Genetics Ph.D. Program Fall 2014 Courses For up to Date course information please check ISIS. For more information on Genetics Ph.D. Program requirements please check the Graduate Student Manual Required Core Courses for all Genetics Ph.D. students GENE:6150:0001 (127:150:001) Instructor: Time & Location: Description: Genetic Analysis of Biological Systems None Time & Location: 2:30P - 4:00P TTh 1-107 BSB The course will consist of two 1.5-hour sessions per week. It is targeted toward, but not limited to, the first-year graduate students in the Genetics Ph.D. Program. The main goal of the course is to expose students to genetic analyses used in the organisms favored by geneticists, including bacteria, yeast, plant, C. elegans, drosophila, zebrafish, xenopus, mouse and humans. Introductory lectures will also be given on informatics and molecular evolution. Each lecture is given essentially by a member of the Genetics faculty who is expert with that system. A secondary goal is to help students make informed decisions when choosing a research project for their rotations and thesis and generating ideas for their comprehensive exams. Prerequisites: Undergraduate background in genetics or molecular biology. Familiarity with the computer programs Endnote, Word and PowerPoint and familiarity with online genetic resources such as PubMed, Entrez, BLAST, ENSEMBL, VISTA and UCSC genome browsers will be helpful but not required GENETICS – From Genes to Genomes (3rd edition) by Hartwell et al. (McGraw Hill, 2006) is required and will be used as a sub-textbook. Flash drive 3 SH BIOC:5243:0001 (099:243:001) Protein Structure, Function & Regulation NOT OFFERED BISC:5201:0001 (156:201:001) Fundamentals of Gene Expression Instructor: Pamela Geyer (Primary Instructor) Time &Location: Begins 08/25/2014 Ends 10/03/2014 11:30a – 12:20p MWF AUD 3 BSB Description: This course will cover topics of DNA and RNA structure, nuclear organization, DNA replication, RNA production and processing, small 1 SH RNAs, RNAi and genetic and epigenetic regulation. Instruction will include didactic and small group sessions, with discussion of primary research publications. 156:202:001 Fundamentals of Protein Regulation NOT OFFERED BISC:5203:0001 (156:203:001) Fundamentals of Dynamic Cell Processes Instructor: Gloria Lee (Primary Instructor) Stewart Thompson (Team Teacher) Time & Location: Begins 10/06/2014 Ends 11/07/2014 11:30a - 12:20p MWF AUD 3 BSB Description This course will give an overview of the following topics: actin, microtubules, motors, intermdiate filaments, cell-cell junctions, Gcoupled signaling, wnt-jak/stat signaling, ion channels, cell cycle, and stem cells. BIOL:3172:0A03 (002:131:0A03) Discussion Evolution Instructor: TBD (Primary Instructor) Time & Location: 3:30P – 5:20P T 212 EPB BIOL:3172:0AAA (002:131:AAA0 will be automatically added with this section Description: This is one of the required courses for biology majors. Evolution is change in biological populations over generations. The course reviews the following material: mechanisms of evolution (including natural selection and genetic drift), types and levels of selection, evolution of mating systems and sexual selection, the genetic basis of evolutionary change, phylogeny, and molecular evolution. The course is taught through lectures and workshops. Workshops can include assigned papers, exercises, computer simulations, and presentation of papers from the professional literature by individual students. Grades are based on exams over lecture material and workshop exercises. The text is used as backup for the lectures. CLICKER INFORMATION: In this course, we will use you have the option of using either the i>clicker2 remote OR i>clicker GO, which enables you to vote via a web-enabled device like a laptop or smart phone. i>clicker2: Can be purchased through Iowa Book or through http://www1.iclicker.com/student-remote-iclicker-2. Once you have your clicker, you need to register your clicker online at http://www1.iclicker.com/register-an-iclicker. Use your HawkID as your Student ID. 1 SH 4 SH i>clicker GO: To create a i>clicker GO account, visit https://iclickergo.com or download the app for iOS or Android. Creating an account automatically starts a free 14-day trial subscription. Please use this trial period to make sure i>clicker GO will work for all of your i>clicker classes before purchasing a subscription as there are no refunds afterwards. Once you create your i>clicker GO account, you do not need to do anything else to register. Just be sure that your account has the following profile information: Student ID: Your HawkID School ZIP/Postal Code: 52242 School Name: University of Iowa Prerequisites: 002:010 (BIOL:1402) and 002:011 (BIOL:1502), or 002:031 (BIOL:1411) and 002:032 (BIOL:1412); 002:128 (BIOL:2512), and 