41. Human Resources Technical Assistant IIbiology/Biotech Part-Time 18.75 Hrs. AFSCME and/or adjustment techniques as applied to laboratory equipment and instrumentation. http://wwwfac.worcester.edu/hr/job_descriptions/TECHASST2BIO.htm

Home Employment Process Employment Opportunities Temp/Part-Time Employment ... HR Intranet Technical Assistant II-Biology/Biotech Part-Time 18.75 Hrs. AFSCME Apply : July 21, 2005 through August 6, 2005 SUPERVISION RECEIVED : Department Chair, Biology SUPERVISION EXERCISED : Supervises subordinate personnel GENERAL STATEMENT OF DUTIES Provide technical support for instructional activities involving preparation of samples, cultures, reagents, etc., scheduling of equipment usage, maintenance and repair of laboratory equipment, maintenance of equipment and supply inventories, scheduling routine and critical outside repair calls, ordering supplies, and interfacing with other department chairs for coordination of equipment and supplies. RESPONSIBILITIES Prepare materials, samples, cultures, reagents for laboratory tests and instruction. Adjusts, calculates, tests laboratory equipment according to technical manuals. Assembles, installs lab equipment and apparatus in classrooms and laboratories to support instructional activities.

42. Ecology And Evolutionary Biology: Endocrine Laboratory The equipment and techniques we use can be applied to a variety of other animal species. For example, one PhD student prepared samples and evaluated stress http://www.eeb.princeton.edu/FACILITIES/endo.html

Freeze-drier (lysophilizer) in preparation for sifting and weighing fecal samples Laurence Gesquiere pipetting for assays; vortexer in background. Water bath and drying system under the hood Benchtop refrigerated centrifuge Jacinta Beehner placing samples in the gamma counterthe last lab step before getting data Contact us Mailing Address: Department of Ecology and Evolutionary Biology Princeton University, Princeton, NJ 08544-1003

43. College Of Health And Public Affairs - Department Of Molecular Biology And Micro Research equipment includes most stateof-the-art equipment required to conduct Neuroanatomy; Dissection techniques; Current Topics in Molecular biology http://www.cohpa.ucf.edu/molec.bio/mmbs.cfm

Home Directory About the College Schools and Departments ... Search Bachelor of Science in Molecular Biology and Microbiology Degree Overview The departmental degree requirements meet requirements for application to all professional schools in such specialties as medicine, veterinary and dentistry, or for admission to other graduate programs. This thorough, but flexible program, provides an excellent preparation for industry and graduate education. The distinctive benefits of the UCF program are: a strong emphasis on the development of state-of-the-art laboratory skills graduates who are prepared to work in a variety of jobs baccalaureate degree requirements that exceed the admission requirements of all U.S. medical and dental schools baccalaureate degrees that serve as excellent entrees to a variety of graduate programs (M.S. and Ph.D.) senior professors who are actively involved in undergraduate teaching and advising laboratory experiences, which include the hands-on use of hi-tech equipment Prerequisites The following courses are suggested for preparation to the molecular biology and microbiology program along with the completion of UCF's General Education requirements and the Foreign Language Admission requirements. The following courses are REQUIRED:

44. Center For Molecular Biology And Biotechnology The techniques used in molecular biology that have made possible the recent Finally, the CMBB, with its research staff, modern equipment and supply of http://www.fau.edu/divdept/biotech/biotech.htm

Members Florida Atlantic Research Corporation (FARC) Mission The CMBB was established with three primary missions. The first was to create a strong base in molecular biology, functional genomics and related fields. This will be the major strength of the Center, and the long-term success of the Center will depend on maintaining high-quality research programs. Members of the CMBB have appointments in various departments at FAU, and a list of the current research interests, is summarized on the following page. The interdepartmental structure of the CMBB serves to bring together research scientists from at least four different departments in the Charles E. Schmidt College of Science, but interactions with other departments are ongoing. An integral part of the CMBB activities will be to bring distinguished scientists from around the world to the Center to interact with both staff and students. A second important goal is to train students in this discipline to prepare them for graduate studies or positions in the phamarceutical and biotechnology industries. The revised curriculum exposes students to the modern techniques in molecular biology and genomics. Students who complete the program will receive a certificate in biotechnology.

