Department of

Microbiology and Environmental Toxicology

University of California, Santa Cruz

Graduate Student Handbook

Dear Graduate Students in Microbiology and Environmental Toxicology,

Welcome to UCSC! This handbook is your guide to our graduate program as well as to other services on campus. As a new student, you can find answers to many of the questions that arise when planning a graduate career and beginning at a new university. You may want to review our department’s web pages at http://www.METX.ucsc.edu, where you will be able to access additional information about the Department. For more information about the University of California, Santa Cruz, visit the web site http://www.ucsc.edu.

If you have any questions or need assistance during your time here at UCSC, please contact Claudia McClure, Graduate Program Coordinator and Department Manager at 831-459-4719 or mcclure@metx.ucsc.edu. You can find Claudia in room 430, Physical Sciences Building.

The Department of Microbiology and Environmental Toxicology staff is available to assist you with all questions pertaining to the rules and regulations of the university. The Department office can provide university forms and general information about university procedures, or will refer you to the appropriate office for further information. The Department office is located in room 430, Physical Sciences Building. The phone number is 831-459-4719.

Additionally, please feel free to contact me regarding advising matters, or any other concerns. I can be reached at 831-459-1588, or yildiz@metx.ucsc.edu. My office is located in room 444, Physical Sciences Building.

Good luck with your studies.

Sincerely,

Fitnat Yildiz, Associate Professor

Graduate Representative

Department of Microbiology and Environmental Toxicology

PROGRAM OVERVIEW

The Microbiology and Environmental Toxicology program at U.C. Santa Cruz seeks to understand environmental poisons and pathogens that harm humans and other living things.

Working within the highly collaborative environment of U.C. Santa Cruz, we use a systems-based approach in research and graduate training, seeking to understand the broad principles of toxicity and pathogenicity.

Our faculty members are leaders in their disciplines and welcome collaborators throughout campus and beyond. Virtually all faculty are engaged in interdepartmental efforts. Chief among our partners are bioinformaticists, chemists, microbiologists, and earth and ocean scientists.

Our educational program prepares students to take an interdisciplinary approach to solve pressing issues in environmental and human health. Graduate students benefit in the classroom and laboratory from the expertise of the program’s faculty and strength of the UC Santa Cruz faculty as a whole.

FACULTY

Manel Camps, Assistant Professor

Molecular mechanisms of reactive DNA methylation toxicity.

Office: 434 PSB, Office Hours: by appointment, Email, 831-459-xxxx

A. Russell Flegal, Professor

Anthropogenic perturbations of biogeochemical cycles.

Office: 446 PSB, Office Hours: by appointment, flegal@METX.ucsc.edu, (831) 459-2093

Karen M. Ottemann, Associate Professor

How pathogenic bacteria such as Helicobacter pylori use environmental cues to establish infection.

Office: 448 PSB, Office Hours: by appointment, ottemann@METX.ucsc.edu, (831) 459-3482

Chad Saltikov, Assistant Professor

Anaerobic microbiology and biotransformation of pollutants and toxic metals.

Office: 438 PSB, Office Hours: by appointment, saltikov@METX.ucsc.edu, (831) 459-5520

Donald R. Smith, Professor

Organismal responses and therapeutic treatment of toxins.

Office: 442 PSB, Office Hours: by appointment, smith@METX.ucsc.edu, (831) 459-5041

Victoria Auerbuch Stone, Assistant Professor

The interaction between the gut pathogen Yersinia pseudotuberculosis and the mammalian immune system.

Office: 448 PSB, Office Hours: by appointment, Email, (831)459-3049

Fitnat Yildiz, Associate Professor

Microbiology, molecular genetics, genomics. The mechanism of persistence and survival of Vibrio cholerae.

