This domain is found C-terminal in the homologues of Intraflagellar transport protein 121 (IFT121). IFT121 is a component of the IFT complex A (IFT-A), a complex required for retrograde ciliary transport and entry into cilia of G protein-coupled rece ...
This domain is found C-terminal in the homologues of Intraflagellar transport protein 121 (IFT121). IFT121 is a component of the IFT complex A (IFT-A), a complex required for retrograde ciliary transport and entry into cilia of G protein-coupled receptors. This protein plays a role in cilia assembly and maintenance [1-3]. IFT121 is predicted to contain a tandem of zinc fingers with rubredoxin-like fold. This entry represents the second rubredoxin-like zinc finger.
This zinc ribbon domain is found in the Intraflagellar transport protein 122 and related proteins. IFT122 is one of the core components (together with WDR19/IFT144 and IFT140) of the IFT-A complex which is required for retrograde ciliary transport an ...
This zinc ribbon domain is found in the Intraflagellar transport protein 122 and related proteins. IFT122 is one of the core components (together with WDR19/IFT144 and IFT140) of the IFT-A complex which is required for retrograde ciliary transport and entry into cilia of G protein-coupled receptors (GPCRs), being involved in cilia function and/or assembly [1,2]. IFT-A polymerises interacts with IFT-B, and uses an array of beta-propeller and TPR domains to create 'carriages' of the IFT train that engage TULP adaptor proteins [2]. IFT122 contains two zinc ribbon domains toward the C-terminus. This one is the first of the pair.
This zinc ribbon domain is found C-terminal in the Intraflagellar transport protein 122 and related proteins. IFT122 is one of the core components (together with WDR19/IFT144 and IFT140) of the IFT-A complex which is required for retrograde ciliary t ...
This zinc ribbon domain is found C-terminal in the Intraflagellar transport protein 122 and related proteins. IFT122 is one of the core components (together with WDR19/IFT144 and IFT140) of the IFT-A complex which is required for retrograde ciliary transport and entry into cilia of G protein-coupled receptors (GPCRs), being involved in cilia function and/or assembly [1,2]. IFT-A polymerises interacts with IFT-B, and uses an array of beta-propeller and TPR domains to create 'carriages' of the IFT train that engage TULP adaptor proteins [2]. IFT122 contains two zinc ribbon domains toward the C-terminus. This one is the second of the pair.
This domain is found in WDR19/IFT144, a component of the IFT complex A (IFT-A), which is required for retrograde ciliary transport and entry into cilia of G protein-coupled receptors. role in cilia assembly and maintenance [1-4]. WDR19/IFT144 is esse ...
This domain is found in WDR19/IFT144, a component of the IFT complex A (IFT-A), which is required for retrograde ciliary transport and entry into cilia of G protein-coupled receptors. role in cilia assembly and maintenance [1-4]. WDR19/IFT144 is essential for functional IFT-A assembly and ciliary entry of GPCRs and contains a tandem of zinc fingers with rubredoxin-like fold. This entry represents the first rubredoxin-like zinc finger [4].
This domain is found C-terminal in the homologues of Intraflagellar transport protein 121 (IFT121). IFT121 is a component of the IFT complex A (IFT-A), a complex required for retrograde ciliary transport and entry into cilia of G protein-coupled rece ...
This domain is found C-terminal in the homologues of Intraflagellar transport protein 121 (IFT121). IFT121 is a component of the IFT complex A (IFT-A), a complex required for retrograde ciliary transport and entry into cilia of G protein-coupled receptors. This protein plays a role in cilia assembly and maintenance [1-3]. IFT121 is predicted to contain a tandem of zinc fingers with rubredoxin-like fold. This entry represents the second rubredoxin-like zinc finger.
