Add to ORKGRotating vessels have been proposed as means of growing larger, more nearly uniform protein crystals than would otherwise be possible in the presence of normal Earth gravitation. Heretofore, nonrotating vessels have been used. It is difficult to grow high-quality protein crystals in the terrestrial gravitational field because of convection plumes created by the interaction between gravitation and density gradients in protein-solution depletion layers around growing crystals. The density gradients and the associated convection plumes cause the surfaces of growing crystals to be exposed to nonuniform solution densities, thereby causing the crystals to form in irregular shapes. The microgravitational environment of outer space has been utilize...
The attenuation of sedimentation and convection in microgravity can sometimes decrease irregularitie...
Protein crystal growth experiments have been performed on 16 space shuttle missions since April, 198...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
We consider the problem of steady flow around a growing protein crystal in a medium of its solution ...
Effect of rotation on nonlinear solutal convection during protein cystallization is modelled and stu...
Proteins account for 50% or more of the dry weight of most living systems and play a crucial role in...
Proteins (enzymes, hormones, immunoglobulins) account for 50 pct. or more of the dry weight of most ...
Apparatus for growing protein crystals under microgravity environment includes a plurality of protei...
The demand for larger crystals is increasing especially in applications associated with the electron...
The major objective of this research effort is the temperature driven growth of protein crystals in ...
It is possible to grow protein crystals for biomedical research in microgravity by deploying a prote...
Effect of rotation on surface tension gradient driven flow, which is also known as Marangoni convect...
A new upside-down geometry is proposed to achieve the beneficial effects of microgravity crystal gro...
This Final Technical Report for NASA Grant NAG8-774 covers the period from April 27, 1989 through De...
Some improvements have been made in a system of laboratory equipment developed previously for studyi...
The attenuation of sedimentation and convection in microgravity can sometimes decrease irregularitie...
Protein crystal growth experiments have been performed on 16 space shuttle missions since April, 198...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
We consider the problem of steady flow around a growing protein crystal in a medium of its solution ...
Effect of rotation on nonlinear solutal convection during protein cystallization is modelled and stu...
Proteins account for 50% or more of the dry weight of most living systems and play a crucial role in...
Proteins (enzymes, hormones, immunoglobulins) account for 50 pct. or more of the dry weight of most ...
Apparatus for growing protein crystals under microgravity environment includes a plurality of protei...
The demand for larger crystals is increasing especially in applications associated with the electron...
The major objective of this research effort is the temperature driven growth of protein crystals in ...
It is possible to grow protein crystals for biomedical research in microgravity by deploying a prote...
Effect of rotation on surface tension gradient driven flow, which is also known as Marangoni convect...
A new upside-down geometry is proposed to achieve the beneficial effects of microgravity crystal gro...
This Final Technical Report for NASA Grant NAG8-774 covers the period from April 27, 1989 through De...
Some improvements have been made in a system of laboratory equipment developed previously for studyi...
The attenuation of sedimentation and convection in microgravity can sometimes decrease irregularitie...
Protein crystal growth experiments have been performed on 16 space shuttle missions since April, 198...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...