Office: 444 PSB, Office Hours: by appointment, yildiz@METX.ucsc.edu, (831) 459-1588

AFFILIATED FACULTY

ENVIRONMENTAL TOXICOLOGY

Kenneth W. Bruland (Ocean Sciences) Biogeochemistry of trace metals

Don Croll (Ecology & Evolutionary Biology) Foraging ecology of marine sea birds and mammals, island conservation/ecology

Andrew Fisher (Earth Sciences) Hydrology, crustal studies, heat flow modeling

Raphael Kudela (Ocean Sciences) Ecological modeling and remote sensing, satellite oceanography, phytoplankton ecology and harmful algal blooms

Mark Mangel (Applied Mathematics and Statistics) Mathematical modeling of biological phenomena, especially the evolutionary ecology of growth, aging, and longevity; quantitative issues in fishery management; mathematical and computational aspects of disease

Matthew McCarthy (Ocean Sciences)

Organic geochemistry, marine organic geochemistry, global biogeochemical cycles

Peter T. Raimondi (Ecology and Evolutionary Biology) Applied marine ecology

Mary Silver (Ocean Sciences), Biological oceanography, marine plankton, midwater ecology

CELLULAR TOXICOLOGY

Lindsay Hinck (MCD Biology) Neurobiology, cell biology, development

Ted Holman (Chemistry and Biochemistry) Bioinorganics and biological chemistry

Pradip K. Mascharak (Chemistry and Biochemistry) Bioinorganic chemistry

Glenn Millhauser (Chemistry and Biochemistry) Peptide structure and dynamics, electron spin resonance spectroscopy, nuclear magnetic resonance, agouti proteins

Martha Zuniga (MCD Biology), Molecular, cellular, and developmental biology of the immune system

MICROBIOLOGY

Grant Hartzog (MCD Biology) Biochemistry, genetics, chromatin and transcriptional regulation

Douglas R. Kellogg (MCD Biology) Coordination of cell growth and cell division

Roger Linington (Chemistry) Marine Natural Products, Drugs for Neglected Diseases, Chemical Biology, Chemical Probes

Todd Lowe (Computer Engineering) Experimental and computation genomics, ncRNA gene finders, DNA microarrays to study the biology of Archaea

Nader Pourmand (Biomolecular Engineering) Development of new tools and technologies that integrate biology, electronics, and nanofabrication for the detection and study of genes and proteins

Joshua Stuart (Biomolecular Engineering) Computational genomics

Jonathan P. Zehr (Ocean Sciences), Aquatic microbial ecology, biological oceanography

PROGRAM DESCRIPTION

The Microbiology and Environmental Toxicology Department sponsors both undergraduate and graduate courses in microbiology and environmental toxicology, both within the department and through affiliated departments. The curriculum offers a strong foundation in fundamental and applied toxicology in order to provide the breadth and depth of perspective required for this interdisciplinary science. Research interests of students and faculty in environmental toxicology span the fields of biology, microbiology, chemistry, Earth sciences, ocean sciences, environmental studies, and human health.

Students are expected to combine rigorous academic training with development of sophisticated research skills needed to excel in the rapidly evolving field of microbiology and environmental toxicology. By understanding (1) sources, transport, and fate of toxins and (2) their interactions with biological systems, students learn to critically assess the complex effects of toxins at the molecular, cellular, organismal, and ecosystem levels.

Graduate Programs

The graduate programs in microbiology and environmental toxicology, M.S. and Ph.D., are designed to prepare students for careers in research, teaching, industry, and government. Master’s students typically finish in two years and Ph.D. students in four to six years. The primary criteria for admission to the programs are evidence of superior scholarship in the sciences and a demonstrated ability to conduct innovative research. Preparation in any of the basic natural sciences, computer science, and/or engineering disciplines equivalent to requirements for a bachelor's degree is required.

The department instructs through in-depth research experiences and courses that develop a knowledge base and critical thinking abilities. To solve problems in environmental and organism health, students must understand how toxic substances and pathogens move through the environment, enter organisms, and cause harm. In additional to chemical toxins, the program also recognizes microbial pathogens as toxic agents. Students also receive instruction on the organismal, cellular, and molecular mechanism, or intoxication. This instruction is conducted in a dynamic, interactive atmosphere composed of graduate-level lecture and laboratory courses, in-depth seminar classes, and weekly seminar and research presentations. Students gain expertise in the broad field of microbiology and environmental toxicology through in-depth research experiences and challenging courses. Research and training in the department focus on both aquatic and terrestrial systems and toxins that range from inorganic pollutants to bacterial pathogens. In the first years of study, both master’s and doctoral students take microbiology and environmental toxicology core courses, as well as other courses selected to strengthen the student's academic training. During this time, the students also commence original thesis research in the laboratory of their major professor. Because the department is diverse and interactive, students become familiar with disciplines ranging from environmental chemistry to molecular genetics to physiology. Collaboration among laboratories within different departments to develop expertise is actively supported in the program.

