabolite, Metals and Alloys, Xenopus, Substrate (chemistry), Transporter, Mass spectrometry, biology.organism_classification, 01 natural sciences, Fluorescence, Industrial and Manufacturing Engineering, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Biochemistry, Liquid chromatography–mass spectrometry, Plant defense against herbivory, 010606 plant biology & botany
Abstract

Xenopus laevis oocytes are a widely used model system for characterization of heterologously expressed secondary active transporters. Historically, researchers have relied on detecting transport activity by measuring accumulation of radiolabeled substrates by scintillation counting or of fluorescently labelled substrates by spectrofluorometric quantification. These techniques are, however, limited to substrates that are available as radiolabeled isotopes or to when the substrate is fluorescent. This prompted us to develop a transport assay where we could in principle detect transport activity for any organic metabolite regardless of its availability as radiolabeled isotope or fluorescence properties.In this protocol we describe the use of X. laevis oocytes as a heterologous host for expression of secondary active transporters and how to perform uptake assays followed by detection and quantification of transported metabolites by liquid chromatography-mass spectrometry (LC-MS). We have successfully used this method for identification and characterization of transporters of the plant defense metabolites called glucosinolates and cyanogenic glucosides ( Jørgensen et al., 2017 ), however the method is usable for the characterization of any transporter whose substrate can be detected by LC-MS.

Published
2017
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21. Postprandial responses of incretin and pancreatic hormones in non-diabetic patients with end-stage renal disease

Author

Jens J. Holst, Filip K. Knop, Mads Hornum, Morten Egevang Jørgensen, Bo Feldt-Rasmussen, and Thomas Idorn

Subjects
Adult, Blood Glucose, Male, endocrine system, medicine.medical_specialty, medicine.medical_treatment, Incretin, Gastric Inhibitory Polypeptide, Incretins, Glucagon, End stage renal disease, Glucagon-Like Peptide 1, Internal medicine, Diabetes mellitus, medicine, Humans, Insulin, Pancreatic hormone, Transplantation, Gastric emptying, business.industry, digestive, oral, and skin physiology, Middle Aged, Pancreatic Hormones, Postprandial Period, medicine.disease, Endocrinology, Postprandial, Gastric Emptying, Nephrology, Kidney Failure, Chronic, Female, business, hormones, hormone substitutes, and hormone antagonists
Abstract

Background. Patients with end-stage renal disease (ESRD) have glucometabolic disturbances resulting in a high prevalence of prediabetes. The underlying pathophysiology remains unclear, but may prove important for the strategies employed to prevent progression to overt diabetes. Meal-induced release of the insulinotropic gut-derived incretin hormones and pancreatic hormones play a critical role in the maintenance of a normal postprandial glucose tolerance. Methods. We studied patients with ESRD and either normal (n = 10) or impaired (n= 10) glucose tolerance, and control subjects (n = 11). Plasma concentrations of glucose, insulin, glucagon, glucagon-like peptide-1 (GLP-1), glucose-dependent insulinotropic polypeptide (GIP) and paracetamol were measured repeatedly during a standardized 4-h liquid meal including 1.5 g paracetamol (added for evaluation of gastric emptying). Results. Fasting glucose and postprandial glucose responses were comparable between groups (P > 0.082). Patients with ESRD exhibited higher fasting levels of GIP and glucagon compared with controls (P < 0.001). Baseline-corrected GLP-1 and glucagon responses were enhanced (P < 0.002), baseline-corrected insulin responses and insulin excursions were reduced (P < 0.035), and paracetamol excursions were delayed (P < 0.024) in patients with ESRD compared with controls. None of the variables differed between the two ESRD subgroups. Conclusions. Non-diabetic patients with ESRD were characterized by reduced postprandial insulin responses despite increased secretion of the insulinotropic incretin hormone GLP-1. Fasting levels and baseline-corrected responses of glucagon were elevated and gastric emptying was delayed in the ESRD patients. These perturbations seem to be caused by uraemia per se and may contribute to the disturbed glucose metabolism in ESRD patients.

