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This platform mechanically immobilizes small cellular structures, preferably spherical in geometry, at discrete locations of an open or microfluidically accessed substrate.

This tomographic microscope provides a means of obtaining non-invasive, quantitative information about the 3-D position of structures within a sample.

This invention provides a means to study living samples simultaneously with two different yet complimentary microscopic techniques.

Genetic engineering using recombinant DNA technologies have opened up broad fields of basic research and applications in biology.

The Culiat Lab at ORNL discovered the functions of the potent and novel Nell1 signaling protein in the formation of major components of the mammalian musculoskeletal (bone, cartilage and muscle) and cardiovascular system (heart muscle and vasculature).

The invention consists of a compound(s) from exudates that when injected into or sprayed onto plant leaves confers resistance to pathogens in a manner that depends on several known plant signal transduction components.

The Nell1 gene codes for a secreted protein signaling cells to differentiate into specific cell types such as osteoblasts (bone formation) and chondrocytes (cartilage formation).