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2. Performance and degradation of Proton Exchange Membrane Fuel Cells: State of the art in modeling from atomistic to system scale

Author

Jahnke, T., Futter, G., Latz, A., Malkow, T., Papakonstantinou, G., Tsotridis, G., Schott, P., Gérard, M., Quinaud, M., Quiroga, M., Franco, A.A., Malek, K., Calle-Vallejo, F., Ferreira de Morais, R., Kerber, T., Sautet, P., Loffreda, D., Strahl, S., Serra, M., Polverino, P., Pianese, C., Mayur, M., Bessler, W.G., and Kompis, C.

Published
2016
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3. Gibt es Therapieansätze für die nicht-alkoholische Fettleber und ihre Komplikationen?

Author

Strahl, S. and Maier, K.P.

Abstract

Zusammenfassung: Vor etwa 10 Jahren herrschte noch breite Skepsis, ob die nicht-alkoholische Fettlebererkrankung eine ernstzunehmende Erkrankung darstellt. Mit zunehmender Prävalenz der Fettsucht, des Diabetes mellitus Typ 2 und des metabolischen Syndroms in der Bevölkerung gewinnt diese Entität für verschiedene Fachdisziplinen zunehmend an Bedeutung. Mittlerweile ist die nicht-alkoholische Fettlebererkrankung die häufigste Ursache für erhöhte Leberenzyme unklarer Genese in der Praxis. Die Therapie zielt auf die Besserung der Insulinresistenz sowie der antioxidativen Mechanismen ab, wobei die Modifikation des Lebensstils mit Gewichtsabnahme und regelmäßiger Bewegung im Vordergrund steht. Pharmakologische Interventionen können derzeit noch nicht empfohlen werden, da Studien, welche einen positiven Effekt auf Morbidität und Mortalität zeigen, noch fehlen. Außerdem müssen langfristige Daten über die Medikamentensicherheit und Nebenwirkungen abgewartet werden.

Published
2024
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13. Clinical phenotype of muscle-eye-brain disease (MEB) without mutations in POMGnT1 and FKRP genes: some other form of glycosylation disorder?

Author

Petković D, Bilić K, Strahl S, Koerner C, van der Knaap M, Sarnavka V, Begović D, Radoš M, Pažanin L, Fumić K, Barić I

Subjects
muscle-eye-brain disease
Abstract

Our patient is the second child of young unrelated parents. Family history is unremarkable. He was born at term after uneventful pregnancy. During the neonatal period horizontal nystagmus and microphtalmia of the right eye were noticed. Ophtalmological examination of the right eye revealed retinal detachment, vitreous organisation and microphtalmia, while on the left eye there was retinal rarefaction with focal proliferation of pigment epithelium and opacities in anterior vitreous. At the age of 2.5 months more thorough clinical evaluation was performed. The child had truncal hypotonia, lower limb hypertonus, reduced spontaneous movements, flexion contractures of hips and knees, delay in neuromotor development and dysmorphic features (dolychochephaly, high palate, depressed nasal bridge, low set ears and poorly shaped right ear). Deep tendon reflexes on lower limbs couldn’ t be elicited. Interesting distinction which we couldn’ t connect to other features was xerosis with regional ichthyosiform skin changes. Biochemical investigation showed permanently very high creatine kinase (the highest value was 9366 U/L). Syalotransferin isoelectrofocusing was normal. Results of pathohystological analysis and electromyoneurography pointed to muscular dystrophy. Brain MR revealed cerebellar cortical dysplasia and subcortical cerebellar cysts, hypoplasia of vermis and pons, polymicrogyria (most pronounced in the frontal region) with granular and irregular cortex – findings typical for MEB. Visual evoked potentials with electroretinography detected severe neuronal impartment of left visual pathway and no response on the right side. At the age of 15 months (last clinical evaluation) child presented with growth retardation, truncal and upper limb girdle hypotonia and severe psychomotor delay (without head control, unable to sit, with reduced spontaneous movements and relatively good social contact). Skin changes remaind as previously. Due to typical clinical presentation (with the exception of skin changes), structural brain abnormalities and course of the disease we thought that child suffered from muscle-eye-brain disease. Unexpectedly, molecular analysis of POMGnT1 and FKRP genes didn’ t reveal mutations. Could this child suffer from some other form of congenital glycosylation disorder? We consider further diagnostic procedures.

Published
2007

16. Correlation of enzyme activity and clinical phenotype in POMT1-associated dystroglycanopathies.

Author

Lommel, M., Cirak, S., Willer, T., Hermann, R., Uyanik, G., Bokhoven, J.H.L.M. van, Korner, C., Voit, T., Baric, I., Hehr, U., Strahl, S., Lommel, M., Cirak, S., Willer, T., Hermann, R., Uyanik, G., Bokhoven, J.H.L.M. van, Korner, C., Voit, T., Baric, I., Hehr, U., and Strahl, S.

Abstract

Contains fulltext : 87607.pdf (publisher's version ) (Open Access), BACKGROUND: Mutations in protein O-mannosyltransferases (POMTs) cause a heterogeneous group of muscular dystrophies with abnormal glycosylation of alpha-dystroglycan (dystroglycanopathies). The wide spectrum of clinical severities ranges from Walker-Warburg syndrome (WWS), associated with brain and eye abnormalities, to mild forms of limb girdle muscular dystrophy (LGMD). OBJECTIVE: The aim of this study was to elucidate the impact of mutations in POMT1 on the clinical phenotype. METHODS: We examined 2 patients with POMT1-associated alpha-dystroglycanopathy, 1 displaying a LGMD2K and 1 with a WWS phenotype. Using dermal fibroblasts, we analyzed the influence of the POMT1 mutations on the glycosylation status of alpha-dystroglycan, protein O-mannosyltransferase activity, and the stability of the mutant POMT1 protein. RESULTS: We report on novel compound heterozygous mutations in POMT1 (p.L171A and p.A589VfsX38) that result in LGMD2K. We further demonstrate that a homozygous splice site mutation of a recently identified WWS patient results in POMT1 p.del77-93. Using dermal fibroblasts, we show that mannosyltransferase activity is reduced in the patients and that stability of POMT1 mutant proteins p.A589VfsX38 and p.del77-93 is significantly decreased. CONCLUSIONS: Our results suggest that dermal fibroblasts can be applied to facilitate the diagnostic analysis of dystroglycanopathy patients as well as to study the pathogenic mechanism of POMT mutations. Characterization of the POMT1 substrate protein alpha-dystroglycan and POMT in vitro mannosyltransferase activity shows that the severity of the clinical phenotype of the patients analyzed is inversely correlated with POMT activity.

