Progeria also known as premature aging is an extremely rare genetic disorder. Up to now, there are several types of progeria described. Cutis Laxa is one of progeria diseases and patients have common aging symptoms such as hair loss, deterioration of eyesight, redundant and inelastic skin. In 2009, mutations in pycr1 gene had been found in Cutis Laxa patients. The paper is, however, one of few mechanistic studies about pycr1-dependent progeria due to the rareness and lack of animal models. Therefore, I aimed to characterize the aging-related phenotypes of pycr1-/- zebrafish and use them to understand how pycr1 causes Cutis Laxa. I first showed spatial and temporal expression of pycr1 gene in zebrafish. In particular, the pycr1 gene is highly expressed in guts of both larvae and adult fish. Pycr1-/-males exhibited lower body weight. Therefore, I first measured food intake and found that pycr1-/- larvae indeed ate less than that of controls. Apoptosis and cellular senescence were also increased in pycr1-/- zebrafish. Pycr1 is a mitochondria-enriched enzyme, so I examined mitochondrial DNA copy number and found it is significantly decreased in early pycr1-/- larvae, but is restored by 5 day post fertilization which might be due to compensatory effect of Pycr2. Overall, this study shows molecular and physiological defects in the absence of pycr1 that could possibly contribute to our understanding the mechanisms of premature aging.