 |
|
New light microscope may help unlock some of cells' secrets
August 17, 2006Tallahassee, Fla. - A microscopy technique pioneered with the help of Florida State University's National High Magnetic Field Laboratory has led to the development of a new light microscope capable of looking at proteins on a molecular level.
The new light microscope is so powerful it allows scientists to peer deep inside cells to see the fundamental organization of the key structures within. Developed by researchers at Howard Hughes Medical Institute's Janelia Farm Research Campus in Virginia and the National Institutes of Health, in collaboration with FSU researchers Michael Davidson and Scott Olenych, the microscope is a boon to basic cell biology.
"As the technology advances, it may prove to be a key factor in unlocking the molecular-level secrets of intracellular dynamics," said Davidson, who directs the magnet lab's Optical Microscopy Group.
The microscope and technology appear online in the Aug. 10 issue of Science Express.
The idea for the light microscope and the related new method, called photoactivated localization microscopy, or PALM, was conceived by physicists Eric Betzig and Harald Hess of the Howard Hughes Medical Institute, but they struggled with how to realize their vision. It was biological tools being studied in Davidson's lab that ultimately inspired the two physicists' plan to build a better microscope.
"In the world of biology, there is a new generation of fluorescent proteins that you can switch on at will with a little bit of violet light," Hess said. He and Betzig learned of these molecules, pioneered by Jennifer Lippincott-Schwartz and George Patterson at NIH, during conversations with Davidson.
Davidson suggested that these "optical highlighters" would be the best candidates for Betzig and Hess' experiments. Davidson's group then genetically engineered the highlighters and fused them to natural proteins in his lab. This technique allowed the researchers to attach a label to each copy of a protein they wished to study.
Here's how the PALM technique works: The researchers label the molecules they want to study with a photoactivatable probe, and then expose those molecules to a small amount of violet light. The light activates fluorescence in a small percentage of molecules, and the microscope captures an image of those that are turned on until they bleach. The process is repeated approximately 10,000 times, with each repetition capturing the position of a different subset of molecules.
When a final image is created, it has a resolution previously only achievable with an electron microscope. However, the contrast in electron microscopy is more indiscriminate, whereas PALM can limit contrast to specific proteins of interest. Lippincott-Schwartz said the use of PALM in conjunction with electron microscopy is particularly powerful.
"A great feature of PALM is that it can readily be used with electron microscopy, which produces a detailed image of very small structures - but not proteins - in cells," she said. "By correlating a PALM image showing protein distribution with an electron microscope image showing cell structure of the same sample, it becomes possible to understand how molecules are individually distributed in a cellular structure at the molecular scale."
Florida State University
The microscope and technology appear online in the Aug. 10 issue of Science Express.
The idea for the light microscope and the related new method, called photoactivated localization microscopy, or PALM, was conceived by physicists Eric Betzig and Harald Hess of the Howard Hughes Medical Institute, but they struggled with how to realize their vision. It was biological tools being studied in Davidson's lab that ultimately inspired the two physicists' plan to build a better microscope.
"In the world of biology, there is a new generation of fluorescent proteins that you can switch on at will with a little bit of violet light," Hess said. He and Betzig learned of these molecules, pioneered by Jennifer Lippincott-Schwartz and George Patterson at NIH, during conversations with Davidson.
Davidson suggested that these "optical highlighters" would be the best candidates for Betzig and Hess' experiments. Davidson's group then genetically engineered the highlighters and fused them to natural proteins in his lab. This technique allowed the researchers to attach a label to each copy of a protein they wished to study.
Here's how the PALM technique works: The researchers label the molecules they want to study with a photoactivatable probe, and then expose those molecules to a small amount of violet light. The light activates fluorescence in a small percentage of molecules, and the microscope captures an image of those that are turned on until they bleach. The process is repeated approximately 10,000 times, with each repetition capturing the position of a different subset of molecules.
When a final image is created, it has a resolution previously only achievable with an electron microscope. However, the contrast in electron microscopy is more indiscriminate, whereas PALM can limit contrast to specific proteins of interest. Lippincott-Schwartz said the use of PALM in conjunction with electron microscopy is particularly powerful.
"A great feature of PALM is that it can readily be used with electron microscopy, which produces a detailed image of very small structures - but not proteins - in cells," she said. "By correlating a PALM image showing protein distribution with an electron microscope image showing cell structure of the same sample, it becomes possible to understand how molecules are individually distributed in a cellular structure at the molecular scale."
