Reduction kinetics of the photo-oxidized chlorophyll a+II in the nanosecond range: Measurements of the absorption changes at 688 nm under repetitive flash excitation

The 688 nm absorption changes (ΔA₆₈₈), indicating the photochemical turnover of chlorophyll a_II (Chl a_II) have been investigated under repetitive laser flash excitation conditions in spinach chlorplasts. It was found that under steady state conditions about 50–60% of the photo-oxidized primary donor of Photosystem II (PS II), Chl a⁺_II, becomes re-reduced with a biphasic kinetics in the nanosecond time scale with half-life times of about 50 ns and 400 ns. The remaining Chl a⁺_II becomes re-reduced in the microsecond range.     

Primary and secondary structure of U2 snRNA

With the improved rapid sequencing techniques, the earlier sequence of U2 RNA of Novikoff hepatoma (Shibata et al, J. Biol. Chem. 250, 3909-3920, 1975) was reanalyzed and modified. The improved sequence of U2 RNA is 188 (or 189) nucleotides long and is in register with a characterized U2 RNA pseudogene (Denison et al, PNAS 78, 810-814, 1981) except for an 11 nucleotide sequence (nucleotides 147-157) which is absent from the pseudogene. From these results, a secondary structure of U2 RNA is proposed which is supported by the preferred cleavage sites with T1-RNase, RNase A and S1 nuclease. Isolated U2 RNA was cleaved by T1-RNase preferentially at positions 64 and 164, whereas U2 RNA in U2-snRNP was cleaved only at position 64, indicating that position 164 is protected in U2-snRNP. As with U1 RNA (Epstein et al, PNAS 78, 1562-1566, 1981) the 5'-end of isolated U2 RNA was not preferentially cleaved by T1-RNase.     

Phosphorylation of glycogen synthase I from human polymorphonuclear leukocytes

Summary Glycogen synthase I from human polymorphonuclear leukocytes was phosphorylated with cAMP dependent protein kinase, synthase kinase or phosvitin kinase prepared from these cells. Limited tryptic hydrolysis released four phosphopeptides (t-A, t-B, t-C, t-D). Subsequent α-chymotryptic hydrolysis of the trypsin resistant core released three phosphopeptides. (c-A, c-B, c-C). The kinetic changes of glycogen synthase were compared with the phosphorylation of the peptides. Equivalent kinetic changes (K_c=0.2–0.3 mM Glc-6-P) were obtained when 1 P_i/subunit was introduced by cAMP dependent protein kinase, 0.5 P_i/subunit by synthase kinase and 0.8 P_i/subunit by both kinases. Initially, cAMP dependent protein kinase phosphorylated peptides c-A and t-C in parallel and somewhat later also t-B, whereas synthase kinase initially phosphorylated only c-A. The ultimate effect of the two kinases on c-A was additive. It was concluded that the initial kinetic changes were dependent on phosphorylation of c-A, which contained two sites, one for each kinase. The same kinetic changes were induced by phosphorylation on each of the sites. In the subsequent phosphorylation the kinases, separately or together, phosphorylated peptide c-C indicating one non-specific phosphorylatable site in this peptide. The cAMP dependent protein kinase alone phosphorylated t-C maximally, whereas both kinases were required for an equal phosphorylation of t-A and t-B. It is suggested that the cAMP dependent protein kinase phosphorylated t-A and t-C, whereas the data did not allow a similar suggestion for t-B. The kinetic changes occurring during the later stages of phosphorylation were an increase in K_c for Glc. 6-P to 4–5 mM at 1.85 P_i/subunit and to 20 mM at 3.3 P_i/subunit, but the changes could not be assigned to phosphorylation of any specific peptide. Phosphorylation of the peptides t-D and c-B were insignificant, but c-B may be phosphorylated under other experimental conditions (25). The phosvitin kinase phosphorylated glycogen synthase extremely slowly to an extent of 0.8 P_i/subunit, mainly in peptide c-C. Glycogen synthase would appear without physiological importance as substrate for this kinase. Phosphorylase kinase from rabbit skeletal muscle incorporated 0.7 P_i/subunit, mainly in peptide c-A causing a decrease in RI to 0.3, which upon further incubation remained constant. The rate of decrease in RI to 0.5 was unaffected by several synthase modifiers, including Glc-6-P, but was inhibited by ADP and P_i. The rate of phosphorylation by cAMP dependent protein kinase and synthase kinase was diversely affected in different buffers, however, without affecting the ultimate phosphorylation pattern.     