Published
2010

17. D.I.4 Patient fibroblast functional complementation studies: A valuable tool in the identification of novel Walker–Warburg syndrome disease genes

Author

Willer, T., primary, Lee, H., additional, Lommel, M., additional, Yoshida-Moriguchi, T., additional, Beltran Valero de Bernabe, D., additional, Venzke, D., additional, Cirak, S., additional, Schachter, H., additional, Vajsar, J., additional, Voit, T., additional, Muntoni, F., additional, Strahl, S., additional, Mathews, K.D., additional, Nelson, S.F., additional, Moore, S.A., additional, and Campbell, K.P., additional

Published
2012
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30. Oral budesonide and ursodeoxycholic acid for treatment of primary biliary cirrhosis: Results of a prospective double-blind trial

Author

Leuschner^*, M., Maier^@?, K., Schlichting^*, J., Strahl^@?, S., Herrmann^&, G., Dahm^@?, H.H., Ackermann^@?, H., Happ^#, J., and Leuschner^*, U.

Abstract

Background & Aims: Ursodeoxycholic acid (UDCA) is used for treatment of primary biliary cirrhosis. Previous studies showed that, compared with UDCA monotherapy, bile salts plus prednisolone had no further effect on laboratory data but improved liver histology. Thirty percent of these patients had prednisolone-related side effects. Budesonide is a glucocorticoid with a high receptor affinity and a high first-pass metabolism. In this study we investigated whether budesonide and UDCA are superior to UDCA monotherapy. Methods: A 2-year prospective, controlled double-blind trial was performed. Twenty patients (mainly with early-stage disease) were treated with UDCA at a dose of 10-15 mg/kg daily in addition to 3 mg budesonide 3 times daily (group A), and 19 patients (1 dropped out for personal reasons) were treated with UDCA plus placebo (group B). Liver biopsy specimens were taken before, after 12 months, and at the end of study. Glucose tolerance tests, serum cortisol levels, and adrenocorticotropin-stimulated cortisol secretion were assessed at regular intervals. Bone mass density was measured by dual-energy photon absorptiometry. Results: Compared with pretreatment values, liver enzyme and immunoglobulin M and G levels decreased significantly in both groups. Improvement in group A was significantly more pronounced (P < 0.05) than in group B. Titers of antimitochondrial antibodies did not change. In group A, the point score of liver histology improved by 30.3%; in group B, it deteriorated by 3.5% (P < 0.001). Changes in bone mineral density after 2 years were -1.747% in group A and -0.983% in group B (P = 0.43). Budesonide had little influence on the hypothalamic-pituitary-adrenal axis. One patient in group A had budesonide-related side effects; in 3 patients in group B, complications of liver disease developed. Conclusions: Combination therapy with UDCA and budesonide is superior to UDCA and placebo. GASTROENTEROLOGY 1999;117:918-925

Published
1999
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31. The Effectiveness of Topical Antibacterials in Acne: A Double-Blind Clinical Study

Author

Franz, E and Weidner-Strahl, S

Abstract

In a double-blind study, three groups of patients with mild to moderate acne were treated for eight weeks with topical acne creams containing the antibacterials triclosan or triclosan plus propylene phenoxetol. The formula without antibacterials served as the control. Total-face lesion counts, evaluation of the overall degree of inflammation of the lesions, and patient self-assessment showed the added efficacy of the antibacterials when incorporated into the control.

Published
1978
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32. The genetic interaction network of CCW12, a Saccharomyces cerevisiae gene required for cell wall integrity during budding and formation of mating projections

Author

Arroyo Javier, Popolo Laura, García-Cantalejo Jesús, Neupert Christine, Piberger Heidi, Ragni Enrico, Aebi Markus, and Strahl Sabine

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Mannoproteins construct the outer cover of the fungal cell wall. The covalently linked cell wall protein Ccw12p is an abundant mannoprotein. It is considered as crucial structural cell wall component since in baker's yeast the lack of CCW12 results in severe cell wall damage and reduced mating efficiency. Results In order to explore the function of CCW12, we performed a Synthetic Genetic Analysis (SGA) and identified genes that are essential in the absence of CCW12. The resulting interaction network identified 21 genes involved in cell wall integrity, chitin synthesis, cell polarity, vesicular transport and endocytosis. Among those are PFD1, WHI3, SRN2, PAC10, FEN1 and YDR417C, which have not been related to cell wall integrity before. We correlated our results with genetic interaction networks of genes involved in glucan and chitin synthesis. A core of genes essential to maintain cell integrity in response to cell wall stress was identified. In addition, we performed a large-scale transcriptional analysis and compared the transcriptional changes observed in mutant ccw12Δ with transcriptomes from studies investigating responses to constitutive or acute cell wall damage. We identified a set of genes that are highly induced in the majority of the mutants/conditions and are directly related to the cell wall integrity pathway and cell wall compensatory responses. Among those are BCK1, CHS3, EDE1, PFD1, SLT2 and SLA1 that were also identified in the SGA. In contrast, a specific feature of mutant ccw12Δ is the transcriptional repression of genes involved in mating. Physiological experiments substantiate this finding. Further, we demonstrate that Ccw12p is present at the cell periphery and highly concentrated at the presumptive budding site, around the bud, at the septum and at the tip of the mating projection. Conclusions The combination of high throughput screenings, phenotypic analyses and localization studies provides new insight into the function of Ccw12p. A compensatory response, culminating in cell wall remodelling and transport/recycling pathways is required to buffer the loss of CCW12. Moreover, the enrichment of Ccw12p in bud, septum and mating projection is consistent with a role of Ccw12p in preserving cell wall integrity at sites of active growth. The microarray data produced in this analysis have been submitted to NCBI GEO database and GSE22649 record was assigned.

