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Stress and Poverty : A Cross-Disciplinary Investigation of Stress in Cells, Individuals, and Society (2021)

Breitenbach, Michael. ; Kapferer, Elisabeth. ; Sedmak, Clemens.

Cham :Springer International Publishing :

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Keywords: Cytology. ; Social structure. ; Equality. ; Human physiology. ; Clinical health psychology. ; Clinical biochemistry. ; Medicine, Preventive. ; Health promotion. ; Cell Biology. ; Social Structure. ; Human Physiology. ; Health Psychology. ; Medical Biochemistry. ; Health Promotion and Disease Prevention.

Description / Table of Contents: Stress and Poverty: An Introduction -- Hans Selye and the Origins of Stress Research -- Oxidative and Other Stress Research at the Cellular Level -- Oxidative Stress and the Brain: A Working Hypothesis for the Generation of Psychological Stress -- Epigenetics and Some Further Observations on Stress-induced Diseases -- Measuring Stress -- The Language Games of Stress -- The Unhealthy Relationship Between Stress and Poverty -- The Stressful Experience of Poverty -- Social and Moral Aspects of Stress -- The Politics of Stress -- Responding to Stress and the Value of Resilience -- Epilogue – The Pandemic as a Big Reveal: Coronavirus, Stress, and Poverty -- Glossary.

Abstract: The word stress is everywhere and highly overused. Everyone is stressed, it seems, all the time. Looking into the meaning of stress in the natural science and the humanities, this book explores cellular stress as cause of and in correlation with what humans experience as stress. When do we psychologically feel stress and when do we show physiological evidence of stress in our brain? Stress is a deviation from what feels normal and healthy. It can be created by social or economic factors and become chronic, which has substantial impacts on the individual and society as a whole. Focusing on poverty as one chronic inducer of stress, this book explores how the lack of pressure-free time, the hardships and unpredictability of everyday life and a general lack of protection lead to destructive toxic stress. This pressure affects cognitive and social functioning, brain development during childhood and may also result in premature aging. How can the sciences inform our understanding of and our response to stress? What can be done about toxic stress both on a personal level and in terms of structures and policies? The book is written for anyone interested in stress, its causes and consequences, and its relationship to poverty. .

Type of Medium: Online Resource

Pages: XX, 234 p. 11 illus., 3 illus. in color. , online resource.

Edition: 1st ed. 2021.

ISBN: 9783030777388

URL: https://doi.org/10.1007/978-3-030-77738-8

DOI: 10.1007/978-3-030-77738-8

DDC: 571.6

Language: English

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Aged mother cells of Saccharomyces cerevisiae show markers of oxidative stress and apoptosis (2001)

Laun, Peter ; Pichova, Alena ; Madeo, Frank ; [et al.]

Oxford, UK : Blackwell Science, Ltd

Molecular microbiology 39 (2001), S. 0

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ISSN: 1365-2958

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology , Medicine

Notes: Recently, we and others have shown that genetic and environmental changes that increase the load of yeast cells with reactive oxygen species (ROS) lead to a shortening of the life span of yeast mother cells. Deletions of yeast genes coding for the superoxide dismutases or the catalases, as well as changes in atmospheric oxygen concentration, considerably shortened the life span. The presence of the physiological antioxidant glutathione, on the other hand, increased the life span of yeast cells. Taken together, these results pointed to a role for oxygen in the yeast ageing process. Here, we show by staining with dihydrorhodamine that old yeast mother cells isolated by elutriation, but not young cells, contain ROS that are localized in the mitochondria. A relatively large proportion of the old mother cells shows phenotypic markers of yeast apoptosis, i.e. TUNEL (TdT-mediated dUTP nick end labelling) and annexin V staining. Although it has been shown previously that apoptosis in yeast can be induced by a cdc48 allele, by expressing pro-apoptotic human cDNAs or by stressing the cells with hydrogen peroxide, we are now showing a physiological role for apoptosis in unstressed but aged wild-type yeast mother cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-2958.2001.02317.x

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Herstellung von Sepharosederivaten zur Affinitätschromatographie von Enzymen desmyo-Inositphosphatstoffwechsels (1976)

Scheiner, Otto ; Breitenbach, Michael

Springer

Monatshefte für Chemie 107 (1976), S. 581-586

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ISSN: 1434-4475

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract In order to obtain an affinity gel for the affinity chromatography of enzymes acting on phosphorylated derivatives ofmyo-inositols, aminohexylsepharose was coupled withmyo-inositol 2-phosphate with the help of dicyclohexylcarbodiimide. In the product the concentration of ligand is 15 mmole/l. The method seems to have wider applicability; phytic acid could be coupled with aminohexylsepharose under similar conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00906888

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A new sepharose derivative containing covalently boundmyo-inositol: Its structure and application (1979)

