• Mashup Score: 3
    More sustainable agriculture by global redistribution of nitrogen fertilizer - 6 month(s) ago

    The growing global population needs sufficient food. Its production causes overfertilization and increased nitrogen concentration in agriculture, which negatively affects the population, climate, and ecosystems. According to models of researchers of Karlsruhe Institute of Technology (KIT), however, today’s crop production might be maintained with a far smaller global fertilizer consumption, if nitrogen fertilizer would be used more homogeneously across global croplands. The results are reported in Communications Earth & Environment (DOI: 10.1038/s43247-023-00970-8).

    Source: www.eurekalert.org
    Categories: General Medicine News, Latest Headlines
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      EurekAlert

      Models reveal that a homogeneous global distribution of nitrogen #Fertilizer may significantly reduce worldwide fertilization and the resulting pollution of the #Environment @KITKarlsruhe: https://t.co/GIS00AE5ja #Biochemistry #Ecology https://t.co/z7cddcyEY5

  • Mashup Score: 1
    ScienceDirect - 7 month(s) ago

    Read the latest chapters of Methods in Enzymology at ScienceDirect.com, Elsevier’s leading platform of peer-reviewed scholarly literature

    Source: www.sciencedirect.com
    Categories: Hem/Oncs, Latest Headlines
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      NimaSharifiMD

      The full volume of Methods in Enzymology on #Steroid #Biochemistry is out - Including Chapter Four - Approaches to assessing 3β-hydroxysteroid dehydrogenase-! ⁦@MM_Alyamani⁩ https://t.co/vrGqnZr2IQ

  • Mashup Score: 2
    Exascale revolution: Supercomputers unleash a new era in biophysics discovery - 8 month(s) ago

    Blurring Boundaries in Biophysics: A recent feature in the Biophysical Journal highlights the transformative potential of exascale supercomputers. Spearheaded by experts from Auburn University, the article highlights how high-performance computing is revolutionizing biophysical research. By harnessing the immense power of these revolutionary machines, scientists can now simulate complex biological processes, challenge established assumptions, and even design novel molecular structures. As the integration of computational and experimental biophysics accelerates, we stand on the verge of a new era of unparalleled discoveries that could profoundly change our perception of biology.

    Source: www.eurekalert.org
    Categories: General Medicine News, Latest Headlines
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      EurekAlert

      Dive into the “Exascale Revolution” with the @BiophysJ! @AuburnPhysics researchers unveil how supercomputing is transforming #biophysics, paving the way for unparalleled discoveries #supercomputing #biochemistry https://t.co/YYwgDtaC71

  • Mashup Score: 4
    Organosulfur content of vegetables quantified - 1 year(s) ago

    Osaka Metropolitan University scientists successfully quantified the total reactive polysulfide content of 22 different types of vegetables, including onions and garlic. They also revealed that reactive polysulfides are not only found in the leek genus (Allium), such as onions and garlic but also in the cruciferous family of vegetables (Brassicaceae), such as broccoli and cabbage.

    Source: EurekAlert!
    Categories: General Medicine News, Latest Headlines
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      EurekAlert

      Scientists from @OsakaMetUniv_en successfully quantified the total reactive #polysulfide content of 22 different types of #vegetables, including onions and garlic #lifesciences #biochemistry #foodscience https://t.co/6qzQzNUwMZ

  • Mashup Score: 0
    Our cells take their ease in the curves - 2 year(s) ago

    How do our cells organize themselves to give their final shape to our organs? The answer lies in morphogenesis, the set of mechanisms that regulate their distribution in space during embryonic development. A team from the University of Geneva (UNIGE) has just made a surprising discovery in this field: when a tissue curves, the volume of the cells that compose it increases instead of decreasing….

    Source: EurekAlert!
    Categories: General Medicine News, Latest Headlines
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      #Cells that make up our #tissues may increase in volume when tissues bend, which is a key discovery for the culture of in vitro organs @UNIGEnews #biochemistry https://t.co/JnIaaTA9RP

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