45. Cell And Molecular Biology Graduate Program HighTech equipment Advanced Laboratories and techniques CMB Research Areas CMB Funding Sources High Tech Cell and Molecular biology equipment http://www.ns.msu.edu/cmb/research.shtml

Menu Main Page Graduate Program Admissions ... Alumni Contents CMB Research Facilities High-Tech Equipment Advanced Laboratories and Techniques CMB Research Areas ... CMB Funding Sources CMB Research facilities A High Tech Cell and Molecular Biology Equipment: 494 N-terminal Protein Sequencer The Molecular Analysis Facility -Located in the Biochemistry building, this facility contains an automated protein sequencer, a peptide synthesizer, and an oligonucleotied synthesizer. ( An additional oligonucleotide synthesizer is available in the DOE Plant Research Lab.) 394 DNA/RNA sequencer Fluorscence Microscope The MSU Center for Electron Optics -this facility is equipped with both transmission and scanning electron microscopes. The Ortho Cytofluorograph cell sorter (under the direction of Dr. Pam Fraker.) The ACAS 470 -developed by Dr. Mell Schindler of the CMB program and Dr. Jack Holland of the Biochemistry Department, this device allows cell sorting under anchorage dependent growth conditions. Besides preparative cell sorting, the laser equipped microscope of this instrument is also useful in an number of analytical modes, such as the analysis of cell-cell communication via gap junctions. Flow Cytometer A Mass Spectrometer The NIH-sponsored Regional Mass Spectrometry Facility (housed by the Biochemistry Department) Another Mass Spectrometer NMR, ESR, and X-ray Diffraction equipment

46. Biology Class Descriptions - Wheeling Jesuit University Includes propagation techniques such as tissue culture. Use of research and instructional equipment techniques for preparing research and instructional http://www.wju.edu/academics/bio/bioclsdes.asp

WJU Home Back To Departments Biology Home Class Descriptions ... Facts about Biology! Biology Class Descriptions BIO 105 The Process of Biology (3 crs) (meets the first core science requirement). An introduction to biology as a way of knowing and communicating about living systems. The themes are how living systems process energy and information, relate ecologically to their environments and evolve over time. The goal is scientific literacy, i.e., skill in applying theories, evaluating evidence and manipulating concepts. BIO 110 Biology of Reproduction (3 crs) Reproduction is an impelling force in all biological organisms. This course investigates the processes and strategies of propagation, with major emphases on its evolution and meaning in the human race. BIO 115 General Biology I (3 crs ) An exploration of variations on the themes of biology: metabolism, phylogeny, development, systematics, anatomy and physiology of plants and animals, animal behavior, etc. BIO 120 General Biology II (3 crs) (A continuation of BIO 115) An exploration of variations on the themes of biology: metabolism, phylogeny, development, systematics, anatomy and physiology of plants and animals, animal behavior, etc.

47. 1998 - 1999 Ecology And Evolutionary Biology An introduction to the biology of fishes, with an emphasis on adaptation and equipment, techniques and theory of scientific diving; data collection, http://vm.uconn.edu/~regsdh06/eeb.htm

Undergraduate Catalog 1998 - 1999 BIOLOGY: Ecology and Evolutionary Biology (EEB) Head of Department: Professor Gregory J. Anderson Department Office: Room 312, Torrey Life Sciences Building For major requirements, see the College of Liberal Arts and Sciences section of this Catalog 200. Biology of Fishes Second semester. Four credits. Two 1 1/2-hour class periods, one three-hour laboratory period. Prerequisite: BIOL 108. Not open for credit to students who have passed RNR/NRME 200, 201 or 202 or MARN 200, 201 or 202. Schultz An introduction to the biology of fishes, with an emphasis on adaptation and evolutionary diversifi-cation. Topics include the evolution of major groups, morphology, physiology, behavior, and population and community ecology. Laboratory periods will include field and laboratory exercises; field trips required. 203. Developmental Plant Morphology (Also offered as EEB 303.) First semester, alternate years. Four credits. Two class periods and two 2-hour laboratory periods. Prerequisite: BIOL 108 or consent of instructor. Jones Analysis of diversity in plant form; principles of plant construction and development.