Published
2011
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33. Site of cochlear stimulation and its effect on electrically evoked compound action potentials using the MED-EL standard electrode array

Author

Helbig Silke, Stark Thomas, Brockmeier Steffi-Johanna, Möltner Alexander, Hagen Rudolf, Müller Joachim, Brill Stefan, Maurer Jan, Zahnert Thomas, Zierhofer Clemens, Nopp Peter, Anderson Ilona, and Strahl Stefan

Subjects
Medical technology, R855-855.5
Abstract

Abstract Background The standard electrode array for the MED-EL MAESTRO cochlear implant system is 31 mm in length which allows an insertion angle of approximately 720°. When fully inserted, this long electrode array is capable of stimulating the most apical region of the cochlea. No investigation has explored Electrically Evoked Compound Action Potential (ECAP) recordings in this region with a large number of subjects using a commercially available cochlear implant system. The aim of this study is to determine if certain properties of ECAP recordings vary, depending on the stimulation site in the cochlea. Methods Recordings of auditory nerve responses were conducted in 67 subjects to demonstrate the feasibility of ECAP recordings using the Auditory Nerve Response Telemetry (ART™) feature of the MED-EL MAESTRO system software. These recordings were then analyzed based on the site of cochlear stimulation defined as basal, middle and apical to determine if the amplitude, threshold and slope of the amplitude growth function and the refractory time differs depending on the region of stimulation. Results Findings show significant differences in the ECAP recordings depending on the stimulation site. Comparing the apical with the basal region, on average higher amplitudes, lower thresholds and steeper slopes of the amplitude growth function have been observed. The refractory time shows an overall dependence on cochlear region; however post-hoc tests showed no significant effect between individual regions. Conclusions Obtaining ECAP recordings is also possible in the most apical region of the cochlea. However, differences can be observed depending on the region of the cochlea stimulated. Specifically, significant higher ECAP amplitude, lower thresholds and steeper amplitude growth function slopes have been observed in the apical region. These differences could be explained by the location of the stimulating electrode with respect to the neural tissue in the cochlea, a higher density, or an increased neural survival rate of neural tissue in the apex. Trial registration The Clinical Investigation has the Competent Authority registration number DE/CA126/AP4/3332/18/05.

Published
2009
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34. Insights Into Electrophysiological Metrics of Cochlear Health in Cochlear Implant Users Using a Computational Model.

Author

Takanen M, Strahl S, and Schwarz K

Subjects
Animals, Cochlea, Cochlear Nerve, Action Potentials, Cochlear Implants, Cochlear Implantation
Abstract

Purpose: The hearing outcomes of cochlear implant users depend on the functional status of the electrode-neuron interface inside the cochlea. This can be assessed by measuring electrically evoked compound action potentials (eCAPs). Variations in cochlear neural health and survival are reflected in eCAP-based metrics. The difficulty in translating promising results from animal studies into clinical use has raised questions about to what degree eCAP-based metrics are influenced by non-neural factors. Here, we addressed these questions using a computational model., Methods: A 2-D computational model was designed to simulate how electrical signals from the stimulating electrode reach the auditory nerve fibers distributed along the cochlea, evoking action potentials that can be recorded as compound responses at the recording electrodes. Effects of physiologically relevant variations in neural survival and in electrode-neuron and stimulating-recording electrode distances on eCAP amplitude growth functions (AGFs) were investigated., Results: In line with existing literature, the predicted eCAP AGF slopes and the inter-phase gap (IPG) effects depended on the neural survival, but only when the IPG effect was calculated as the difference between the slopes of the two AGFs expressed in linear input-output scale. As expected, shallower eCAP AGF slopes were obtained for increased stimulating-recording electrode distance and larger eCAP thresholds for greater electrode-neuron distance. These non-neural factors had also minor interference on the predicted IPG effect., Conclusions: The model predictions demonstrate previously found dependencies of eCAP metrics on neural survival and non-neural aspects. The present findings confirm data from animal studies and provide insights into applying described metrics in clinical practice., (© 2024. The Author(s).)

Published
2024
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35. Complex metabolic disharmony in PMM2-CDG paves the way to new therapeutic approaches.

Author

Himmelreich N, Kikul F, Zdrazilova L, Honzik T, Hecker A, Poschet G, Lüchtenborg C, Brügger B, Strahl S, Bürger F, Okun JG, Hansikova H, and Thiel C

Subjects
Humans, Glycosylation, Amino Acids metabolism, Lipids, Congenital Disorders of Glycosylation genetics, Congenital Disorders of Glycosylation therapy, Congenital Disorders of Glycosylation metabolism, Phosphotransferases (Phosphomutases) genetics
Abstract

PMM2-CDG is the most common defect among the congenital disorders of glycosylation. In order to investigate the effect of hypoglycosylation on important cellular pathways, we performed extensive biochemical studies on skin fibroblasts of PMM2-CDG patients. Among others, acylcarnitines, amino acids, lysosomal proteins, organic acids and lipids were measured, which all revealed significant abnormalities. There was an increased expression of acylcarnitines and amino acids associated with increased amounts of calnexin, calreticulin and protein-disulfid-isomerase in combination with intensified amounts of ubiquitinylated proteins. Lysosomal enzyme activities were widely decreased as well as citrate and pyruvate levels indicating mitochondrial dysfunction. Main lipid classes such as phosphatidylethanolamine, cholesterol or alkyl-phosphatidylcholine, as well as minor lipid species like hexosylceramide, lysophosphatidylcholines or phosphatidylglycerol, were abnormal. Biotinidase and catalase activities were severely reduced. In this study we discuss the impact of metabolite abnormalities on the phenotype of PMM2-CDG. In addition, based on our data we propose new and easy-to-implement therapeutic approaches for PMM2-CDG patients., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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36. A Bacterial Mannose Binding Lectin as a Tool for the Enrichment of C- and O-Mannosylated Peptides.