22M:016 (MATH:1460) or 22M:025 (MATH:1850) or 22M:031 (MATH:1550) or 22S:030 (STAT:2010) or 22S:101 (STAT:3510). BIOL:3172:0AAA (002:131:AAA) Lecture Evolution Instructor: Josep Comeron (Primary Instructor), John Logsdon (Team Teacher) This section is automatically added Time & Location: 11:30a– 12:20p MWF 101 BBE Exam: 6:30P – 8:30P Th ARR Description: This is one of the required courses for biology majors. Evolution is change in biological populations over generations. The course reviews the following material: mechanisms of evolution (including natural selection and genetic drift), types and levels of selection, evolution of mating systems and sexual selection, the genetic basis of evolutionary change, phylogeny, and molecular evolution. The course is taught through lectures and workshops. Workshops can include assigned papers, exercises, computer simulations, and presentation of papers from the professional literature by individual students. Grades are based on exams over lecture material and workshop exercises. The text is used as backup for the lectures. CLICKER INFORMATION: In this course, we will use you have the option of using either the i>clicker2 remote OR i>clicker GO, which enables you to vote via a web-enabled device like a laptop or smart phone. i>clicker2: Can be purchased through Iowa Book or through http://www1.iclicker.com/student-remote-iclicker-2. 0 SH Once you have your clicker, you need to register your clicker online at http://www1.iclicker.com/register-an-iclicker. Use your HawkID as your Student ID. i>clicker GO: To create a i>clicker GO account, visit https://iclickergo.com or download the app for iOS or Android. Creating an account automatically starts a free 14-day trial subscription. Please use this trial period to make sure i>clicker GO will work for all of your i>clicker classes before purchasing a subscription as there are no refunds afterwards. Once you create your i>clicker GO account, you do not need to do anything else to register. Just be sure that your account has the following profile information: Student ID: Your HawkID School ZIP/Postal Code: 52242 School Name: University of Iowa Midterm exams will be held from 6:30-8:30pm in 101 BBE on: Thursday, September 18, 2014 Thursday, October 16, 2014 Thursday, November 13, 2014 GRAD:7270:0001 (650:270:001) Instructor: Lecture: Description: Principles of Scholarly Integrity Minnetta V Gardinier (Primary Instructor) ARR This course provides training in the responsible conduct of research and scholarly activities. Students starting graduate study after 8/1/10 - course registration is required for all doctoral and master's degree students who are (or will be) pursuing their thesis work with funding from the NIH or NSF. This funding may be from individual faculty investigator research grants, individual student fellowships, or institutional training grants. Students should enroll in this course during their first year of graduate work. Doctoral students attend and participate in the introductory four-hour orientation workshop and eight 90-minute topical workshops (2 workshops per semester with continuing registration over four semesters). Master's and non-degree graduate students attend and 1 SH participate in the introductory four-hour orientation workshop and four 90-minute topical workshops (2 workshops per semester with continuing registration over two semesters). Students enroll in the appropriate Section based on their degree objective: Section 001 - PhD students, l sh; Section 002 - MS/MA students, 0 sh; Section 003 - Non-degree graduate students (G9), 0 sh. The introductory and topical workshops use didactic presentations and small group discussions of case studies to open dialogues in the following areas: student/mentor responsibilities for the pursuit of scholarly work (ownership, authorship, plagiarism/falsification/fabrication of data); student/mentor relationships and promoting an intellectual dialogue (communication, collaboration, grievance management); student responsibilities involving the institution/scholarly community/society (intellectual property, conflict of interest, fiscal responsibilities, human/animal subjects). A required four-hour introductory workshop is offered in the week prior to the start of classes and introduces principles of scholarly integrity (August, January – contact the course director for specific dates and times). It must be completed before attending the more indepth topical workshop discussions. Students are assigned to a small group of 9-12 students with a faculty facilitator, who promotes the discussion of assigned case study readings. Each small group meets twice per semester (Sep/Nov/Jan/Mar; or, Oct/Dec/Feb/Apr) for the topical workshops. You will be assigned to a group, which will meet on the same day of the week at