"Sometimes our best educated guesses don't even come close to representing what really happened so long ago."ĭr. "There is still a lot we don't know about why life is the way it is and how most biological process originated," said Dr. This means the photosystem must have evolved much faster at the beginning - something recent research suggests was due to the planet being hotter. Cardona used that slow rate of evolution to calculate the origin of photosynthesis, he came up with a date that was older than the earth itself. Photosystems are known to evolve very slowly - they have done so since cyanobacteria appeared at least 2.4 billion years ago. One surprising finding was that the evolution of the photosystem was not linear. "The result hints towards the possibility that oxygenic photosynthesis, the process that have produced all oxygen on earth, actually started at a very early stage in the evolutionary history of life - it helps solve one of the big controversies in biology today." "This is the first time that anyone has tried to time the evolution of the photosystems," said Dr. This means there must have been predecessors, such as early bacteria, that have since evolved to carry out anoxygenic photosynthesis instead. This is also long before cyanobacteria - microbes that were thought to be the first organisms to produce oxygen - existed. He found that the differences in the genes may have occurred more than 3.4 billion years ago - long before oxygen was thought to have first been produced on earth. Cardona could work out when oxidative photosynthesis first occurred. The core of the enzyme looks different in the two types of photosynthesis, and by studying how long ago the genes evolved to be different, Dr. Oxygenic and anoxygenic photosynthesis both use an enzyme called Photosystem I. Instead of trying to detect oxygen in ancient rocks, which is what had been done previously, he looked deep inside the molecular machines that carry out photosynthesis - these are complex enzymes called photosystems. Cardona wanted to find out when oxygenic photosynthesis originated. However, the new study suggests that the origin of oxygenic photosynthesis may have been as much as a billion years earlier, which means complex life would have been able to evolve earlier too.ĭr. Previously, scientists believed that anoxygenic evolved long before oxygenic photosynthesis, and that the earth's atmosphere contained no oxygen until about 2.4 to 3 billion years ago. Anoxygenic photosynthesis use compounds like hydrogen sulfide or minerals like iron or arsenic instead of water, and it does not produce oxygen. Oxygenic photosynthesis uses light energy to split water molecules, releasing oxygen, electrons and protons. There are two types of photosynthesis: oxygenic and anoxygenic. Photosynthesis is the process that sustains complex life on earth - all of the oxygen on our planet comes from photosynthesis. What allowed microbes to escape the cradle where life arose and conquer every corner of this world, more than 3 billion years ago." "It may have been that the early availability of oxygen was what allowed microbes to diversify and dominate the world for billions of years. "My results mean that the process that sustains almost all life on earth today may have been doing so for a lot longer than we think," said Dr. It also suggests that the microorganisms we previously believed to be the first to produce oxygen - cyanobacteria - evolved later, and that simpler bacteria produced oxygen first. Tanai Cardona, says the research can help to solve the controversy around when organisms started producing oxygen - something that was vital to the evolution of life on earth. In a new article in Heliyon, a researcher from Imperial College London studied the molecular machines responsible for photosynthesis and found the process may have evolved as long as 3.6 billion years ago. Ancient microbes may have been producing oxygen through photosynthesis a billion years earlier than we thought, which means oxygen was available for living organisms very close to the origin of life on earth.
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