Florida State University
Science News and Science Current Events Tag Cloud
This tag cloud is a visual representation of term frequencies of random science news topics with common terms grouped together and emphasized by their display size.
Heterochromatin Nanowires Viscosity Cancer Cells X-ray Arsenic DNA damage Neurological Disease Quantum Mechanics Sleep Duration Antidepressant Plastic Surgery Heart Surgery Memory Extrasolar Planet Lupus Chronic inflammation Metabolic Syndrome Permafrost Quasar Multiple Myeloma Water Quality Gene Expression Soil Erosion Cancer Vaccine
See More: Science News Tags
Light Microscope Current Events and Light Microscope News RSSFindings uncover new details about mysterious mimivirus
An international team of researchers has determined key structural features of the largest known virus, findings that could help scientists studying how the simplest life evolved and whether the unusual virus causes any human diseases.
The structure of a giant virus
The mimivirus is the largest virus known to scientists, about half of a micrometre (0.0005 millimeter) in diameter. It is more than 10 times larger than the virus that causes the common cold and - unlike other viruses - is large enough to be seen with a light microscope.
How to enhance non-thermal effects of ultrasound
In recent years HIFU has been widely used for the treatment of solid tumors, such as liver tumor, bone tumor, and breast cancer. The mechanism for therapeutic actions of HIFU includes thermal effects and non-thermal effects with the latter dominated by cavitational effects.
Oosight microscope enables embryonic stem cell breakthrough
A noninvasive, polarized light microscope invented at the Marine Biological Laboratory (MBL) played a crucial role in a recent breakthrough in embryonic stem-cell research aimed at developing medical therapies.
3-D fruit fly images to benefit brain research
The fragile head and brain of a fly are not easy things to examine but MRC scientists have figured out how to make it a little simpler. And they hope their research will shed light on human disease.
Clemson scientists shed light on molecules in living cells
Clemson University chemists have developed a method to dramatically improve the longevity of fluorescent nanoparticles that may someday help researchers track the motion of a single molecule as it travels through a living cell.
Nanoscale microscope sheds first light on gene repair
Proteins called H2AX act as "first aid" to DNA, among other roles. For the first time, scientists using the world's most powerful light microscope (the only one of its kind in the Americas) have seen how H2AX is distributed in the cell nucleus: in clusters, directing the first aid/repair after DNA injuries to the region where it is really needed.
Faster, more accurate tuberculosis test developed
Researchers from the Johns Hopkins Bloomberg School of Public Health, the Imperial College London, Universidad Peruana Cayetano Heredia, in Lima, Peru, and other institutions have developed a simple and rapid new tuberculosis (TB) test.
Max Planck researchers channel microcapsules into tumour cells and release their contents using a laser impulse
Treating malignant tumours is difficult. Doctors have to destroy the tumour, but healthy tissue needs to be preserved. Chemotherapy tends to kill diseased cells, at the same time causing great damage to the body in general.
New light microscope sharpens scientists' focus
A new light microscope so powerful that it allows scientists peering inside cells to discern the precise location of nearly each individual protein they are studying has been developed and successfully demonstrated by scientists at the Howard Hughes Medical Institute's Janelia Farm Research Campus in collaboration with researchers at the National Institutes of Health and Florida State University.
