Abstract
A new member of the phycocyanin family of phycobiliproteins, R-phycocyanin II (R-PC II) has been discovered in several strains of marine Synechococcus sp. R-PC II has absorption maxima at 533 and 554 nm, a subsidiary maximum at 615 nm, and a fluorescence emission maximum at 646 nm. It is the first phycoerythrobilin (PEB)-containing phycocyanin of cyanobacterial origin. The purified protein is made up of alpha and beta subunits in equal amounts and is in an (alpha beta)2 aggregation state. The alpha and beta subunits of this protein are homologous to the corresponding subunits of previously described C- and R-phycocyanins as assessed by amino-terminal sequence determination and analyses of sequences about sites of bilin attachment. R-PC II carries phycocyanobilin (PCB) at beta-84 and PEB at alpha-84 and beta-155 (residue numbering is that for C-phycocyanin), whereas in C-phycocyanin PCB is present at all three positions. In R-phycocyanin, the bilin distribution is alpha-84 (PCB), beta-84 (PCB), beta-155 (PEB). In both R-phycocyanin and R-phycocyanin II excitation at 550 nm, absorbed primarily by PEB groups, leads to emission at 625 nm from PCB. These comparative data support the conclusion that the invariant beta-84 PCB serves as the terminal energy acceptor in phycocyanins.
Highlights
A new member of the phycocyanin family of phyco- sites are strongly conserved
Native C-phycocybiliproteins, R-phycocyanin I1 (R-PC 11) has been dis- anin, R-phycocyanin, andphycoerythrocyanincross-react covered in several strainsof marine Synechococcus sp. with antisera elicited against one member of the family but
Characterization of R-PC ZZ-As shown in Fig. 4, R-PC I1 family of proteins
Summary
X-ray crystallographic studies emission maximum at 646 nm It is the first phycoe- of C-phycocyanin and phycoerythrocyanin indicate that these rythrobilin (PEB)-containing phycocyanin of cyano- proteins have very similar three-dimensional structures In at 550 nm, absorbed primarily by PEB groups, leads C- and R-phycocyanins, andin phycoerythrocyanin, fluoresto emission at 625 nm from PCB These comparative cence emission originates virtually exclusively from the PCB data support the conclusion that the invariant 8-84 groups, indicating that the energetically favored transfer of PCB serves as the terminal energy acceptor in phyco- excitation quanta from PEB and PXB to PCB groups does cyanins. $ Recipient of a predoctoral fellowshipfrom Department of Health cobiliviolin; R-PC 11, R-phycocyanin 11; TFA, trifluoroacetic acid; and Human Services Training Grant 5 T32 GM7232-09 C a-84 of green light-absorbing bilin compatible with retention of energy transfer function isa striking example of adaptation
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