Published
2013
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22. Reduction of antinutritional glucosinolates in Brassica oilseeds by mutation of genes encoding transporters

Author

David Seynnaeve, Jonathan Sonne Andersen, Thalia Verhoye, Morten Egevang Jørgensen, Hussam Hassan Nour-Eldin, Rudy Fulawka, Carl Erik Olsen, Peter Denolf, Steven Engelen, Svend Roesen Madsen, and Barbara Ann Halkier

Subjects
0106 biological sciences, 0301 basic medicine, Monosaccharide Transport Proteins, Camelina sativa, Glucosinolates, Biomedical Engineering, Brassica, Bioengineering, 01 natural sciences, Applied Microbiology and Biotechnology, 03 medical and health sciences, chemistry.chemical_compound, Polyploid, Botany, Brassica rapa, Plant defense against herbivory, Arabidopsis thaliana, Plant Oils, biology, fungi, food and beverages, Crambe abyssinica, biology.organism_classification, Plants, Genetically Modified, 030104 developmental biology, Genetic Enhancement, chemistry, Glucosinolate, Mutation, Seeds, Molecular Medicine, 010606 plant biology & botany, Biotechnology
Abstract

The nutritional value of Brassica seed meals is reduced by the presence of glucosinolates, which are toxic compounds involved in plant defense. Mutation of the genes encoding two glucosinolate transporters (GTRs) eliminated glucosinolates from Arabidopsis thaliana seeds, but translation of loss-of-function phenotypes into Brassica crops is challenging because Brassica is polyploid. We mutated one of seven and four of 12 GTR orthologs and reduced glucosinolate levels in seeds by 60-70% in two different Brassica species (Brassica rapa and Brassica juncea). Reduction in seed glucosinolates was stably inherited over multiple generations and maintained in field trials of two mutant populations at three locations. Successful translation of the gtr loss-of-function phenotype from model plant to two Brassica crops suggests that our transport engineering approach could be broadly applied to reduce seed glucosinolate content in other oilseed crops, such as Camelina sativa or Crambe abyssinica.

Published
2016

23. A Western Blot Protocol for Detection of Proteins Heterologously Expressed in Xenopus laevis Oocytes

Author

Morten Egevang, Jørgensen, Hussam Hassan, Nour-Eldin, and Barbara Ann, Halkier

Subjects
Xenopus laevis, Blotting, Western, Animals, Gene Expression, Recombinant Proteins
Abstract

Oocytes of the African clawed frog, Xenopus laevis, are often used for expression and biochemical characterization of transporter proteins as the oocytes are particularly suitable for uptake assays and electrophysiological recordings. Assessment of the expression level of expressed transporters at the individual oocyte level is often desirable when comparing properties of wild type and mutant transporters. However, a large content of yolk platelets in the oocyte cytoplasm makes this a challenging task. Here we report a method for fast and easy, semiquantitative Western blot analysis of proteins heterologously expressed in Xenopus oocytes.

Published
2016

24. A Western Blot Protocol for Detection of Proteins Heterologously Expressed in Xenopus laevis Oocytes

Author

Barbara Ann Halkier, Morten Egevang Jørgensen, and Hussam Hassan Nour-Eldin

Subjects
0301 basic medicine, 030103 biophysics, African clawed frog, medicine.diagnostic_test, Wild type, Xenopus, Transporter, Biology, biology.organism_classification, Oocyte, Molecular biology, Cell biology, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Western blot, Cytoplasm, Gene expression, medicine
Abstract

Oocytes of the African clawed frog, Xenopus laevis, are often used for expression and biochemical characterization of transporter proteins as the oocytes are particularly suitable for uptake assays and electrophysiological recordings. Assessment of the expression level of expressed transporters at the individual oocyte level is often desirable when comparing properties of wild type and mutant transporters. However, a large content of yolk platelets in the oocyte cytoplasm makes this a challenging task. Here we report a method for fast and easy, semiquantitative Western blot analysis of proteins heterologously expressed in Xenopus oocytes.

