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Showing posts with label The role of viruses in human gut. Show all posts
Showing posts with label The role of viruses in human gut. Show all posts

Friday, 10 June 2022

The role of viruses in human gut

Gut Bacteria and Viruses

Human's gut virus composition is as unique as a fingerprint: Study

What is the gut microbiome?

How the food you eat affects your gut - Shilpa Ravella

How the food you eat affects your brain - Mia Nacamulli

Lee’s work titled “The gut virome in two indigenous populations from Malaysia” has been published in the prestigious Nature publication, Scientific Reports. 

 “The sole purpose of a virus’s life is to multiply, but the irony is that it cannot multiply on its own.”

VIRUSES have been in our lives and newsfeeds almost incessantly in the last two years. We have been double-jabbed and masked for much of this time in an effort to avoid the SARS-CoV-2 virus. As we have learnt, these steps can help limit the spread of Covid-19 and help us avoid infection.

But can we avoid viruses entirely? The simple answer is no.

The sole purpose of a virus’s life is to multiply, but the irony is that it cannot multiply on its own.

Instead, viruses must rely on the cellular machinery from more advanced forms of life – bacteria, plants or animals.

How many viruses in total are there in the world at any time? An estimated ten nonillion (1031) is the figure that has been bandied about – a number so enormous that we cannot truly appreciate what it means.

There are so many types of viruses occupying so many different hosts and ecosystems that we have no idea of how many categories of viruses there are.

Humans carry an astronomical number of viruses all the time. These viruses do not kill us because their targets are the billions of bacteria that reside in our bodies, principally in the gut.

A recent paper from Chuen Zhang Lee, an Honours student at Monash University Malaysia, reports progress in identifying bacterial viruses in our guts by using human faeces as the starting material. Lee used faecal matter from two Malaysian Orang Asli groups, the Jehai and the Jakun, to show that the viruses they contain are different from viruses in more frequently studied groups, such as Europeans or Chinese.

Lee enriched the viruses in the faeces (as an indicator,  of what is actually in the gut) away from all the yucky material, bacterial cells and human cells and extracted the genetic material from this virus enriched material.

The viral DNA was then sequenced at the Monash University Malaysia Genomics Facility using a technique that allows one to read long stretches of DNA.

Muhammad Zarul Hanifah, who works at the Genomics Facility, assisted Lee in analysing his data.

Using this method, Lee recognised approximately half the DNA as coming from known viruses. Based on the viruses he found, he could identify what some of the sample-givers had consumed and their lifestyle and environment.

He also identified some of the bacteria in our guts these viruses could attack and therefore, get a partial picture of what types of bacteria could be in our guts.

These results start to build up a picture of how our gut health is determined, which can significantly determine our overall health. It is clear that viruses may also have a role in determining gut health – a complex topic.

Lee was supervised by a group of researchers including Prof Maude Phipps from the Jeffrey Cheah School of Medicine and Health Sciences, Dr Jeremy Barr from Monash University School of Biological Sciences and Prof Qasim Ayub, Prof Sunil Lal and Prof Sadequr Rahman from the School of Science.

Lee’s work titled “The gut virome in two indigenous populations from Malaysia” has been published in the prestigious Nature publication, Scientific Reports.

Viruses are clearly ‘cool’ and ‘hot’ right now, and are likely to remain that way for a long time. We look forward to furthering discoveries on viruses and insights into how they can be used to our benefit.

To know more about the programmes offered by the School of Science, Monash University Malaysia, visit www.monash.edu. my/science. Alternatively, visit www.monash.edu.my for more information. 

Related posts:

25 Stroke Recovery Tips for Healing, Habits, and Happiness

Courtney Maher, OTR/L

The role of viruses in human gut

Gut Bacteria and Viruses

Human's gut virus composition is as unique as a fingerprint: Study

What is the gut microbiome?

How the food you eat affects your gut - Shilpa Ravella

How the food you eat affects your brain - Mia Nacamulli

Lee’s work titled “The gut virome in two indigenous populations from Malaysia” has been published in the prestigious Nature publication, Scientific Reports. 

 “The sole purpose of a virus’s life is to multiply, but the irony is that it cannot multiply on its own.”

VIRUSES have been in our lives and newsfeeds almost incessantly in the last two years. We have been double-jabbed and masked for much of this time in an effort to avoid the SARS-CoV-2 virus. As we have learnt, these steps can help limit the spread of Covid-19 and help us avoid infection.

But can we avoid viruses entirely? The simple answer is no.

The sole purpose of a virus’s life is to multiply, but the irony is that it cannot multiply on its own.

Instead, viruses must rely on the cellular machinery from more advanced forms of life – bacteria, plants or animals.

How many viruses in total are there in the world at any time? An estimated ten nonillion (1031) is the figure that has been bandied about – a number so enormous that we cannot truly appreciate what it means.

There are so many types of viruses occupying so many different hosts and ecosystems that we have no idea of how many categories of viruses there are.

Humans carry an astronomical number of viruses all the time. These viruses do not kill us because their targets are the billions of bacteria that reside in our bodies, principally in the gut.

A recent paper from Chuen Zhang Lee, an Honours student at Monash University Malaysia, reports progress in identifying bacterial viruses in our guts by using human faeces as the starting material. Lee used faecal matter from two Malaysian Orang Asli groups, the Jehai and the Jakun, to show that the viruses they contain are different from viruses in more frequently studied groups, such as Europeans or Chinese.

Lee enriched the viruses in the faeces (as an indicator,  of what is actually in the gut) away from all the yucky material, bacterial cells and human cells and extracted the genetic material from this virus enriched material.

The viral DNA was then sequenced at the Monash University Malaysia Genomics Facility using a technique that allows one to read long stretches of DNA.

Muhammad Zarul Hanifah, who works at the Genomics Facility, assisted Lee in analysing his data.

Using this method, Lee recognised approximately half the DNA as coming from known viruses. Based on the viruses he found, he could identify what some of the sample-givers had consumed and their lifestyle and environment.

He also identified some of the bacteria in our guts these viruses could attack and therefore, get a partial picture of what types of bacteria could be in our guts.

These results start to build up a picture of how our gut health is determined, which can significantly determine our overall health. It is clear that viruses may also have a role in determining gut health – a complex topic.

Lee was supervised by a group of researchers including Prof Maude Phipps from the Jeffrey Cheah School of Medicine and Health Sciences, Dr Jeremy Barr from Monash University School of Biological Sciences and Prof Qasim Ayub, Prof Sunil Lal and Prof Sadequr Rahman from the School of Science.

Lee’s work titled “The gut virome in two indigenous populations from Malaysia” has been published in the prestigious Nature publication, Scientific Reports.

Viruses are clearly ‘cool’ and ‘hot’ right now, and are likely to remain that way for a long time. We look forward to furthering discoveries on viruses and insights into how they can be used to our benefit.

To know more about the programmes offered by the School of Science, Monash University Malaysia, visit www.monash.edu. my/science. Alternatively, visit www.monash.edu.my for more information. 

Related posts:

25 Stroke Recovery Tips for Healing, Habits, and Happiness

Courtney Maher, OTR/L