Author

Hütte HJ, Tiemann B, Shcherbakova A, Grote V, Hoffmann M, Povolo L, Lommel M, Strahl S, Vakhrushev SY, Rapp E, Buettner FFR, Halim A, Imberty A, and Bakker H

Subjects
Glycopeptides metabolism, Glycosylation, HEK293 Cells, Humans, Lectins chemistry, Burkholderia cenocepacia chemistry, Burkholderia cenocepacia metabolism, Mannose chemistry
Abstract

Mass spectrometry (MS) easily detects C-mannosylated peptides from purified proteins but not from complex biological samples. Enrichment of specific glycopeptides by lectin affinity prior to MS analysis has been widely applied to support glycopeptide identification but was until now not available for C-mannosylated peptides. Here, we used the α-mannose-specific Burkholderia cenocepacia lectin A (BC2L-A) and show that, in addition to its previously demonstrated high-mannose N-glycan binding capability, this lectin is able to retain C- and O-mannosylated peptides. Besides testing binding abilities to standard peptides, we applied BC2L-A affinity to enrich C-mannosylated peptides from complex samples of tryptic digests of HEK293 and MCF10A whole cell extracts, which led to the identification of novel C-mannosylation sites. In conclusion, BC2L-A enabled specific enrichment of C- and O-mannosylated peptides and might have superior properties over other mannose binding lectins for this purpose.

Published
2022
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37. Protein Mannosylation as a Diagnostic and Prognostic Biomarker of Lupus Nephritis: An Unusual Glycan Neoepitope in Systemic Lupus Erythematosus.

Author

Alves I, Santos-Pereira B, Dalebout H, Santos S, Vicente MM, Campar A, Thepaut M, Fieschi F, Strahl S, Boyaval F, Vizcaíno R, Silva R, Holst-Bernal S, Vasconcelos C, Santos L, Wuhrer M, Marinho A, Heijs B, and Pinho SS

Subjects
Adult, Aged, Biomarkers metabolism, Disease Progression, Female, Glycosylation, Humans, Lupus Nephritis metabolism, Male, Middle Aged, Prognosis, Kidney metabolism, Lupus Erythematosus, Systemic metabolism, Lupus Nephritis diagnosis, Polysaccharides metabolism
Abstract

Objective: Changes in protein glycosylation are a hallmark of immune-mediated diseases. Glycans are master regulators of the inflammatory response and are important molecules in self-nonself discrimination. This study was undertaken to investigate whether lupus nephritis (LN) exhibits altered cellular glycosylation to identify a unique glycosignature that characterizes LN pathogenesis., Methods: A comprehensive tissue glycomics characterization was performed in kidney specimens from patients with systemic lupus erythematosus and biopsy-proven LN. A combination of advanced tissue mass spectrometry, in situ glyco-characterization, and ex vivo glycophenotyping was performed to structurally map the repertoire of N-glycans in LN tissue samples., Results: LN exhibited a unique glycan signature characterized by increased abundance and spatial distribution of unusual mannose-enriched glycans that are typically found in lower microorganisms. This glycosignature was specific for LN, as it was not observed in other kidney diseases. Exposure of mannosylated glycans in LN was shown to occur at the cell surface of kidney cells, promoting increased recognition by specific glycan-recognizing receptors expressed by immune cells. This abnormal glycosignature of LN was shown to be due to a deficient complex N-glycosylation pathway and a proficient O-mannosylation pathway. Moreover, mannosylation levels detected in kidney biopsy samples from patients with LN at the time of diagnosis were demonstrated to predict the development of chronic kidney disease (CKD) with 93% specificity., Conclusion: Cellular mannosylation is a marker of LN, predicting the development of CKD, and thus representing a potential glycobiomarker to be included in the diagnostic and prognostic algorithm of LN., (© 2021, American College of Rheumatology.)

Published
2021
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38. The Saccharomyces cerevisiae Ncw2 protein works on the chitin/β-glucan organisation of the cell wall.

Author

Queiroz MG, Elsztein C, Strahl S, and de Morais Junior MA

Subjects
Cell Wall, Chitin, Glucans, Membrane Proteins, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins genetics
Abstract

The NCW2 gene was recently described as encoding a GPI-bounded protein that assists in the re-modelling of the Saccharomyces cerevisiae cell wall (CW) and in the repair of damage caused by the polyhexamethylene biguanide (PHMB) polymer to the cell wall. Its absence produces a re-organization of the CW structure that result in resistance to lysis by glucanase. Hence, the present study aimed to extend the analysis of the Ncw2 protein (Ncw2p) to determine its physiological role in the yeast cell surface. The results showed that Ncw2p is transported to the cell surface upon O-mannosylation mediated by the Pmt1p-Pmt2p enzyme complex. It co-localises with the yeast bud scars, a region in cell surface formed by chitin deposition. Once there, Ncw2p enables correct chitin/β-glucan structuring during the exponential growth. The increase in molecular mass by hyper-mannosylation coincides with the increasing in chitin deposition, and leads to glucanase resistance. Treatment of the yeast cells with PHMB produced the same biological effects observed for the passage from exponential to stationary growth phase. This might be a possible mechanism of yeast protection against cationic biocides. In conclusion, we propose that Ncw2p takes part in the mechanism involved in the control of cell surface rigidity by aiding on the linkage between chitin and glucan layers in the modelling of the cell wall during cell growth.

Published
2021
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39. Glycosyltransferase POMGNT1 deficiency strengthens N-cadherin-mediated cell-cell adhesion.