More information on the requirements for the graduate programs may be obtained from the Division of Graduate Studies or the Environmental Toxicology Department office.

DEGREE REQUIREMENTS

Ph.D. STUDENTS

Coursework

Take and pass, with a grade of at least a B:

· METX 200

· two courses from the following: METX 201, 202, 203, 210, 240, 250

· at least two additional graduate-level courses within METX or another department.

Students must enroll in METX 292 each quarter.

Literature Review

Under direction of the student’s advisor, write a literature review of the current state of the field of the proposed dissertation research. This written review will be handed in to the student’s advisor at the end of the summer of the first year.

Departmental Seminars

Give a 25-minute departmental seminar each academic year presenting the student's proposed research.

Give a one-hour departmental seminar during the spring quarter of the second year presenting the student’s proposed research.

Ph.D. Qualifying Exam (Part I - METX Internal)

Part I of the Qualifying Examination consists of two portions: defense of an experimental proposal and knowledge of material presented in the METX core courses taken by the student. Generally, this exam should be taken in late winter quarter/early spring within the second year.

For the research proposal portion, the student writes and defends a research proposal on a topic different from his/her dissertation research. The topic is chosen in consultation with the student’s METX Internal Qualifying Examination Committee (see below), in which the student writes up a one-page summary of the proposed outside topic and submits it to the committee for final approval two months before the planned exam date. After approval by the committee, the student writes a 3-5 page (single-spaced) proposal consisting of an introduction, experimental design, expected outcomes and discussion. This written proposal should be received by the committee two weeks before the student’s exam. During the oral qualifying exam, the committee will question the student on his/her proposal.

The METX Internal Qualifying Examination Committee consists of at least three members: two METX faculty and one faculty from outside of the department. The student’s supervisor does not serve on this committee, but s/he is consulted regarding the composition of the committee. A short summary of the student’s performance, as well as any recommendations for the student, will be written by the committee and placed in the student’s file.

Ph.D. Qualifying Exam (Part II)

The student must present and defend her/his dissertation research proposal to their Ph.D. Qualifying Examination (QE) Committee (see below) no later than spring quarter of the third year. The student will submit a dissertation research proposal to their QE Committee at least 10 days before the defense, and then defend the proposal in an oral examination before the QE Committee. If the student is unsuccessful in convincing the QE Committee of the merit of the proposed research, the proposal must be modified until it is acceptable and the student passes the exam.

The Ph.D Qualifying Examination Committee is selected by the student in consultation with his/her research advisor at least one quarter prior to the exam. The QE Committee is made up of four members: at least two members must be from the METX faculty, and one member must be from outside of the department. The chair of the QE committee must be a tenured faculty member. The outside member should be a tenured faculty member from a different department at UCSC, another UC campus, or another institution (either University, State or Federal Agency).

Advancement to Candidacy

The student advances to candidacy after completing all coursework, completing the literature review, giving a Second Year Seminar, and passing the Ph.D. Qualifying Examination Parts I and II.

Dissertation Committee

After advancement to candidacy the student, in consultation with her/his supervisor, forms a Dissertation Committee (DC). Often this committee is the same as the QE Committee. The Dissertation Committee consists of at least three members, including two METX faculty (including the student’s advisor), and at least one member from a different department at UCSC, another UC campus, or another institution. The first meeting should coincide with the preparation of the student’s dissertation research proposal (if the QE and Dissertation committees are the same) or should occur no latter than one year after the Ph.D. Qualifying Exam, Part II (if the QE and Dissertation committees are different). The student should meet with their Dissertation Committee at least annually after that. The Dissertation Committee remains standing until the student has completed all requirements for the doctoral degree.

Dissertation Defense

The student must submit their doctoral dissertation to the Dissertation Committee for tentative approval at least one month before presenting a formal, public doctoral research seminar. All of the Dissertation Committee members should be in attendance at this seminar. After the seminar, the Dissertation Committee, and any other faculty wishing to do so, meet with the student to discuss her/his dissertation. The candidate must defend the work to the satisfaction of the Dissertation Committee at the post-seminar session. Objections raised or deficiencies noted in this session must be met and corrected to the satisfaction of those concerned before the Chair of the Committee signs the cover sheet signifying acceptance of the dissertation.

