Biology Seminar Presentation Techniques the preparation and delivery techniques demonstrated apply outlets, etc.) and avequipment (microphone, projection section Return to biology Seminar Return http://www.kean.edu/~biology/oral.html
Extractions: Be Prepared to Speak. The step-by-step guide to public speaking. Videotape VHS - 262 This video describes the steps that one should consider when preparing and giving an oral presentation. Although the video uses an example of a sport's psychologist addressing a group of businessmen, most of the preparation and delivery techniques demonstrated apply equally well to a scientific presentation. However, talks by biologists usually are more technical, often credit contributions made by other scientists, and usually include tables, graphs and photographs to document the presentation. Know the room (lectern, light switches, electric outlets, etc.) and a.v. equipment (microphone, projection screen, pointers, etc.) Organize visuals, supplements and supplies (handouts, projection slides, chalk, erasers, etc.)
About The Histology Lab (AHSC Cell Biology & Anatomy) in the Department of Cell biology and Anatomy a microwave for antigen retreival techniqueswith sections The lab has additional equipment available a vibratome http://www.cba.arizona.edu/Histo/about.html
Extractions: Introduction: The Histology service core laboratory is a full-service research histology lab, located in the Department of Cell Biology and Anatomy. The lab was originally a facility for the Anatomy department. In 1988, the lab's scope was broadened to include researchers from all departments. Please note: this laboratory's services are for researchers affiliated with the University of Arizona. We cannot take outside specimens at this time. Personnel The labor a tory is staffed by Andrea Grantham, HT (ASCP). Andrea is a certified histotechnician, who has over 20 years of experience in clinical histology and specimen quality control. Additional personnel: Doug Cromey (supervisor) and Katie Propst (on-call). Facilities: The Histology lab is located in AHSC 4212. The laboratory has all the equipment to process tissue for paraffin embedding, to section paraffin blocks, and to provide a wide variety of routine and special stains. The laboratory has a LEICA/JUNG cryostat for the sectioning of unfixed-frozen tissues that are commonly used for immunocytochemistry or immunofluorescence work. It also has a microwave for antigen retreival techniques with sections from previously fixed tissues. The lab has additional equipment available: a vibratome
Virtual Biology Laboratory This virtual laboratory allows instructors to introduce biology students to the sametechniques and equipment currently being used in many research laboratories http://newtexts.com/newtexts/book.cfm?book_id=1135
Extractions: ANTIBODY PRODUCTION The Center of Monoclonal Antibody Production was developed in 1994 supported by RCMI program. The Main goal of the center is to provide the necessary expertise and equipment for the generation and maintenance of monoclonal antibodies. The facilities serve for the training and developing of monoclonal antibodies production and other related techniques, such as isolation and characterization of antigens, purification of antibodies, in vitro immunocytochemical techniques and cryopreservation. Most of the equipment required for cell culturing is found within the center, including: culture hoods, incubators, microscopes, centrifuges, autoclaves, refrigerator and freezer, water purification system, liquid nitrogen containers for cryopreservation, as well as other minor equipment necessary for cell culturing. Also the Animal House works in coordination with the center to provide and maintain the research animals. The monoclonal antibodies techniques have been useful in areas, such as molecular biology, neurobiology, parasitology, development, plant tissue and microbiology, and have served to initiate collaboration with investigators from other campuses such as the Institute of Neurobiology and the Medical Science Campus.