the same time. Group assignments will be adjusted each semester to accommodate for class schedule changes. Workshops are tentatively scheduled to meet:* Monday, 3:30 - 5:00 pm; Tuesday, 3:30 – 5:00 pm; Wednesdays, 1:00 – 2:30 pm; Thursday, 1:00 – 2:30 pm and Fridays, 9:30 – 11:00am. Students must attend and actively participate in all required workshops for successful completion of this course. Students should register only once for the course, and registration will continue automatically until a grade is assigned after completing all workshops. This course is not open to students in professional degree programs (e.g., AuD, DDS, DNP, MD, MSN, PharmD). Professional students may consider taking the web-based CITI training course modules that are available. *Due to room availability the above times may change. Final meeting dates and times will be announced before the semester starts. See the course web site for full details: http://www.grad.uiowa.edu/principlesof-scholarly-integrity. GENE:7301:0IND Graduate Research in Genetics Staff ARR If you have not received permission from the instructor to add this section, your enrollment may be administratively dropped. Registration There is a 3-digit number assigned to each thesis advisor, which is the Information: number that is entered after the GENE:7301:_ _ _. Please select the instructor's name from the drop down menu. The instructor's number will be automatically added. Once you have registered for your courses hours, you will need to register for research hours. (127:301:IND) Instructor: Time & Location: Description: ARR For first and second year students, your total registered hours must equal 15 SH for the fall and spring semesters. ELECTIVES ( 8 SH chosen from the following courses) BIOL:3172:0A03 (002:131:0A03) Discussion Evolution Instructor: TBD (Primary Instructor), Time & Location: 3:30P – 5:20P T 212 EPB BIOL:3172:0AAA (002:131:0AAA) will be automatically added with this section Description: This is one of the required courses for biology majors. Evolution is change in biological populations over generations. The course reviews the following material: mechanisms of evolution (including natural selection and genetic drift), types and levels of selection, evolution of mating systems and sexual selection, the genetic basis of evolutionary change, phylogeny, and molecular evolution. The course is taught through lectures and workshops. Workshops can include assigned papers, exercises, computer simulations, and presentation of papers from the professional literature by individual students. Grades are based on exams over lecture material and workshop exercises. The text is used as backup for the lectures. CLICKER INFORMATION: In this course, we will use you have the option of using either the i>clicker2 remote OR i>clicker GO, which enables you to vote via a web-enabled device like a laptop or smart phone. i>clicker2: Can be purchased through Iowa Book or through http://www1.iclicker.com/student-remote-iclicker-2. Once you have your clicker, you need to register your clicker online at http://www1.iclicker.com/register-an-iclicker. Use your HawkID as your Student ID. 4 SH i>clicker GO: To create a i>clicker GO account, visit https://iclickergo.com or download the app for iOS or Android. Creating an account automatically starts a free 14-day trial subscription. Please use this trial period to make sure i>clicker GO will work for all of your i>clicker classes before purchasing a subscription as there are no refunds afterwards. Once you create your i>clicker GO account, you do not need to do anything else to register. Just be sure that your account has the following profile information: Student ID: Your HawkID School ZIP/Postal Code: 52242 School Name: University of Iowa Prerequisites: 002:010 (BIOL:1402) and 002:011 (BIOL:1502), or 002:031 (BIOL:1411) and 002:032 (BIOL:1412); 002:128 (BIOL:2512), and 22M:016 (MATH:1460) or 22M:025 (MATH:1850) or 22M:031 (MATH:1550) or 22S:030 (STAT:2010) or 22S:101 (STAT:3510). BIOL:3172:0AAA (002:131:AAA) Lecture Evolution Instructor: Josep Comeron (Primary Instructor), John Logsdon (Team Teacher) Time & Location: 11:30a– 12:20p MWF 101 BBE Exam: 6:30P – 8:30P Th ARR This section is automatically added Description: This is one of the required courses for biology majors. Evolution is change in biological populations over generations. The course reviews the following material: mechanisms of evolution (including natural selection and genetic drift), types and levels of selection, evolution of mating systems and sexual selection, the genetic basis of evolutionary change, phylogeny, and molecular evolution. The course is taught through lectures and workshops. Workshops can include assigned papers, exercises, computer simulations, and presentation of papers from the professional literature by individual students. Grades are based on exams over lecture material and workshop exercises. The text is used as backup for the lectures. CLICKER INFORMATION: In this course, we will use you have the option of using either the i>clicker2 remote OR i>clicker GO, which enables you to vote via a web-enabled device like a laptop or smart phone. i>clicker2: Can be purchased through Iowa Book or through http://www1.iclicker.com/student-remote-iclicker-2. 