BIOL 402-1
Elaine Sia
TR 9:40AM - 10:55AM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering. Prerequisites: BIO 198 or BIO 190 and BIO 250
- Location
- Hutchison Hall Room 140 (TR 9:40AM - 10:55AM)
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BIOL 402-2
Elaine Sia
M 4:50PM - 6:05PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering. Prerequisites: BIO 198 or BIO 190 and BIO 250
- Location
- Morey Room 205 (M 4:50PM - 6:05PM)
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BIOL 402-3
Elaine Sia
T 12:30PM - 1:45PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering. Prerequisites: BIO 198 or BIO 190 and BIO 250
- Location
- Bausch & Lomb Room 315 (T 12:30PM - 1:45PM)
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BIOL 402-4
Elaine Sia
M 3:25PM - 4:40PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering.
- Location
- Lechase Room 163 (M 3:25PM - 4:40PM)
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BIOL 402-5
Elaine Sia
T 6:15PM - 7:30PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering. Prerequisites: BIO 198 or BIO 190 and BIO 250
- Location
- Meliora Room 209 (T 6:15PM - 7:30PM)
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BIOL 402-6
Elaine Sia
M 3:25PM - 4:40PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering. Prerequisites: BIO 198 or BIO 190 and BIO 250
- Location
- Hylan Building Room 305 (M 3:25PM - 4:40PM)
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BIOL 402-7
Elaine Sia
M 12:30PM - 1:45PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering. Prerequisites: BIO 198 or BIO 190 and BIO 250
- Location
- Meliora Room 209 (M 12:30PM - 1:45PM)
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BIOL 402-8
Elaine Sia
T 3:25PM - 4:40PM
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This course deals with the molecular mechanisms of gene replication, gene expression, and the control of gene expression in both prokaryotic and eukaryotic cells. Topics include enzymatic mechanisms of DNA replication, recombination and repair; transposable elements; DNA transcription; RNA splicing; RNA translation; repressors, activators, and attenuators; recombinant DNA and genetic engineering.
- Location
- Lechase Room 182 (T 3:25PM - 4:40PM)
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BIOL 406-1
Ryan Bickel
TR 11:05AM - 12:20PM
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A course that discusses the remarkable diversity of eukaryotic genomes with an emphasis on the human genome. The course will emphasize the importance of understanding the forces of evolution to explain molecular and genetic topics such as the large variation in genome size and structure as well as the remarkable complexity of gene regulation. Prerequisites: BIO 190/198
- Location
- Dewey Room 2110D (TR 11:05AM - 12:20PM)
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BIOL 406-3
Ryan Bickel
W 4:50PM - 6:05PM
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A course that discusses the remarkable diversity of eukaryotic genomes with an emphasis on the human genome. The course will emphasize the importance of understanding the forces of evolution to explain molecular and genetic topics such as the large variation in genome size and structure as well as the remarkable complexity of gene regulation. Prerequisites: BIO 190/198
- Location
- Bausch & Lomb Room 315 (W 4:50PM - 6:05PM)
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BIOL 406-4
Ryan Bickel
W 3:25PM - 4:40PM
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A course that discusses the remarkable diversity of eukaryotic genomes with an emphasis on the human genome. The course will emphasize the importance of understanding the forces of evolution to explain molecular and genetic topics such as the large variation in genome size and structure as well as the remarkable complexity of gene regulation.
- Location
- Hylan Building Room 305 (W 3:25PM - 4:40PM)
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BIOL 420-1
Michael Welte
MW 1:30PM - 2:45PM
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An advanced course focused on a mechanistic understanding of cellular organization. This course goes deep rather than broad, focusing on select topics in cell biology and analyzing the experimental evidence that our current understanding is based on. This course relies heavily on the primary research literature and the design and interpretation of experiments. We also practice skills essential for a professional cell biologist, including science communication and developing original research proposals.
- Location
- Hutchison Hall Room 316 (MW 1:30PM - 2:45PM)
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BIOL 422-1
Andrei Seluanov; Vera Gorbunova
TR 11:05AM - 12:20PM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging. Prerequisites: BIO 198 or BIO 190 required. BIO 202 recommended.
- Location
- Hutchison Hall Room 140 (TR 11:05AM - 12:20PM)
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BIOL 422-2
Andrei Seluanov; Vera Gorbunova
W 9:00AM - 10:15AM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging.
- Location
- Lechase Room 121 (W 9:00AM - 10:15AM)
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BIOL 422-3
Andrei Seluanov
W 10:25AM - 11:40AM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging.