Molecular Biology Core Facility Anatomy and Neurosciences Molecular biology Facility at Texas Medical Branch providesequipment and advice to utilize molecular biological techniques in their http://cellbio.utmb.edu/Molecore.htm
Extractions: The Marine Biomedical Institute/Anatomy and Neurosciences Molecular Biology Facility at the University of Texas Medical Branch provides equipment and advice for investigators, postdocs, and their students planning to utilize molecular biological techniques in their research. It is directed by Gregg T. Nagle, Ph.D. (shown in the photograph) Number of visitors to this site beginning 08/17/97 Medical Research Building, room 2.118 in the Department of Anatomy and Neurosciences. Faculty of Marine Biomedical Institute and Department of Anatomy and Neurosciences and their collaborators Gregg T. Nagle, Ph.D., Department of Anatomy and Neurosciences, Medical Research Building 10.104, University of Texas Medical Branch; Mail Route 1069; email gtnagle@utmb.edu Technical expertise is provided for most commonly used techniques including DNA and RNA isolation, cDNA synthesis, PCR, Northern and Southern blot analyses, RNAse protection assays, cDNA library construction and screening, DNA cloning, electroporation, DNA sequencing and baculovirus protein expression. Expertise in peptide purificiaton using RP-HPLC is also available. Investigators provide their own consumable supplies. The facility occupies approximately 550 sq ft of floor space. Its capital equipment includes:
Office Of Laboratory Instruction including genetics, molecular biology, biotechnology, ecology Laboratory Covers stainingtechniques and physiological use computerized equipment in conjunction http://www.bchs.uh.edu/Undergraduate/labinst.html
Extractions: Laboratory courses offered by the Biology and Biochemistry Department cover a wide range of disciplines and methodologies including cell and molecular biology, biochemistry, genetics, microbiology, population biology, and human anatomy and physiology. The Office of Laboratory Instruction functions to coordinate activities and supervise teaching of the laboratory classes. Lab instruction personnel strive to maintain high academic standards by revising curriculum, upgrading laboratory equipment periodically, and by implementation of new teaching strategies to include the most recently developed technologies. Core personnel consist of four coordinators who oversee specific divisions of laboratory courses. For assistance with a laboratory course, please contact the coordinator over that division. Coordinators and Divisions:
William Mary Page Title A fulltime Molecular biology Specialist position of the Department employing molecular-cellulartechniques. certain common histological equipment including a http://www.wm.edu/biology_new/facilities.php
Extractions: 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: 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 Innovator--October 2000 DPS Lt. Steve Hasstedt suggests the following precautions to keep your lab equipmentfrom being stolen. Molecular biology techniques Course for Spring 2001. http://www.biotech.iastate.edu/publications/innovator/Oct_00.html
Extractions: October 2000 In This Issue A two-hour training session is available for FACScan users. Facility personnel are available to help set up new applications on the instrument, to discuss experiment design and sample preparation, to analyze data, and to assist in troubleshooting. Users are responsible for their own data backup and removal. The facility has an online reservation calendar at http://129.186.10.134 . Walk-in appointments may be available, but those with reservations will be given priority. The fee for using FACScan is $38 per hour, with a half-hour minimum and 15-minute billing increments. The offline G4 computer is free to use. In This Issue Since ISU is a fairly low-crime campus, it is easy to forget anyone is a potential target for theft. But on Sunday, March 19, the Bessey Microscopy Facility, in the basement of Bessey Hall, was the target of a burglary.
Marie Curie Training Site MOTIVE on diet obtained through stable isotope techniques with population genetics. conservationbiology in mammals and birds. Skills and equipment analysis of scent http://www.staff.ncl.ac.uk/kirsten.wolff/MC.html
Chemistry Fundamentals of chemical measurement in chemistry, biology, engineering, geology Safetyequipment, techniques (including first aid), and facilities will be http://www.wisc.edu/grad/catalog/letsci/chemisC.html
Extractions: 311 Chemistry Across the Periodic Table. 4 cr. This course explores the descriptive chemistry of the elements in the context of state-of-the-art research and technology development. The weekly three hour laboratory introduces students to the synthesis and characterization of inorganic compounds. P: Chem 109 or 104. Open to Fr. 327 Fundamentals of Analytical Science. 4 cr. Fundamentals of chemical measurement in chemistry, biology, engineering, geology, and the medical sciences. Topics include equilibria of complex systems, spectroscopy, electrochemistry, separations, and quantitative laboratory technique. Lecture, lab, and discussion. P: Chem 104, or 109 or cons inst. 329 Fundamentals of Analytical Science. 4 cr. Fundamentals of chemical measurement in chemistry, biology, engineering, geology, and the medical sciences. Topics include equilibria of complex systems, spectroscopy, electrochemistry, separations, and quantitative laboratory technique. For chemistry majors, chemical engineering majors, and related majors. Lecture, lab, and discussion. P: Chem 104, 109 or cons inst. 341 Introductory Organic Chemistry.