0 SH Once you have your clicker, you need to register your clicker online at http://www1.iclicker.com/register-an-iclicker. Use your HawkID as your Student ID. i>clicker GO: To create a i>clicker GO account, visit https://iclickergo.com or download the app for iOS or Android. Creating an account automatically starts a free 14-day trial subscription. Please use this trial period to make sure i>clicker GO will work for all of your i>clicker classes before purchasing a subscription as there are no refunds afterwards. Once you create your i>clicker GO account, you do not need to do anything else to register. Just be sure that your account has the following profile information: Student ID: Your HawkID School ZIP/Postal Code: 52242 School Name: University of Iowa Midterm exams will be held from 6:30-8:30pm in 101 BBE on: Thursday, September 18, 2014 Thursday, October 16, 2014 Thursday, November 13, 2014 BIOL:3713:0A01 (002:171:A01) Lab/Discussion Instructor: Course Supervisor: Time & Location: Molecular Genetics This course has specific requirements TBA (Primary Instructor) Sarit Smolikove 7:30 – 8:20P W 106 BBE BIOL:3713:0AAA (002:171:AAA) will be automatically added with this section. Description: This course covers the mechanisms and regulation of DNA, RNA, and protein biosyntheses in both prokaryotes and eukaryotes, with emphasis on methods of genetic analysis and with modern biochemical techniques, including recombinant DNA and genomics analysis, techniques to basic biology problems. There are three lectures and one discussion per week. Attendance at lectures and discussions is mandatory. Grading is based on three written exams, homework assignments and participation in the discussions. 4 SH Mid-Term Exams: 6:30P – 8:30P W ARR Requirements: BIOL:2512 (002:128) or BIOC:3120 (099:120) or first-year graduate standing. BIOL:3713:0AAA (002:171:AAA) Lecture Instructor: Time & Location: Molecular Genetics This course has specific requirements Sarit Smolikove (Primary Instructor) 12:30P – 1:20P MWF 40 SH Exam – 6:30P – 8:30 P W ARR This section is automatically added Description: This course covers the mechanisms and regulation of DNA, RNA, and protein biosyntheses in both prokaryotes and eukaryotes, with emphasis on methods of genetic analysis and with modern biochemical techniques, including recombinant DNA and genomics analysis, techniques to basic biology problems. There are three lectures and one discussion per week. Attendance at lectures and discussions is mandatory. Grading is based on three written exams, homework assignments and participation in the discussions. 0 SH Midterm exams will be held from 6:30-8:30pm in 40 SH on: Wednesday, October 1, 2014 Wednesday, November 5, 2014 Requirements: BIOL:2512 (002:128) or BIOC:3120 (099:120) or first-year graduate standing. BIOL:5117:0001 (002:191:001) Instructor Time & Location: Requirements: Topics in Molecular Genetics None ARR Grade of C+ or higher in BIOL:2512 (002:128) or graduate standing. 051:123:001 Bioinformatics II Techniques (BME:530:0001) Not Offered PEDS:8104:0600 Medical Genetics 070:110:001 Not Offered GENE:6170:0A01 127:170:A01 Lab/Discussion Bioinformatics Instructor: Instructors: Jan Fassler (Primary Instructor), Albert Erives (Team Teacher) Time & Location: 12:30p – 2:00P TTH B20 BB GENE:6170:)0AAA (002:170:AAAA) will be automatically added with this section. Description: This is a one semester overview of topics in Bioinformatics including access to nucleotide and peptide sequence data, sequence alignment 1, 2 SH 3 SH 2 SH 4 SH algorithms, molecular phylogeny, analysis of transcriptome data, proteomics, protein structure analysis, and regulatory bioinformatics. Emphasis is on experimental methods and analytical approaches. The course consists of two weekly computer lab sessions (A01) and one weekly lecture session (AAA). The course is open to undergraduate as well as graduate students. The course is best suited to upper level undergraduates with strong performance and interest in Genetics or Biochemistry and graduate students with an interest in analysis of genomes, genome data and/or functional genomics. Prerequisites include Genetics (2:128), Biochemistry (099:120), Genes, Genomes and the Human Condition (2:099), or graduate standing (with permission). The semester will be devoted to hands on computer-based workshops, theory