More Light Microscope Current Events and Light Microscope News Articles
 |
Understanding the Light Microscope: A Computer-Aided Introduction (With CD-ROM) by Daniel J. Goldstein (Author) Understanding the Light Microscope consists of four original computer programs with an explanatory book. Author Dan Goldstein says using the programs can teach aspects of microscopy and diffraction often missed from formal courses, adding, "... what one non-mathematician has created should not be beyond the understanding of others!" The book aims to provide understanding at a level deeper than customary in existing texts and in a form accessible to microscope users, particularly biologists. It covers simple ray optics, the aberrations of "real" (thick) lenses, polarized light, and the influence of diffraction on imaging. The book can be read alone, but appreciation of its contents is greatly enhanced when used in conjunction with the programs. D J Goldstein was a Nuffield Dominion... |
|
Understanding the Light Microscope: A Computer-Aided Introduction (With CD-ROM) by Academic Press Understanding the Light Microscope consists of four original computer programs with an explanatory book. Author Dan Goldstein says using the programs can teach aspects of microscopy and diffraction often missed from formal courses, adding, "... what one non-mathematician has created should not be beyond the understanding of others!" The book aims to provide understanding at a level deeper than customary in existing texts and in a form accessible to microscope users, particularly biologists. It covers simple ray optics, the aberrations of "real" (thick) lenses, polarized light, and the influence of diffraction on imaging. The book can be read alone, but appreciation of its contents is greatly enhanced when used in conjunction with the programs. D J Goldstein was a Nuffield Dominion... | |
 |
Student Monocular Biological Microscope 40x~400x with light by EM Scopes Head: 45°Inclined 360°rotatable monocular, Eyepiece: wide field WF10X, Objective: 4x/10x/40x, Total magnification: 40x, 100x, and 400x, Built-in tungsten light 110v/20w, Disc diaphragm at size 2, 3, 4, 5, 7, 8mm, Focusing movement stroke: 8mm, Power: 110v/60Hz (US & Canada) ===== Package includes: *Monocular microscope with WF10X eyepiece *Spare tungsten bulb 110v/20w *Dust cover |
 |
My First Lab Duo-Scope by C & A Scientific My First Lab Duo-Scope Microscopes uses are unlimited with dual lights. It has the flexibility to view both slides and solid items. View slides with the light shining up from below and view solid objects with the light shining down on the specimen. It is fun and educational for scientists of all ages. It includes over 50 pieces of accessories for hours of scientific research. It requires 3 AA batteries, which are not included. It contains glass and sharp instruments. Also it includes: vinyl dust cover, five plain slides, one concavity slide, four prepared slides, cover glass, plastic dropper, two bottles of stain, slide labels, lens paper, forceps, scalpel, plastic test tube, plastic Petri dish, straight teasing needle, and instruction manual and helpful hints. It features: 10X eyepiece;... |
 |
Microscope Set with Light and Projector by Elenco Electronics This 100x- 750x zoom microscope Set has been designed with younger scientists in mind, Large, oversized knobs are easier for youngsters to use. Engineered and crafted of the finest and most durable materials, the high impact plastic will withstand minor bumps and shou;d provide years of enjoyable use. Set Includes: 9 inche microscope with 8x, 25x, 42x Objective Lenses, Huygens Eyepiece 12x- 18x Zoom, Microdata Bank, Micro Hatchery, 12 Blank slides, 12 statical Slide Covers, 12 Blanck Labels, 4 Collecting Vials, 1 Petri Dish, ! stirring rod, 1 Condesenr Lens cap, 1 Spare bulb. |
 |
BARSKA Monocular Compound Microscope with Light, 40x, 100x,400x by Barska 40x, 100x, 400x, 1000x Monocular Stereo Compound Microscope |
 |
Illuminated Pocket Microscope with White LED Light by Flexbar 60X-100X Illuminated Microscope Great For Jewelers, Viewing Gems, Beads, Coins & Stamps. This is a new 60X-100X illuminated microscope. Great for jewelers, viewing gems, beads, coins and stamps. Ideal for viewing assistance in low-light conditions. May help reduce eye strain. It is compact and convenient for your home, office and travel. The transparent cover is to be placed directly on the part of the object that is being viewed. Has a focusing wheel to adjust to the sharpest vision. The sliding light condenser is for transmitting the light onto the object. Works on 2 AA batteries (not included). It measures approximately 5 3/4" x 1 3/4" (146 x 44.45 mm) longWe work hard to update our descriptions and pictures of our merchandise. As part of a process of ongoing innovation by our... |
 |
VWR VistaVision Stereo Microscope, w/ Halogen/Fluorescent Light Combination , 1x/2x Magnificatio by VWR VWR VistaVision Stereo Microscopes For use in electronics inspection, education, and life science applications. The 10x widefield eyepieces provide a large, three-dimensional image of the specimen. Working distance is 88mm. Binocular viewing head with single diopter adjustment rotates 360°. Rack and pinion focusing provides fluid, precise focusing with tension control adjustment. The slip-clutch mechanism prevents gear damage. Illumination is provided by either a dual incandescent light stand or upper halogen/lower fluorescent light combination stand. The frosted glass stage plate in the base provides evenly diffused illumination. |
 |
Techni-Tool Pocket Microscope 30x Mag w/Built in Light by TECHNI-TOOL Sharp, brilliant vision with wide field-of-view and 30x magnification. Unique built-in light and easy focusing systems. Uses two standard 1.5V batteries. |
|
Handbook for the Light Microscope: A User's Guide by James Harold Richardson (Author) |
| © 2009 BrightSurf.com |