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©Si Barber. Moral rights asserted
Please credit ©Si Barber Tropic Sciences at the Innovation Centre, Norwich. Picture shows: Banana plants ready to be genome typed held by Sandra Lazauskaite.
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©Si Barber. Moral rights asserted
Please credit ©Si Barber Tropic Sciences at the Innovation Centre, Norwich. Picture shows: Coffee leaves grown from a petri dish.
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©Si Barber. Moral rights asserted
Please credit ©Si Barber Tropic Sciences at the Innovation Centre, Norwich. Picture shows: Coffee seeds grown from an embryo.
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barber-Lab-of-Molecular-Biology02.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - interior and exterior views.
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barber-Lab-of-Molecular-Biology01.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - interior and exterior views.
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The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Fruit flies growing in a test-tube
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barber-Lab-of-Molecular-Biology21.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Fruit flies growing in a test-tube
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barber-Lab-of-Molecular-Biology35.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - refrigerated Organoids or Minibrains which are tiny, self-organized three-dimensional tissue cultures that are derived from stem cells. Such cultures can be crafted to replicate much of the complexity of an organ, or to express selected aspects of it like producing only certain types of cells.
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The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Madeline Lancaster.
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barber-Lab-of-Molecular-Biology38.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Madeline Lancaster.
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barber-Lab-of-Molecular-Biology34.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - refrigerated Organoids or Minibrains which are tiny, self-organized three-dimensional tissue cultures that are derived from stem cells. Such cultures can be crafted to replicate much of the complexity of an organ, or to express selected aspects of it like producing only certain types of cells.
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barber-Lab-of-Molecular-Biology33.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - refrigerated Organoids or Minibrains which are tiny, self-organized three-dimensional tissue cultures that are derived from stem cells. Such cultures can be crafted to replicate much of the complexity of an organ, or to express selected aspects of it like producing only certain types of cells.
![](https://www.tumblr.com/widgets/share/tool?posttype=photo&canonicalUrl=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology36%2F&content=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Fstorage%2Fcache%2Fimages%2F019%2F885%2Fbarber-Lab-of-Molecular-Biology36%2Flarge.1728986416.jpg&caption=%3Cp%3E%3Cstrong%3E%3Ca href="http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology36%2F" title="barber-Lab-of-Molecular-Biology36.jpg"%3Ebarber-Lab-of-Molecular-Biology36.jpg%3C/a%3E%3C/strong%3E%3C/p%3E%3Cp%3EThe+MRC+Laboratory+of+Molecular+Biology+in+Cambridge.%0DPicture+shows+-+Organoids+or+Minibrains+which+are+tiny%2C+self-organized+three-dimensional+tissue+cultures+that+are+derived+from+stem+cells.+Such+cultures+can+be+crafted+to+replicate+much+of+the+complexity+of+an+organ%2C+or+to+express+selected+aspects+of+it+like+producing+only+certain+types+of+cells.%3C/p%3E){kind=link}
barber-Lab-of-Molecular-Biology36.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Organoids or Minibrains which are tiny, self-organized three-dimensional tissue cultures that are derived from stem cells. Such cultures can be crafted to replicate much of the complexity of an organ, or to express selected aspects of it like producing only certain types of cells.
![](https://www.tumblr.com/widgets/share/tool?posttype=photo&canonicalUrl=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology37%2F&content=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Fstorage%2Fcache%2Fimages%2F019%2F886%2Fbarber-Lab-of-Molecular-Biology37%2Flarge.1728986416.jpg&caption=%3Cp%3E%3Cstrong%3E%3Ca href="http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology37%2F" title="barber-Lab-of-Molecular-Biology37.jpg"%3Ebarber-Lab-of-Molecular-Biology37.jpg%3C/a%3E%3C/strong%3E%3C/p%3E%3Cp%3EThe+MRC+Laboratory+of+Molecular+Biology+in+Cambridge.%0DPicture+shows+-+Organoids+or+Minibrains+which+are+tiny%2C+self-organized+three-dimensional+tissue+cultures+that+are+derived+from+stem+cells.+Such+cultures+can+be+crafted+to+replicate+much+of+the+complexity+of+an+organ%2C+or+to+express+selected+aspects+of+it+like+producing+only+certain+types+of+cells.%3C/p%3E){kind=link}
barber-Lab-of-Molecular-Biology37.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Organoids or Minibrains which are tiny, self-organized three-dimensional tissue cultures that are derived from stem cells. Such cultures can be crafted to replicate much of the complexity of an organ, or to express selected aspects of it like producing only certain types of cells.
![](https://www.tumblr.com/widgets/share/tool?posttype=photo&canonicalUrl=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology32%2F&content=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Fstorage%2Fcache%2Fimages%2F019%2F881%2Fbarber-Lab-of-Molecular-Biology32%2Flarge.1728986416.jpg&caption=%3Cp%3E%3Cstrong%3E%3Ca href="http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology32%2F" title="barber-Lab-of-Molecular-Biology32.jpg"%3Ebarber-Lab-of-Molecular-Biology32.jpg%3C/a%3E%3C/strong%3E%3C/p%3E%3Cp%3EThe+MRC+Laboratory+of+Molecular+Biology+in+Cambridge.%0DPicture+shows+-+Richard+Henderson+with+an+electron+microscope.%3C/p%3E){kind=link}
barber-Lab-of-Molecular-Biology32.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Richard Henderson with an electron microscope.
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barber-Lab-of-Molecular-Biology31.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Richard Henderson with an electron microscope.
![](https://www.tumblr.com/widgets/share/tool?posttype=photo&canonicalUrl=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology30%2F&content=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Fstorage%2Fcache%2Fimages%2F019%2F879%2Fbarber-Lab-of-Molecular-Biology30%2Flarge.1728986416.jpg&caption=%3Cp%3E%3Cstrong%3E%3Ca href="http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology30%2F" title="barber-Lab-of-Molecular-Biology30.jpg"%3Ebarber-Lab-of-Molecular-Biology30.jpg%3C/a%3E%3C/strong%3E%3C/p%3E%3Cp%3EThe+MRC+Laboratory+of+Molecular+Biology+in+Cambridge.%0DPicture+shows+-+Electron+microscope.%3C/p%3E){kind=link}
barber-Lab-of-Molecular-Biology30.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Electron microscope.
![](https://www.tumblr.com/widgets/share/tool?posttype=photo&canonicalUrl=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology29%2F&content=http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Fstorage%2Fcache%2Fimages%2F019%2F878%2Fbarber-Lab-of-Molecular-Biology29%2Flarge.1728986416.jpg&caption=%3Cp%3E%3Cstrong%3E%3Ca href="http%3A%2F%2Fsibarber.ddns.net%2Farchive%2Ftags%2Fscience%2Fcontent%2Fbarber-lab-of-molecular-biology29%2F" title="barber-Lab-of-Molecular-Biology29.jpg"%3Ebarber-Lab-of-Molecular-Biology29.jpg%3C/a%3E%3C/strong%3E%3C/p%3E%3Cp%3EThe+MRC+Laboratory+of+Molecular+Biology+in+Cambridge.%0DPicture+shows+-+Electron+microscope.%3C/p%3E){kind=link}
barber-Lab-of-Molecular-Biology29.jpg
The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Electron microscope.
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The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - Richard Henderson with an electron microscope.
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The MRC Laboratory of Molecular Biology in Cambridge. Picture shows - FEI Titan Krios transmission electron microscope.