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Second class protein

Essential amino acids cannot be synthesized because the liver is deficient in at least one of the enzymes involved in the analogous plant pathway. Therefore, the carbon skeleton of the essential amino acid but not necessarily the complete amino acid must be supplied in the diet. Proteins from animal sources, e.g. meat, milk and eggs, are very effective in the support of maintenance and growth of rats and man and are classified as first-class proteins . Others, frequently from plant sources, do not contain all the essential components and are called second-class proteins . A second-class protein may lack, or contain inadequate quantities of, one or several amino acids. [Pg.200]

A second class of neuronal calcium sensors is formed by the guanylate cyclase-activating protein (GCAP). The GCAPs are expressed only in the photoreceptor cells of the retina of vertebrates. Recoverins and GCAPs have antagonistic roles in phototransduction. [Pg.293]

Protein phosphatases are classified according to their activity toward phospho-amino acids they act on (Fig. 1). Nomenclature is independent of regulation simply because stimuli were unknown. Protein phosphatases hydrolyzing O-phospho-monoesters are currently subdivided into two major classes (i) phosphatases acting on phosphoserine (pSer) and phosphothreonine (pThr), and (ii) the second class... [Pg.1012]

The H2 receptor is the second class of HA receptors. This is another G-protein-coupled receptor but, unlike the Hi receptor, the H2 receptor is coupled to adenylyl cyclase via the GTP-binding Gs protein (Hill et ah, 1997). Encoded by an intronless gene and located on human chromosome 5, the H2 receptor is made up of c. 358 amino acids (Gantz et ah, 1991 Traiffort et ah, 1995). Activation of the H2 receptor causes an accumulation of cAMP and activation of protein kinase A that eventually leads to the activation of cyclic-AMP-response element (CRE)-binding protein (CREB) (Hill et ah, 1997). In neurons, the H2 receptor mediates its excitatory effects by blocking the Ca2+-dependent K+ channel (Haas Konnerth, 1983). [Pg.154]

The second class of stable membrane anchoring motives does not rely on electrostatic interactions but supports the first (often isoprenoid) hydrophobic modification by additional thioester formation with fatty acids (eg. the H- and N-isoforms of Ras or in the a subunits of heterotrimeric G-proteins) or a second isoprenoid moiety (eg. Rab proteins).1331... [Pg.377]

The second class of dioxygen carriers is that of haemocyanins. These proteins, which contain a binuclear Cu(I) site (thus in the oxidized Cu(II) met form they belong to the so-called Type 3 copper proteins , which contain an EPR-silent dicopper active site), regulate dioxygen transport in the respiration of arthropods and molluscs. Figures 7 and 8 show... [Pg.450]

A second class of serpentine receptors are coupled through a G protein to a plasma membrane phospholipase C (PLC) that is specific for the plasma membrane lipid phosphatidylinositol 4,5-bisphosphate (see Fig. 10-15). This hormone-sensitive enzyme catalyzes the formation of two potent second messengers diacyl-glycerol and inositol 1,4,5-trisphosphate, or IP i (not to be confused with PIP3, p. 431). [Pg.442]

Random polypeptides have traditionally been synthesized by copolymerization of amino acid NCAs. Methods for the synthesis and application of random copolymers have been extensively reviewed (e.g., ref1221), and thus only a single example is given here. A second class of random polypeptides includes organized polymeric assemblies that incorporate bioactive sequences and/or structures. Such polymers have been developed for modulation of protein-ligand interactions/231 protein adsorption to surfaces/241 and cell adhesion/25-281 Several examples for the synthesis of these polymeric assemblies are provided below. [Pg.172]

The second class of iron-containing proteins which have been well-studied by Mossbauer spectroscopy, and by other resonance techniques, are the iron-sulfur proteins. These molecules are also known by the name, ferredoxins. Iron-sulfur proteins in several varieties serve as electron-transport agents for processes in plants, bacteria, and mammals. Perhaps the most-studied physiological process involving the iron-sulfur proteins is the study of their role in photosynthesis. This subject has been extensively reviewed by Arnon 126,135), Hind and Olson 127), Hall and... [Pg.19]

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See also in sourсe #XX -- [ Pg.297 ]



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Proteins, classes

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