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Transmembrane segments

Several human receptors for the neurohypophyseal hormones have been cloned and the sequences elucidated. The human V2 receptor for antidiuretic hormone presumably contains 371 amino acids and seven transmembrane segments and activates cycHc AMP (76). The oxytocin receptor is a classic G-protein-coupled type of receptor with a proposed membrane topography also involving seven transmembrane components (84). A schematic representation of the oxytocin receptor stmcture within the membrane is shown in Eigure 4 (85). [Pg.191]

Fig. 5. Schematic diagram of the presumed arrangement of the amino acid sequence for the 5-opioid receptor, showing seven putative transmembrane segments three intracellular loops, A three extracellular loops, B the extracellular N-terrninus and the intracellular C-terrninus, where (0) represents amino acid residues common to ] -, 5-, and K-receptors ( ), amino acid residues common to all three opioid receptors and other neuropeptide receptors and (O), other amino acids. Branches on the N-terruinal region indicate possible glycosylation sites, whereas P symbols in the C-terminal region indicate... Fig. 5. Schematic diagram of the presumed arrangement of the amino acid sequence for the 5-opioid receptor, showing seven putative transmembrane segments three intracellular loops, A three extracellular loops, B the extracellular N-terrninus and the intracellular C-terrninus, where (0) represents amino acid residues common to ] -, 5-, and K-receptors ( ), amino acid residues common to all three opioid receptors and other neuropeptide receptors and (O), other amino acids. Branches on the N-terruinal region indicate possible glycosylation sites, whereas P symbols in the C-terminal region indicate...
FIGURE 9.14 Glycophorin A spans the membrane of the hnman erythrocyte via a single ff-helical transmembrane segment. The C-terminns of the peptide, whose sequence is shown here, faces the cytosol of the erythrocyte the N-terminal domain is extracellnlar. Points of attachment of carbohydrate groups are indicated. [Pg.271]

These interactions involve adhesion proteins called selectins, which are found both on the rolling leukocytes and on the endothelial cells of the vascular walls. Selectins have a characteristic domain structure, consisting of an N-terminal extracellular lectin domain, a single epidermal growth factor (EGR) domain, a series of two to nine short consensus repeat (SCR) domains, a single transmembrane segment, and a short cytoplasmic domain. Lectin domains, first characterized in plants, bind carbohydrates... [Pg.283]

M FIGURE 10.14 The arrangement of Ca -ATPase in the sarcoplasmic reticulum membrane. Ten transmembrane segments are postulated on the basis of hydropathy analysis. [Pg.305]

FIGURE 10.23 The folding of halorhodopsin with the transmembrane segments indicated. The only lysine residue in the protein is Lys , to which the retinal chromophore is covalently linked. [Pg.310]

FIGURE 10.28 A model for the arrangement of the porin PhoE in the outer membrane of E. coli. The transmembrane segments are strands of /3-sheet. [Pg.314]

Several nonconventional cadherins that contain cadherin repeats have been described but they have specific features not found in the classical cadherins [1]. The cadherin Flamingo, originally detected in Drosophila, contains seven transmembrane segments and in this respect resembles G protein-coupled receptors. The extracellular domain of Flamingo and its mammalian homologs is composed of cadherin repeats as well as EGF-like and laminin motifs. The seven transmembrane span cadherins have a role in homotypic cell interactions and in the establishment of cell polarity. The FAT-related cadherins are characterized by a large number of cadherin repeats (34 in FAT and 27 in dachsous). Their cytoplasmic domains can bind to catenins. T- (=truncated-)cadherin differs from other cadherins in that it has no transmembrane domain but is attached to the cell membrane via a glycosylpho-sphatidylinositol anchor. [Pg.307]

This minimal K+ channel (MinK) encoded by KCNEl consists of 130 amino acid residues and has a single transmembrane segment. A slowly activating K+ current-induced MinK cRNA is expressed in Xenopus oocytes. Coexpression of KvLQTl with MinK induced a current that has characteristics similar to cardiac slowly activating delayed-rectifier K+ current, DCS, in contrast to DCR that has relative fast activation and is composed of hERG/MiRPl. [Pg.775]

The nAChR is comprised of five subunits, each of which spans the lipid bilayer to create a water-filled pore or channel (Fig. la). Each subunit consists of four transmembrane segments, the second transmembrane segment (M2) lines the ion channel (Fig. lb). The extracellular N-terminal domain of every subunit... [Pg.852]

Figure 41-17. Diagram of the structure of the CFTR protein (not to scale). The protein contains twelve transmembrane segments (probably helical), two nucleotide-binding folds or domains (NBFl and NBF2), and one regulatory (R) domain. NBFl and NBF2 probably bind ATP and couple its hydrolysis to transport of Cl . Phe 508, the major locus of mutations in cystic fibrosis, is located in NBFl. Figure 41-17. Diagram of the structure of the CFTR protein (not to scale). The protein contains twelve transmembrane segments (probably helical), two nucleotide-binding folds or domains (NBFl and NBF2), and one regulatory (R) domain. NBFl and NBF2 probably bind ATP and couple its hydrolysis to transport of Cl . Phe 508, the major locus of mutations in cystic fibrosis, is located in NBFl.
Figure 48-15. Simplified scheme of the causation of achondroplasia (MIM 100800). In most cases studied so far, the mutation has been a G to A transition at nucleotide 1138. In a few cases, the mutation was a G to C transversion at the same nucleotide. This particular nucleotide is a real "hot spot" for mutation. Both mutations result in replacement of a Gly residue by an Arg residue in the transmembrane segment of the receptor. A few cases involving replacement of Gly by Cys at codon 375 have also been reported. Figure 48-15. Simplified scheme of the causation of achondroplasia (MIM 100800). In most cases studied so far, the mutation has been a G to A transition at nucleotide 1138. In a few cases, the mutation was a G to C transversion at the same nucleotide. This particular nucleotide is a real "hot spot" for mutation. Both mutations result in replacement of a Gly residue by an Arg residue in the transmembrane segment of the receptor. A few cases involving replacement of Gly by Cys at codon 375 have also been reported.
Figure 8.6 Schematic diagram of the proposed structure of the vesicular monoamine transporter. There are 12 transmembrane segments with both the N- and C-termini projecting towards the neuronal cytosol. (Based on Schuldiner 1998)... Figure 8.6 Schematic diagram of the proposed structure of the vesicular monoamine transporter. There are 12 transmembrane segments with both the N- and C-termini projecting towards the neuronal cytosol. (Based on Schuldiner 1998)...
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See also in sourсe #XX -- [ Pg.161 ]

See also in sourсe #XX -- [ Pg.351 ]



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