Author

Noor SI, Hoffmann M, Rinis N, Bartels MF, Winterhalter PR, Hoelscher C, Hennig R, Himmelreich N, Thiel C, Ruppert T, Rapp E, and Strahl S

Subjects
Antigens, CD metabolism, Antigens, CD physiology, Cadherins metabolism, Cadherins physiology, Cell Adhesion genetics, Dystroglycans metabolism, Glycomics, Glycosylation, Glycosyltransferases deficiency, Glycosyltransferases metabolism, HEK293 Cells, Humans, MAP Kinase Signaling System physiology, Mannose chemistry, Muscular Dystrophies genetics, N-Acetylglucosaminyltransferases physiology, Polysaccharides, Signal Transduction physiology, p38 Mitogen-Activated Protein Kinases metabolism, Cell Adhesion physiology, N-Acetylglucosaminyltransferases deficiency, N-Acetylglucosaminyltransferases metabolism
Abstract

Defects in protein O-mannosylation lead to severe congenital muscular dystrophies collectively known as α-dystroglycanopathy. A hallmark of these diseases is the loss of the O-mannose-bound matriglycan on α-dystroglycan, which reduces cell adhesion to the extracellular matrix. Mutations in protein O-mannose β1,2-N-acetylglucosaminyltransferase 1 (POMGNT1), which is crucial for the elongation of O-mannosyl glycans, have mainly been associated with muscle-eye-brain (MEB) disease. In addition to defects in cell-extracellular matrix adhesion, aberrant cell-cell adhesion has occasionally been observed in response to defects in POMGNT1. However, specific molecular consequences of POMGNT1 deficiency on cell-cell adhesion are largely unknown. We used POMGNT1 knockout HEK293T cells and fibroblasts from an MEB patient to gain deeper insight into the molecular changes in POMGNT1 deficiency. Biochemical and molecular biological techniques combined with proteomics, glycoproteomics, and glycomics revealed that a lack of POMGNT1 activity strengthens cell-cell adhesion. We demonstrate that the altered intrinsic adhesion properties are due to an increased abundance of N-cadherin (N-Cdh). In addition, site-specific changes in the N-glycan structures in the extracellular domain of N-Cdh were detected, which positively impact on homotypic interactions. Moreover, in POMGNT1-deficient cells, ERK1/2 and p38 signaling pathways are activated and transcriptional changes that are comparable with the epithelial-mesenchymal transition (EMT) are triggered, defining a possible molecular mechanism underlying the observed phenotype. Our study indicates that changes in cadherin-mediated cell-cell adhesion and other EMT-related processes may contribute to the complex clinical symptoms of MEB or α-dystroglycanopathy in general and suggests that the impact of changes in O-mannosylation on N-glycosylation has been underestimated., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2021
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40. Functional implications of MIR domains in protein O -mannosylation.

Author

Chiapparino A, Grbavac A, Jonker HR, Hackmann Y, Mortensen S, Zatorska E, Schott A, Stier G, Saxena K, Wild K, Schwalbe H, Strahl S, and Sinning I

Subjects
Animals, Glycosylation, Humans, Protein Domains, Mannosyltransferases chemistry, Protein Conformation
Abstract

Protein O -mannosyltransferases (PMTs) represent a conserved family of multispanning endoplasmic reticulum membrane proteins involved in glycosylation of S/T-rich protein substrates and unfolded proteins. PMTs work as dimers and contain a luminal MIR domain with a β-trefoil fold, which is susceptive for missense mutations causing α-dystroglycanopathies in humans. Here, we analyze PMT-MIR domains by an integrated structural biology approach using X-ray crystallography and NMR spectroscopy and evaluate their role in PMT function in vivo. We determine Pmt2- and Pmt3-MIR domain structures and identify two conserved mannose-binding sites, which are consistent with general β-trefoil carbohydrate-binding sites (α, β), and also a unique PMT2-subfamily exposed FKR motif. We show that conserved residues in site α influence enzyme processivity of the Pmt1-Pmt2 heterodimer in vivo. Integration of the data into the context of a Pmt1-Pmt2 structure and comparison with homologous β-trefoil - carbohydrate complexes allows for a functional description of MIR domains in protein O -mannosylation., Competing Interests: AC, AG, HJ, YH, SM, EZ, AS, GS, KS, KW, HS, SS, IS No competing interests declared, (© 2020, Chiapparino et al.)

Published
2020
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41. Fatal outcome after heart surgery in PMM2-CDG due to a rare homozygous gene variant with double effects.

Author

Görlacher M, Panagiotou E, Himmelreich N, Hüllen A, Beedgen L, Dimitrov B, Geiger V, Zielonka M, Peters V, Strahl S, Vázquez-Jiménez J, Kerst G, and Thiel C

Abstract

Variants in Phosphomannomutase 2 (PMM2) lead to PMM2-CDG, the most frequent congenital disorder of glycosylation (CDG). We here describe the disease course of a ten-month old patient who presented with the classical PMM2-CDG symptoms as cerebellar hypoplasia, retinitis pigmentosa, seizures, short stature, hepato- and splenomegaly, anaemia, recurrent vomiting and inverted mamillae. A severe form of tetralogy of Fallot was diagnosed and corrective surgery was performed at the age of 10 months. At the end of the cardiopulmonary bypass, a sudden oedematous reaction of the myocardium accompanied by biventricular pump failure was observed immediately after heparin antagonization with protamine sulfate. The patient died seven days after surgery, since myocardial function did not recover on ECMO support. We here describe the first patient carrying the homozygous variant g.18313A > T in the PMM2 gene (NG&#95;009209.1) that either can lead to c.394A > T (p.I132F) or even loss of 100 bp due to exon 5 skipping (c.348&#95;447del; p.G117Rfs*4) which is comparable to a null allele. Proliferation and doubling time of the patient's fibroblasts were affected. In addition, we show that the induction of cellular stress by elevating the cell culture temperature to 40 °C led to a decrease of the patients' PMM2 transcript as well as PMM2 protein levels and subsequently to a significant loss of residual activity. We assume that metabolic stressful processes occurring after cardiac surgery led to the drop of the patient's PMM activity below a life-sustaining niveau which paved the way for the fatal outcome., Competing Interests: The authors declare that there is no conflict of interests., (© 2020 Published by Elsevier Inc.)

