Scientists have discovered Australia is in the grips of two different strains of coronavirus.

Cambridge University researchers mapped the genetic history of the infection from December to March and found three distinct, but closely related, variants.

While Australian authorities are struggling to find a cure for the original virus which developed from animals, they're also battling a mutation known as strain C.

Type A is the most prevalent in Australia, however Type C has also been recorded in Sydney, according to the experts.

Dr Peter Forster and team found Australia was mostly being bombarded with type A cases, but Type C has also been recorded in Sydney

Analysis of the strains showed type A - the original virus that jumped to humans from bats via pangolins - was not China's most common. Instead, the pandemic's ground-zero was mainly hit by type B, which was in circulation as far back as Christmas Eve.

Type B was also the dominant strain across large parts of the United Kingdom and Europe, but has not made it to Australia.

Type C was an offshoot of Type B, mutating from the secondary strain and spreading to Europe and Australia via Singapore.

Scientists believe the virus - officially called SARS-CoV-2 - is constantly mutating to overcome immune system resistance in different populations.

The genetic history of the coronavirus was mapped from December 24 to March 4, revealing three distinct, but closely related, variants. Scientists believe the virus may be constantly mutating to overcome differing levels of immune system resistance in different populations

Pictured, a breakdown of the different coronavirus genomes and to which of the three major group they belong to. The lines indicate a rough split between the type. The larger the circle, the higher the amount of cases

HOW DOES CORONAVIRUS HIDE IN THE BODY? The SARS-CoV-2 virus has a large number of spikes sticking out of its surface which it uses to attach to and enter cells in the human body. These spikes are coated in sugars, known as glycans, which disguise their viral proteins and help them evade the body's immune system. 'By coating themselves in sugars, viruses are like a wolf in sheep's clothing,' explained Professor Crispin. The coronavirus has a relatively low level of sugar shielding. The lower glycan density means there are fewer obstacles for the immune system to neutralise the virus with antibodies. Advertisement

The academics' published work - which has been scrutinised by fellow scientists - only traced the samples of 160 patients across the world, including many of the first cases in Europe and the US.

Methods used to trace the prehistoric migration of ancient humans were adapted to track the spread of the SARS-CoV-2 virus, which causes COVID-19.

The team have now updated their analysis to include more than 1,000 COVID-19 cases up to the end of March to provide a clearer snapshot. It has not yet been peer-reviewed.

The smaller snapshot, published in the journal PNAS, initially suggested that type C was the most common in Europe.

But the data now shows type B is spreading more rampantly - all but one of 31 SARS-CoV-2 samples taken from patients in Switzerland were of the second cluster.

Methods used to trace the prehistoric migration of ancient humans was adapted to track the spread of the SARS-CoV-2 virus, which causes COVID-19