Hutchison-Gilford progeria syndrome (HGPS) is a rare, fatal disease that affects children and causes accelerated aging. Symptoms include dwarfism, loss of body fat and hair, aged-looking skin, stiff joints and hip dislocation. Children with this disease usually die of a heart attack or stroke at an average age of 13. HGPS is caused by a mutation in the LMNA gene which encodes a protein called Lamin A. The mutation causes instability in the cell nucleus, which is believed to lead to the premature aging in HGPS. Michelle Decker is looking for differences in the way normal and mutant versions of the Lamin A protein interact with chromosomes in the cell nucleus. Research has shown that cells from patients with HGPS have shorter than usual chromosome ends (called telomeres) than are usually found in cells of other children. Telomeres normally protect chromosomes from degradation and instability. By improving the understanding of the role that Lamin A and telomeres have in Hutchison-Gilford progeria syndrome, Michelle’s research may contribute to new understandings and therapies for the disease.