MASTERS STUDENTS

Coursework

Take and pass, with a grade of at least a B:

· METX 200

· two courses from the following: METX 201, 202, 203, 210, 240, 250

· at least two additional graduate-level courses within METX or another department.

Students must enroll in METX 292 each quarter.

Literature Review

Departmental Seminar

Give a 25-minute departmental seminar each academic year presenting the student's proposed research.

Give a one-hour departmental seminar during the spring quarter of the second year presenting the student’s Masters research to date.

Masters Comprehensive Exam

The Comprehensive Examination tests knowledge of the material presented in the METX core courses taken by the student, as well as general knowledge related to the student’s Master’s research. In general, this oral exam is taken in fall quarter of the second year.

The Masters Comprehensive Exam Committee consists of at least three members: two METX faculty and one faculty from outside of the department. The student’s supervisor does not serve on this committee, but s/he is consulted regarding the composition of the committee. A short summary of the student’s performance, as well as any recommendations for the student will be written by the committee and placed in the student’s file.

Masters Reading Committee

The student should form a Masters Reading Committee during their first year. The Masters Reading Committee consists of at least three faculty members, at least two of whom must be from the METX faculty (including the student’s advisor). The student will meet with their Masters Reading Committee annually throughout their tenure in the program to discuss with the committee the student's thesis plan, progress and intention to graduate. The last meeting should be approximately one quarter before the student intends to graduate. Masters students are required to complete a Reading Committee Form by the quarter in which the degree is to be granted.

Thesis

Students are required to submit a thesis for fulfillment of the degree requirements. The thesis should be submitted to their Masters Reading Committee by the second week of the final quarter of work, generally spring of the second year.

GRADUATE COURSES

200. Interdisciplinary Approaches in Environmental Toxicology. F

Lectures and in-depth discussions will teach an interdisciplinary and problems-based approach to demonstrate how current significant problems in environmental and human health have been addressed and solved or not solved. Students will be provided with examples and case studies that provide the opportunity to work in interdisciplinary teams to solve assigned problems. The course is organized around particular kinds of problems that integrate all organizational levels (environmental, molecular/cellular, organismal/public health) in an analysis of the problem and proposal for a research plan/solution. The Staff

201. Sources and Fates of Pollutants. F

Presents in-depth important principles of environmental toxicology related to the introduction, transport, and fate of toxicants in aquatic and terrestrial environments including environmental chemistry and biogeochemical cycles as well as exposure pathways and uptake by organisms. Additional emphasis will be placed on the susceptibility and effects of toxicants across organ systems, toxicokinetics and biomarkers of exposure, and effects at the ecosystem level. Students cannot receive credit for this course and course 101. Enrollment restricted to graduate students; qualified undergraduate science majors may enroll with permission of instructor. A. Flegal

202. Cellular and Organismal Toxicology. W

Emphasizes biochemical, cellular, and organ system basis of intoxication, including dose-response relationships, biotransformation of toxicants, biochemical mechanisms underlying toxicity, factors influencing toxic action, and biomarkers of exposure. Emphasizes effects of various classes of toxins, including heavy metals and persistent synthetic organics, with a focus on susceptible biochemical/cellular processes of the central nervous, immune, hepatic, and renal target organ systems. Students cannot receive credit for this course and Environmental Toxicology 102 or Biology 122. (Also offered as Biology 202. Students cannot receive credit for both courses.) Enrollment restricted to graduate students. D. Smith

203. Cellular and Molecular Toxicology. *

Presents in-depth cellular and molecular principles of environmental toxicology. These include modes of action and cellular and molecular targets of toxicants, as well as mechanisms of cellular and molecular responses to toxicants and their dMETXification. State-of-the-art biological methodologies and approaches to identify and study cellular targets of toxicants. Designed to provide students with a broad and deep understanding of the biological aspects of toxicology at both cellular and molecular levels, and the skills to approach emerging challenges in the field. Enrollment restricted to graduate students; qualified undergraduates may enroll with instructor's permission. The Staff

205. Scientific Skills, Ethics, and Writing. *

Course provides fundamental training of graduate students in the scientific method, experimental design, ethics in science, grant proposal and scientific writing, data presentation, and scientific speaking. Students are evaluated on class participation, performance, and a written NIH/NSF style research proposal. Enrollment restricted to graduate students. The Staff