Published
2020
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42. Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation.

Author

Castells-Ballester J, Rinis N, Kotan I, Gal L, Bausewein D, Kats I, Zatorska E, Kramer G, Bukau B, Schuldiner M, and Strahl S

Subjects
Endoplasmic Reticulum metabolism, Glycosylation, Mannosyltransferases metabolism, Protein Folding, Protein Processing, Post-Translational, Protein Stability, Repressor Proteins metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins metabolism, Sequence Deletion, Mannosyltransferases chemistry, Mannosyltransferases genetics, Repressor Proteins genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins genetics
Abstract

O-mannosylation is implicated in protein quality control in Saccharomyces cerevisiae due to the attachment of mannose to serine and threonine residues of un- or misfolded proteins in the endoplasmic reticulum (ER). This process also designated as unfolded protein O-mannosylation (UPOM) that ends futile folding cycles and saves cellular resources is mainly mediated by protein O-mannosyltransferases Pmt1 and Pmt2. Here we describe a genetic screen for factors that influence O-mannosylation in yeast, using slow-folding green fluorescent protein (GFP) as a reporter. Our screening identifies the RNA binding protein brefeldin A resistance factor 1 (Bfr1) that has not been linked to O-mannosylation and ER protein quality control before. We find that Bfr1 affects O-mannosylation through changes in Pmt1 and Pmt2 protein abundance but has no effect on PMT1 and PMT2 transcript levels, mRNA localization to the ER membrane or protein stability. Ribosome profiling reveals that Bfr1 is a crucial factor for Pmt1 and Pmt2 translation thereby affecting unfolded protein O-mannosylation. Our results uncover a new level of regulation of protein quality control in the secretory pathway.

Published
2019
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43. Monitoring Protein Dynamics in Protein O -Mannosyltransferase Mutants In Vivo by Tandem Fluorescent Protein Timers.

Author

Castells-Ballester J, Zatorska E, Meurer M, Neubert P, Metschies A, Knop M, and Strahl S

Subjects
Cell Membrane, Genes, Reporter, Glycosylation, Mannosyltransferases metabolism, Microscopy, Fluorescence, Mutation, Protein Stability, Proteomics, Saccharomyces cerevisiae chemistry, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins metabolism, Mannose chemistry, Mannosyltransferases genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins chemistry
Abstract

For proteins entering the secretory pathway, a major factor contributing to maturation and homeostasis is glycosylation. One relevant type of protein glycosylation is O -mannosylation, which is essential and evolutionarily-conserved in fungi, animals, and humans. Our recent proteome-wide study in the eukaryotic model organism Saccharomyces cerevisiae revealed that more than 26% of all proteins entering the secretory pathway receive O -mannosyl glycans. In a first attempt to understand the impact of O -mannosylation on these proteins, we took advantage of a tandem fluorescent timer (tFT) reporter to monitor different aspects of protein dynamics. We analyzed tFT-reporter fusions of 137 unique O -mannosylated proteins, mainly of the secretory pathway and the plasma membrane, in mutants lacking the major protein O -mannosyltransferases Pmt1, Pmt2, or Pmt4. In these three pmt Δ mutants, a total of 39 individual proteins were clearly affected, and Pmt-specific substrate proteins could be identified. We observed that O -mannosylation may cause both enhanced and diminished protein abundance and/or stability when compromised, and verified our findings on the examples of Axl2-tFT and Kre6-tFT fusion proteins. The identified target proteins are a valuable resource towards unraveling the multiple functions of O -mannosylation at the molecular level.

Published
2018
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44. Cutis laxa, exocrine pancreatic insufficiency and altered cellular metabolomics as additional symptoms in a new patient with ATP6AP1-CDG.

Author

Dimitrov B, Himmelreich N, Hipgrave Ederveen AL, Lüchtenborg C, Okun JG, Breuer M, Hutter AM, Carl M, Guglielmi L, Hellwig A, Thiemann KC, Jost M, Peters V, Staufner C, Hoffmann GF, Hackenberg A, Paramasivam N, Wiemann S, Eils R, Schlesner M, Strahl S, Brügger B, Wuhrer M, Christoph Korenke G, and Thiel C

Subjects
Acyl-CoA Oxidase metabolism, Catalase metabolism, Congenital Disorders of Glycosylation diagnosis, Congenital Disorders of Glycosylation metabolism, Cutis Laxa diagnosis, Cutis Laxa metabolism, Exocrine Pancreatic Insufficiency diagnosis, Exocrine Pancreatic Insufficiency metabolism, Fatty Acids metabolism, Genes, X-Linked genetics, Humans, Infant, Male, Metabolomics, Oxidation-Reduction, Vacuolar Proton-Translocating ATPases deficiency, Exome Sequencing, Congenital Disorders of Glycosylation genetics, Cutis Laxa genetics, Exocrine Pancreatic Insufficiency genetics, Metabolome genetics, Vacuolar Proton-Translocating ATPases genetics
Abstract

Congenital disorders of glycosylation (CDG) are genetic defects in the glycoconjugate biosynthesis. >100 types of CDG are known, most of them cause multi-organ diseases. Here we describe a boy whose leading symptoms comprise cutis laxa, pancreatic insufficiency and hepatosplenomegaly. Whole exome sequencing identified the novel hemizygous mutation c.542T>G (p.L181R) in the X-linked ATP6AP1, an accessory protein of the mammalian vacuolar H + -ATPase, which led to a general N-glycosylation deficiency. Studies of serum N-glycans revealed reduction of complex sialylated and appearance of truncated diantennary structures. Proliferation of the patient's fibroblasts was significantly reduced and doubling time prolonged. Additionally, there were alterations in the fibroblasts' amino acid levels and the acylcarnitine composition. Especially, short-chain species were reduced, whereas several medium- to long-chain acylcarnitines (C14-OH to C18) were elevated. Investigation of the main lipid classes revealed that total cholesterol was significantly enriched in the patient's fibroblasts at the expense of phophatidylcholine and phosphatidylethanolamine. Within the minor lipid species, hexosylceramide was reduced, while its immediate precursor ceramide was increased. Since catalase activity and ACOX3 expression in peroxisomes were reduced, we assume an ATP6AP1-dependent impact on the β-oxidation of fatty acids. These results help to understand the complex clinical characteristics of this new patient., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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45. Emerging Pyrethroid Resistance among Anopheles arabiensis in Kenya.

