It has been estimated that some 5000 million years ago the Earth was formed from the Sun . The Earth , as a piece , was broken from the Sun and was a glowing fire containing a molten mass of gases and vapours of various elements . The temperature was very high and it was about 5000-6000 degree C . As the Earth was moving away from the Sun , it was getting cool . This led to the condensation of gases . The heavy elements like iron , nickel etc. occupied the core of the Earth and the lightest elements like helium , hydrogen , oxygen , nitrogen and carbon occupied the atmosphere of the Earth . Life originated only from these elements . The chemical changes leading to the formation of life is called Chemical Evolution or Molecular Evolution of Origin of Life . Oparin(1924) and Haldane(1929) developed the theory of Chemical Evolution and according to the theory life originated as follows -
Formation of Water , Methane and Ammonia
The primitive Earth contained a large amount of hydrogen , nitrogen , carbon and oxygen . Of these , hydrogen was very active . It combined with nitrogen to form ammonia , with oxygen to form water and with carbon to form methane .As the temperature of the Earth was high , ammonia and methane remained as gases and water as superheated steam .As years passed , the temperature of the earth came down . Steam condensed into water and resulted as rain . Since the Earth was very hot , the rain drops were evaporated immediately on reaching the surface of the Earth . Water gradually accumulated and this led to the formation of rivers , streams , lakes ,seas and oceans . Compounds like ammonia , methane etc. were dissolved in rain water and were accumulated in the sea . Mineral rocks also dissolved leading to the accumulation of minerals and salts in sea water . Thus the first chemicals formed on the Earth were water , ammonia , methane and others .
Formation of Micromolecules
The next step in Molecular Evolution was the formation of micromolecules like amino acids , fatty acids , monosaccharides , purine , pyrimidines , adenosine monophosphate(AMP) , adenosine dipphosphate(ADP) in form of colloids .
Formation of Macromolecules
The next step was the formation of macromolecules . . The micromolecules combined in various ways to form large molecules called macromolecules . They consisted of proteins , lipids , polysaccharides , nucleic acids and nucleoproteins . The combination of smaller molecules into macromolecules is called polymerization .Moody(1970) , Fox (1974) and Dose(1972) suggested that proteins were the first macromolecules to be originated during molecular evolution . The first-formed proteins were called protoproteins .
Formation of Nucleic Acids
The next step was the formation of nucleic acids . They were formed from phosphoric acids , sugar , purines and pyrimidines . In the formation of nucleic acids , first of all , nucleotides were formed . The nucleotides include purine-sugar-phosphate and pyrimidine-sugar-phosphate . Thousands of nucleotides were linked together in different combinations to produce nucleic acids .
Formation of Nucleoproteins
The nucleic acids and proteins combined together to form larger molecules called nucleoproteins .
Coacervation
When large molecules were formed they underwent aggregation and precipitation in the sea .The aggregation and precipitation led to the formation of organised structures called coacervates . The formation of coacervates was called coacervation . Fox named the colloidal droplets (coacervates ) as microspheres . They exhibited certain properties of cells . They were spherical , microscopic and uniform in diameter . They had double layered boundaries around them and the capacity for binary fission . budding and fragmentation .
Pre-cells or Protocells
The earliest first living units are called protocells or precells or protobionts . The protocells were spherical in shape and a double layered membrane was present around them . They exhibited reproduction by budding and mutation . The protocells were heterotrophs ; they obtained the energy by the fermentation of organic substances which were dissolved in the sea . Thus the protocells were anaerobic heterotrophs .
There are two major objections against Chemical Evolution theory . The first is that , Oparin in his theory argued that a 'primeval soup' of organic molecules could be created in an oxygenless atmosphere through the action of sunlight . But some researchers have suggested that such primitive atmosphere did not exist for any appreciable length of time . Second objection is about the 'primeval soup' . Such soup should contain relatively large quantities of nitrogenous organic compounds , such as amino acids , bases etc. It is expected that such nitrogen rich soup would have given significant quantities of nitrogenous cokes trapped in early Precambrian sediments . No such nitrogen rich material has yet been found in early Precambrian rocks on this planet . In fact , the opposite is true ; nitrogen content of early Precambrian organic matter is relatively much less .
But there is good evidence in the rocks that simpler living beings were present and their early evolution did take place throughout the early Precambrian time . Life probably originated on Earth at least 3,800 million years ago as evident from different Precambrian metasediments and stromatolites . Obviously , Chemical Evolution had occurred before 3,800 million years and unfortunately , no Precambrian rocks found are old enough to test these ideas . So , where else we can look to explain existence of early life? Scientists studied meteorites and interstellar molecules for useful clues .
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