210. Molecular and Cellular Basis of Bacterial Pathogenesis. S

Focuses on the molecular basis of bacterial pathogenesis with specific emphasis on gene expression, regulation, and ecology and evolution. Advanced undergraduates with extensive background in microbiology and biology may enroll with permission of instructor. Enrollment restricted to graduate students. Advanced undergraduates with extensive background in microbiology and biology may enroll with permission of instructor. F. Yildiz

215. Seminar in Advanced Prokaryotic Molecular Biology (2 credits). W

Seminar focuses on aspects of prokaryotic molecular biology. Specific topics include transcriptional regulation, translational regulations, DNA replication, secretion of proteins, transport of small molecules, bacterial differentiation, signal transduction, biofilm formation, and motility. Discussions focus on model bacteria such as Escherichia coli and Bacillus subtilis. (Formerly Advanced Prokaryotic Molecular Biology.) Enrollment restricted to graduate students. F. Yildiz, K. Ottemann, C. Saltikov

240. Molecular Biology of Prokaryotes. *

Focuses on several aspects of prokaryotic molecular biology. Covers transcriptional regulation, translational regulation, DNA replication and segregation, protein secretion, transport of small molecules, control of metabolism, stress response, bacterial differentiation, signal transduction, biofilm formation, and motility. Strong focus on experimental techniques and approaches used in prokaryotic molecular biology. Focus on model bacteria such as Escherichia coli and Bacillus subtilis. Students cannot receive credit for this course and course 140. K. Ottemann

250. Environmental Microbiology (2 credits). S

How microbes interact with their environments. Topics include anaerobic metabolism; biotransformation of toxic metals and organic pollutants; geomicrobiology; life in extreme environments; water quality. Advanced undergraduates with extensive background in microbiology and biology may enroll with permission of instructor. Enrollment restricted to graduate students. (General Education Code(s): T2-Natural Sciences.)

C. Saltikov

281A. Topics in Environmental Toxicology. F,W,S

Selected topics in environmental toxicology. Topics vary from year to year. Enrollment restricted to graduate students; qualified upper-division science majors may enroll with instructor's permission. May be repeated for credit. The Staff

281C. Topics in Environmental Microbiology (2 credits). F,W,S

Seminar and discussion focusing on mechanism of microbial transformation of metals. Participants present results from their research projects in a seminar format. Relevant journal articles presented and discussed. Enrollment restricted to graduate students; qualified undergraduates may enroll with instructor's permission.

C. Saltikov

281F. Topics in Aquatic Toxicology. F,W,S

Analyses of the sources and fates of aquatic pollutants. Discussions on processes at the air-water interface, within the water column, and in aquatic sediments. Topics vary from year to year. Enrollment restricted to graduate students; qualified upper-division science majors may enroll with instructor's permission. May be repeated for credit. A. Flegal

281O. Topics in Bacterial Pathogenesis (2 credits). F,W,S

Intensive seminar focusing on mechanisms of bacterial pathogenesis of the ulcer-causing bacterium Helicobacter pylori. Participants are required to present results from their own research and relevant journal articles. (Also offered as Biology 280O. Students cannot receive credit for both courses.) Enrollment restricted to graduate students; qualified undergraduates may enroll with permission of instructor. Enrollment limited to 20. May be repeated for credit. K. Ottemann

281S. Cellular and Organismal Responses to Toxicants. F,W,S

Intensive research seminar on the concepts, theory, and techniques in deriving physiologically based pharmacokinetic models of toxin exposure, metabolism, and efficacy of therapeutic treatment in mammalian models of human metal toxicity. Enrollment restricted to graduate students; qualified undergraduates may enroll with permission of instructor. May be repeated for credit. D. Smith

281Y. Biofilms: Processes and Regulation (2 credits). F,W,S

Intensive seminar series focusing on the most current work on genes and the processes that regulate biofilm development dynamics as well as on the recent developments on visualization of biofilms. Presentation and discussion based. Enrollment restricted to graduate students. Qualified undergraduate students may enroll with instructor's permission. May be repeated for credit. F. Yildiz

282. Current Approaches to Molecular Pathogenesis (2 credits). W

Graduate level seminar focusing on the mechanisms by which bacterial pathogens cause disease. Specific topics include basic concepts of virulence and virulence factors, virulence factor regulation, toxins, and interactions of pathogens with mammalian cells and organs. Discussions focus on several key pathogens, including Helicobacter pylori, Vibrio cholerae, Salmonella typhimuruim, and Listeria monocytogenes. May be repeated for credit. K. Ottemann

