[Fields of Study]

 

Cell Biology and Genetics

Wolfram Siede, Ph.D., Graduate Advisor
Research and Education Building 202
817-735-2045
E-mail: wsiede@hsc.unt.edu

Graduate Faculty: Aschenbrenner, Cammarata, Clark, Eisenberg, Ghorpade, I. Gryczynski, Jiang, Planz,Reeves, Routh, Sheedlo, Siede, Warren, Wordinger

Adjunct Graduate Faculty: Collier, M. Garner, W. Garner, Jacobson, McCartney, Pang, Romano, Shepard

Cell Biology and Genetics has a primary mission to provide instruction in cell biology, forensic genetics, and the anatomical sciences; to develop and maintain research programs; and to participate in the service endeavors of the institution and profession. The major focus of research in the discipline is on the eye involving degenerative retinal diseases, glaucoma, diabetic complications, and cataracts. Other research programs include angiogenesis, apoptosis, cell secretory mechanisms, cell cycle, cellular differentiation, cell signaling, DNA damage, endothelial physiology, fluorescence microscopy, glial cell biology, growth factors and neurotrophins, nitric oxide, nuclear function, oxidative stress, regulated intramembrane proteolysis, stem cell research, and yeast genetics. Genetics research concentrates on the methods of analysis and procedures used in genetic identity testing of evidentiary materials from human and non-human sources utilizing advanced and state-of-the-art technologies, including microsatellite analysis, mitochondrial DNA, RT-PCR, and SNP technologies.

In support of the various research programs, the department maintains state-of-the-art facilities in microscopy, tissue culture and molecular biology. Over 8,000 square feet of research space is occupied by department faculty and staff.

The department is home to the North Texas Eye Research Institute which involves faculty from various basic science disciplines, as well as professionals in industry and private clinical practice.

Degree Plans
The following are typical degree plans for students in the cell biology and genetics discipline. It is advantageous to the student to begin graduate study in the fall semester. This degree plan may vary depending upon availability of course offerings in a given semester and each student's progress toward thesis and dissertation research. 

MS Degree Plan for Cell Biology and Genetics
Year 1: Fall
BMSC 5600	Integrative Biomedical Sciences I: Principles of Biochemistry	4 SCH
BMSC 5610	Integrative Biomedical Sciences II: Molecular Cell Biology	4 SCH
BMSC 5935	Introduction to Faculty Research Programs	1 SCH
BMSC 5960	Biomedical Ethics	1 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
CGEN 6599	Current Topics in Cell Biology and Genetics	1 SCH
		12 SCH
Year 1: Spring
	At least two of the following:
BMSC 5700	Integrative Biomedical Sciences III: Physiology	3 SCH
BMSC 5705	Integrative Biomedical Sciences IV: Pharmacology	2 SCH
BMSC 5710	Integrative Biomedical Sciences V: Immunology and Microbiology	3 SCH
	And
BMSC 5935	Introduction to Faculty Research Programs	1 SCH
CGEN 5900/5910	Special Problems	3-4 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
CGEN 6599	Current Topics in CGEN	1 SCH
		12 SCH
Year 1: Summer
CGEN 6030	Methods in Molecular Biology (CGEN Advanced Course)	4 SCH
BMSC 5930	Individual Research for MS Students	2 SCH
		6 SCH
Year 2: Fall
BMSC 5930	Individual Research for MS Students	3 SCH
	Elective	3 SCH
		12 SCH
Year 2: Spring
BMSC 5930	Individual Research for MS Students	3 SCH
BMSC 5950	Thesis	3 SCH
		6 SCH
TOTAL		42 SCH

 

