Add to ORKGSome of the technical requirements for an expedient application of temperature control to advanced protein crystal growth activities are defined. Lysozome was used to study the effects of temperature ramping and temperature gradients for nucleation/dissolution and consecutive growth of sizable crystals and, to determine a prototype temperature program. The solubility study was conducted using equine serum albumin (ESA) which is an extremely stable, clinically important protein due to its capability to bind and transport many different small ions and molecules
The experimental setup for the in-situ high resolution optical monitoring of protein crystal growth/...
The temporal and spatial growth behaviour of protein crystals, subject to different cooling strategi...
The five topics summarized in this final report are as follows: (1) a technique for the expedient, s...
A scintillation method is presented for determination of the temperature dependence of the solubilit...
Experimental evidence suggests that larger and higher quality crystals can be attained in the microg...
The solubility and growth of the protein canavalin, and the application of the schlieren technique t...
A technology for crystal growth, which overcomes certain shortcomings of other techniques, is develo...
The proposed work entails the design, assembly, testing, and delivery of a turn-key system for the s...
Crystal growth can be initiated and controlled by dynamically controlled vapor diffusion or temperat...
The growth of protein crystals is known to be the limiting factor in the determination of the three-...
To clarify the growth mechanism of a protein crystal, it is essential to measure its growth rate wit...
The major objective of this research effort is the temperature driven growth of protein crystals in ...
To evaluate the effectiveness of a microgravity environment on protein crystal growth, a system was ...
The following activities are reported on: repartitioning of NaCl and protein impurities in lysozyme ...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
The experimental setup for the in-situ high resolution optical monitoring of protein crystal growth/...
The temporal and spatial growth behaviour of protein crystals, subject to different cooling strategi...
The five topics summarized in this final report are as follows: (1) a technique for the expedient, s...
A scintillation method is presented for determination of the temperature dependence of the solubilit...
Experimental evidence suggests that larger and higher quality crystals can be attained in the microg...
The solubility and growth of the protein canavalin, and the application of the schlieren technique t...
A technology for crystal growth, which overcomes certain shortcomings of other techniques, is develo...
The proposed work entails the design, assembly, testing, and delivery of a turn-key system for the s...
Crystal growth can be initiated and controlled by dynamically controlled vapor diffusion or temperat...
The growth of protein crystals is known to be the limiting factor in the determination of the three-...
To clarify the growth mechanism of a protein crystal, it is essential to measure its growth rate wit...
The major objective of this research effort is the temperature driven growth of protein crystals in ...
To evaluate the effectiveness of a microgravity environment on protein crystal growth, a system was ...
The following activities are reported on: repartitioning of NaCl and protein impurities in lysozyme ...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
The experimental setup for the in-situ high resolution optical monitoring of protein crystal growth/...
The temporal and spatial growth behaviour of protein crystals, subject to different cooling strategi...
The five topics summarized in this final report are as follows: (1) a technique for the expedient, s...