295 research outputs found
Dataset on proteomic changes of whey protein after different heat treatment
Hereby we provide data from a shot-gun proteomics experiment, using filtered-aided sample preparation (FASP), and liquid chromatography with tandem mass spectrometry (LC-MS/MS), to relatively quantify the changes in the protein profile of whey proteins after heating milk at either 65 Ā°C, 70 Ā°C, 75 Ā°C, 80 Ā°C, or 85 Ā°C for 30 min. The data supplied in this article supports the accompanying publication [1]. The raw mass spectrometry proteomics data have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the dataset identifier āPXD016436ā.</p
Mobile sequences in the pyruvate dehydrogenase complex, the E2 component, the catalytic domain and the 2-oxoglutarate dehydrogenase complex of Azotobacter vinelandii, as detected by 600 MHz 1H-NMR spectroscopy
Abstract600 MHz 1H-NMR spectroscopy demonstrates that the pyruvate dehydrogenase complex of Azotobacter vinelandii contains regions of the polypeptide chain with intramolecular mobility. This mobility is located in the E2 component and can probably be ascribed to alanine-proline-rich regions that link the lipoyl subdomains to each other as well as to the E1 and E3 binding domain. In the catalytic domain of E2, which is thought to form a compact, rigid core, also conformational flexibility is observed. It is conceivable that the N-terminal region of the catalytic domain, which contains many alanine residues, is responsible for the observed mobility. In the low-field region of the 1H-NMR spectrum of E2 specific resonances are found, which can be ascribed to mobile phenylalanine, histidine and/or tyrosine residues which are located in the E1 and E3 binding domain that links the lipoyl domain to the catalytic domain. In the 1H-NMR spectrum of the intact complex, these resonances cannot be observed, indicating a decreased mobility of the E1 and E3 binding domain
Cellular levels and molecular dynamics simulations of estragole DNA adducts point at inefficient repair resulting from limited distortion of the double-stranded DNA helix
Estragole, naturally occurring in a variety of herbs and spices, can form DNA adducts after bioactivation. Estragole DNA adduct formation and repair was studied in in vitro liver cell models, and a molecular dynamics simulation was used to investigate the conformation dependent (in)efficiency of N2-(trans-isoestragol-3ā²-yl)-2ā²-deoxyguanosine (E-3ā²-N2-dG) DNA adduct repair. HepG2, HepaRG cells, primary rat hepatocytes and CHO cells (including CHO wild-type and three NER-deficient mutants) were exposed to 50 Ī¼M estragole or 1ā²-hydroxyestragole and DNA adduct formation was quantified by LCāMS immediately following exposure and after a period of repair. Results obtained from CHO cell lines indicated that NER plays a role in repair of E-3ā²-N2-dG adducts, however, with limited efficiency since in the CHO wt cells 80% DNA adducts remained upon 24 h repair. Inefficiency of DNA repair was also found in HepaRG cells and primary rat hepatocytes. Changes in DNA structure resulting from E-3ā²-N2-dG adduct formation were investigated by molecular dynamics simulations. Results from molecular dynamics simulations revealed that conformational changes in double-stranded DNA by E-3ā²-N2-dG adduct formation are small, providing a possible explanation for the restrained repair, which may require larger distortions in the DNA structure. NER-mediated enzymatic repair of E-3ā²-N2-dG DNA adducts upon exposure to estragole will be limited, providing opportunities for accumulation of damage upon repeated daily exposure. The inability of this enzymatic repair is likely due to a limited distortion of the DNA double-stranded helix resulting in inefficient activation of nucleotide excision repair.</p
The Host Defense Proteome of Human and Bovine Milk
Milk is the single source of nutrients for the newborn mammal. The composition of
milk of different mammals has been adapted during evolution of the species to
fulfill the needs of the offspring. Milk not only provides nutrients, but it
also serves as a medium for transfer of host defense components to the
offspring. The host defense proteins in the milk of different mammalian species
are expected to reveal signatures of evolution. The aim of this study is
therefore to study the difference in the host defense proteome of human and
bovine milk. We analyzed human and bovine milk using a shot-gun proteomics
approach focusing on host defense-related proteins. In total, 268 proteins in
human milk and 269 proteins in bovine milk were identified. Of these, 44 from
human milk and 51 from bovine milk are related to the host defense system. Of
these proteins, 33 were found in both species but with significantly different
quantities. High concentrations of proteins involved in the mucosal immune
system, immunoglobulin A, CD14, lactoferrin, and lysozyme, were present in human
milk. The human newborn is known to be deficient for at least two of these
proteins (immunoglobulin A and CD14). On the other hand, antimicrobial proteins
(5 cathelicidins and lactoperoxidase) were abundant in bovine milk. The high
concentration of lactoperoxidase is probably linked to the high amount of
thiocyanate in the plant-based diet of cows. This first detailed analysis of
host defense proteins in human and bovine milk is an important step in
understanding the function of milk in the development of the immune system of
these two mammals
Automatic metabolite annotation in complex LC-MS(n ā„ 2) data using MAGMa
Poster presented at the Analytical Tools for Cutting-edge Metabolomics meeting in London, 30 April 201
Breast milk nutrient content and infancy growth.