Author

Hemming-Schroeder E, Strahl S, Yang E, Nguyen A, Lo E, Zhong D, Atieli H, Githeko A, and Yan G

Subjects
Animals, Kenya, Anopheles genetics, Insecticide Resistance genetics, Mutation, Pyrethrins pharmacology
Abstract

Vector control programs, particularly in the form of insecticide-treated bed nets (ITNs), are essential for achieving malaria elimination goals. Recent reports of increasing knockdown resistance ( kdr ) mutation frequencies for Anopheles arabiensis in Western Kenya heightens the concern on the future effectiveness of ITNs in Kenya. We examined resistance in An. arabiensis populations across Kenya through kdr mutations and World Health Organization-recommended bioassays. We detected two kdr alleles, L1014F and L1014S. Kdr mutations were found in five of the 11 study sites, with mutation frequencies ranging from 3% to 63%. In two Western Kenya populations, the kdr L1014F allele frequency was as high as 10%. The L1014S frequency was highest at Chulaimbo at 55%. Notably, the kdr L1014F mutation was found to be associated with pyrethroid resistance at Port Victoria, but kdr mutations were not significantly associated with resistance at Chulaimbo, which had the highest kdr mutation frequency among all sites. This study demonstrated the emerging pyrethroid resistance in An. arabiensis and that pyrethroid resistance may be related to kdr mutations. Resistance monitoring and management are urgently needed for this species in Kenya where resistance is emerging and its abundance is becoming predominant. Kdr mutations may serve as a biomarker for pyrethroid resistance in An. arabiensis .

Published
2018
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46. Cellular Consequences of Diminished Protein O-Mannosyltransferase Activity in Baker's Yeast.

Author

Zatorska E, Gal L, Schmitt J, Bausewein D, Schuldiner M, and Strahl S

Subjects
Cell Wall metabolism, Endoplasmic Reticulum metabolism, Enzyme Activation, Gene Expression, Glycosylation, Mannosyltransferases antagonists & inhibitors, Mannosyltransferases genetics, Models, Molecular, Mutation, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae growth & development, Substrate Specificity, Unfolded Protein Response, Mannosyltransferases metabolism, Saccharomyces cerevisiae metabolism
Abstract

O -Mannosylation is a type of protein glycosylation initiated in the endoplasmic reticulum (ER) by the protein O -mannosyltransferase (PMT) family. Despite the vital role of O -mannosylation, its molecular functions and regulation are not fully characterized. To further explore the cellular impact of protein O -mannosylation, we performed a genome-wide screen to identify Saccharomyces cerevisiae mutants with increased sensitivity towards the PMT-specific inhibitor compound R3A-5a. We identified the cell wall and the ER as the cell compartments affected most upon PMT inhibition. Especially mutants with defects in N -glycosylation, biosynthesis of glycosylphosphatidylinositol-anchored proteins and cell wall β-1,6-glucan showed impaired growth when O -mannosylation became limiting. Signaling pathways that counteract cell wall defects and unbalanced ER homeostasis, namely the cell wall integrity pathway and the unfolded protein response, were highly crucial for the cell growth. Moreover, among the most affected mutants, we identified Ost3, one of two homologous subunits of the oligosaccharyltransferase complexes involved in N -glycosylation, suggesting a functional link between the two pathways. Indeed, we identified Pmt2 as a substrate for Ost3 suggesting that the reduced function of Pmt2 in the absence of N -glycosylation promoted sensitivity to the drug. Interestingly, even though S. cerevisiae Pmt1 and Pmt2 proteins are highly similar on the sequence, as well as the structural level and act as a complex, we identified only Pmt2, but not Pmt1, as an Ost3-specific substrate protein., Competing Interests: The authors declare no conflict of interest.

Published
2017
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47. Induction of Antibodies Directed Against Branched Core O-Mannosyl Glycopeptides-Selectivity Complimentary to the ConA Lectin.

Author

Yu J, Grant OC, Pett C, Strahl S, Stahl S, Woods RJ, and Westerlind U

Subjects
Amino Acid Sequence, Amino Acids chemistry, Binding Sites, Glycosylation, Lectins chemistry, Mannose chemistry, Nanoparticles, Polysaccharides chemistry, Protein Array Analysis methods, Protein Binding, Protein Conformation, Protein Processing, Post-Translational, Antibodies immunology, Concanavalin A immunology, Glycopeptides immunology, Mannose immunology
Abstract

Mammalian protein O-mannosylation, initiated by attachment of α-mannopyranose to Ser or Thr residues, comprise a group of post-translational modifications (PTMs) involved in muscle and brain development. Recent advances in glycoproteomics methodology and the "SimpleCell" strategy have enabled rapid identification of glycoproteins and specific glycosylation sites. Despite the enormous progress made, the biological impact of the mammalian O-mannosyl glycoproteome remains largely unknown to date. Tools are still needed to investigate the structure, role, and abundance of O-mannosyl glycans. Although O-mannosyl branching has been shown to be of relevance in integrin-dependent cell migration, and also plays a role in demyelinating diseases, such as multiple sclerosis, a broader understanding of the biological roles of branched O-mannosyl glycans is lacking in part due to the paucity of detection tools. In this work, a glycopeptide vaccine construct was synthesized and used to generate antibodies against branched O-mannosyl glycans. Glycopeptide microarray screening revealed high selectivity of the induced antibodies for branched glycan core structures presented on different peptide backbones, with no cross-reactivity observed with related linear glycans. For comparison, microarray screening of the mannose-binding lectin concanavalin A (ConA), which is commonly used in glycoproteomics workflows to enrich tryptic O-mannosyl peptides, showed that the ConA lectin did not recognize branched O-mannosyl glycans. The binding preference of ConA for short linear O-mannosyl glycans was rationalized in terms of molecular structure using crystallographic data augmented by molecular modeling. The contrast between the ConA binding specificity and that of the new antibodies indicates a novel role for the antibodies in studies of protein O-mannosylation., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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48. Protein O-Mannosylation in the Murine Brain: Occurrence of Mono-O-Mannosyl Glycans and Identification of New Substrates.