290. Proseminar. F,W,S

Special topics offered from time to time by faculty, visiting professors, or staff members. Enrollment restricted to graduate students; qualified undergraduates may enroll with instructor's permission. May be repeated for credit. The Staff

290A. Biological Impact of Chemical Exposures. *

Approaches different techniques of biological monitoring and the exposure and effect of biomarkers related to occupational and environmental exposure to chemicals. Available methods for risk assessment and identification of protective exposure limits also considered. The Staff

292. Introductory Graduate Seminar (no credit). F,W,S

Weekly seminars by academic and research faculty on their areas of special interest. Students write weekly abstracts on articles covered by the seminars. Enrollment restricted to graduate students; qualified undergraduates may enroll with instructor's permission. The Staff

297. Independent Study. F,W,S

Independent study for graduate students who have not yet settled on a research area for the thesis. Students submit petition to sponsoring agency. May be repeated for credit. The Staff

299. Thesis Research. F,W,S

Students submit petition to sponsoring agency. May be repeated for credit. The Staff

GETTING STARTED

METX DEPARTMENT ORIENTATION

You will be supplied with an orientation schedule before the Fall quarter of your first year (usually in late August). Your attendance at each of the events is required by the department. During orientation you will attend several short training sessions, which will provide you with an overview of the department and the campus. You will have several opportunities to meet and speak with the METX Graduate students throughout the orientation. You will also meet with your Graduate Advising Committee for academic advising and required coursework.

ENROLLMENT:

Enrollment and other services will be available to you using the Academic Information System (AIS), available through the student portal - https://my.ucsc.edu. If you need technical support, including help with your student ID and password, please call (831) 459-4357 or email help@ucsc.edu. If you need help enrolling in a class, call the enrollment Help Line at (831) 459-4412 or email registrar@ucsc.edu.

You will need your AIS User Name and password, which you'll use to access the student portal:

User Name: <W + SID> Password: <########>

The 7-digit number following the W in your User Name is your new Student ID number. If you have not received your login or password via email, please call the Graduate Division at (831) 459-3513.

Please enroll in the following course: METX-292 Intro Grad Seminar

You will enroll in additional courses after you attend your initial Advisory Meeting in September.

STATEMENT OF LEGAL RESIDENCE

The Statement of Legal Residence should be completed (even if you are a California resident) and returned to the Office of the Registrar so that your resident status can be determined for tuition purposes. Failure to return the completed form will result in your status being classified as a non-resident and being billed accordingly. The form can be found at http://reg.ucsc.edu/students/residency.htm

INTERNATIONAL STUDENTS

All international students must complete the Graduate Financial Certificate. Students currently attending another U. S. school will also need to complete a Transfer Form. The Graduate Division cannot prepare the I-20 for an F-1 visa without these forms. The forms can be found at http://oie.ucsc.edu/is3/students/stu_files.shtml

All international students whose native language is not English and who will be working as TA’s must take and pass Spoken English Language Proficiency Test (SET-10). You should have received email from the Graduate Division in June detailing how to register for this test. If you have not received this information, or have not yet registered for the SET-10, please contact Claudia immediately.

PAYROLL INFORMATION

Paychecks for Teaching Assistants, Graduate Student Researcher, Fellowship recipients and Financial Aid are disbursed through the Student Business Services (831- 459-2159) or the Physical & Biological Sciences (PBSci) Accounts Payable Office (831- 459-3650).

Student Business Services http://sbs.ucsc.edu/ is responsible for financial aid, fellowship and scholarship checks. SBS sends checks to your local or permanent addresses, depending on the funding classification and student account.
PBSci Accounts Payable distributes your Teaching Assistant (TA) and Graduate Student Research (GSR) checks to your local campus address, unless your account is set up as direct deposit.
Both offices use your address information from your student portal, therefore it is extremely important to keep your student portal information up to date on a quarterly basis.

The department strongly urges all students to sign up for direct deposit with SBS and PBSCI Accounts Payable.

