MCC: Malate Dehydrogenase CUREs Community part of CUREnet:CURE Collection
The Malate Dehydrogenase CUREs Community (MCC) project is designed to facilitate the adoption of effective, protein‐centric, Course Based Undergraduate Research Experiences (CUREs) into teaching labs at a wide variety of undergraduate serving institutions. (Primarily Undergraduate Institutions, Research Intensive Universities and Community Colleges) MCC coordinates and conducts pedagogical research into two major features of CUREs:1) their duration (whole semester versus 5‐6 week modules incorporated into a lab class), and 2) the impact of scientific collaboration between institutions (a key aspect of much modern research). Using validated assessment tools we seek to establish their effects on student confidence, persistence in STEM, and ability to design research experiments and interprete data. To facilitate faculty adoption of CURE approaches the project provides a number of resources. These focus on a variety of research areas related to Malate Dehydrogenase including mechanisms of catalysis and regulation, adaptation and evolution, cofactor specificity, folding and stability and interactions in metabolons. Resources include biologics, experimental protocols and assessment tools. The project also coordinates interactions between courses at different institutions to allow incorporation of scientific collaboration into CUREs. These collaborations also facilitate the use of more sophisticated experimental approaches and broaden the experimental scope of the CUREs.

Battle of Lava and Life: Crater Lake National Park and Newberry Volcanic National Monument part of NAGT:Our Work:Past Projects:Teaching in the Field:Field Trip Collection
Drs. Jenny Thomson and John Buchanan, Department of Geology, 130 Science Building, Eastern Washington University, Cheney, WA 99004 (509) 359-2286; Drs. Suzanne Schwab and Robin O'Quinn, Department of Biology, ...

Investigating oranges - How many sections are inside? part of MnSTEP Teaching Activity Collection:MnSTEP Activity Mini-collection
This is an investigative lab to provide students with an opportunity to practice observation skills and develop cooperative group proceedures.

Characterizing the Aging Process Using Caenorhabditis elegans and Reverse Genetics part of CUREnet:Institutes:Community College of Rhode island:Examples
Using gene silencing (RNAi) in the nemotode C. elegans, students will identify genetic modifiers of proteins with roles in aging by reverse genetics. Specifically, students will analyze the effect of knocking down genes on the level of aging-related proteins tagged with fluorophores (GFP, RFP, etc.). Each group of students will use function-specific RNAi libraries (transcription factors, kinases, etc) already established in our lab. Furthermore, students will evaluate the effect of genetic modifiers on proteostasis and lifespan. In addition to becoming familiar with C. elegans work and appreciating the use of model organisms, the students will master microscopy, genetic crosses, gene silencing, and molecular and biochemical readout assays such as qPCR and immunoblotting.

Cascade Citizens Wildlife Monitoring Project part of Curriculum for the Bioregion:Activities
This multi-term assignment introduces students to local indigenous stories, significant plants and animals of our region and some basic skills in reading animal tracks and signs.

Darwin and the Galapagos Islands part of Introductory Courses:Activities
In this assignment the students read the Chapter 17 "Galapagos Archipelago" from The Voyage of the Beagle by Charles Darwin, and they examine a website about the Galapagos Islands. The students answer two ...