Understanding proteins is basic to understanding the processes of living things. While we know the chemical formulae of proteins, learning the chemical structure of these macromolecules is more di cult. Mapping the three- dimensional structure of proteins, DNA, ribonucleic acid (RNA), carbohydrates, and viruses provides information concerning their functions and behavior. This knowledge is fundamental to the emerging eld of rational drug design, replacing the trial-and-error method of drug development. Microgravity provides a unique environment for growing crystals, an environment that is free of the gravitational properties that can crush the delicate structures of crystals. Currently, several test facilities are used to grow crystals.

The Advanced Protein Crystallization Facility (APCF) can support three crystal- growth methods: liquid-liquid di usion, vapor di usion, and dialysis. Liquid-liquid di usion was not used during Expedition 3. In the vapor di usion method, a crystal forms in a protein solution as a precipitant draws moisture in a surrounding reservoir. In the dialysis method, salt draws moisture away from the protein solution via a membrane separating the two, forming crystals. ESA has announced that due to potential di culties with the vapor di usion method that could cause experiment failure, it will no longer propose the use of this method with the APCF.

APCF-Lipoprotein was one of eight protein crystal investigations that was conducted in the Advanced Protein Crystallization Facility onboard the ISS during Expedition 3. Lipoproteins are a complex of one or more lipids bound to one or more proteins that transport water-insoluble fats in the blood. They are classi ed by their density: very- low-density lipoproteins (VLDLs), low-density lipoproteins (LDLs) and high- density lipoproteins (HDLs). Fatty acids and steroids such as LDL cholesterol (a leading cause of heart disease and hardening of the arteries) are transported through the bloodstream by lipoproteins. Studying lipoprotein structure in high-quality crystals will help researchers learn more about the cause and prevention of cholesterol related diseases.

Mission: Expedition 3

Launch date: 10/08/2001 00:00:00

‣ News

SATURDAY 15 OCTOBER 2022

Astrosamantha has returned to Earth ‣

The astronaut concludes the Minerva mission after almost six months aboard the space outpost. Watch the video on ASITV MORE...

WEDNESDAY 28 SEPTEMBER 2022

Samantha Cristoforetti in charge of the ISS ‣

Samantha has become the first European woman to take the lead of the space outpost. The video is available on ASITV MORE...

WEDNESDAY 14 SEPTEMBER 2022

SAMANTHA CRISTOFORETTI WILL BE THE COMMANDER OF THE ISS ‣

AstroSamantha will become the first European astronaut in command of the International Space Station MORE...

THURSDAY 21 JULY 2022

ASTROSAMANTHA, THE FIRST EUROPEAN SPACEWALKER ‣

First extravehicular activity for Samantha Cristoforetti MORE...

TUESDAY 19 JULY 2022

AGILE, published the first article about the “New Year’s Burst” ‣

On Friday 15 July, the first detailed study on this "New Year's Burst" was published in the Astrophysical Journal, using data acquired by the AGILE satellite MORE...