Author

Bartels MF, Winterhalter PR, Yu J, Liu Y, Lommel M, Möhrlen F, Hu H, Feizi T, Westerlind U, Ruppert T, and Strahl S

Subjects
Amino Acid Sequence, Animals, Biological Transport, Brain cytology, GABAergic Neurons metabolism, Mice, Brain metabolism, Glycoproteins chemistry, Glycoproteins metabolism, Mannose metabolism, Polysaccharides chemistry, Polysaccharides metabolism, Protein Processing, Post-Translational
Abstract

Protein O-mannosylation is a post-translational modification essential for correct development of mammals. In humans, deficient O-mannosylation results in severe congenital muscular dystrophies often associated with impaired brain and eye development. Although various O-mannosylated proteins have been identified in the recent years, the distribution of O-mannosyl glycans in the mammalian brain and target proteins are still not well defined. In the present study, rabbit monoclonal antibodies directed against the O-mannosylated peptide YAT(α1-Man)AV were generated. Detailed characterization of clone RKU-1-3-5 revealed that this monoclonal antibody recognizes O-linked mannose also in different peptide and protein contexts. Using this tool, we observed that mono-O-mannosyl glycans occur ubiquitously throughout the murine brain but are especially enriched at inhibitory GABAergic neurons and at the perineural nets. Using a mass spectrometry-based approach, we further identified glycoproteins from the murine brain that bear single O-mannose residues. Among the candidates identified are members of the cadherin and plexin superfamilies and the perineural net protein neurocan. In addition, we identified neurexin 3, a cell adhesion protein involved in synaptic plasticity, and inter-alpha-trypsin inhibitor 5, a protease inhibitor important in stabilizing the extracellular matrix, as new O-mannosylated glycoproteins., Competing Interests: The authors have declared that no competing interests exist.

Published
2016
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49. O-mannosylation and N-glycosylation: two coordinated mechanisms regulating the tumour suppressor functions of E-cadherin in cancer.

Author

Carvalho S, Oliveira T, Bartels MF, Miyoshi E, Pierce M, Taniguchi N, Carneiro F, Seruca R, Reis CA, Strahl S, and Pinho SS

Subjects
Adenocarcinoma pathology, Animals, Glycosylation, Humans, Mannose metabolism, Mice, Mice, Transgenic, Polysaccharides, Protein Processing, Post-Translational physiology, Stomach Neoplasms pathology, Adenocarcinoma metabolism, Cadherins metabolism, Stomach Neoplasms metabolism, Tumor Suppressor Proteins metabolism
Abstract

Dysregulation of tumor suppressor protein E-cadherin is an early molecular event in cancer. O-mannosylation profile of E-cadherin is a newly-described post-translational modification crucial for its adhesive functions in homeostasis. However, the role of O-mannosyl glycans in E-cadherin-mediated cell adhesion in cancer and their interplay with N-glycans remains largely unknown. We herein demonstrated that human gastric carcinomas exhibiting a non-functional E-cadherin display a reduced expression of O-mannosyl glycans concomitantly with increased modification with branched complex N-glycans. Accordingly, overexpression of MGAT5-mediated branched N-glycans both in gastric cancer cells and transgenic mice models led to a significant decrease of O-mannosyl glycans attached to E-cadherin that was associated with impairment of its tumour suppressive functions. Importantly, overexpression of protein O-mannosyltransferase 2 (POMT2) induced a reduced expression of branched N-glycans which led to a protective effect of E-cadherin biological functions. Overall, our results reveal a newly identified mechanism of (dys)regulation of E-cadherin that occur through the interplay between O-mannosylation and N-glycosylation pathway.

Published
2016
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50. Functional Similarities between the Protein O-Mannosyltransferases Pmt4 from Bakers' Yeast and Human POMT1.

Author

Bausewein D, Engel J, Jank T, Schoedl M, and Strahl S

Subjects
Amino Acid Substitution, Enzyme Stability, Humans, Mannosyltransferases genetics, Mannosyltransferases metabolism, Mutation, Missense, Saccharomyces cerevisiae Proteins, Mannosyltransferases chemistry, Saccharomyces cerevisiae genetics
Abstract

Protein O-mannosylation is an essential post-translational modification. It is initiated in the endoplasmic reticulum by a family of protein O-mannosyltransferases that are conserved from yeast (PMTs) to human (POMTs). The degree of functional conservation between yeast and human protein O-mannosyltransferases is uncharacterized. In bakers' yeast, the main in vivo activities are due to heteromeric Pmt1-Pmt2 and homomeric Pmt4 complexes. Here we describe an enzymatic assay that allowed us to monitor Pmt4 activity in vitro We demonstrate that detergent requirements and acceptor substrates of yeast Pmt4 are different from Pmt1-Pmt2, but resemble that of human POMTs. Furthermore, we mimicked two POMT1 amino acid exchanges (G76R and V428D) that result in severe congenital muscular dystrophies in humans, in yeast Pmt4 (I112R and I435D). In vivo and in vitro analyses showed that general features such as protein stability of the Pmt4 variants were not significantly affected, however, the mutants proved largely enzymatically inactive. Our results demonstrate functional and biochemical similarities between POMT1 and its orthologue from bakers' yeast Pmt4., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2016
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