Published
2016
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25. MO019INCRETIN EFFECT IS REDUCED IN END-STAGE RENAL DISEASE

Author

Lisbet Brandi, Henrik Post Hansen, Casper Rydahl, Morten Egevang Jørgensen, Jens J. Holst, Filip K. Knop, Gerrit van Hall, Mads Hornum, Thomas Idorn, Iain Bressendorff, and Bo Feldt-Rasmussen

Subjects
Transplantation, medicine.medical_specialty, Nephrology, business.industry, Urology, Medicine, business, End stage renal disease
Published
2017
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26. Safety and efficacy of liraglutide in patients with type 2 diabetes and end-stage renal disease: protocol for an investigator-initiated prospective, randomised, placebo-controlled, double-blinded, parallel intervention study

Author

Bo Feldt-Rasmussen, Morten Egevang Jørgensen, Karl Bang Christensen, Filip K. Knop, Thomas Idorn, Jens J. Holst, Marsela Resuli, Mads Hornum, Tonny Jensen, and Pernille M Hansen

Subjects
medicine.medical_specialty, Renal Medicine, Liraglutide, business.industry, Renal function, General Medicine, Type 2 diabetes, medicine.disease, Placebo, End stage renal disease, Endocrinology, Diabetes mellitus, Internal medicine, medicine, Clinical endpoint, Protocol, Adverse effect, business, medicine.drug
Abstract

Introduction Diabetes is the leading cause of end-stage renal disease (ESRD). Owing to renal clearance, several antidiabetic agents cannot be used in patients with ESRD. The present protocol describes an investigator-initiated trial aiming to test safety and efficacy of treatment with the glucagon-like peptide-1 receptor agonist liraglutide in patients with type 2 diabetes and dialysis-dependent ESRD. Methods and analysis Twenty patients with type 2 diabetes and ESRD will be compared with 20 matched patients with type 2 diabetes and normal kidney function in a randomised, parallel, placebo-controlled (1 : 1), double-blinded setting. All participants will receive 12 weeks of daily treatment with liraglutide/placebo in an individually titrated dose of 0.6, 1.2 or 1.8 mg. Over nine visits, plasma liraglutide, glycaemic control, β-cell response, cardiovascular parameters, various biomarkers and adverse events will be assessed. The primary endpoint will be evaluated from dose-corrected plasma trough liraglutide concentration at the final trial visit to determine potential accumulation in the ESRD group. Ethics and dissemination The study has been approved by the Danish Medicines Agency, the Scientific-Ethical Committee of the Capital Region of Denmark and the Danish Data Protection Agency. An external monitoring committee (The Good Clinical Practice Unit at Copenhagen University Hospitals) will oversee the study. The results of the study will be presented at national and international scientific meetings, and publications will be submitted to peer-reviewed journals. Trial registration ClinicalTrials.gov Identifier: NCT01394341

Published
2013

27. Gastrointestinal factors contribute to glucometabolic disturbances in nondiabetic patients with end-stage renal disease

Author

Jens J. Holst, Mads Hornum, Thomas Idorn, Bo Feldt-Rasmussen, Morten Egevang Jørgensen, and Filip K. Knop

Subjects
Adult, Blood Glucose, Male, endocrine system, medicine.medical_specialty, Time Factors, medicine.medical_treatment, Incretin, Gastric Inhibitory Polypeptide, Carbohydrate metabolism, urologic and male genital diseases, Glucagon, Incretins, End stage renal disease, Impaired glucose tolerance, Glucagon-Like Peptide 1, Internal medicine, medicine, Humans, Insulin, Glucose Metabolism Disorders, Glucose tolerance test, Analysis of Variance, medicine.diagnostic_test, business.industry, digestive, oral, and skin physiology, Fasting, Glucose Tolerance Test, Middle Aged, medicine.disease, female genital diseases and pregnancy complications, Gastrointestinal Tract, Endocrinology, Nephrology, Area Under Curve, Case-Control Studies, Linear Models, Kidney Failure, Chronic, Female, business, hormones, hormone substitutes, and hormone antagonists, Biomarkers, Hormone
Abstract