Submit the following forms for direct deposit:

Direct Deposit-Student Business Services Office: Form used to electronically transfer funds (fellowships, summer support, travel grants, financial aid, and loans) to your bank account. It generally takes two weeks to process the SBS direct deposit form request. http://sbs.ucsc.edu/acrobat/eftapp.pdf

Please send this form directly to SBS.

Direct Deposit - PBSCI Payroll Office: Form used to electronically transfer Teaching Assistant (TA) & Graduate Student Researcher (GSR) funds to your bank account. It generally takes four to six weeks to process the PBSCI Payroll direct deposit form request. http://finaff.ucsc.edu/resources/pdf/payroll/PayDispo.pdf

Please send this form directly to Felice Sandoval in PBSCI. Mail Stop: SHR UBP Team D

PAY DATES

GSR and TA pay dates are as follows: Nov. 1, Dec. 1. Jan 1 (Fall); Feb 1, March 1, April 1 (Winter); and May 1, June 1, July 1 (Spring).
Quarterly regents fellowship (Cota-Robles, Chancellor's Fellowship, Dean's Fellowship, and Graduate Fellowships) pay dates are on the first day of each quarter.

Fellowships awarded for less than the full academic year will be paid in equal installments fall and/or winter quarter (if the award is larger than one quarter of fellowship) unless you contact the Graduate Division requesting a change in this payment schedule.

If you are waiting for a check, it is always a good idea to check with the correct office to confirm the status of your account (outstanding bills, address information, correct set-up). Incorrect mailing addresses and outstanding bills can cause unexpected delays and minimize disbursement payments.

CAMPUS MAILING ADDRESS

Your student mailing address will be in the Physical Sciences Building. You will receive your mail in the department mailroom located next door to room 430 (the department office). Boxes are in alphabetical order by last name.

Your address is:

UCSC

Dept. of Microbiology and Environmental Toxicology

Your Name, Faculty Sponsor’s Lab

430 Physical Sciences Building

Santa Cruz, CA 95064

Fax: 831-459-3524

Mail Stop: METX

EMAIL ACCOUNTS

Virtually all information will be communicated to you via an electronic mail account set up for you in the standard format of lastname@metx.ucsc.edu, unless notified otherwise. Your email accounts are already set-up. In addition, you have been added to the grads@metx.ucsc.edu and memo@metx.ucsc.edu email aliases. Please get in the habit of checking your e-mail frequently as announcements about fellowships, employment, and department requirements are posted on a weekly basis. Please pay special attention to messages sent with subject headings labeled as ACTION REQUIRED, RESPONSE NEEDED and PLEASE READ.

METX email can be accessed on the Internet using any browser (Netscape, Internet Explorer and Firefox) by going to http://acg.ucsc.edu and clicking on PBSci Webmail.

Please reserve e-mail questions for the computer orientation, or forward them to METXhelp@acg.ucsc.edu.

Students are also assigned a UCSC Identity Account upon enrollment (name@ucsc.edu). You can activate your pre-assigned Identity Account through the portal at https://my.ucsc.edu. Log in using the User ID and Password that were sent to you by the Registrar's Office, then click on the link labeled Activate UCSC Account. You may access your account from any web browser, including those in a computer lab or your own computer on the Internet. For technical help with this account send email to help@ucsc.edu or refer to the ITS website at http://its.ucsc.edu.

STUDENT IDENTIFICATION CARDS

All incoming students will need to get their pictures taken for their student identification cards. ID Card Services is located on the first floor of the Bay Tree Bookstore building in between the Digital Copy Center and the Express Store in the UCSC Quarry. Stickers verify a student’s enrollment and quarterly status at UCSC. A current sticker, on your ID card, functions as a free metro/shuttle bus pass around campus/town, recreation facilities card and library card. You will receive your Fall sticker when you pick up your card from the ID Card Services, after your photo has been taken. After fall quarter, you will obtain your quarterly stickers from Claudia after your enrollment has been verified by the department.

HELPFUL EMAIL ADDRESSES

Title Name Email Address

Graduate Program Coordinator Claudia McClure mcclure@metx.ucsc.edu

Graduate Division Kris West kwest@ucsc.edu

Email Account Tech Support Melvin Porter

or Steve Hauskins METXhelp@acg.ucsc.edu

MyUCSC Login Tech Support ITS Support Center help@ucsc.edu

Enrollment Support Office of the Registrar registrar@ucsc.edu

CAMPUS SERVICES AND GENERAL INFORMATION: