https://teaching.ncl.ac.uk/bms/wiki//api.php?action=feedcontributions&feedformat=atom&user=180035203The School of Biomedical Sciences Wiki - User contributions [en]2026-04-14T21:27:23ZUser contributionsMediaWiki 1.44.0https://teaching.ncl.ac.uk/bms/wiki//index.php?title=Radial_spokes&diff=23077Radial spokes2018-12-06T19:57:01Z<p>180035203: </p>
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<div>&nbsp;'''Radial Spokes''' are found within the axoneme of a eukaryotic cilium or flagellum. They are inward projections coming from each of the nine outer microtubule pairs around the axoneme towards the centre doublet. They are thought to convert the sliding movement of the doublets into the bending motion of cilia and flagella that characterises their beating<ref>1. Hardin J, Bertoni G. Becker’s World of the Cell, 9th ed. Upper Saddle River NJ: Pearson. 2017</ref>.&nbsp; <br />
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1. Hardin J, Bertoni G. Becker’s World of the Cell, 9th ed. Upper Saddle River NJ: Pearson. 2017</div>180035203https://teaching.ncl.ac.uk/bms/wiki//index.php?title=Radial_spokes&diff=23076Radial spokes2018-12-06T19:56:30Z<p>180035203: Created page with "&nbsp;'''Radial Spokes''' are found within the axoneme of a eukaryotic cilium or flagellum. They are inward projections coming from each of the nine outer microtubule pairs aroun..."</p>
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<div>&nbsp;'''Radial Spokes''' are found within the axoneme of a eukaryotic cilium or flagellum. They are inward projections coming from each of the nine outer microtubule pairs around the axoneme towards the centre doublet. They are thought to convert the sliding movement of the doublets into the bending motion of cilia and flagella that characterises their beating<ref>1. Hardin J, Bertoni G. Becker’s World of the Cell, 9th ed. Upper Saddle River NJ: Pearson. 2017</ref>.&nbsp; <br />
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<br></div>180035203https://teaching.ncl.ac.uk/bms/wiki//index.php?title=Substrate&diff=23058Substrate2018-12-06T19:27:51Z<p>180035203: </p>
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<div>This is the term referred to a [[Molecule|molecule]] which an [[Enzyme|enzyme]] interacts on to form an [[Enzyme-sustrate complex|enzyme-substrate complex]], through a [[Lock and key mechanism|lock and key mechanism]] or [[Induced fit mechanism|induced fit mechanism]]. This then causes a change in the structure of the enzyme by binding or cleaving parts. The substrate is then released from the enzyme as a [[Product|product]] <ref>Alberts B, Johnson A, Lewis J, Raff M, Roberts K, Walter P. Molecular Biology of the Cell, 5th ed. New York. Garland Science. 2008</ref>. <br />
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<br></div>180035203https://teaching.ncl.ac.uk/bms/wiki//index.php?title=Substrate&diff=23057Substrate2018-12-06T19:27:04Z<p>180035203: </p>
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<div>This is the term referred to a [[Molecule|molecule]] which an [[Enzyme|enzyme]] interacts on to form an [[Enzyme-sustrate complex|enzyme-substrate complex]], through a [[Lock and key mechanism|lock and key mechanism]] or [[Induced fit mechanism|induced fit mechanism]]. This then causes a change in the structure of the enzyme by binding or cleaving parts. The substrate is then released from the enzyme as a [[Product|product]] <ref>Alberts, Molecular biology of a cell, fifth edition</ref>. <br />
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1. Alberts B, Johnson A, Lewis J, Raff M, Roberts K, Walter P.&nbsp; Molecular Biology of the Cell, 5th ed.&nbsp; New York. Garland Science. 2008<br></div>180035203https://teaching.ncl.ac.uk/bms/wiki//index.php?title=Substrate&diff=23056Substrate2018-12-06T19:26:05Z<p>180035203: </p>
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<div>This is the term referred to a [[Molecule|molecule]] which an [[Enzyme|enzyme]] interacts on to form an [[Enzyme-sustrate complex|enzyme-substrate complex]], through a [[Lock and key mechanism|lock and key mechanism]] or [[Induced fit mechanism|induced fit mechanism]]. This then causes a change in the structure of the enzyme by binding or cleaving parts. The substrate is then released from the enzyme as a [[Product|product]] <ref>Alberts, Molecular biology of a cell, fifth edition</ref>. <br />
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=== References ===<br />
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Alberts B, Johnson A, Lewis J, Raff M, Roberts K, Walter P.&nbsp; Molecular Biology of the Cell, 5th ed.&nbsp; New York. Garland Science. 2008<br></div>180035203