PhD Degree Plan for Cell Biology and Genetics
Year 1: Fall
BMSC 5600	Integrative Biomedical Sciences I: Principles of Biochemistry	4 SCH
BMSC 5610	Integrative Biomedical Sciences II: Molecular Cell Biology	4 SCH
BMSC 5935	Introduction to Faculty Research Programs	1 SCH
BMSC 5960	Biomedical Ethics	1 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
		12 SCH
Year 1: Spring
	At least two of the following:
BMSC 5700	Integrative Biomedical Sciences III: Physiology	3 SCH
BMSC 5705	Integrative Biomedical Sciences IV: Pharmacology	2 SCH
BMSC 5710	Integrative Biomedical Sciences V: Immunology and Microbiology	3 SCH
	And
BMSC 5650	Lab Rotations	1 SCH
BMSC 5935	Introduction to Faculty Research Programs	1 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
CGEN 6599	Current Topics in CGEN	1 SCH
		12 SCH
Year 1: Summer
CGEN 6030	Methods in Molecular Biology (CGEN Advanced Course)	4 SCH
CGEN 6699	Special Problems in CGEN	2 SCH
		6 SCH
Year 2: Fall
BMSC 5010	Scientific Communications	3 SCH
BMSC 6940	Individual Research	2 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
CGEN 6599	Current Topics in CGEN	1 SCH
CGEN 6690	Special Problems in CGEN	2 SCH
	Elective 1	3 SCH
		12 SCH
Year 2: Spring
BMSC 6940	Individual Research	2 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
CGEN 6020	Proteomics and Genomics (CGEN Advanced Course 2)	3 SCH
CGEN 6599	Current Topics in CGEN	1 SCH
CGEN 6690	Special Problems in CGEN	2 SCH
	Elective 2	3 SCH
	Qualifying Examination	0 SCH
		12 SCH
Year 2: Summer
BMSC 5200	Biostatistics for BMSC	4 SCH
BMSC 6940	Individual Research	2 SCH
		6 SCH
Year 3: Fall
BMSC 6010	Grant Writing	3 SCH
BMSC 6940	Individual Research	2 SCH
CGEN 5940	Seminar in Current Topics	1 SCH
CGEN 6599	Current Topics in CGEN	1 SCH
CGEN 6699	Special Problems in CGEN	2 SCH
	Elective 3	3 SCH
		12 SCH
Year 3: Spring
BMSC 5965	Introduction to Industry Practice	1 SCH
BMSC 6940	Individual Research	2 SCH
	Elective 4	3 SCH
		6 SCH
Year 3: Summer
BMSC 6940	Individual Research	6 SCH
Year 4: Fall
BMSC 6940	Individual Research	3 SCH
BMSC 6950	Doctoral Dissertation	3 SCH
		6 SCH
Year 4: Spring
BMSC 6940	Individual Research	3 SCH
BMSC 6950	Doctoral Dissertation	3 SCH
		6 SCH
TOTAL		96 SCH

Advancement to Doctoral Candidacy

Qualifying Examination

The qualifying examination within the discipline of Cell Biology and Genetics must be successfully completed prior to concluding 72 semester credit hours (SCH). The main goal of the examination is to ensure that each doctoral student has a broad knowledge base in biomedical sciences and has mastered the fundamental principles of cell biology and genetics in order to be a successful doctoral candidate and an independent researcher. The qualifying examination consists of written and oral phases. The examination will be directed towards the didactic course work of the student. Basic knowledge and understanding of general research techniques in cell and molecular biology will be included.

The initial phase of the qualifying examination consists of a set of written questions administered by a qualifying examination committee (QEC) composed of faculty members of the Department of Cell Biology and Genetics. Within four weeks of taking the written examination, the chair of the QEC will schedule the oral examination. The oral examination will consist of questions that further explore the student's answers in the written phase, as well as questions on additional topics in cell biology and genetics as deemed appropriate by the QEC. The University Committee Member must be in attendance for the oral phase of the examination.

The qualifying examination will be graded on a Pass/Fail basis. Successful completion of the qualifying exam must be accomplished before the student can register for Grant Writing (BMSC 6010). Two attempts to pass the qualifying examination will be allowed. Failure to pass the qualifying examination after two attempts will result in dismissal from the doctoral program. In this case, a student may be allowed to complete the requirements for a Master of Science degree.

Grant Writing (6010)

After passing the qualifying examination, but prior to the completion of 84 SCH, the student must register for Grant Writing (BMSC 6010). This stage of the advancement to doctoral candidacy evaluates a student's aptitude for independent thought and scientific writing. The student is required to (a) prepare an NIH-style research proposal; (b) present the proposal in a public seminar; and (c) orally defend the proposal before his/her doctoral advisory committee. The proposal should be based on an original hypothesis and should describe specific experimental approaches to address the hypothesis. The graduate advisor will appoint a member of the student's advisory committee to coordinate the process. The student will meet with the advisory committee at least twice during the semester to review drafts of the proposal. The final written proposal must be typed in NIH format and presented to the advisory committee at least two weeks prior to the public seminar and oral defense. The grant proposal and the student's oral presentation and defense will be evaluated on the basis of originality and ability to synthesize and communicate the proposal content. The student's University Member must be present for the public seminar and oral defense of the proposal. Upon successful completion of Grant Writing (BMSC 6010), the student is advanced to doctoral candidacy. Two attempts to successfully complete Grant Writing (BMSC 6010) will be allowed. Failure to pass Grant Writing (BMSC 6010) will result in dismissal from the doctoral program. In this case, a student may be allowed to complete the requirements for a Master of Science degree.

This page last updated Nov 11, 2008

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