(Offered as BIOL 303 and NEUR 303) An analysis of the molecules and molecular mechanisms underlying nervous system function, development, and disease. We will explore the proteins that contribute to the unique structure and function of neurons, including an in-depth analysis of synaptic communication and the molecular processes that modify synapses. We will also study the molecular mechanisms that control brain development, from neurogenesis, neurite growth, and synaptogenesis to cell death and degeneration.

(Offered as BIOL 303 and NEUR 303) An analysis of the molecules and molecular mechanisms underlying nervous system function, development, and disease. We will explore the proteins that contribute to the unique structure and function of neurons, including an in-depth analysis of synaptic communication and the molecular processes that modify synapses. We will also study the molecular mechanisms that control brain development, from neurogenesis, neurite growth, and synaptogenesis to cell death and degeneration.

(Offered as BIOL 303 and NEUR 303) An analysis of the molecules and molecular mechanisms underlying nervous system function, development, and disease. We will explore the proteins that contribute to the unique structure and function of neurons, including an in-depth analysis of synaptic communication and the molecular processes that modify synapses. We will also study the molecular mechanisms that control brain development, from neurogenesis, neurite growth, and synaptogenesis to cell death and degeneration.

(Offered as BIOL 214 and NEUR 214) An introduction to the structure and function of the nervous system, this course explores the basic functions of neurons and synapses as well as neural mechanisms of sensation at molecular, cellular, circuit and system levels. Basic topics in neurobiology and neurophysiology will be covered with emphasis on neuroscience history and understanding how neuroscientists approach the study of the nervous system. Three class hours per week.

Requisite: BIOL 191. Limited to 45 students. Fall and Spring semester. Professors Kim and Roche.

(Offered as BIOL-150, CHEM-250) This is an interactive course that combines academic inquiry and community engagement to investigate identity, inequality and representation within Science Technology Engineering and Mathematics (STEM) fields--at Amherst and beyond. We begin the course by grounding our understanding of the STEM experience at Amherst in national and global contexts. We will survey the interdisciplinary literature on the ways in which identity - race, gender, class, ability, sexuality- and geographic context shape STEM persistence and belonging.

(Offered as BIOL-150, CHEM-250) This is an interactive course that combines academic inquiry and community engagement to investigate identity, inequality and representation within Science Technology Engineering and Mathematics (STEM) fields--at Amherst and beyond. We begin the course by grounding our understanding of the STEM experience at Amherst in national and global contexts. We will survey the interdisciplinary literature on the ways in which identity - race, gender, class, ability, sexuality- and geographic context shape STEM persistence and belonging.

How much are physics and astronomy influenced by society and culture, and vice versa?  How is knowledge generated in these fields, and to what extent do history, culture, ethics, and social factors affect the conduct and perception of scientific advancement? In this course, students will explore the broader sociocultural context in which physical and astronomical knowledge is generated, as well as the effects that this context has on attribution and acceptance of scientific ideas.

(Offered as HIST 368 and ASLC 368) This seminar examines the role of various frontier regions and borderlands in the long span of Chinese history. Ever since the ancient times, the development of agricultural communities, dynastic states, and Sinitic cultures in China was deeply intertwined with the fate of the societies on its borders such as Mongolia, Manchuria, Xinjiang, Tibet, Taiwan, and the mountainous southwestern regions.

(Offered as REL 288 and ASLC 288) A study of the most venerated saints in the history of Islam. We will read from their biographies, poetry (paying special attention to the themes of love), and theoretical and literary works. We will examine how such literature discloses the dimensions of Islamic mysticism: rituals and practices (some of which were considered socially deviant), theories of the self/soul, epistemologies, cosmologies, and ontologies. We will examine the ways that Sufi theories and practices challenged other self-professed Islamic orthodoxies and orthopraxies.

(Offered as ASLC 206 and RUSS 206) This course probes into the sustained interactions between China and Russia throughout the twentieth century. It traces the convoluted trajectory of their transnational and transcultural contact against the political backdrop of global Communism. Major units include the Chinese iconoclasts’ fascination with Russian fiction, the Soviet modernist longing for an “authentic” China, the Maoist reinvention of socialist realism, and the Cold War vicissitudes of Sino-Soviet friendship.