based lectures and integrative group projects. Grades will be based on exams, weekly reading quiz, in-class exercises and the group project. GENE:6170:0AAA 127:170:AAA Lecture Instructor: Course Supervisor: Team Teacher Time & Location: Bioinformatics Jan Fassler (Primary Instructor), Albert Erives (Team Leader) Jan S Fassler Albert Erives 10:30 – 11:20 A W 168 VAN Exam: 6:30 P – 8:30P W ARR This section is automatically added Description: This is a one semester overview of topics in Bioinformatics including access to nucleotide and peptide sequence data, sequence alignment algorithms, molecular phylogeny, analysis of transcriptome data, proteomics, protein structure analysis, and regulatory bioinformatics. Emphasis is on experimental methods and analytical approaches. The course consists of two weekly computer lab sessions (A01) and one weekly lecture session (AAA). The course is open to undergraduate as well as graduate students. The course is best suited to upper level undergraduates with strong performance and interest in Genetics or Biochemistry and graduate students with an interest in analysis of genomes, genome data and/or functional genomics. Prerequisites include Genetics (2:128), Biochemistry (099:120), Genes, Genomes and the Human Condition (2:099), or graduate standing (with permission). The semester will be devoted to hands on computer-based workshops, theory based lectures and integrative group projects. Grades will be based on exams, weekly reading quiz, in-class exercises and the group project. Midterm exams will be held from 6:30-8:30pm in 301 VAN on: 0 SH Wednesday, September 24, 2014 Wednesday, October 29, 2014 Prerequisites: GENE:6280:0IND (127:280:IND) Independent Study Instructors: Time & Location: Description BIOL:2512 (002:128 ) or BIOC:3120 (099:120). Directed Study in Genetics ARR ARR There is a 3-digit number assigned to each thesis advisor, which is the number that is entered after the GENE:7301:_ _ _. Please select the instructor's name from the drop down menu. The instructor's number will be automatically added. ARR If you have not received permission from the instructor to add this section, your enrollment may be administratively dropped NSCI:7235:0001 (132:235:001) Instructor: Time & Location: Description Neurobiology of Disease None 3 SH 1:00P - 2:30P TTh 2141-2 RCP Description: Neurobiology of Disease will explore the basis of major diseases affecting the nervous system. This course was developed in response to a nationwide concern that graduate students in neuroscience and other related disciplines do not learn enough disease-oriented biology. Experts from throughout the university will provide state-of-the-art overviews on the clinical, neuropathological, physiological, and molecular features of disease. Lecturers will also discuss key areas that hold promise for future research, including the development of rational therapies. Diseases to be discussed will include: neurodegenerative diseases (Alzheimer’s disease, Parkinson’s disease, expanded repeat diseases including Huntington's disease), neurodevelopmental disorders, muscular dystrophies, dystonia, stroke, epilepsy, anxiety, and schizophrenia. Requirements: Students are required to prepare and deliver a lecture to their peers and an upper level undergraduate audience on an approved Neurobiology of Disease topic. There will also be two written examinations. Attendance at lectures and participation in discussion are also required. MCB:6220:001 142:220:001 Mechanisms of Cellular Organization Instructor: Robert Piper (Primary Instructor), Lee-Ann Allen (Team Teacher), Charles Yeaman (Team Teacher), David Rutkowski (Team Teacher), Mark Stamnes (Team Teacher) Time & Location: 2:30P – 3:20P MWF 2-501 BSB Description Current understanding of basic cell biological processes; key experiments that led to guiding insights; mechanisms that cells use for 3 SH compartmentalization and how those mechanisms are regulated; biogenesis of major organelles (e.g., mitochondria, peroxisomes, nucleus, secretory/endocytic membrane system); functions of cytoskeleton in cell motility, organelle motility, and cell division. Prerequisites: 099:130 (BIOC:3130) BISC:5204:0001 (156:204:001) Biostatistics for Biomedical Research Instructor: Emine Bayman (Primary Instructor) Time & Location: Begins: 11/04/2014 Ends: 12/11/2014 8:30a – 9:50A TTH B111 ML Description This course is an introduction to the application of statistical techniques to biological data analysis. Topics covered include normal distribution, sampling distribution of the mean, variance, nonparametric methods, linear regression, power and sample size. Preference will be given to first and second year PhD students enrolled in one of the 16 participating training programs of the Biosciences Program including Biosciences Program students. Students not falling into the above category should e-mail [email protected] to be added to the wait list. If space becomes available, students will be contacted in the order they were added to the waitlist to confirm they still want to register for the course. When requesting permission please e-mail [email protected] and include your Student ID number and training program. 