UMass Amherst: Summer Pre- College Programs. Clinical Psychology - Ready Lab The Clinical Psychology Research Intensive will occur under the mentorship of Dr. Rebecca Ready and her undergraduate and graduate research assistants. Ready is Director of Clinical Training and a clinical neuropsychologist with expertise in the assessment of emotion, life quality, and well- being in adult and aging populations. She conducts research on emotion regulation and thinking abilities in younger and older adults. She also is interested in the assessment of adult learning disabilities, attention deficit hyperactivity disorder, and sports related concussion. High School Programs Abroad. Students; Parents; Faculty and Advisors. You can study abroad with AIFS on several programs offered during the summer. French or Italian while earning college credits before your freshman year! Pre-college programs are for high school students entering their junior or senior year of high school. Summer Academic Programs Hampshire College 893 West Street Amherst. Pre-College Summer Programs for High School Students and Pre-College Summer Programs and Opportunities. Student Education Programs (SEP) is a Pre-College Summer Program Directory for High School Students and. Summer Study: Penn State summer programs for high school students will ensure the most educationally rewarding summer of your life. Previous research intensive students have won awards for their work in Dr. During this 6- week intensive laboratory training, students will be trained in cognitive neuroscience techniques such as EEG and behavioral testing. The Spencer Lab can host up to 5 students. Learn More. Infant Cognition - Cheries Lab The Infant Cognition Lab at UMass Amherst, directed by Dr. Erik Cheries, studies how infants perceive and think about the world around them. We use a variety of behavioral methods to investigate early knowledge, such as measuring infants' looking time to various scenes, and observing their reaching/crawling choices in simple experimental games. We are currently examining questions related to infants' moral reasoning and their ability to think about the actions and intentions of other people. Student interns will gain experience in all aspects of our research, including recruiting families to participate in our studies, constructing experimental stimuli, conducting experiment sessions with babies and their parents, coding and interpreting data, and attending weekly lab meetings when we discuss recent findings from our lab and the greater field. High school students can experience college at Harvard Summer School this year. Summer Programs for High School Students. Are you a high school student age 15 to 18? Then consider spending your summer at. Together these experiences provide students with an engaging introduction to an exciting area of research area within Developmental Psychology. The Cheries lab can host 2 students. Learn More Bird Conservation in Suburban Wilds - Warren Lab In highly human- modified environments, never before seen combinations of species exist, as in highly invaded forest fragments in the ? And how should they be managed to maximize their value for critical taxa like migratory birds? Research in the Warren lab seeks to understand processes generating and maintaining biological diversity in a world that is becoming increasingly dominated by humans. Students will participate in a study on bird abundance and nesting success in Amherst conservation areas. The research involves maintaining trail cameras put out for surveying nest predators, assisting with searching for bird nests, and checking bird nests to establish if they are active or have been depredated or parasitized by cowbirds. In addition, students may assist with collecting and processing samples of leaf litter and arthropods in the lab and surveys for fruiting plants in the field. Students should be prepared to be outdoors in the early mornings (around sunrise) and be comfortable walking off of trail in woodlands. We are looking to engage students interested in animal behavior, conservation or ecology, who have good observation skills, are able to make careful observations, and can record them accurately. The Warren lab can host up to 2 students. Learn More. Atomically Thin Two Dimensional Crystals: Graphene and Beyond - Yan Lab This six week program provides hands- on experimental experience with versatile two dimensional (2. D) crystals. These crystals are one or a few atoms thick, and they exhibit amazing properties not seen in their three dimensional counterparts. The most well- known 2. D crystal is graphene, as was highlighted by the 2. Nobel Prize in Physics. This summer program will offer extensive training for students to make, observe and experiment with graphene as well as other types of 2. D crystals, such as transition metal dichalcogenides. The Yan lab can host 2 students. Food & Environmental Chemical Impact on Development of Obesity - Park Lab The current epidemic of obesity cannot be explained completely by the dietary, social and/or behavioral changes that have occurred over the past several decades. In addition, there seems to be limited success in controlling obesity and type 2 diabetes incidences even with considerable efforts to modify dietary patterns and encourage the public to increase physical activity. Simultaneously, there are emerging evidences that persistent organic pollutants are linked to excessive