According to the Evolutionary Biology and the early life origin based opinions in some articles,, the very first species which came into existance were Cyanobacteria and viruses. As a green pigment , chlorophyl pigment has important roles in photosynthesis which enables plants to covert sunlight into glucose . In early life conditions, is it possible that under the seas via evolutionary adaptation of DNA chains formed from squeezed Phosphate groups under high heat and atmospheric pressure by ring closures of nitrogenous nucleotide bases? And then via the genetic code expression , chlorophyll came into existance first then enabled and supported early atmospheric conditions with glucose and Oxygen release? There is proof for this possible hypothesis and it is that if we leave a bottle full of water in sunny weather for days, due to sunlight green yeast under the bottle forms most of the time and that appearance is due to the chlorophyll pigment. I can write Chemical reactions which result in the formation of such compounds at the early atmospheric conditions because I know Synthetic / Organic Chemistry in expert levels and this is what I usually do for synthesizing the previously unmade compounds. Any Biologists who would be interested in publishing papers in co-authorship with me on possible Biochemical reactions and pathways that created Chlorophyll , ribose sugars and DNA chains as the very first origins of life , you are welcome to comment and I shall be pleased to work with you . Also please suggest ideas and references you think might be helpful . Thank you.
"According to the Evolutionary Biology and the early life origin studies, the very first species which came into existance were Cyanobacteria and viruses." That's not true...
I corrected my statement saying “ According to some articles as an opinion “. Thank you .
- Badges
- Science topic
- Similar topics
- Social Psychology
- Attitude