48. Imaging Lab - University Of York - Department Of Biology - Technology Facility department of biology university of york equipment, techniques. Flow Cytometer Reference site for DakoCytomation CyAn analyser with 3 laser, http://www.york.ac.uk/depts/biol/tf/ic_services.htm

Department of Biology Services and Equipment Equipment Techniques Flow Cytometer Reference site for DakoCytomation CyAn analyser with 3 laser, 11 detectors MoFlo high-speed, sterile cell sorter (80k/s with final concentration of ~1 x 10 /s) Rare cell sorting Simultaneous cell cycle and receptor analysis FRET Confocal microscopes 4 systems (2 Zeiss, 1 PerkinElmer, 1 BioRad) 4 laser (7-line) Zeiss Meta with spectral capability on invert fully motorised microscope Zeiss Meta on a fully motorised upright microscope Spinning disk system for high speed and live-cell Live cell imaging chamber Upright and invert microscopes Spectral analysis and unmixing Multicolour work FRET FRAP Live-cell time course Electron microscopes Transmission EM with CCD Scanning EM with cryostage Sub-nanometre resolution Immunogold studies Tilting stage for 3-D Cryo-SEM service and freeze fracture Laser capture / microdissection PALM system with live cell capability

49. HUMAN ANATOMY LECTURE (Biology 29) equipment, techniques and Safety in Lab. 15. 4. biology of Animal Cells; Cellular Interactions. 17. 5. Media Formulations for Cell Culture http://www.bmb.psu.edu/courses/biotc489/biotech489 sylfa03.htm

50. IWU Department Of Biology There are several pieces of departmental equipment that are shared among microscope and other equipment necessary for various microsurgical techniques. http://titan.iwu.edu/~biology/biofaci2.html

51. STRUCTURAL BIOLOGY First, modern techniques and instrumentation for high field NMR, effort in structural biology requires expertise and equipment for four key approaches http://www.informatics.sunysb.edu/som/adm/sp/sb.html

STRUCTURAL BIOLOGY I. Background and Rationale The Structural Biology Initiative involves faculty in the Schools of Medicine, Biological Sciences, and the Departments of Chemistry and Physics who are committed to developing a center of excellence in a discipline poised to make enormous contributions to biomedical research in the next decade. While the University's existing strength is this area is modest, development of the Program will be enhanced by its reputation in NMR research, by the computer graphics expertise in Engineering, and by complementary research groups at Brookhaven and Cold Spring Harbor Laboratories. B. Program in Structural Biology A robust research effort in structural biology requires expertise and equipment for four key approaches: X-ray crystallography, molecular modeling, NMR spectrometry, and electron microscopy. The Program in Structural Biology proposes to establish units in each of these areas, supported by a core computational facility, to be located on 1.5 floors of the Center for Molecular Medicine. X-ray crystallography has experienced major growth in recent years, as gene cloning and expression technology produces abundant quantities of nucleic acids and proteins for analysis. At present, the University has only a modest program in crystallography, with out-of-date facilities. Most investigators requiring crystallographic analysis collaborate with the excellent group at Brookhaven, where a synchrotron light source and area detector are available for use by university researchers. A crystallography program at Stony Brook could complement the facilities and expertise at Brookhaven and Cold Spring Harbor, making the region a powerhouse of research in this area. The proposed facility will provide office laboratory and shared instrumentation space for 2-3 crystallographers, who would be recruited over several years; the cost for equipment and laboratory set up will be $1,500,000.