1 SH COMPUTATIONAL GENETICS TRACKS COURSES BIOL:2512:0AAA (002:128:AAA) Lecture Fundamental Genetics Instructor: Instructors: John Manak (Primary Instructor) , Anna Malkova (Team Teacher) Time & Location: 10:30A – 11:20A MWF 101 BBE Exam – 6:30P – 8:30P Th ARR This section is automatically added. Description: Midterm exams will be held from 6:30-8:00pm in SHAM LIB on: 0 SH Thursday, September 25, 2014 Thursday, October 23, 2014 Thursday, November 20, 2014 Prerequisites: 002:010 (BIOL:1402) and 002:011 (BIOL:1502), or 002:031 (BIOL:1411) and 002:032 (BIOL:1412); and 004:012 (CHEM:1120). BIOL:2512:0A01 (002:128:A01) Discussion Fundamental Genetics Instructor: TBD (Primary Instructor) , John Manak (Course Supervisor) Time & Location: 3:30P – 4:45P M 102 SL 4 SH Mid-term Exams: 6:30P – 8:00) Th ARR BIOL:2512:0AAA (002:128:AAA) will be automatically added with this section. General Catalog: Nature, function of genetic material: classical, molecular, developmental aspects. Prerequisites: 002:010 (BIOL:1402) and 002:011 (BIOL:1502), or 002:031 (BIOL:1411) and 002:032 (BIOL:1412); and 004:012 (CHEM:1120). Requirements: grade of C- or higher in 002:011 (BIOL:1502). CS:3110:0001 (22c:104:001) Instructor: Lecture: Description Introduction to Informatics This course has specific requirements Denise Szecsei (Primary Instructor) 11:00A – 12:15P TTH 61 SH An introduction to programming, computing principles and fundamental aspects of computer science. Topics covered include programming in Python, fundamentals of relational databases, algorithmic idioms, computational complexity, and example applications. 3 SH This course serves as an introduction to informatics for graduate students in other disciplines. Requirements: 22C:005 (CS:1050) or graduate standing. CS:3210:0001 (22c:109:001) Instructor: Time & Location: Description Programming Languages and Tools Subtitle: Programming with C++ TBD (Primary Instructor, Padmini Srinivasan (Course Supervisor) 6:30P – 7:45P TTH 117 MLH This course offers rotating sections covering different programming languages (C, C++, Java, COBOL) and tools (Visual Studio). The topics covered in a section vary by programming language. The goal of this course is to expose students to the latest technology and allow students to learn a new programming language once they understand the fundamentals of programming. Students are assumed to have previous programming experience at the level of 22C:016. The course does not count for credit towards a CS major or minor. The sections are taught by an instructor or a TA. Prerequisites: CS:1210 (22C:016) or CS:2110 (22C:080) or CS:3110 (22C:104). BIOL:5117:0001 (002:191:001) Instructor: Time & Location: Description: Requirements: 3 SH Seminars (5 SH chosen from the following courses) Topics in Molecular Genetics None ARR Topic and details to be announced. grade of C+ or higher in 002:128 (BIOL:2512) or graduate standing. BIOL:5127:0001 Topics in Cell and Development (002:194:001) 1, 2 SH 1,2 SH Instructor: Jim Lin (Primary Instructor) Time & Location: ARR BIOL:6298:0001 (002:200:001) Instructor: Time & Location: Description: COSMOS Seminar This course has specific requirements Josh Weiner (Primary Instructor) 3:30P – 5:20P MWF 101 BBE Students will now enroll in COSMOS (Concepts, Models, and Systems in Biology, replaces Colloquium) both fall and spring semesters. 1 SH -First fall: 1 sh, attend PhD seminar on Monday (Students must sign an attendance sheet; failure to attend will result in a “U” grade) -First spring: 2 sh, COSMOS seminar course (similar to Colloquium but with an overarching topic, chosen by instructor(s), approached systematically from all levels and perspectives represented by our department). Requirements: Integrated biology graduate standing. BME:5020:0001 (051:192:001) Instructor: Time & Location: Description: Seminar in Biomedical Engineering Thomas Casavant (Primary Instructor) 11:00A – 11:50A T 2117 MERF 1 SH Forum for research presentations by scientists with national and international prominence; broad range of research topics in bioinformatics, genomics, and high-throughput biology; sponsored by the NIH T32 Bioinformatics Predoctoral Training Program at The University of Iowa. If there are other seminars you prefer to register for, please contact Diane Slusarski for seminar course approval before registering for the course. ([email protected])
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