Structural and functional analysis of the cAMP binding domain from the regulatory subunit of Mucor rouxii protein kinase A

The cAMP binding domain of the regulatory subunit (R) of Mucor rouxii protein kinase A was cloned. The deduced amino acid sequence was highly homologous in sequence and in size to the corresponding region in fungal and higher eukaryotic regulatory subunits (47-54%), but particularly homologous (62%)...

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Detalles Bibliográficos
Autores principales: Sorol, M.R., Pastori, R.L., Muro, A., Moreno, S., Rossi, S.
Formato: JOUR
Materias:
cAMP binding
Mucor rouxii
Protein sequence
amino acid
arginine
cyclic AMP
cyclic AMP dependent protein kinase
cyclic AMP derivative
hybrid protein
leucine
lysine
amino acid sequence
article
binding affinity
chemical structure
dissociation
enzyme active site
molecular model
Mucor
nonhuman
nucleotide sequence
polymerase chain reaction
priority journal
sequence homology
Amylomyces rouxii
Blastocladiella emersonii
Bovinae
Eukaryota
Fungi
Mammalia
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00039861_v382_n2_p173_Sorol
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:The cAMP binding domain of the regulatory subunit (R) of Mucor rouxii protein kinase A was cloned. The deduced amino acid sequence was highly homologous in sequence and in size to the corresponding region in fungal and higher eukaryotic regulatory subunits (47-54%), but particularly homologous (62%) to Blastocladiella emersonii, a fungus classified in a different phylum. Amino acids reported to be important for interaction with cAMP, for cooperativity between the two cAMP binding domains, in the general folding of the domain, and for interaction with the catalytic subunit were conserved in all the fungal sequences. Based on either sequence or functional behavior, the M. rouxii R subunit cannot be classified as being more similar to RI or RII of mammalian systems. The M. rouxii protein sequence was modeled using as template the coordinates of the crystallized bovine regulatory subunit type I(α). The quality of the model is good. The two backbones could be perfectly overlapped, except for two loop regions of high divergence. The α helix C of domain A, proposed to have a strong interaction with the catalytic subunit, contains a leucine replacing a basic residue (arginine or lysine) commonly found in RI or RII. The domains A and B of the M. rouxii regulatory subunit were overexpressed as fusion proteins with GST. GST domain B protein was inactive. GST domain A was active; the kinetic parameters of affinity toward cAMP analogs, site selectivity, and dissociation kinetics of bound cAMP were analogous to the properties of the domain in the whole regulatory subunit. (C) 2000 Academic Press.

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