Phosphorylation of glycogen synthase in a homogenate of human polymorphonuclear leukocytes

Summary Glycogen synthase I in a homogenate of human polymorphonuclear leukocytes was phosphorylated under imitated physiological conditions utilizing the endogenous protein kinases. At subsequent steps of phosphorylation the³²P-labelled synthase was purified and characterized. Limited tryptic hydrolysis of the³²P-labelled synthase released four phosphopeptides (t-A, t-B, t-C, t-D) and subsequent chymotrypsinization of the trypsin resistant core released three phosphopeptides (c-A, c-B, c-C). One P_i/subunit was incorporated within 8–10 min and 2.2 P_i/subunit within 60 min increasing the K_c for Gle-6-P to 4–6 mM. The initial phosphorylation up to 0.8 P_i/subunit occurred mainly in peptide c-A and a linear relation between ratio of independence (RI) of glycogen synthase in the interval RI 0.85 to RI 0.05 and phosphorylation of this peptide to 0.5 P_i was observed. Phosphorylation of this peptide is responsible for the decrease in ratio of independence. From experiments with inhibitors and activators, the initial phosphorylation was found predominantly catalysed by the endogenous cAMP independent synthase kinase, however, the endogenous cAMP dependent protein kinase and phosphorylase kinase also phosphorylate endogenous glycogen synthase I to a minor degree. Circumstantial evidence for a Ca-dependent synthase kinase different from phosphorylase kinase is presented. The endogenous Gle-6-P dependent glycogen synthase occurring in a homogenate of leukocytes disrupted in the presence of NaF incorporated 1.07 P_i/subunit and K_c for Glc-6-P was increased from 6–8 mM to 20 mM. From the present and previous experiments [7] a total of 8 major phosphorylatable sites have been defined, one on each of the peptides t-A, t-B, t-C, c-B and c-C and two on peptide c-A, which in addition may contain a third site for phosphorylase kinase. Assuming identical subunits, only 13 out of 32 sites are thus covalently modified at maximum phosphorylation. The operational defined synthase R (K_c for Glc-6-P 0.5 mM) and D (K_c for Glc-6-P 2–8 mM) activities correspond to synthase with about 0.8 P_i and 1.8–2.3 P_i/subunit, respectively.     

Connections of the olfactory bulb in the piranha (Serrasalmus nattereri)

Summary The connections of the olfactory bulb were studied in the piranha using the Nauta and horseradish-peroxidase methods. Three olfactory tracts project to seven terminal fields in the telencephalon and one in the diencephalon, all of them bilaterally. The contralateral olfactory bulb also receives a small input. All contralateral projections decussate in the anterior commissure and are relatively weak compared to the ipsilateral projections. HRP-containing cells were found in all of the ipsilateral telencephalic aggregates receiving an olfactory tract projection; the contralateral side was free of labeled cell bodies. Although only about one fourth of the entire telencephalon receives a direct olfactory input, the high degree of differentiation of the olfactory system suggests that the piranha depends substantially on the sense of olfaction and that this species may be a good model for further studies on olfactory mechanisms.     

Amino terminus of the interleukin-8 receptor is a major determinant of receptor subtype specificity.

Interleukin-8 (IL-8) is a key mediator in the migration of neutrophils from the circulation to the site of inflammation in the tissue. IL-8 is secreted by many cell types in response to proinflammatory stimuli such as interleukin 1, tumor necrosis factor, and lipopolysaccharide and is a potent chemoattractant and activator of neutrophils. Neutrophil activating peptide-2 (NAP-2) and melanoma growth-stimulatory activity (MGSA/GRO) are structurally and functionally related to IL-8 and, like IL-8, bind to specific G protein-coupled receptors on neutrophils. In the present study two closely related cloned IL-8 receptor subtypes are characterized by expression of the cDNA clones in monkey kidney cells (COS-7) or chinese hamster ovary cells and analysis of their ligand binding profiles. Both receptor subtypes bind 125I-labeled IL-8 with similar high affinity, however, the F3R receptor binds IL-8 exclusively, while the 4Ab receptor binds both IL-8 and MGSA/GRO with high affinity and NAP-2 with lesser affinity. Furthermore, we demonstrate with the use of intersubtype chimeric receptors that the specificity of ligand binding to both IL-8 receptor subtypes is dictated by the heterogeneous NH2-terminal domain. The F3R receptor is representative of a restricted IL-8 receptor subtype, and 4Ab represents a nonrestricted receptor subtype. It is proposed that these subtypes be named IL-8 receptors alpha and beta, respectively.