Nondiabetic patients with end-stage renal disease (ESRD) have disturbed glucose metabolism, the underlying pathophysiology of which is unclear. To help elucidate this, we studied patients with ESRD and either normal or impaired glucose tolerance (10 each NGT or IGT, respectively) and 11 controls using an oral glucose tolerance test and an isoglycemic intravenous glucose infusion on separate days. Plasma glucose, insulin, glucagon, and incretin hormones were measured repeatedly, and gastrointestinal-mediated glucose disposal (GIGD) based on glucose amounts utilized, and incretin effect based on incremental insulin responses, were calculated. The GIGD was significantly reduced in both ESRD groups compared with controls. Incretin effects were 69% (controls), 55% (ESRD with NGT), and 41% (ESRD with IGT), with a significant difference between controls and ESRDs with IGT. Fasting concentrations of glucagon and incretin hormones were significantly increased in patients with ESRD. Glucagon suppression was significantly impaired in both groups with ESRD compared with controls, while the baseline-corrected incretin hormone responses were unaltered between groups. Thus, patients with ESRD had reduced GIGD, a diminished incretin effect in those with IGT, and severe fasting hyperglucagonemia that seemed irrepressible in response to glucose stimuli. These factors may contribute to disturbed glucose metabolism in ESRD.

Published
2013

28. NRT/PTR transporters are essential for translocation of glucosinolate defence compounds to seeds

Author

Carl Erik Olsen, Morten Egevang Jørgensen, Meike Burow, Tonni Grube Andersen, Dietmar Geiger, Hussam Hassan Nour-Eldin, Svend Roesen Madsen, Barbara Ann Halkier, Ingo Dreyer, and Rainer Hedrich

Subjects
0106 biological sciences, Cell Extracts, Monosaccharide Transport Proteins, Glucosinolates, Arabidopsis, Chromosomal translocation, Phloem, Genes, Plant, 01 natural sciences, Evolution, Molecular, 03 medical and health sciences, chemistry.chemical_compound, Xenopus laevis, Animals, Gene, 030304 developmental biology, Gene Library, 2. Zero hunger, 0303 health sciences, Multidisciplinary, biology, Arabidopsis Proteins, food and beverages, Transporter, Biological Transport, biology.organism_classification, Apoplast, Biochemistry, chemistry, Organ Specificity, Glucosinolate, Seeds, Oocytes, Silique, Protons, Gene Deletion, 010606 plant biology & botany
Abstract

Two high-affinity proton-dependent transporters of glucosinolates have been identified in Arabidopsis and termed GTR1 and GTR2; these transporters are essential for transporting glucosinolates to seeds, offering a means to control the allocation of defence compounds in a tissue-specific manner, which may have agricultural biotechnology implications. Glucosinolates are important plant defence compounds. They are synthesized in various tissues and then translocated to the seeds, where they accumulate. In this study, Barbara Halkier and colleagues examine the molecular basis of this long-distance transport process. They identify two high-affinity, proton-dependent glucosinolate-specific transporters in Arabidopsis, termed GTR1 and GTR2. These transporters control the loading of glucosinolates from the apoplast into the phloem. The authors' specific and complete elimination of glucosinolates from Arabidopsis seeds, combined with the compounds' retention in vegetative tissues, establishes transport engineering as a potential approach for eliminating anti-nutritional natural products in high-value crops. In plants, transport processes are important for the reallocation of defence compounds to protect tissues of high value1, as demonstrated in the plant model Arabidopsis, in which the major defence compounds, glucosinolates2, are translocated to seeds on maturation3. The molecular basis for long-distance transport of glucosinolates and other defence compounds, however, remains unknown. Here we identify and characterize two members of the nitrate/peptide transporter family, GTR1 and GTR2, as high-affinity, proton-dependent glucosinolate-specific transporters. The gtr1 gtr2 double mutant did not accumulate glucosinolates in seeds and had more than tenfold over-accumulation in source tissues such as leaves and silique walls, indicating that both plasma membrane-localized transporters are essential for long-distance transport of glucosinolates. We propose that GTR1 and GTR2 control the loading of glucosinolates from the apoplasm into the phloem. Identification of the glucosinolate transporters has agricultural potential as a means to control allocation of defence compounds in a tissue-specific manner.