- Location
- Hylan Building Room 306 (W 10:25AM - 11:40AM)
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BIOL 422-4
Andrei Seluanov
R 6:15PM - 7:30PM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging.
- Location
- Hylan Building Room 105 (R 6:15PM - 7:30PM)
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BIOL 422-5
Andrei Seluanov
W 9:00AM - 10:15AM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging.
- Location
- Meliora Room 219 (W 9:00AM - 10:15AM)
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BIOL 422-6
Andrei Seluanov
F 10:25AM - 11:40AM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging.
- Location
- Meliora Room 206 (F 10:25AM - 11:40AM)
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BIOL 422-7
Andrei Seluanov
F 11:50AM - 1:05PM
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This course focuses on molecular mechanisms of aging. We will discuss popular theories of aging, model organisms used in aging research, evolution of aging, relation between aging and cancer, human progeroid syndromes, and interventions to slow aging.
- Location
- Meliora Room 219 (F 11:50AM - 1:05PM)
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BIOL 426-1
David Lambert
TR 3:25PM - 4:40PM
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This course deals with the cellular and molecular aspects of animal development, with emphasis on processes and underlying mechanisms. Topics include: embryonic cleavage, gastrulation, early development of model vertebrates and invertebrates, patterning of cell fates along embryonic axes of Drosophila and vertebrates, organogenesis, and stem cells. Prerequsites: BIO 198 or BIO 190 or permission of the instructor
- Location
- Bausch & Lomb Room 106 (TR 3:25PM - 4:40PM)
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BIOL 457L-1
Amanda Larracuente
TR 12:30PM - 1:45PM
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This course is designed to teach students how the fast-moving field of genomics is applied to address important biological problems. Students will get hands-on training in genome analysis techniques and functional genomics. Major topics covered include genome sequencing, assembly and analysis, functional genomics, population genomics and genome evolution. Prerequisites: BIO 190 or BIO 198; INSTRUCTOR PERMISSION IS REQUIRED FOR ALL STUDENTS OUTSIDE THE BCB TRACK AND JUNIORS
- Location
- Gavett Hall Room 208 (TR 12:30PM - 1:45PM)
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BIOL 457L-2
Amanda Larracuente
F 10:25AM - 11:40AM
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This course will explore how concepts of population ecology and evolutionary biology can be used to draw inferences about ecological and evolutionary processes and inform the conservation and management of natural populations, with an emphasis on practical applications. Students will get hands-on training on common research methods in population biology and conservation genomics. The required lab component will give students an opportunity to analyze real-world data. Major topics will include species distribution and abundance models, population growth models, and population genetic methods used in conservation. Prerequisites: BIO 190 or BIO 198; INSTRUCTOR PERMISSION IS REQUIRED FOR ALL STUDENTS OUTSIDE THE BCB TRACK AND JUNIORS
- Location
- Gavett Hall Room 208 (F 10:25AM - 11:40AM)
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BIOL 459L-1
Nancy Chen
MW 10:25AM - 11:40AM
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This course will explore how concepts of population ecology and evolutionary biology can be used to draw inferences about ecological and evolutionary processes and inform the conservation and management of natural populations, with an emphasis on practical applications. Students will get hands-on training on common research methods in population biology and conservation genomics. The required lab component will give students an opportunity to analyze real-world data. Major topics will include species distribution and abundance models, population growth models, and population genetic methods used in conservation. Prerequisites: 218P/STT 276 AND BIO 111/BIO 113. BIO 205/BIO 263 are recommended but not required.
- Location
- Lechase Room 163 (MW 10:25AM - 11:40AM)
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BIOL 459L-2
Nancy Chen
F 12:30PM - 1:45PM
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This course will explore how concepts of population ecology and evolutionary biology can be used to draw inferences about ecological and evolutionary processes and inform the conservation and management of natural populations, with an emphasis on practical applications. Students will get hands-on training on common research methods in population biology and conservation genomics. The required lab component will give students an opportunity to analyze real-world data. Major topics will include species distribution and abundance models, population growth models, and population genetic methods used in conservation. Prerequisites: BIO 214/BIO 218P/STT 276 AND BIO 111/BIO 113. BIO 205/BIO 263 are recommended but not required.
- Location
- Lechase Room 141 (F 12:30PM - 1:45PM)
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BIOL 474-01
David Lambert; Jennifer Brisson
W 12:15PM - 1:30PM
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A six-course sequence that provides comprehensive coverage of advanced topics in ecology and evolutionary biology. Areas covered include: population and community ecology; population and quantitative genetics; molecular evolution; evolutionary genomics; evo-devo; phylogenetics; and speciation. This course is intended for graduate students; exceptional undergraduate students can enroll by permission of the course coordinator.
