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raycision

Cell and Molecular Biology - 0 views

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    Biological irradiators are specialized devices that deliver controlled doses of ionizing radiation to biological samples, such as cells, tissues, and small organisms. These tools are invaluable in cell and molecular biology research for a variety of applications. 1. Cell Cycle and Apoptosis Research Cell Cycle Arrest: Ionizing radiation can induce cell cycle arrest at specific checkpoints, allowing researchers to study the regulation of the cell cycle and the role of various proteins in cell cycle control. Apoptosis Induction: Radiation can trigger programmed cell death (apoptosis), providing a model to study the molecular pathways involved in apoptosis and the role of different genes and proteins in this process.
Darcy Goshorn

Virtual Cell Animation Collection - 0 views

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    great, i mean GREAT animations!
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    Great, thoroughly explained 3D cellular processes and molecular processes animations.
Kathe Santillo

A Virtual Museum of the Molecular Workbench Models - 0 views

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    A collection of interactive simulations and learning activities produced using the Molecular Workbench are provided at this site. All exhibits are results of calculations based on scientific principles.
Kathe Santillo

Creative Chemistry Interactive Molecular Models - 1 views

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    Molecular models for you to play with. You can move, rotate and resize them, change them from space-filling models into wire-frame models and back again, or simply sit back and admire the animation!
raycision

Drug Development - 0 views

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    Optical molecular imaging is a powerful tool in drug development, offering unique capabilities for visualizing and quantifying biological processes at the molecular and cellular levels. This non-invasive imaging technique uses light to detect and measure the presence of specific molecules, cells, or biological events in living organisms. 1. Target Identification and Validation Biomarker Discovery: Optical imaging can be used to identify and validate biomarkers that are indicative of disease states or therapeutic responses. Fluorescent and bioluminescent probes can highlight specific molecular targets, helping researchers understand their role in disease progression.
Kathe Santillo

Biological Animations - 0 views

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    short animations of biological processes
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    Short, online animations of biological processes. The large display area is perfect for use with the ActivBoard. Includes animated clips of Water/Buffers, Proteins, Lipids, Carbohydrates, Enzymes, Membrane Transport, Cell Structures, Metabolism, Molecular
Kathe Santillo

Workbench Database - 0 views

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    Molecular Workbench offers interactive, visual simulations and activities that have been widely used in science teaching for students of all ages. The database is designed to provide teachers and students with easy access to model-based activities. The ac
Kathe Santillo

The Biology Project - 0 views

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    Has tutorials and problem sets for learning biochemistry, cell, developmental, human, and molecular biology, Mendelian genetics, and immunology.
Jimbo Lamb

Molecular Workbench - 1 views

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    Interactive Java applets for science
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    Interactives for science
Kathe Santillo

Molecular Expressions: Science, Optics and You - Secret Worlds: The Universe Wit - 0 views

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    View the Milky Way at 10 million light years from Earth. Then move through space towards the Earth until you reach a tall oak tree. Then move from the actual leaf into a microscopic world.
raycision

Animal Models - 0 views

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    Preclinical imaging and biological irradiation are pivotal in the development of new animal models, significantly enhancing the precision and depth of research. 1. Preclinical Imaging Preclinical in vivo imaging techniques allow researchers to non-invasively visualize and monitor disease progression, anatomical changes, and molecular processes in real-time, providing critical insights into the pathophysiology of various conditions. This capability enables the creation of more accurate and representative animal models of human diseases, such as cancer, neurological disorders, and cardiovascular diseases.
raycision

Cardiovascular Research - 0 views

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    Micro-CT and optical molecular imaging are powerful tools in cardiovascular research, each offering unique capabilities that enhance our understanding of cardiovascular diseases, development, and treatment. Here are some key applications of these imaging modalities in cardiovascular research: 1. Micro-CT Imaging Vascular Morphology and Anatomy 3D Visualization: Micro-CT provides high-resolution, three-dimensional images of the vascular system, allowing detailed visualization of blood vessels, including small capillaries and complex vascular networks.
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