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| <div class="paragraph paragraph_style_5" ><div style="clear:left; float:left; position:relative; width:110px; margin:12px 12px 12px 0px; " class="tinyText style_SkipStroke_2 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/4/4c/Scientist_van_Leeuwenhoek.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /> | | <div class="paragraph paragraph_style_5" ><div style="clear:left; float:left; position:relative; width:110px; margin:12px 12px 12px 0px; " class="tinyText style_SkipStroke_2 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/4/4c/Scientist_van_Leeuwenhoek.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /> |
| </div><h4>Anthonie van Leeuwenhoek<br/></h4></div> | | </div><h4>Anthonie van Leeuwenhoek<br/></h4></div> |
- | <p class="paragraph_style_7" ><p align = right>First of all, in 1674 Antoni van Leeuwenhoek looked through his microscope and discovered a totally unknown world, the world of microbiology. These became known due to his correspondence with the Royal Society in London.<br/></p></p> | + | <p class="paragraph_style_7" ><p align = left>First of all, in 1674 Antoni van Leeuwenhoek looked through his microscope and discovered a totally unknown world, the world of microbiology. These became known due to his correspondence with the Royal Society in London.<br/></p></p> |
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| <div class="paragraph paragraph_style_5" ><h4>Martinus Willem Beijerinck</h4><div style="clear:right; float:right; position:relative; width:110px; margin:-15px 0px 12px 12px; " class="tinyText style_SkipStroke_3 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/9/93/Scientist_Beijerinck.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /></div></div> | | <div class="paragraph paragraph_style_5" ><h4>Martinus Willem Beijerinck</h4><div style="clear:right; float:right; position:relative; width:110px; margin:-15px 0px 12px 12px; " class="tinyText style_SkipStroke_3 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/9/93/Scientist_Beijerinck.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /></div></div> |
- | <p class="paragraph_style_9" >The second important scientist from Delft was Martinus Willem Beijerinck. He was the first professor of Microbiology in Delft and he is –not for nothing- seen as the founding father of the Delft School of Microbiology. <br/> He was the first person who used the term “virus” for the invisible disease causing material that he had shown to be self-replicating on tobacco leaves –TMV. Beside this, he originated the selective culture technique (now known as enrichment culturing, which is still used!) and was the first to isolate a wide range of microorganisms.</p> | + | <p class="paragraph_style_9" ><p align = right>The second important scientist from Delft was Martinus Willem Beijerinck. He was the first professor of Microbiology in Delft and he is –not for nothing- seen as the founding father of the Delft School of Microbiology. <br/> He was the first person who used the term “virus” for the invisible disease causing material that he had shown to be self-replicating on tobacco leaves –TMV. Beside this, he originated the selective culture technique (now known as enrichment culturing, which is still used!) and was the first to isolate a wide range of microorganisms.</p> |
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| <div class="paragraph paragraph_style_5" ><div style="clear:left; float:left; position:relative; width:110px; margin:12px 12px 12px 0px; " class="tinyText style_SkipStroke_2 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/f/f9/Scientist_Iterson.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /></div><h4>Gerrit van Iterson<br/></h4></div> | | <div class="paragraph paragraph_style_5" ><div style="clear:left; float:left; position:relative; width:110px; margin:12px 12px 12px 0px; " class="tinyText style_SkipStroke_2 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/f/f9/Scientist_Iterson.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /></div><h4>Gerrit van Iterson<br/></h4></div> |
- | <p class="paragraph_style_3" >Gerrit van Iterson jr. was one of Beijerink’s pupils and is the third important scientist. He was the Professor of Applied Botany, which includes a lot of work on tropical products such as rubber and tea. Furthermore Iterson is known due to the fact that he was fascinated by the mathematics underlying plant organisation and development; he was a bio mathematician <br/></p> | + | <p class="paragraph_style_3" ><p align = left>Gerrit van Iterson jr. was one of Beijerink’s pupils and is the third important scientist. He was the Professor of Applied Botany, which includes a lot of work on tropical products such as rubber and tea. Furthermore Iterson is known due to the fact that he was fascinated by the mathematics underlying plant organisation and development; he was a bio mathematician <br/></p> |
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| <div class="paragraph paragraph_style_5" ><h4>Albert Jan Kluyver</h4><div style="clear:right; float:right; position:relative; width:110px; margin:-20px 0px 12px 12px; " class="tinyText style_SkipStroke_3 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/6/61/Scientist_Kluyver.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /></div></div> | | <div class="paragraph paragraph_style_5" ><h4>Albert Jan Kluyver</h4><div style="clear:right; float:right; position:relative; width:110px; margin:-20px 0px 12px 12px; " class="tinyText style_SkipStroke_3 inline-block stroke_0" ><img src="https://static.igem.org/mediawiki/2011/6/61/Scientist_Kluyver.png" alt="" style="border-width:initial; border-top-color:#000000; border-right-color:#000000; border-bottom-color:#000000; border-left-color:#000000; width:110px; border-style:none; " /></div></div> |
- | <p class="paragraph_style_9" >Last, but certainly not least, Albert Jan Kluyver. Kluyver was the second Professor of Microbiology at Delft, and a pupil of Iterson. Among Kluyver's achievements is his work on Unity in Biochemistry. In this work he describes that biochemical pathways are essentially similar, no matter what sort of organism. Beside this he showed that it would be wise to combine biochemical and morphological features if one identifies microorganisms. Further he also showed that one can get reproducible results with fungi by using submerged cultures rather than allowing them to develop on the surface of media.<br/></p> | + | <p class="paragraph_style_9" ><p align = right>Last, but certainly not least, Albert Jan Kluyver. Kluyver was the second Professor of Microbiology at Delft, and a pupil of Iterson. Among Kluyver's achievements is his work on Unity in Biochemistry. In this work he describes that biochemical pathways are essentially similar, no matter what sort of organism. Beside this he showed that it would be wise to combine biochemical and morphological features if one identifies microorganisms. Further he also showed that one can get reproducible results with fungi by using submerged cultures rather than allowing them to develop on the surface of media.<br/></p> |
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