- Location
- Hutchison Hall Room 316 (W 12:15PM - 1:30PM)
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BIOL 475-1A
John Albert Uy
7:00PM - 7:00PM
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A six-course sequence that provides comprehensive coverage of advanced topics in ecology and evolutionary biology. Areas covered include: population and community ecology; population and quantitative genetics; molecular evolution; evolutionary genomics; evo-devo; phylogenetics; and speciation. This course is intended for graduate students; exceptional undergraduate students can enroll by permission of the course coordinator.
- Location
- ( 7:00PM - 7:00PM)
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BIOL 480-1
Dragony Fu
7:00PM - 7:00PM
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An introduction to research in the laboratories of individual faculty members.
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-01
Xin Bi
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-02
Vera Gorbunova
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-03
David Lambert
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-04
Andrei Seluanov
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-05
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-06
Anne Meyer
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-43
David Mathews
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 495-44
Robert Dirksen
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 516-1
Michael Welte
T 9:00AM - 10:30AM
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This one credit course examines current topics in cell, developmental and molecular biology. Student-led seminars and discussions based on representative publications in the recent literature. One or several broad topics, drawn from active fields of cell, developmental and molecular biology, will be covered each semester.
- Location
- Hutchison Hall Room 316 (T 9:00AM - 10:30AM)
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BIOL 580-1
Nancy Chen
T 11:00AM - 12:00PM
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Current topics in ecology and evolutionary biology are explored by reading research and review papers. Students choose topics for reading and lead discussions of their chosen topics. This course carries one credit.
- Location
- Hutchison Hall Room 316 (T 11:00AM - 12:00PM)
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BIOL 581-1
Michael Welte
W 4:00PM - 6:00PM
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This two-credit course will be taught by all faculty members of the Biology Department that conduct research in the areas of Cellular, Developmental and Molecular Biology. Each week one faculty will provide a general introduction to his/her field of interest and a comprehensive overview of their own research efforts. Short (1-2 page) papers will be assigned throughout the course, critiqued and returned for rewriting. Grades will be determined by participation in class discussions and the assigned writings.
- Location
- Hutchison Hall Room 316 (W 4:00PM - 6:00PM)
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BIOL 584-1
Bob Minckley
F 2:45PM - 4:00PM
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Biology Colloquium. Members of the staff and advanced students in the biological sciences meet on regularly announced dates for presentation and discussion of research by members of the department or invited guests. These seminars are open to all.
- Location
- Dewey Room 2110D (F 2:45PM - 4:00PM)
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BIOL 595-02
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-03
Xin Bi
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-04
Jennifer Brisson
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-05
Nancy Chen
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-06
David Dean
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-07
Justin Fay
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-08
James Fry
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-09
Dragony Fu
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-10
Sina Ghaemmaghami
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-11
Vera Gorbunova
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-12
David Lambert
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-13
Amanda Larracuente
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-14
Xin Li
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-15
Anne Meyer
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-16
Eric Wagner
7:00PM - 7:00PM
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No description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-17
Douglas Portman
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-18
Daven Presgraves
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-19
Andrei Seluanov
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-20
Elaine Sia
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-21
Paula Vertino
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-22
Michael Welte
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-24
Yi-Tao Yu
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-25
Arshad Rahman
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-26
Andrew Samuelson
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-27
David Mathews
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-28
Thomas Ciucci
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-29
John Albert Uy
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-30
Patrick Murphy
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-31
Kuan Hong Wang
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-32
Floria Uy
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-33
John Lueck
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-34
Gail Johnson
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-35
Amanda Larracuente
7:00PM - 7:00PM
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No description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-55
Vera Gorbunova
7:00PM - 7:00PM
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No description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595-66
Juilee Thakar
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595A-1
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 595B-1
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 895-1
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 897-1
Dragony Fu
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 899-1
Dragony Fu
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 986V-1
John Albert Uy
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 987V-1
7:00PM - 7:00PM
|
Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 995-1
7:00PM - 7:00PM
|
Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 997-01
Dragony Fu
7:00PM - 7:00PM
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Blank Description
- Location
- ( 7:00PM - 7:00PM)
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BIOL 999-01
Dragony Fu
7:00PM - 7:00PM
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 Doctoral students beyond the fifth year who have completed 90 credits. Maintain full-time status.
- Location
- ( 7:00PM - 7:00PM)
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