JOB DESCRIPTION maintenance of the laboratory, equipment and supplies. methods, and laboratory methods/techniquesassociated with biochemistry or molecular biology such as http://www.jhu.edu/~hr1/compensation/35.1.html
Extractions: Follows established procedures or protocols and utilizes aseptic technique to perform experiments. These may require basic tissue culture, and/or cell separation methods, and laboratory methods/techniques associated with protein, lipid or carbohydrate biochemistry or molecular biology such as: purifications; quantitative and qualitative analyses, and localizations; as well as other functional and enzymatic assays. (This statement includes a wide variety of procedures which may be performed under this title in different laboratories throughout the University. Seldom would all be found in any one position.)
ASU W.M Keck Bioimaging Lab COMPANION IMAGING equipment Cell injection and manipulation techniques such asmicroinjection of DNA into fertilized eggs can be handled on this system. http://lsvl.la.asu.edu/klab/text/equipment.htm
Extractions: EPPENDORF MICROINJECTION SYSTEM The general microscopy station is outfitted with a Nikon inverted epifluorescent microscope and also includes a Hoffman contrast modulation system. In addition, the workstation is outfitted with an Eppendorf microinjection system (Patchman and Transinjector 5246). Cell injection and manipulation techniques such as microinjection of DNA into fertilized eggs can be handled on this system. For information on the various components please visit the following web sites. Table of Contents MULTIPHOTON SCANNING LASER MICROSCOPE The Leica SP2 is equipped with 3 visible lasers (Ar, Kr, and He/Ne) as well as a Spectra-Physics Tsunami infrared laser for multi-photon imaging. The Tsunami is pumped by an 8W Verdi pump laser, and may be tuned between 750 and 1050 nm. The SP2 features a spectrophotometric detection system which allows users to precisely select the wavelengths of emitted light collected by any of four fluorescent photomultiplier tubes. Two non-descanned light detectors are also part of this setup, which allow for more sensitive light detection when scanning in multi-photon mode.
METMBS 2003 Call For Papers Next meeting will be held June 23-25, 2003 in Las Vegas, Nevada.Category Science Conferences o Recent history (19902001) of Mathematics and engineering techniques in medicine lightedtennis courts, health spa (with workout equipment, whirlpool, sauna http://metmbs.sdsu.edu/
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ENC: Curriculum Resources: High School Biology (ENC-005332, Full Record) YOU ARE HERE ENC Home Curriculum Resources ENC005332 (Full Record) (Graphics Version) Timely ideas and information, with daily updates. Search Browse Free Stuff Collection Policy Frequently Asked Questions Thousands of web sites for educators http://www.enc.org/resources/records/full/0%2C1240%2C005332%2C00.shtm
Extractions: Search ... Ask ENC Explore online lesson plans, student activities, and teacher learning tools. Search Browse About Curriculum Resources Read articles about inquiry, equity, and other key topics for educators and parents. Create your learning plan, read the standards, and find tips for getting grants. ENC#: ENC-005332
Extractions: This book is a comprehensive volume on microsurgery in China. It covers the history, general concepts, equipment and techniques of microsurgery. Unlike other books on the same subject which concentrate mainly on plastic surgery and hand surgery, this book introduces the applications of microsurgical techniques in neurosurgery, gastro-enterology and orthopaedic surgery. This is a valuable text as the vast experience of Chinese microsurgery is also included. Contents: Equipment, Instruments and Materials Used in Microsurgery Basic Techniques and Operative Methods in Microsurgery Microvascular Anastomosis in Animal Experiments The Choice of Anaesthesia for Microsurgery Requirements and Preparations for the Donor and Recipient Areas in Microsurgery Antispasmodics and Anticoagulants Used in Microsurgery Post-Operative Management after Microsurgery Common Causes of Failure in Tissue Transplant and the Preventive Measures Microsurgical Techniques in Neurosurgery Segmental Gut Transplant for Oesophageal Reconstruction