This is the C-terminal domain, also known as the beta domain, of Rubsico Assembly Chaperone protein (Raf1). Raf1 is necessary for rubisco to catalyze the rate-limiting step of carbon fixation through carboxylating the five-carbon sugar substrate rib ...
This is the C-terminal domain, also known as the beta domain, of Rubsico Assembly Chaperone protein (Raf1). Raf1 is necessary for rubisco to catalyze the rate-limiting step of carbon fixation through carboxylating the five-carbon sugar substrate ribulose-1,5-bisphosphate. The beta domains primary function is dimerization, which is critical for Raf1 to achieve the necessary avidity for complex formation with RbcL (the large complex sub-unbit of Rubsico) assembly intermediates. The beta domain is also involved, to a small extent, in binding to RbcL with use of the lustiness near the beta domain's conserved top surface [1].
This is helix turn helix domain found in alpha helical region of Rubisco accumulation factor1 (Raf1). Raf1 from Arabidopsis thaliana consists of an N-terminal alpha-domain, a flexible linker segment and a C-terminal beta-sheet domain that mediates di ...
This is helix turn helix domain found in alpha helical region of Rubisco accumulation factor1 (Raf1). Raf1 from Arabidopsis thaliana consists of an N-terminal alpha-domain, a flexible linker segment and a C-terminal beta-sheet domain that mediates dimerization. The alpha-domains mediate the majority of functionally important contacts with RbcL (Rubisco large subunits) by bracketing each RbcL dimer at the top and bottom. The alpha-domain alone is essentially inactive [1].
This is the N-terminal alpha helical domain found in Rubisco accumulation factor1 (Raf1). Raf1 from Arabidopsis thaliana consists of an N-terminal alpha-domain, a flexible linker segment and a C-terminal beta-sheet domain that mediates dimerization. ...
This is the N-terminal alpha helical domain found in Rubisco accumulation factor1 (Raf1). Raf1 from Arabidopsis thaliana consists of an N-terminal alpha-domain, a flexible linker segment and a C-terminal beta-sheet domain that mediates dimerization. The alpha-domains mediate the majority of functionally important contacts with RbcL (Rubisco large subunits) by bracketing each RbcL dimer at the top and bottom. The alpha-domain alone is essentially inactive [1].
This domain is found in the chloroplastic Protein BUNDLE SHEATH DEFECTIVE 2 (BSD2) from Arabidopsis thaliana and related proteins. BSD2 is a chloroplast chaperone required for RuBisCo biogenesis and translational regulation of the RuBisCo large subun ...
This domain is found in the chloroplastic Protein BUNDLE SHEATH DEFECTIVE 2 (BSD2) from Arabidopsis thaliana and related proteins. BSD2 is a chloroplast chaperone required for RuBisCo biogenesis and translational regulation of the RuBisCo large subunit [1]. It has a role in stabilizing an end-state assembly intermediate of eight RuBisCo large subunits until the small subunits become available. The structure of this domain has been determined and it has a hairpin architecture arranged around two Zn atoms, each coordinated by four cysteines [1]. Members with this domain contain a highly conserved CxxCxGxG sequence motif.