AIM: Benefits of human breast milk (HM) in avoiding rapid infancy weight gain and later obesity could relate to its nutrient content. We tested the hypothesis that differential HM total calorie content (TCC) or macronutrient contents may be associated with infancy growth. METHODS: HM hindmilk samples were collected at ages 4-8 weeks from 614 mothers participating in a representative birth cohort, with repeated infancy anthropometry. HM triglyceride (fat), lipid analytes and lactose (carbohydrate) were measured by (1) H-NMR, and protein content by the Dumas method. TCC and %macronutrients were determined. RESULTS: In 614 HM samples, fat content was as follows: [median(IQR)]: 2.6 (1.7-3.6) g/100 mL, carbohydrate: 8.6 (8.2-8.8) g/100 mL, protein: 1.2 (1.1-1.2) g/100 mL; TCC: 61.8 (53.7-71.3) kcal/100 mL. HM of mothers exclusively breast feeding vs. mixed feeding was more calorific with higher %fat, lower %carbohydrate and lower %protein. Higher HM TCC was associated with lower 12-months body mass index (BMI)/adiposity, and lower 3-12 months gains in weight/BMI. HM %fat was inversely related to 3-12 months gains in weight, BMI and adiposity, whereas %carbohydrate was positively related to these measures. HM %protein was positively related to 12-months BMI. CONCLUSION: HM analysis showed wide variation in %macronutrients. Although data on milk intakes were unavailable, our findings suggest functional relevance of HM milk composition to infant growth.PP was supported by a MRC Clinical Training Fellowship (G1001995). The Cambridge Baby Growth Study has been supported by the European Union, the World Cancer Research Foundation International, the Medical Research Council, the NIHR Cambridge Comprehensive Biomedical Research Centre, the Newlife Foundation for disabled children, the Mothercare Group Foundation, and Mead Johnson Nutrition.This is the final version of the article. It first appeared from Wiley via https://doi.org/ 10.1111/apa.1336
Influence of Cellular ERĪ±/ERĪ² Ratio on the ERĪ±-Agonist Induced Proliferation of Human T47D Breast Cancer Cells
Breast cancer cells show overexpression of estrogen receptor (ER) Ī± relative to ERĪ² compared to normal breast tissues. This observation has lead to the hypothesis that ERĪ² may modulate the proliferative effect of ERĪ±. This study investigated how variable cellular expression ratios of the ERĪ± and ERĪ² modulate the effects on cell proliferation induced by ERĪ± or ERĪ² agonists, respectively. Using human osteosarcoma (U2OS) ERĪ± or ERĪ² reporter cells, propyl-pyrazole-triol (PPT) was shown to be a selective ERĪ± and diarylpropionitrile (DPN) a preferential ERĪ² modulator. The effects of these selective estrogen receptor modulators (SERMs) and of the model compound E2 on the proliferation of T47D human breast cancer cells with tetracycline-dependent expression of ERĪ² (T47D-ERĪ²) were characterized. E2-induced cell proliferation of cells in which ERĪ² expression was inhibited was similar to that of the T47D wild-type cells, whereas this E2-induced cell proliferation was no longer observed when ERĪ² expression in the T47D-ERĪ² cells was increased. In the T47D-ERĪ² cell line, DPN also appeared to be able to suppress cell proliferation when levels of ERĪ² expression were high. In the T47D-ERĪ² cell line, PPT was unable to suppress cell proliferation at all ratios of ERĪ±/ERĪ² expression, reflecting its ability to activate only ERĪ± and not ERĪ². It is concluded that effects of estrogen-like compounds on cell proliferation are dependent on the actual ERĪ±/ERĪ² expression levels in these cells or tissues and the potential of the estrogen agonists to activate ERĪ± and/or ERĪ²
Identification and localization of the structural proteins of anguillid herpesvirus 1
Many of the known fish herpesviruses have important aquaculture species as their natural host, and may cause serious disease and mortality. Anguillid herpesvirus 1 (AngHV-1) causes a hemorrhagic disease in European eel, Anguilla anguilla. Despite their importance, fundamental molecular knowledge on fish herpesviruses is still limited. In this study we describe the identification and localization of the structural proteins of AngHV-1. Purified virions were fractionated into a capsid-tegument and an envelope fraction, and premature capsids were isolated from infected cells. Proteins were extracted by different methods and identified by mass spectrometry. A total of 40 structural proteins were identified, of which 7 could be assigned to the capsid, 11 to the envelope, and 22 to the tegument. The identification and localization of these proteins allowed functional predictions. Our findings include the identification of the putative capsid triplex protein 1, the predominant tegument protein, and the major antigenic envelope proteins. Eighteen of the 40 AngHV-1 structural proteins had sequence homologues in related Cyprinid herpesvirus 3 (CyHV-3). Conservation of fish herpesvirus structural genes seemed to be high for the capsid proteins, limited for the tegument proteins, and low for the envelope proteins. The identification and localization of the structural proteins of AngHV-1 in this study adds to the fundamental knowledge of members of the Alloherpesviridae family, especially of the Cyprinivirus genus
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