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Using Gamification to Teach Undergraduate Students about Scientific WritingLearning ObjectivesTopics within Playon Words are grouped into “mini-games.” The Learning Objectives for each mini-game are as follows: Sentence Sensei
- Identify the best sentence variant from a list of options
- Identify and eliminate needless words
- Identify where and when to use different types of punctuation marks
- Identify and correct common grammar mistakes
- Organize sentences in a logical order
- Describe the components of different sections of a scientific paper
- Identify the section of a scientific paper where a given sentence belongs
- Eliminate sentences which do not belong in a given writing sample
- Classify statements as scientific or non-scientific
- Identify which statements support a particular hypothesis or position
- Classify provided sentences (e.g. hypotheses vs. predictions, problems vs. experiments, results vs. discussion)
- Compare and contrast different types (e.g. primary literature, review articles, popular literature etc.) and sources (PubMed, Web of Science, Google Scholar etc.) of scientific information
- Identify locations in texts where citations are needed
- Identify citations and/or references that are incorrect or missing key information
- Identify information that does not belong in the reference list (e.g. vendor information)
Translating Co-Translational TranslocationLearning ObjectivesStudents 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.