52. Universität Leipzig > Cell Techniques And Applied Stem Cell Biology > Contact Cell techniques and Applied Stem Cell biology. home. equipment. Fluorescence microscope with camera Zeiss Axiovert 200 http://www.uni-leipzig.de/~bader/equipment.htm

Cell Techniques and Applied Stem Cell Biology home Equipment Fluorescence microscope with camera Zeiss "Axiovert 200" Objectives: 2,5x, 5x, 10x, 20x, 40x, 63x Filters: DAPI, FITC special, Cy 3 High resolution color camera "AxioCam HRc" Software "AxioVision", multichannel fluorescences Fluoreszenz reader "Tecan Safire" with software "Magellan" High-End multi-functional double-monochromator Photometer for fluorescence intensity, time resoluted fluorescence and absorption FI metering capacity: 230-850 nm TRF metering capacity: 230-850 nm Absorption measurement range: 230-1.000 nm Fluorescence wavelength -scanning capability shaker Chip-Device "Affymetrix 428 Array Scanner" and "Affymetrix 427 Array Spotting-System" Crosslinker UVP "CL-1000 UV-Crosslinker", 254 nm Photometer "LIBRA S22" UV/VIS Spectralphotometer Absorption metering capacity -3.000 up to +3.000 A

53. University Of Worcester - Biology For Psychologists BSc (Hons) - Modules Through an appreciation of cell biology they will increase their introduce them to equipment/techniques they may use in future modules and employment. http://www.worc.ac.uk/cms/template.cfm?name=biology_for_psychologists__module

54. Siena College - Biology Department - Facilities These include rooms used to prepare, equipment and other materials in support of the In the biochemistry lab, students first learn basic techniques for http://www.siena.edu/biology/facilities.asp

Biology Home About the Department Faculty Profiles Support Staff ... Curriculum and Degree Requirements Biology Department Facilities The Biology Department has laboratory and support spaces in both the Morrell Science Center and Roger Bacon Hall. The following photos will allow you to take a virtual tour of our facilities. Labs on the First Floor of Morrell General Biology 1 Lab Completed in 2001, the Morrell Science Center is one of the newest buildings on campus. Teaching labs such as this one feature several smaller tables where students often work in teams to complete experiments. Two additional cabinets with bench top and storage underneath (foreground) are used for demonstration materials. Over the two semesters of general biology, lab exercises focus on the basic principles of biology including evolution, cellular/molecular biology, genetics, and the diversity of life. General Biology 2 Lab Our second general biology lab is the mirror image of the first. Why do we need two labs? At Siena, class sizes are small and this includes introductory courses. We typically have well over 100 students enrolled in our general biology courses, but each lab section will have 18 students or less. Each lab is taught by a faculty member. There are no teaching assistants.

55. William Mary Page Title biology Facilities and equipment. The biology Department is housed within 28000 those members of the Department employing molecularcellular techniques. http://www.wm.edu/biology/facilities.php

Navigate the WM Web Biology home page Biology graduate program Meet our current students Find a graduate advisor ... Facilities and equipment Facilities and Equipment The Biology Department is housed within 28,000 square feet of the Millington Hall of Life Sciences (constructed in 1967). The space within the building assigned to the Department houses 11,400 sq ft of teaching lab space, 4400 sq ft of office space, and 8600 sq ft of research laboratory space. In addition to the personal research space and equipment of individual faculty investigators there are common Department facilities and equipment including the following: Microscopy and Photographic Facilities The electron microscopy facility includes a Zeiss EM 109 transmission microscope as well as an Amray Model 1810 scanning electron microscope with a backscatter detector and Seikosha graphic printer. These two electron microscopes are maintained within a 450 sq ft facility that is fully equipped with the necessary microtomes, processing devices, and imaging equipment. There is a full time laboratory technical position that is devoted to the support of research and teaching activities in electron and light microscopy and scientific photography. There are several research quality microscopes that are equipped for light and fluorescent microscopy including three Olympus BH2 microscopes equipped variously for phase, Nomarski, and epifluorescence optics. These devices are supported by Sony video cameras and color monitors and an image analysis system. The department also has a confocal microscope suite.

