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NYU Researchers Find Electricity in Biological Clock - 0 views

www.nyu.edu/...icity-in-biological-clock.html optE circadian clock geneexpression
shared by John McMurtry on 08 Oct 12 - No Cached
  • John McMurtry on 08 Oct 12
     
    A nice article related to rhythmic behaviour
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Invasion Biology Introduced Species Summary Project - Columbia University - 0 views

www.columbia.edu/...Euglandina_rosea.html ifttt delicious ib ecology optionG
shared by david faure on 20 Oct 12 - Cached
  • david faure on 20 Oct 12
     
    Great example of biological control becoming invasive species
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Biological clock began ticking 2.5 billion years ago - life - 16 May 2012 - New Scientist - 0 views

www.newscientist.com/...king-25-billion-years-ago.html circadian optE enzyme gene clock
shared by John McMurtry on 17 May 12 - No Cached
  • John McMurtry on 17 May 12
     
    This could be used with Opt E.6 rhythmic behaviours
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The Apple Snail (Ampullariidae) Website - 0 views

www.applesnail.net ifttt delicious ib optionE ecology invasive
shared by david faure on 17 Jun 12 - Cached
  • david faure on 17 Jun 12
     
    Interesting example of a snail which is both an invasive species and a biological control
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Biochemical Periodic Table - 0 views

umbbd.ethz.ch/periodic periodic table biochemistry
shared by david faure on 13 Jul 13 - No Cached
  • david faure on 13 Jul 13
     
    A nice periodic table with links to detailed information of biological uses of the elements in prokaryotes.
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Doing Biology - 0 views

www1.umn.edu/...contents.htm ifttt delicious biology science history cells nos ib hsw tweet
shared by david faure on 26 Aug 14 - Cached
  • david faure on 26 Aug 14
     
    This is a great collection of 17 stories about biological discoveries. They make excellent examples of the nature of science for IB.
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When a gene is worth two: Same gene fulfills different biological roles in plants - 0 views

www.sciencedaily.com/...130322154124.htm mRNA protein geneexpression transcription translation auxin
shared by John McMurtry on 24 Mar 13 - No Cached
  • John McMurtry on 24 Mar 13
     
    A really good article for one gene one polypeptide discussion, mRNA splicing, transporter proteins in membranes, auxin, stomata
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Biological Animations - Dr Malik's Biology Page - 0 views

sites.google.com/...biology-revision-websites animations biology ib
shared by david faure on 06 May 12 - No Cached
  • david faure on 06 May 12
     
    great links to different animations for lots of ib biology topics
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The Biological Clock - 0 views

template.bio.warwick.ac.uk/...circad.html ib biology resources neurobiology
shared by david faure on 06 May 12 - Cached
  • david faure on 06 May 12
     
    Amazing amount of detail about circadian rhythms - including tutorials
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SHiPS Resource Center || History of Biological membranes - 0 views

www1.umn.edu/...membrane.htm cells history membranes
shared by david faure on 01 Aug 12 - No Cached
  • david faure on 01 Aug 12
     
    A nice concise description of changes in cell membrane models
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The Immune System: In Defence of our Lives - 1 views

www.nobelprize.org/...overview biochemistry genetics hl
shared by david faure on 13 Dec 14 - No Cached
  • The Japanese scientist Susumu Tonegawa received the 1987 Nobel Prize in Physiology or Medicine for revealing the clever way in which a relatively small number of genes could create so many possible antibodies. Working in the Basel Institute of Immunology in the 1970s (which at the time was headed by Nils Jerne), he found that individual antibodies are assembled on a biological ‘production line’ from several genes. Each gene that encodes the heavy and light protein chain components are unlike regular, single genes; they are instead made up of many units, like a string of pearls. To create an antibody, one unit or 'pearl' from each component gene is selected randomly and stuck together to form the finished product. As a result of this selection and assembly process, millions of possible combinations can be produced.
  • david faure on 13 Dec 14
     
    This is a great example of how a small number of genes can make a wide range of proteins. An example of splicing the mRNA for 7.2 ?
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