Life Science, M&E 2: Metabolism (MS), M&E 3: Cellular Respiration (HS), M&E 4: Aerobic/Anaerobic Resp. (HS), S&F 1: Cells (MS), S&F 2: Cell Function (MS)

Astrocyte immunometabolic regulation of the tumour microenvironment drives glioblastoma pathogenicity

https://doi.org/10.1093/brain/awac222 Summary: Glioblastomas are incredibly deadly brain tumors. While there have been decades of research on curing these cancers, survival rates haven't increased much. Recently, a study out of Tel Aviv looked at what makes glioblastomas so resistant to treatment. Results showed that glioblastomas are protected and fed by astrocytes. Astrocytes are specialized glial cells… Continue reading Astrocyte immunometabolic regulation of the tumour microenvironment drives glioblastoma pathogenicity

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Inheritance & Variation of Traits, Inheritance 1: Behavior and Reproduction (MS), Inheritance 2: Genes and Growth (MS), Inheritance 2: Role of DNA (HS), Inheritance 4: Population Genetics (HS), Inheritance 5: DNA Technology (MS), Interdependent Relationships in Ecosystems, IR 1: Ecosystem Interactions (MS), IR 3: Ecosystem Stability (HS), Life Science, Natural Selection & Evolution, NSE 1: Evolution Evidence (HS), NSE 2: Evolution Factors (HS), NSE 4: Adaption (HS), NSE 4: Fitness (MS), NSE 5: Natural Selection (MS), NSE 5: Population Flux (HS), S&F 1: Cells (MS), S&F 1: DNA to Proteins (HS), S&F 2: Cell Function (MS), Structure and Function

Amoebae, Giant Viruses, and Virophages

https://doi.org/10.3389/fcimb.2017.00527 SUMMARY: In 2003, scientists discovered that giant viruses infected amoebas. These giant viruses are so big that they were mistaken for bacteria for the longest time. It wasn’t until scientists realized they contained no ribosomal DNA that these organisms were reclassified as viruses. From there, even more giant viruses were discovered. Some of the… Continue reading Amoebae, Giant Viruses, and Virophages

Inheritance & Variation of Traits, Inheritance 2: Role of DNA (HS), Life Science, Non-NGSS Articles, S&F 1: Cells (MS), S&F 1: DNA to Proteins (HS), S&F 2: Cell Function (MS), S&F 3: Body Systems (MS), S&F 4: Stimuli Response (MS), Structure and Function

mRNA vaccines – a new era in vaccinology

https://www.nature.com/articles/nrd.2017.243 SUMMARY: Traditional ways of making vaccines include using antigens and weakened or dead pathogens. While these methods have worked for us in the past, their application is limited. They don’t work against cancers and tumors and they can be expensive to produce. Using mRNA vaccines is a new and versatile way to create vaccines.… Continue reading mRNA vaccines – a new era in vaccinology

Life Science, S&F 1: Cells (MS), S&F 2: Body Systems (HS), S&F 2: Cell Function (MS), S&F 3: Body Systems (MS), Structure and Function

Immune responses in COVID-19

Immune responses in COVID-19 and potential vaccines: Lessons learned from SARS and MERS epidemic SUMMARY: This article review looks at what is already known about SARS and MERS and uses the data and clinical studies to discuss potential vaccines and treatments for the new coronavirus, SARS-CoV-2. Compared to SARS-CoV and MERS, SARS-CoV-2 has a much… Continue reading Immune responses in COVID-19

Life Science, M&E 2: Anabolism/Catabolism (HS), M&E 2: Metabolism (MS), M&E 3: Cellular Respiration (HS), M&E 4: Aerobic/Anaerobic Resp. (HS), Matter & Energy in Organisms/Ecosystems, Natural Selection & Evolution, NSE 2: Evolution Factors (HS), NSE 2: Taxonomy (MS), NSE 4: Adaption (HS), S&F 1: Cells (MS), S&F 1: DNA to Proteins (HS), S&F 2: Cell Function (MS), S&F 4: Stimuli Response (MS), Structure and Function

The architecture of cell differentiation in choanoflagellates and sponge choanocytes

The architecture of cell differentiation in choanoflagellates and sponge choanocytes SUMMARY: The closest relative to multicellular animals are single-celled organisms called choanoflagellates. These protists look like collar cells. These are cells that have a microvillar ring (the collar) around a flagellum. An example of these cells in animals are sensory epidermal cells. To get a… Continue reading The architecture of cell differentiation in choanoflagellates and sponge choanocytes

Life Science, Non-NGSS Articles, Physical Science, S&F 2: Cell Function (MS), Structure and Function, W 1: Graphing Waves (MS), W 1: Wave Relationships (HS), W 2: Wave Behavior (MS), W 4: Effects of E-magnet Radiation (HS), Waves & Electromagnetic Radiation

Toxic wavelength of blue light changes as insects grow

Toxic wavelength of blue light changes as insects grow SUMMARY: Different wavelengths of light are toxic to insects. In this study, scientists looked at the different effects of blue light on fruit flies (Drosophila). They found that each developmental stage was more susceptible to different wavelengths. There were also differences between males and females. For… Continue reading Toxic wavelength of blue light changes as insects grow