56. The Biology Microscopy And Image Processing Facility with equipment and techniques used by electron and confocal microscopist. Clients can be trained to use equipment at this facility themselves or request http://www.ksu.edu/biology/bio/microscope/

The Biology Microscopy and Image Processing Facility Introduction The Biology Microscopy and Image Processing Facility, located in the basement of Ackert Hall, is a fee for service facility available to Kansas State University faculty and students, and individuals from state and outside institutions. This modern facility is fully equipped and staffed to meet your research microscopy and imaging needs. This facility provides individual or small group training and familiarization with equipment and techniques used by electron and confocal microscopist. Clients can be trained to use equipment at this facility themselves or request assistance from facility staff members. The Kansas State University, Biology Microscopy and Image Processing Facility, has been supported in part by the Kansas NSF EPSCoR Program, by the Kansas NASA EPSCoR Program, by University resources, and by the Kansas Agricultural Experiment Station. Services and Equipment Available Complete individual or small group training and familiarization with equipment and techniques for transmission electron and confocal microscopies. Clients can be trained in specimen preparation and use of instruments themselves or may request assistance from the facility’s staff. Technical consultation in experimental design, data analysis and interpretation, manuscript and grant preparation for researchers seeking to use microscopy to address research questions.

57. University Of Texas Medical Br Galveston -Facility Core Cell biology. Overview; Members; Facilities and equipment Centralizing a number of techniques used in this NIEHS Center s research programs has resulted http://www-apps.niehs.nih.gov/centers/public/fac-core/ctr-785-3488.htm

University of Texas Medical Br Galveston Center in Environmental Toxicology James R. Halpert, Ph.D., Center Director Grant Number: P30ES06676 Contents Cell Biology Overview Members Facilities and Equipment Usage and Benefits ... Publications Overview The mission of the Cell Biology Core is to provide a variety of services and technical support to enhance the ability of NIEHS Center Investigators to conduct high-quality research that is dependent on cell culture systems and cell biology methods to address biomedical questions at the cellular and molecular levels with an emphasis on human systems. This is accomplished by providing appropriate technical and intellectual assistance to the NIEHS Center Research Core laboratories, in a functional, cost-efficient, and multi-user environment that will enhance productivity in both their individual and collaborative research programs. Another important aspect of the Core's mission is training investigators and their research staff in advanced cell biological techniques. [ TOP ] Members Dr. Istvan Boldogh, Ph.D., M.A., Director, Cell Biology Service Core and Member, Asthma Pathogenesis Research Core, NIEHS Center, Associate Professor, Department of Microbiology and Immunology

58. Vanderbilt University -Facility Core Training is offered in basic aseptic techniques and Biosafety Level 2 procedures. Major equipment in the Cell biology Core is listed below. http://www-apps.niehs.nih.gov/centers/public/fac-core/ctr-600-3326.htm

