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Difference between revisions of "User:Jan-Hendrik Hehemann"

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[[Image:JH.jpg|200px|right]]
I studied biochemistry and molecular biology at the University of Hamburg (Germany) and graduated in 2005. In 2006 I received an early stage Marie Curie fellowship to start a PhD, with [http://www.cazypedia.org/index.php/User:Mirjam_Czjzek Dr. Mirjam Czjzek] at the [http://www3.sb-roscoff.fr/Station Biologique de Roscoff] (France). During my PhD I worked on glycoside hydrolases, from the marine flavobacterium ''Zobellia galactanivorans'', specific for cell wall polysaccharides from red algae. I focused on a new subfamily in [[GH16]], of which the specificity was unknown, and discovered that they are beta-porphyranases. These enzymes degrade the polysaccharide porphyran from red seaweeds like ''Porphyra'' sp. which is more generally known as Nori and used to make one of my favourite foods, the Maki-Sushi roll. When we searched for other porphyranases in public sequence databases we found them solely in genomes of marine bacteria and not in terrestrial bacteria probably because porphyran is an algal polysaccharide and absent in terrestrial plants. We found however an exception, one porphyranase was encoded in the genome of ''Bacteroides plebeius'', a human gut bacterium that was isolated from a Japanese individual. A subsequent analysis of available gut metagenome datasets revealed that porphyranases are common in gut bacteria from the Japanese people and so far absent in others. We suggested that the consumption of non sterile and fresh food with associated bacteria -“The Sushi Factor”- created contact between bacteria from the ocean and the human gut and led to the horizontal gene transfer of porphyranase genes  <cite>Hehemann2010</cite>. This research was widely covered in the press and you can find a great and more palatable article about our paper [http://blogs.discovermagazine.com/notrocketscience/2010/04/07/gut-bacteria-in-japanese-people-borrowed-sushi-digesting-genes-from-ocean-bacteria/ here].  
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=== Short CV ===
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I studied biochemistry and molecular biology at the University of Hamburg (Germany) and graduated in 2005.  
  
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In 2006 I received an early stage Marie Curie fellowship to start a PhD, with [[User:Mirjam_Czjzek|Dr. Mirjam Czjzek]] at the [http://www.sb-roscoff.fr/ Station Biologique de Roscoff] (France).
  
Since March 2010 I am working as a PostDoc with ^^^Alisdair Boraston^^^ at the University of Victoria (Canada) and in August 2010 I received an EMBO Long-Term Fellowship to work on ''B. plebeius'' and how this microbe benefitted through its update from the sea.
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2010-2012; postdoctoral fellow (EMBO) in the lab of [[User:Al Boraston|Alisdair Boraston]] at the University of Victoria (Canada).
  
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2012-2014; postdoctoral fellow (HFSP) in the lab of Martin Polz at MIT (USA).
  
In addition to human gut microbes I am very interested in organic matter degradation in the ocean and how marine bacteria degrade algal polysaccharides. This is an important field of research because the CAZymes used to degrade marine algae are largely unknown, which allows us to make exciting discoveries.
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2015-ongoing; Research Group Leader at the Marum and the Max Planck Institute for Marine Microbiology in Bremen (Germany)
== Reference list ==
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=== Research Interests ===
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I am generally interested in organic matter degradation in the sea and how marine bacteria degrade algal polysaccharides. In addition I am interested in the evolution of human gut microbes and how they adapt to our changing diets.
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=== Previous research - "The Sushi Factor" ===
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During my PhD I worked on glycoside hydrolases from the marine flavobacterium ''Zobellia galactanivorans'' that are specific for cell wall polysaccharides from red algae. I focused on a new subfamily in [[GH16]], of which the specificity was unknown, and discovered that they are beta-porphyranases. These enzymes degrade the polysaccharide porphyran from red seaweeds like ''Porphyra'' sp., which is more generally known as Nori, and used to make one of my favourite foods: the Maki-Sushi roll.
 +
 
 +
When we searched for other porphyranases in public sequence databases, we found them solely in genomes of marine bacteria - and not in terrestrial bacteria - probably because porphyran is an algal polysaccharide and is thus absent in land plants.  However, we found one notable exception:  one porphyranase was encoded in the genome of ''Bacteroides plebeius'', a human gut bacterium that was isolated from a Japanese individual.
 +
 
 +
A subsequent analysis of available gut metagenome datasets revealed that porphyranases are common in gut bacteria from Japanese people and so far absent in others. We suggested that the consumption of fresh, non-sterile, food with associated bacteria - “The Sushi Factor” - created contact between the human gut and bacteria from the ocean, which led to the horizontal transfer of porphyranase genes <cite>Hehemann2010</cite>. This research was widely covered in the press; you can find a great and more ''palatable'' article about our paper [http://blogs.discovermagazine.com/notrocketscience/2010/04/07/gut-bacteria-in-japanese-people-borrowed-sushi-digesting-genes-from-ocean-bacteria/ here].  
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----
 
<biblio>  
 
<biblio>  
 
#Hehemann2010 pmid=20376150  
 
#Hehemann2010 pmid=20376150  

Latest revision as of 13:38, 18 December 2021

JH.jpg

Short CV

I studied biochemistry and molecular biology at the University of Hamburg (Germany) and graduated in 2005.

In 2006 I received an early stage Marie Curie fellowship to start a PhD, with Dr. Mirjam Czjzek at the Station Biologique de Roscoff (France).

2010-2012; postdoctoral fellow (EMBO) in the lab of Alisdair Boraston at the University of Victoria (Canada).

2012-2014; postdoctoral fellow (HFSP) in the lab of Martin Polz at MIT (USA).

2015-ongoing; Research Group Leader at the Marum and the Max Planck Institute for Marine Microbiology in Bremen (Germany)

Research Interests

I am generally interested in organic matter degradation in the sea and how marine bacteria degrade algal polysaccharides. In addition I am interested in the evolution of human gut microbes and how they adapt to our changing diets.

Previous research - "The Sushi Factor"

During my PhD I worked on glycoside hydrolases from the marine flavobacterium Zobellia galactanivorans that are specific for cell wall polysaccharides from red algae. I focused on a new subfamily in GH16, of which the specificity was unknown, and discovered that they are beta-porphyranases. These enzymes degrade the polysaccharide porphyran from red seaweeds like Porphyra sp., which is more generally known as Nori, and used to make one of my favourite foods: the Maki-Sushi roll.

When we searched for other porphyranases in public sequence databases, we found them solely in genomes of marine bacteria - and not in terrestrial bacteria - probably because porphyran is an algal polysaccharide and is thus absent in land plants. However, we found one notable exception: one porphyranase was encoded in the genome of Bacteroides plebeius, a human gut bacterium that was isolated from a Japanese individual.

A subsequent analysis of available gut metagenome datasets revealed that porphyranases are common in gut bacteria from Japanese people and so far absent in others. We suggested that the consumption of fresh, non-sterile, food with associated bacteria - “The Sushi Factor” - created contact between the human gut and bacteria from the ocean, which led to the horizontal transfer of porphyranase genes [1]. This research was widely covered in the press; you can find a great and more palatable article about our paper here.


  1. Hehemann JH, Correc G, Barbeyron T, Helbert W, Czjzek M, and Michel G. (2010). Transfer of carbohydrate-active enzymes from marine bacteria to Japanese gut microbiota. Nature. 2010;464(7290):908-12. DOI:10.1038/nature08937 | PubMed ID:20376150 [Hehemann2010]