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  • Protease Protection Assay. A diagram representing sample tubes from a protease protection assay with a transmembrane protein.

    Translating Co-Translational Translocation

    Learning Objectives
    Students will be able to:
    • list the steps of co-translational translocation in the correct order.
    • describe the key functions of molecules involved in co-translational translocation.
    • predict the outcome of co-translational translocation if one of the components is missing.
    • identify the characteristics of N-terminal ER signal sequences and internal ER signal sequences.
    • predict or interpret the results of a protease protection assay used to assess co-translational translocation or transmembrane protein topology.
    • predict the topology of a co-translationally translocated protein when given a description of the ER signal sequence or predict the type of ER signal sequence encoded by the mRNA-based protein topology.
  • Confocal microscope image of a mouse egg that is arrested at metaphase of meiosis II. Green, tubulin staining of meiotic spindle; red, actin staining of egg membrane; blue, DNA. This image was obtained on a Zeiss 510 Meta confocal microscope in the Department of Genetics at Rutgers University

    Sex-specific differences in Meiosis: Real-world applications

    Learning Objectives
    After completion of the lesson students will be able to:
    1. Describe the differences between female and male meiosis.
    2. Interpret graphical data to make decisions relevant to medical practices.
    3. Develop a hypothesis that explains the difference in incidence of aneuploidy in gametes between males and females.