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From Proteopedia
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='''Cholix Toxin from ''Vibrio cholerae'''''= | ='''Cholix Toxin from ''Vibrio cholerae'''''= | ||
| - | == Introduction == | + | == '''Introduction''' == |
'''Cholix toxin''' (CT) are a class of protein toxin originating from the bacteria [http://en.wikipedia.org/wiki/Vibrio_cholerae ''Vibrio cholerae'']. It is the third memeber of eEF2-specific ADP-ribosyltransferase toxins. The toxin uses ADP-riboyltransferase to inactivate eukaryotic elongation factor 2 by transferring ADP-ribose from NAD+ which inhibits protein synthesis and causes cell death. This protein toxin has been known to cause disease in both plants and animals. Specifically, the toxin can cause the disease [http://en.wikipedia.org/wiki/Cholera Cholera]. It enters eukaryotic cells through [http://en.wikipedia.org/wiki/Endocytosis endocytosis]. Once inside, the toxin transfers an ADP-ribose group to an Arg residue of the GTP binding protein G. This then activates [http://en.wikipedia.org/wiki/Adenylate_cyclase adenylate cyclase] which leads to an increase amount of [http://en.wikipedia.org/wiki/Cyclic_adenosine_monophosphate cAMP], causing a secretion of Cl-,HCO3-, and water from epithelial cells from the site of colonization. The result is dehydration and loss of electrolytes in mammals. Cholix toxins are composed of a receptor binding, translocation, and catalytic domain. | '''Cholix toxin''' (CT) are a class of protein toxin originating from the bacteria [http://en.wikipedia.org/wiki/Vibrio_cholerae ''Vibrio cholerae'']. It is the third memeber of eEF2-specific ADP-ribosyltransferase toxins. The toxin uses ADP-riboyltransferase to inactivate eukaryotic elongation factor 2 by transferring ADP-ribose from NAD+ which inhibits protein synthesis and causes cell death. This protein toxin has been known to cause disease in both plants and animals. Specifically, the toxin can cause the disease [http://en.wikipedia.org/wiki/Cholera Cholera]. It enters eukaryotic cells through [http://en.wikipedia.org/wiki/Endocytosis endocytosis]. Once inside, the toxin transfers an ADP-ribose group to an Arg residue of the GTP binding protein G. This then activates [http://en.wikipedia.org/wiki/Adenylate_cyclase adenylate cyclase] which leads to an increase amount of [http://en.wikipedia.org/wiki/Cyclic_adenosine_monophosphate cAMP], causing a secretion of Cl-,HCO3-, and water from epithelial cells from the site of colonization. The result is dehydration and loss of electrolytes in mammals. Cholix toxins are composed of a receptor binding, translocation, and catalytic domain. | ||
| - | == Structure == | + | == '''Structure''' == |
To observe the structure, the Cholix Toxin was crystallized by vapor diffusion against reservoirs containing 23% polyethlene gylcol-10,000, 7.5% ethylene glycol, and 0.1 m HERPES. In addition, the reservoirs were kept at a of pH 7.5 and at a temperature of 19°C. About 40 µL of reservior solution containg 1.25 mM NAD+ solution was added to a 2 µL crystal containing group. The NAD+ was allowed to soak into the crystals for approximately 2-3 minutes. The crystals were then transferred to paratone-N for visualization. | To observe the structure, the Cholix Toxin was crystallized by vapor diffusion against reservoirs containing 23% polyethlene gylcol-10,000, 7.5% ethylene glycol, and 0.1 m HERPES. In addition, the reservoirs were kept at a of pH 7.5 and at a temperature of 19°C. About 40 µL of reservior solution containg 1.25 mM NAD+ solution was added to a 2 µL crystal containing group. The NAD+ was allowed to soak into the crystals for approximately 2-3 minutes. The crystals were then transferred to paratone-N for visualization. | ||
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<Structure load='2q5t' size='500' frame='true' align='center' caption='Protein Structure of Cholix Toxin' scene='Insert optional scene name here' /> | <Structure load='2q5t' size='500' frame='true' align='center' caption='Protein Structure of Cholix Toxin' scene='Insert optional scene name here' /> | ||
| - | == Mechanism of Action == | + | == '''Mechanism of Action''' == |
The mechanism for the cholix toxin occurs as follows: | The mechanism for the cholix toxin occurs as follows: | ||
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[[Image:Cholix Toxin 1.JPG | center | thumb | 400px]] [[Image:Cholix Toxin.jpg | center | thumb | 460px]] | [[Image:Cholix Toxin 1.JPG | center | thumb | 400px]] [[Image:Cholix Toxin.jpg | center | thumb | 460px]] | ||
| - | == Diseases == | + | == '''Diseases''' == |
| - | == References == | + | == '''References''' == |
1. The 1.8A Cholix Toxin Crystal Structure in Complex with NAD+ and Evidence for a New Kinetic Model | 1. The 1.8A Cholix Toxin Crystal Structure in Complex with NAD+ and Evidence for a New Kinetic Model | ||
Revision as of 19:12, 2 May 2012
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Cholix Toxin from Vibrio choleraeIntroductionCholix toxin (CT) are a class of protein toxin originating from the bacteria Vibrio cholerae. It is the third memeber of eEF2-specific ADP-ribosyltransferase toxins. The toxin uses ADP-riboyltransferase to inactivate eukaryotic elongation factor 2 by transferring ADP-ribose from NAD+ which inhibits protein synthesis and causes cell death. This protein toxin has been known to cause disease in both plants and animals. Specifically, the toxin can cause the disease Cholera. It enters eukaryotic cells through endocytosis. Once inside, the toxin transfers an ADP-ribose group to an Arg residue of the GTP binding protein G. This then activates adenylate cyclase which leads to an increase amount of cAMP, causing a secretion of Cl-,HCO3-, and water from epithelial cells from the site of colonization. The result is dehydration and loss of electrolytes in mammals. Cholix toxins are composed of a receptor binding, translocation, and catalytic domain. StructureTo observe the structure, the Cholix Toxin was crystallized by vapor diffusion against reservoirs containing 23% polyethlene gylcol-10,000, 7.5% ethylene glycol, and 0.1 m HERPES. In addition, the reservoirs were kept at a of pH 7.5 and at a temperature of 19°C. About 40 µL of reservior solution containg 1.25 mM NAD+ solution was added to a 2 µL crystal containing group. The NAD+ was allowed to soak into the crystals for approximately 2-3 minutes. The crystals were then transferred to paratone-N for visualization. The sequence of the Cholix Toxin is 666 amino acids in length. It contains a total of four disulfide bonds which are located between Cys-43:Cys-47, Cys-240:Cys: 257, Cys-310:Cys-332, and Cys-426:Cys-433. The secondary structure of the Cholix Toxin consists of 11 and 4 The Cholix Toxin contains three different domains. Though it is not shown, the active site for this toxin is located at Glu-613.
Mechanism of ActionThe mechanism for the cholix toxin occurs as follows:
 Image:Cholix Toxin.jpg 460px DiseasesReferences1. The 1.8A Cholix Toxin Crystal Structure in Complex with NAD+ and Evidence for a New Kinetic Model |