weight gain and altered glucose homeostasis. With this background, the current focuses of research are . Potential projects involve determining the biochemical mechanisms of insecticides and food bioactives on altered lipid and glucose metabolisms using Caenorhabditis elegans model. Caenorhabditis elegans is a nematode, eukaryotic, multi- organ animal model, which is increasingly utilized for biological and medical studies including areas in obesity research. This is a useful model over other in vitro tissue culture and rodent animal models. The Park lab can host 2 students. Is Your Food Safe to Eat? Exploring Nanotechnology on Food Safety - He Lab Food contamination problems have become globalized and are the causes of many health problems and economic losses. There is an increasing need for rapid detection of food contaminants (chemicals and microbes) in foods, as traditional detection methods such as plating for microbes and chromatography for chemicals are usually time- consuming. We develop various nanotechnology based methods for rapid detection of pesticides, antibiotics, melamine, pathogens, and other chemical and biological contaminates in foods. These projects are supported by US Department of Agriculture (USDA) and Department of Homeland Security (DHS). The He lab can host 1 to 2 students. Curing Blindness With Zebrafish . Using CRISPR technology, students will be guided through the process of mutating Stargardt's disease genes in zebrafish. In the long term, these zebrafish with Stargardt's disease will be used to develop treatments for patients with Stargardt's Disease and Age- related Macular degeneration. Students will learn how to clone genes, perform PCR, use CRISPR technology to create mutations, identify mutations using restriction enzyme digestion and DNA sequencing, and learn about sophisticated confocal fluorescence microscopy. Students will also learn about vision and retinal degeneration disease. The Jensen lab can host two students. More information about the Jensen lab research can be found here: http: //www. Using Zebrafish to Study Brain Development and Neural Stem Cells - Karlstrom Lab This research experience in the Karlstrom Lab will include working with zebrafish as a genetic and embryological model system to examine nervous system development, growth, and possibly responses to injury. These projects are designed to provide the student with exposure to the study of nervous system development and neural stem cell regulation. Unlike humans, the zebrafish brain and spinal cord have amazing regenerative capacity, and we are trying to understand what regulates this healing. The Karlstrom lab can host up to 5 students. The Evolutionary Genetics of Plant Adaptation - Caicedo Lab Adaptive evolution, the product of natural selection, underlies much of all biological diversity. The Caicedo Lab seeks to understand the genetic basis of adaptation in plant species. Because of the numerous resources available, we often work with species that are related to domesticated crops. One area of focus is the evolution of invasive plants that behave as agricultural weeds, and discovering the genetic changes can lead to weediness. Another area of focus involves understanding the evolution of fruit traits during the transition from wild to domesticated tomatoes, and among diverse wild tomatoes. The Caicedo Lab can host 1- 2 students. More information about the Caicedo Lab can be found here: http: //www. Mechanism of Mitosis in Mammalian Cells - Wadsworth Lab In the Wadsworth lab we study mitosis, the process by which cells divide from one cell into to two new cells. During mitosis, the replicated chromosomes are segregated into daughter cells by the action of a cellular structure called the mitotic spindle. Understanding mitosis is important because cancer cells are known to have defects in chromosome segregation, so learning how cells accurately segregate chromosomes may help lead to a better understanding of what goes wrong in cancer cells. Current work in the lab focuses on understanding two molecular motor proteins that help generate the forces required to assemble the mitotic spindle. These motor proteins use the energy of ATP hydrolysis to walk along spindle microtubules and build the spindle structure. In the lab, we use mammalian cells as a model system and image the events of spindle formation using fluorescence microscopy. The Wadsworth lab can host 1- 2 students. From DNA to Diversity - Albertson lab How do complex structures and shapes develop from a single- cell embryo? These are the basic questions that motivate my lab. Because of their vast diversity in form, we focus on bony fishes to address these questions. Opportunities exist for two students to participate in a large genetic mapping effort to identify the genes that are responsible for producing variation in complex morphological traits. Projects will include a combination of phenotypic analysis (i. The Albertson lab can host 2 students. More information on research in the Albertson lab can be found here: https: //sites. Learn more. Modelling Stem Cell Cancer in a Multicellular Animal - Markstein lab In the Markstein laboratory we use the fruit fly Drosophila melanogaster to learn about the stem cell features of cancer cells. Fruit flies may seem like a strange model system to study cancer because fruit flies do not normally get cancer.
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