Gravity has constantly influenced biological phenomena throughout all the Earth’s history. The gravitational field has probably played a major role in shaping evolution when life moved from water to land, even if, for a while, it has been generally deemed to influence natural selection only by limiting the range of acceptable body sizes, according to Galilei’s principle. Indeed, to counteract gravity, living organisms would need to develop systems to provide cell membrane rigidity, fluid flow regulation, and appropriate structural support and locomotion. However, gravity may influence in a more deep and subtle fashion the way the cells behave and build themselves
Systems Biology and Microgravity Effects on Living Organisms / Bizzarri, M. - In: CURRENT SYNTHETIC & SYSTEMS BIOLOGY. - ISSN 2332-0737. - 02:03(2014). [10.4172/2332-0737.1000e111]
Systems Biology and Microgravity Effects on Living Organisms
M, Bizzarri
2014
Abstract
Gravity has constantly influenced biological phenomena throughout all the Earth’s history. The gravitational field has probably played a major role in shaping evolution when life moved from water to land, even if, for a while, it has been generally deemed to influence natural selection only by limiting the range of acceptable body sizes, according to Galilei’s principle. Indeed, to counteract gravity, living organisms would need to develop systems to provide cell membrane rigidity, fluid flow regulation, and appropriate structural support and locomotion. However, gravity may influence in a more deep and subtle fashion the way the cells behave and build themselvesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