Fazldeen, Hussan ; Breitenbach, Michael

Springer

Monatshefte für Chemie 110 (1979), S. 823-830

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ISSN: 1434-4475

Keywords: Affinity chromatography ; Epoxy coupling ; Myo-inositol ; Sepharose

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Description / Table of Contents: Zusammenfassung myo-Inosit wurde an eine epoxy-aktivierte Sepharose kovalent gebunden. Zur Aufklärung der Struktur dieses Sepharosederivats wurde in einer Modellreaktionmyo-Inosit an Propylenoxid gekoppelt, wobei zwei Substanzen erhalten wurden. Durch NMR-Spektren,13C-Resonanzspektren und Gaschromatographie konnte SubstanzI als Gemisch zweier Isomerer charakterisiert werden. Beide sind durch Derivatisierung, am C-Atom 2 des Inosits entstanden, sie unterscheiden sich nur im Ort der Bindung an der Seitenkette. Bei SubstanzII ist hingegen die Substitution an einem äquatorialen O-Atom eingetreten. Es wird über die Anwendung des neuen Affinitätsgels berichtet.

Notes: Abstract myo-Inositol was covalently bound on, an epoxy-activated sepharose. In order to elucidate the structure of the derivative of sepharose formed, in a model reactionmyo-inositol was coupled to propylene oxide, whereby two compounds were obtained. By NMR-spectroscopy,13C-resonancespectroscopy and gas chromatography substanceI could be characterized as a mixture of two isomers. Both are the product of a binding to the hydroxyl group on C-atom 2 ofmyo-inositol. The only difference seems to be the point of attachment to the side chain. SubstanceII, however, originates by substitution on an equitorial hydroxyl group. The application of this new affinity gel is reported.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00906676

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GRC5 and NMD3 function in translational control of gene expression and interact genetically (1999)

Karl, Thomas ; Önder, Kamil ; Kodzius, Rimantas ; [et al.]

Springer

Current genetics 34 (1999), S. 419-429

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ISSN: 1432-0983

Keywords: Key wordsSaccharomyces cerevisiae ; GRC5 ; NMD3 ; Translational control

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The yeast gene, GRC5 (growth control), is a member of the highly conserved QM gene family, the human member of which has been associated with the suppression of Wilms' tumor. GRC5 encodes ribosomal protein L10, which is thought to play a regulatory role in the translational control of gene expression. A revertant screen identified four spontaneous revertants of the mutant grc5-1 ts allele. Genetic and phenotypic analysis showed that these represent one gene, NMD3, and that the interaction of NMD3 and GRC5 is gene-specific. NMD3 was previously identified as a component of the nonsense-mediated mRNA decay pathway. The point mutations within NMD3 reported here may define a domain important for the functional interaction of Grc5p and Nmd3p.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002940050416

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Isolation and characterization of yeast mitochondrial mutants defective in spore germination (1981)

Hartig, Andreas ; Schroeder, Renée ; Mucke, Eva ; [et al.]

Springer

Current genetics 4 (1981), S. 29-36

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ISSN: 1432-0983

Keywords: Germination of ascospores ; Mutation in mtDNA ; Mitochondrial differentation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary This paper describes a new type of mitochondrial mutation. During germination of ascospores the mutants are blocked at the first budding stage and consequently die. However, vegetative growth on nonfermentable carbon sources and respiration are close to normal. The spores of the mutants which (like the wild type) contain very low amounts of mitochondrial cytochromes, do not synthesize cytochromes b and aa3 during germination. The mutants show a pleiotropic phenotype during the vegetative phase: they lack carbon catabolite repression of cytochromes on media containing 10% glucose. We discuss here the hypothesis that the mutation is located in a regulatory region on the mitochondrial genome which is needed for the reinitiation of mitochondrial genetic activity during germination of ascospores.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00376783

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l-Dityrosine: A time-resolved fluorescence investigation (1992)

Kungl, Andreas J. ; Landl, Gerhard ; Visser, Antonie J. W. G. ; [et al.]

Springer

Journal of fluorescence 2 (1992), S. 63-73

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ISSN: 1573-4994

Keywords: Dityrosine ; excited-state reaction ; distributional analysis ; fluorescence anisotropy decay

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We have investigated the time-resolved fluorescence properties ofll-dityrosine in aqueous solution. Typically, three exponential components were needed to fit the fluorescence pattern adequately, with pure decay terms for the low-intensity, high-energy state (λem = nm) but with a pronounced subnanosecond rise phase for the predominant red-edge fluorescence (λem 〉 380). Dual fluorescence behavior is indicative of an intramolecular precursorsuccessor pair, i.e., a consecutive intramolecular excited-state reaction. We suggest that this reaction is a torsional motion of the (deprotonated) monoanion along the biphenolic bond. Analysis of the fluorescence anisotropy decay of dityrosine yielded two rotational correlation times, the longer of which is associated with a negative preexponential term. The increase with time in the horizontally polarized component of the intensity decay is interpreted as the result of an electronic rearrangement in the excited state when the successor form of dityrosine is generated. Lifetime distributions of experimental data were probed by an unbiased exponential series method which uses a Tikhonov-type regularization function. The procedure revealed three well-separated groups of lifetimes, the short-lived ensemble forming a formally negative distribution. A photophysical model is introduced which interprets the biexponential decay of dityrosine in terms of overlapping emission signals from the precursor and the successor molecule.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00866389

