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1. Leveraging multimodal classroom data for teacher reflection: teachers’ preferences, practices, and privacy considerations

   Yang, K; Borchers, C; Falhs, A-C; Echeverria, V; Karumbaiah, S; Rummel, N; Aleven, V (September 2024, Springer; European Conference on Technology Enhanced Learning, EC-TEL 2024)

   Ferreira_Mello, R; Rummel, N; Jivet; I; Pishtari, G; Ruipérez_Valiente, J A (Ed.)

   Teacher reflection is essential for K-12 classrooms, including effective and personalized instruction. Multimodal Learning Analytics (MMLA), integrating data from digital and physical learning environments, could support teacher reflection. Classroom data collected from sensors and TEL environments are needed to produce such analytics. These novel data collection methods pose an open challenge of how MMLA research practices can ensure alignment with teachers’ needs and concerns. This study explores K-12 teachers’ perceptions and preferences regarding MMLA analytics and data sharing. Through a mixed-method survey, we explore teachers’ (N=100) preferences for analytics that help them reflect on their teaching practices, their favored data collection modalities, and data-sharing preferences. Results indicate that teachers were most interested in student learning analytics and their interactions and ways of motivating students. However, they were also significantly less accepting of collecting students’ audio and position data compared to such data about themselves. Finally, teachers were less willing to share data about themselves than their students. Our findings contribute ethical, practical, and pedagogical considerations of MMLA analytics for teacher reflection, informing the research practices and development of MMLA within TEL. 

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2. Who are My Peers? Learner-Controlled Social Comparison in a Programming Course

   Kamil Akhuseyinoglu; Aleksandra Klasnja Milicevic; Brusilovsky, Peter (September 2022, European Conference on Technology Enhanced Learning (EC-TEL 2022))

   Hilliger, Isabel; Muñoz-Merino, Pedro J.; De Laet, Tinne; Ortega-Arranz, Alejandro; Farrell, Tracie (Ed.)

   Studies of technology-enhanced learning (TEL) environments indicated that learner behavior could be affected (positively or negatively) by presenting information about their peer groups, such as peer in-system performance or course grades. Researchers explained these findings by the social comparison theory, competition, or by categorizing them as an impact of gamification features. Although the choice of individual peers is explored considerably in recent TEL research, the effect of learner control on peer-group selection received little attention. This paper attempts to extend prior work on learner-controlled social comparison by studying a novel fine-grained peer group selection interface in a TEL environment for learning Python programming. To achieve this goal, we analyzed system usage logs and questionnaire responses collected from multiple rounds of classroom studies. By observing student actions in selecting and refining their peer comparison cohort, we understand better whom the student perceives as their peers and how this perception changes during the course. We also explored the connection between their peer group choices and their engagement with learning content. Finally, we attempted to associate student choices in peer selection with several dimensions of individual differences. 

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3. Laser capture microdissection-capillary zone electrophoresis-tandem mass spectrometry (LCM-CZE-MS/MS) for spatially resolved top-down proteomics: a pilot study of zebrafish brain

   https://doi.org/10.1039/d1mo00335f  

   Lubeckyj, Rachele A.; Sun, Liangliang (February 2022, Molecular Omics)

   Mass spectrometry (MS)-based spatially resolved top-down proteomics (TDP) of tissues is crucial for understanding the roles played by microenvironmental heterogeneity in the biological functions of organs and for discovering new proteoform biomarkers of diseases. There are few published spatially resolved TDP studies. One of the challenges relates to the limited performance of TDP for the analysis of spatially isolated samples using, for example, laser capture microdissection (LCM) because those samples are usually mass-limited. We present the first pilot study of LCM-capillary zone electrophoresis (CZE)-MS/MS for spatially resolved TDP and used zebrafish brain as the sample. The LCM-CZE-MS/MS platform employed a non-ionic detergent and a freeze–thaw method for efficient proteoform extraction from LCM isolated brain sections followed by CZE-MS/MS without any sample cleanup step, ensuring high sensitivity. Over 400 proteoforms were identified in a CZE-MS/MS analysis of one LCM brain section via consuming the protein content of roughly 250 cells. We observed drastic differences in proteoform profiles between two LCM brain sections isolated from the optic tectum (Teo) and telencephalon (Tel) regions. Proteoforms of three proteins (npy, penkb, and pyya) having neuropeptide hormone activity were exclusively identified in the isolated Tel section. Proteoforms of reticulon, myosin, and troponin were almost exclusively identified in the isolated Teo section, and those proteins play essential roles in visual and motor activities. The proteoform profiles accurately reflected the main biological functions of the Teo and Tel regions of the brain. Additionally, hundreds of post-translationally modified proteoforms were identified. 

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4. Insights on the geomagnetic secular variation in the Eastern Mediterranean: First directional data from Cyprus (Dataset)

   https://doi.org/10.7288/V4/MAGIC/19316  

   Tema, Evdokia; Hedley, Ian; Fasnacht, Walter; Peege, Christina (September 2021, Magnetics Information Consortium (MagIC))

   Paleomagnetic, rock magnetic, or geomagnetic data found in the MagIC data repository from a paper titled: Insights on the geomagnetic secular variation in the Eastern Mediterranean: First directional data from Cyprus 

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5. Decadal-scale variations in geomagnetic field intensity from ancient Cypriot slag mounds (Dataset)

   https://doi.org/10.7288/V4/MAGIC/17135  

   Shaar, Ron; Tauxe, Lisa; Ben-Yosef, Erez; Kassianidou, Vasiliki; Lorentzen, Brita; Feinberg, Joshua M; Levy, Thomas E (May 2021, Magnetics Information Consortium (MagIC))

   Paleomagnetic, rock magnetic, or geomagnetic data found in the MagIC data repository from a paper titled: Decadal-scale variations in geomagnetic field intensity from ancient Cypriot slag mounds 

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