Vanderbilt University Center in Molecular Toxicology F Peter Guengerich, Ph.D., Center Director Grant Number: P30ES00267 Contents Cell Biology Overview Members Facilities and Equipment Usage and Benefits ... Publications Overview [ TOP ] Members Dr. Diane S. Keeney, Core Director and Assistant Professor, Departments of Biochemistry and Medicine Dr. Raymond F. Burk, Professor, Department of Medicine Dr. David K. Cortez, Assistant Professor, Department of Biochemistry Dr. Daniel C. Liebler, Professor, Department of Biochemistry Dr. Lawrence J. Marnett, Professor, Departments of Biochemistry and Chemistry Dr. Jennifer A. Pietenpol, Associate Professor, Department of Biochemistry Dr. Michael R. Waterman, Professor and Chair, Department of Biochemistry [ TOP ] Facilities and Equipment The Cell Biology Core laboratory contains an outer wet bench area of approximately 475 net square feet accessible from the hallway. This area is used for record keeping, preparation and storage of media, reagents, supplies, and cryopreserved cells. It contains refrigerators, freezers, Dewars, liquid nitrogen tanks and small equipment. From inside the wet bench lab, there is restricted access into two inner rooms (total approximately 480 net square feet). These rooms are dedicated to tissue and cell culture and are equipped appropriately. Biosafety Level 2 precautions are exercised in these restricted areas. Major equipment in the Cell Biology Core is listed below. The facility is well equipped. The existing equipment is well maintained, routinely calibrated and disinfected, or otherwise subjected to routine quality control procedures. Investigators perform very simple and technically sophisticated experiments in this facility. They do so with the confidence that all equipment is working properly and that any suspected malfunction will be investigated and corrected as necessary by laboratory personnel.

59. Grasshoppers: Their Biology, Identification And Management: HANDBOOK - II.3 Spra Some types of aircraft and baitdispensing equipment produce about the same swath with bait equipment and its calibration techniques and procedures. http://www.sidney.ars.usda.gov/grasshopper/Handbook/II/ii_3.htm

Section II: Chemical Control (3 of 22) Section Contents IPM Handbook Contents Previous Article Next Article ... Download the PDF Version of this Article. Important Notes: New methods have been developed that reduce costs by more than 50 percent while maintaining effectiveness and reducing environmental impact. See Reduced Agent and Area Treatments (RAATs) Brochure. Pesticide registrations change frequently. As of 2004, Acephate is no longer registered while Dimilin is registered by EPA for rangeland grasshopper control. II.3 Sprays versus Baits R. Nelson Foster and Jerome A. Onsager Advantages and Disadvantages How To Decide What To Do Chemicals can be applied in two different forms, liquid sprays or solid-based baits, to suppress or control populations of grasshoppers on rangeland. Both forms have distinct advantages and disadvantages, depending on the situation in which they are used. The diverse habitat, topographical features, meteorological conditions, economic concerns, and environmental constraints associated with grasshoppers on rangeland play an important role in choosing the best form of treatment. This chapter briefly discusses the advantages and disadvantages of both liquid and bait formulations and the eight major factors to be considered in the selection of a type of treatment.

60. Science-Jobs-De: Sjd-biology : Biologische(r) Technische(r) Assistent(in) (Essen sjdbiology Ph.D. positions in animal navigation â behavioural and access to a very wide range of superb modern equipment, techniques and expertise. http://jobs.uni-hd.de/loga/0143.html

Science-Jobs-De Stellenausschreibung sjd-biology : Biologische(r) technische(r) Assistent(in) (Essen) because of WWW caching a browser re-load of pages is recommended to prevent inconsistencies Date view Thread view Subject view Author view From: ann.ehrenhofer-murray@UNI-DUE.DE Date: Mon 29 Aug 2005 - 18:58:04 MET DST ann.ehrenhofer-murray@uni-due.de erhältlich. Bewerbungen mit einem tabellarischen Lebenslauf, einem Lichtbild und Kopien Ihrer Zeugnisse richten Sie bitte bis zum 15. 10. 2005 an den Gründungsrektor der Universität Duisburg-Essen Dezernat 4.2 45117 Essen Von: Ann Ehrenhofer-Murray ann.ehrenhofer-murray@uni-due.de Universität Duisburg-Essen Essen Ansprechpartner: Ann Ehrenhofer-Murray, ann.ehrenhofer-murray@uni-due.de Mehr Informationen zu SCIENCE-JOBS-DE finden Sie im WWW unter der Adresse http://jobs.uni-hd.de , insbesondere zu den Themen An/Abmelden, Informationen fuer Anbieter und "Netiquette" - more information on SCIENCE-JOBS-DE is available on the Web at http://jobs.uni-hd.de

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