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DIT101 (CSD2, CAL1), a cell cycle-regulated yeast gene required for synthesis of chitin in cell walls and chitosan in spore walls (1992)

Pammer, Manuela ; Briza, Peter ; Ellinger, Adolf ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Yeast 8 (1992), S. 1089-1099

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ISSN: 0749-503X

Keywords: Cell wall ; spore wall ; chitin ; chitosan ; chitin synthase ; Life and Medical Sciences ; Genetics

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology

Notes: A mutant screen has been designed to isolate mutants in Saccharomyces cerevisiae deficient in spore wall dityrosine. As shown by electron microscopy, most of the mutant spores lacked only the outermost, dityrosine-rich layer of the spore wall. Mutant dit101, however, was additionally lacking the chitosan layer of the spore wall. Chemical measurements showed that this mutant does not synthesize chitosan during sporulation. The mutant spores were viable but sensitive to lytic enzymes (glusulase or zymolyase). Unlike most of the dit-mutants, dit101 did show a distinctive phenotype in vegetative cells: they grew normally but contained very little chitin and were therefore resistant to the toxic chitin-binding dye, Calcofluor White. The cells showed barely detectable staining of the walls with Calcofluor White or primulin. The decrease in the amount of chitin in vegetative cells and the absence of chitosan in spores suggested that the mutant dit101 could be defective in a chitin synthase. Indeed, a genomic yeast clone harboring the gene, CSD2, sharing significant sequence similarity with yeast chitin synthases I and II (C. E. Bulawa (1992), Mol. Cell. Biol. 12, 1764-1776), complemented our mutant and was shown to correspond to the chromosomal locus of dit101. Thus, the mutations dit101 and csd2 (and probably also call; M. H. Valdivieso et al., (1991), J. Cell Biol. 114, 101-109) were shown to be allelic. The gene was mapped to chromosome II and was located about 3 kb distal of FAL1. Using this DNA clone, a transcript of about 3500-4000 nucleotides was detected. Comparing RNA isolated from vegetative cells and from sporulating cells at different times throughout the sporulation process, no significant differences in DIT101 transcript levels could be detected indicating absence of sporulation-specific transcriptional regulation. However, the amount of DIT101 transcript changed significantly at different stages of the mitotic cell cycle, peaking after septum formation, but before cytokinesis. As most of the chitin synthesis of vegetative cells occurs at this stage of the cell division cycle, chitin synthesis mediated by DIT101 could be primarily regulated at the level of transcription in vegetatively growing cells.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/yea.320081211

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The yeast growth control gene GRC5 is highly homologous to the mammalian putative tumor suppressor gene QM (1996)

Koller, Hannelore T. ; Klade, Torsten ; Ellinger, Adolf ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Yeast 12 (1996), S. 53-65

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ISSN: 0749-503X

Keywords: growth control ; cytoskeleton ; QM ; S. cerevisiae ; Life Sciences ; Life Sciences (general)

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology

Notes: We isolated the Saccharomyces cerevisiae GRC5 (growth control) gene by functional complementation in vivo of a ts (temperature sensitive) mutation. Phenotypic analysis suggested involvement of GRC5 in cell growth and proliferation. Mutant cells arrest their cell cycles after one to three cell divisions predominantly as mother cells with a large bud. In the region of the septum, a massive accumulation of cell wall material is observed. The mother and daughter nuclei are well separated and spindles are no longer present, while the cytoskeleton is of aberrant appearance. Arrested cells do not perform protein synthesis and are unable to mate. Furthermore, grc5-1ts cells rapidly lose viability at the restrictive temperature (37°C) only on full media, but not under nitrogen-starvation conditions, indicating that proper response to this nutrient limitation is still intact in mutant cells after cell cycle arrest. The sequence of GRC5 translates into a basic protein of 221 amino acids with a corresponding Mr of 25·4 kDa. GRC5 is a member of the highly conserved QM gene family, members of which have been reported from plants, invertebrates and vertebrates. The amino acid sequence of GRC5 over its entire length is more than 60% identical to the human QM protein, expression of which is associated with loss of the tumorigenic phenotype in a cell line derived from Wilms' tumor, a malignancy of the embyronic kidney. Here, we show that GRC5 is an essential yeast gene, the function of which as inferred from analysis of the grc5-1ts mutant is crucial for establishment of proper cytoskeletal structure and regulation of growth in yeast cells.

Additional Material: 7 Ill.

Type of Medium: Electronic Resource

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