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Ricin
From Proteopedia
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INTRODUCTION | INTRODUCTION | ||
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Ricin is a potent cytotoxi that is synthesized in the endosperm cells of maturing Riccinus seeds(1). Ricin belongs to a small multi gene family(2) that is composed of eight members. It is also important to mention that Ricin is classified as a type II heterodimeric Ribosome Inactivatiing protein(1). | Ricin is a potent cytotoxi that is synthesized in the endosperm cells of maturing Riccinus seeds(1). Ricin belongs to a small multi gene family(2) that is composed of eight members. It is also important to mention that Ricin is classified as a type II heterodimeric Ribosome Inactivatiing protein(1). | ||
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STRUCTURE | STRUCTURE | ||
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Ricin is a heterodimer that consists of a 32,000 Dalton A chain glycoprotein linked by a disulfide bond to a 32,000 Dalton B chain glycoprotein(2). The A chain enzyme is a globular protein with extensive secondary structure and a predominate active site(2); where the B chain is a lectin(2) that binds to galactose-containing surface receptors(3). | Ricin is a heterodimer that consists of a 32,000 Dalton A chain glycoprotein linked by a disulfide bond to a 32,000 Dalton B chain glycoprotein(2). The A chain enzyme is a globular protein with extensive secondary structure and a predominate active site(2); where the B chain is a lectin(2) that binds to galactose-containing surface receptors(3). | ||
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PHYSIOLOGY | PHYSIOLOGY | ||
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The mechanism deployed by Ricin to gain entry to a host cell uses the heterogenic properties given to the toxin. Firstly the toxin arranges itself in such a way where its B chain can easily interact with the host cells receptors, and once acknowledgement happens, the B chain can fascilitate transport of the A chain into the cytoplasm(2). This association between the A and B chain is essential for toxicity(2) without it the Ricin would not be able to gain access to the cells organelles rendering it useless. Once the A chain gains entry into the cytosol its mechanism for attack of the ribosome is depurination of a single endenosine residue in 28S Ribosomal RNA(3) and this inhibits protein synthesis | The mechanism deployed by Ricin to gain entry to a host cell uses the heterogenic properties given to the toxin. Firstly the toxin arranges itself in such a way where its B chain can easily interact with the host cells receptors, and once acknowledgement happens, the B chain can fascilitate transport of the A chain into the cytoplasm(2). This association between the A and B chain is essential for toxicity(2) without it the Ricin would not be able to gain access to the cells organelles rendering it useless. Once the A chain gains entry into the cytosol its mechanism for attack of the ribosome is depurination of a single endenosine residue in 28S Ribosomal RNA(3) and this inhibits protein synthesis | ||
Revision as of 21:42, 31 March 2010
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| Please do NOT make changes to this Sandbox until after April 23, 2010. Sandboxes 151-200 are reserved until then for use by the Chemistry 307 class at UNBC taught by Prof. Andrea Gorrell. | </t
Proteopedia Page Contributors and Editors (what is this?)
Michal Harel, Ann Taylor, Joel L. Sussman, Douglas Read, Wayne Decatur, David Canner, Angel Herraez, Jaime Prilusky, Alexander Berchansky, Andrea Gorrell