Published
2011

29. The effect of food on serum concentrations of metopimazine

Author

Morten Egevang Jørgensen, Jørn Herrstedt, and H R Angelo

Subjects
Adult, Male, medicine.medical_specialty, Food intake, medicine.drug_class, Metabolite, Pharmacology, Intestinal absorption, chemistry.chemical_compound, Isonipecotic Acids, Internal medicine, Healthy volunteers, medicine, Humans, Antiemetic, Pharmacology (medical), Metopimazine, Dose-Response Relationship, Drug, business.industry, Serum concentration, Endocrinology, Intestinal Absorption, chemistry, Food, Antiemetics, Female, business, Research Article, medicine.drug
Abstract

1. Six healthy volunteers were given single oral doses of the antiemetic metopimazine (MPZ), starting with trial (a) 20 mg preprandially and followed by trial (b) 50 mg preprandially. In trials (c) and (d) the doses were similar to those in trials (a) and (b), but MPZ was given postprandially. To evaluate intra-individual variation in serum concentrations, trial (a) was repeated three times in four of the volunteers (trial (e)). 2. Blood samples were drawn and the serum concentrations of MPZ and its acid metabolite (AMPZ) were measured by h.p.l.c. 3. There was no evidence of dose-dependent kinetics at the dose levels studied. 4. Median AUC values were 22.6, 16.2, 52.4 and 35.2 (trials (a), (b), (c) and (d), ng ml-1 h). Food intake decreased the serum concentrations of MPZ, suggesting that MPZ should be taken preprandially.

Published
1990
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30. Phosphorylation at serine 52 and 635 does not alter the transport properties of glucosinolate transporter AtGTR1

Author

Carl Erik Olsen, Morten Egevang Jørgensen, Barbara Ann Halkier, and Hussam Hassan Nour-Eldin

Subjects
inorganic chemicals, 0301 basic medicine, Monosaccharide Transport Proteins, Short Communication, Arabidopsis, Xenopus, macromolecular substances, Plant Science, Biology, environment and public health, Serine, 03 medical and health sciences, Phosphorylation, Arabidopsis Proteins, Cell Membrane, Biological Transport, Transporter, Membrane transport, biology.organism_classification, Glucosinolate transport, enzymes and coenzymes (carbohydrates), Cytosol, 030104 developmental biology, Biochemistry, Active transport, Mutagenesis, Site-Directed, bacteria
Abstract

Little is known about how plants regulate transporters of defense compounds. In A. thaliana, glucosinolates are transported between tissues by NPF2.10 (AtGTR1) and NPF2.11 (AtGTR2). Mining of the PhosPhat4.0 database showed two cytosol exposed phosphorylation sites for AtGTR1 and one membrane-buried phosphorylation site for AtGTR2. In this study, we investigate whether mutation of the two potential regulatory sites of AtGTR1 affected transport of glucosinolates in Xenopus oocytes. Characterization of AtGTR1 phosphorylation mutants showed that phosphorylation of AtGTR1 - at the two reported phosphorylation sites - is not directly involved in regulating AtGTR1 transport activity. We hypothesize a role for AtGTR1-phosphorylation in regulating protein-protein interactions.

Published
2015
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31. Bioavailability of the antiemetic metopimazine given as a microenema

Author

Jørn Herrstedt, Helle Riis Angelo, Per Dombernowsky, Morten Egevang Jørgensen, Jørn Møller-Sonnergaard, and Margrethe Rømer Rassing

Subjects
Adult, Male, medicine.drug_class, Administration, Oral, Biological Availability, Enema, Pharmacology, Intestinal absorption, First pass effect, Pharmacokinetics, Oral administration, Administration, Rectal, Isonipecotic Acids, medicine, Antiemetic, Humans, Pharmacology (medical), Infusions, Intravenous, Metopimazine, business.industry, Original Articles, Middle Aged, Bioavailability, Intestinal Absorption, Rectal administration, Antiemetics, Female, business, medicine.drug
Abstract

The absorption of the antiemetic metopimazine (MPZ) given as a single dose of (a) 40 mg microenema, (b) 40 mg orally and (c) 10 mg as a 60 min i.v. continuous infusion was investigated in six healthy volunteers. Blood samples were drawn and the serum concentrations of MPZ and its acid metabolite were measured. The bioavailability of MPZ given orally and as enemas was 22.3 and 19.5% respectively. Partial avoidance of hepatic first pass metabolism was seen with the enemas, which in contrast to suppositories, seems to represent a reliable form of rectal administration.

Published
1996

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