CFTR

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CFTR is the name commonly given to the gene responsible for the production of the [[Cystic fibrosis|Cystic Fibrosis]] Transmembrane Regulator [[Proteins|protein]]. This [[gene|gene]], when mutated, can cause [[Cystic fibrosis|cystic fibrosis]], although it is [[Recessive gene|recessive]], whether the mutations are identical or not. So far, over 1500 mutations of the [[CFTR|CFTR]] gene have been discovered, the most common being the ∆F508 mutation, sometimes in as few as one individual.  
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CFTR is the name commonly given to the gene responsible for the production of the [[Cystic fibrosis|Cystic Fibrosis]] Transmembrane Regulator [[Proteins|protein]]. This [[Gene|gene]], when mutated, can cause [[Cystic fibrosis|cystic fibrosis]], although it is [[Recessive gene|recessive]], whether the mutations are identical or not. So far, over 1500 mutations of the [[CFTR|CFTR]] gene have been discovered, the most common being the ∆F508 mutation, sometimes in as few as one individual. Some of the other more common mutations include; ΔF508 G542X G551D N1303K and W1282X. In the ∆F508 mutation a phenylalanine residue at amino acid 508 has been deleted and so the channel is no longer functional.
  
CFTR&nbsp;is a member of the [[ABC Superfamily|ABC superfamily of]] proteins and is the only Cl<sup>-</sup> channel in this family.&nbsp;It&nbsp;is&nbsp;very&nbsp;similar to&nbsp;[[P-glycoprotein|P-glycoprotein]]. The CFTR gene was cloned in 1989.  
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CFTR&nbsp;is a member of the [[ABC Superfamily|ABC superfamily of]] proteins and is the only Cl<sup>-</sup> channel in this family.&nbsp;It&nbsp;is&nbsp;very&nbsp;similar to&nbsp;[[P-glycoprotein|P-glycoprotein]], apart from the fact th<span id="fck_dom_range_temp_1289487143677_619" /><span id="fck_dom_range_temp_1289487143677_473" />at CFTR contains a large regulatory domain (R domain).&nbsp;The CFTR gene was cloned in 1989.  
  
 
CFTR is a passive transporter and it is special in the [[ABC Superfamily|ABC superfamily]] proteins. It has got 12 transmembrane domains, with two nucleotide binding domains (NBD1 and NBD2) and a regulatory domain. The binding of [[ATP|ATP is]] essential for the function for the channel, NBD1 and NBD2 both bind [[ATP|ATP however]] only NBD2 can hydrolyse [[ATP|ATP]].
 
CFTR is a passive transporter and it is special in the [[ABC Superfamily|ABC superfamily]] proteins. It has got 12 transmembrane domains, with two nucleotide binding domains (NBD1 and NBD2) and a regulatory domain. The binding of [[ATP|ATP is]] essential for the function for the channel, NBD1 and NBD2 both bind [[ATP|ATP however]] only NBD2 can hydrolyse [[ATP|ATP]].

Revision as of 15:00, 11 November 2010

CFTR is the name commonly given to the gene responsible for the production of the Cystic Fibrosis Transmembrane Regulator protein. This gene, when mutated, can cause cystic fibrosis, although it is recessive, whether the mutations are identical or not. So far, over 1500 mutations of the CFTR gene have been discovered, the most common being the ∆F508 mutation, sometimes in as few as one individual. Some of the other more common mutations include; ΔF508 G542X G551D N1303K and W1282X. In the ∆F508 mutation a phenylalanine residue at amino acid 508 has been deleted and so the channel is no longer functional.

CFTR is a member of the ABC superfamily of proteins and is the only Cl- channel in this family. It is very similar to P-glycoprotein, apart from the fact th<span id="fck_dom_range_temp_1289487143677_619" /><span id="fck_dom_range_temp_1289487143677_473" />at CFTR contains a large regulatory domain (R domain). The CFTR gene was cloned in 1989.

CFTR is a passive transporter and it is special in the ABC superfamily proteins. It has got 12 transmembrane domains, with two nucleotide binding domains (NBD1 and NBD2) and a regulatory domain. The binding of ATP is essential for the function for the channel, NBD1 and NBD2 both bind ATP however only NBD2 can hydrolyse ATP.

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