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1.
Kainate receptors (KARs) are a class of ionotropic glutamate receptors that are expressed throughout the central nervous system. The function and subcellular localization of KARs are tightly regulated by accessory proteins. We have previously identified the single-pass transmembrane proteins, Neto1 and Neto2, to be associated with native KARs. In the hippocampus, Neto1, but not Neto2, controls the abundance and modulates the kinetics of postsynaptic KARs. Here we evaluated whether Neto2 regulates synaptic KAR levels in the cerebellum where Neto1 expression is limited to the deep cerebellar nuclei. In the cerebellum, where Neto2 is present abundantly, we found a ∼40% decrease in GluK2-KARs at the postsynaptic density (PSD) of Neto2-null mice. No change, however, was observed in total level of GluK2-KARs, thereby suggesting a critical role of Neto2 on the synaptic localization of cerebellar KARs. The presence of a putative class II PDZ binding motif on Neto2 led us to also investigate whether it interacts with PDZ domain-containing proteins previously implicated in regulating synaptic abundance of KARs. We identified a PDZ-dependent interaction between Neto2 and the scaffolding protein GRIP. Furthermore, coexpression of Neto2 significantly increased the amount of GRIP associated with GluK2, suggesting that Neto2 may promote and/or stabilize GluK2:GRIP interactions. Our results demonstrate that Neto2, like Neto1, is an important auxiliary protein for modulating the synaptic levels of KARs. Moreover, we propose that the interactions of Neto1/2 with various scaffolding proteins is a critical mechanism by which KARs are stabilized at diverse synapses. 相似文献
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Quantification of the importance of individual steps in the control of aromatic amino acid metabolism. 总被引:7,自引:4,他引:3 下载免费PDF全文
The quantitative importance of the individual steps of aromatic amino acid metabolism in rat liver was determined by calculation of the respective Control Coefficients (Strengths). The Control Coefficient of tryptophan 2,3-dioxygenase for tryptophan degradation was determined in a variety of physiological conditions and with a range of activities of tryptophan 2,3-dioxygenase. The Control Coefficient varied from 0.75 with basal enzyme activity to 0.25 after maximal induction of the enzyme by dexamethasone. The remainder of the control for tryptophan degradation was associated with the transport of the amino acid across the plasma membrane, with only very small contributions from kynureninase and kynurenine hydroxylase. The Control Coefficients of tyrosine aminotransferase for tyrosine degradation were approx. 0.70 and 0.20 with basal and dexamethasone-induced tyrosine aminotransferase activities respectively; the Control Coefficients of the transport of the amino acid into the cell were 0.22 and 0.58 respectively. Phenylalanine hydroxylase was found to have a Control Coefficient for the degradation of phenylalanine of approx. 0.50 under conditions of basal enzyme activity; after maximal activation by glucagon, the Control Coefficient decreased to 0.12. The transport of phenylalanine was responsible for the remaining control in the pathway. These results have important implications, directly for the regulation of aromatic amino acid metabolism in the liver, and indirectly for the regulation of neuroamine synthesis in the brain. 相似文献
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L K MacLachlan D G Reid R C Mitchell C J Salter S J Smith 《The Journal of biological chemistry》1990,265(17):9764-9770
Stopped-flow fluorescence kinetic measurements, circular dichroism (CD), and 1H nuclear magnetic resonance (NMR) spectroscopy at 360 MHz have been used to study the interaction of the calcium-channel blocker and calmodulin antagonist bepridil with cardiac troponin C (cTnC) in the presence of calcium. The kinetic data show that bepridil reduces the rate of calcium release only from the low affinity, calcium-specific site and not from the two high affinity calcium/magnesium sites. CD measurements indicate that drug binding leads to a small increase in the alpha-helical content of the complex. 1H NMR shows that the protein binds one equivalent of bepridil, with a dissociation constant of approximately 20 microM, only when the low affinity calcium site is occupied. Exchange is fast or intermediate on the chemical shift time scale. Drug binding is shown to be largely localized in the N-terminal domain, containing the low affinity calcium site, by observing the shifting and broadening of several resonances associated with that domain. These include assigned aromatic signals together with methionyl and other methyl signals. Observation of intermolecular nuclear Overhauser effects was precluded by extensive spectral overlap. Consideration of the data from the three techniques permitted a model of the bepridil-cTnC complex to be constructed, using the model of cTnC derived from the x-ray structure of calmodulin (MacLachlan L. K., Reid, D. G., and Carter, N. (1990) J. Biol. Chem. 265, 9754-9763). Binding of bepridil to a prominent hydrophobic depression in the N-terminal domain can be invoked to explain many of the induced changes in the spectral and kinetic properties of the protein. The implications of the model for the calcium sensitizing action of bepridil are discussed. 相似文献
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HLA-B51 and HLA-Bw52 differ by only two amino acids which are in the helical region of the alpha 1 domain 总被引:5,自引:0,他引:5
H Hayashi P D Ennis H Ariga R D Salter P Parham K Kano M Takiguchi 《Journal of immunology (Baltimore, Md. : 1950)》1989,142(1):306-311
Genes encoding the serologically cross-reactive HLA-B51 and HLA-Bw52 molecules were isolated and the exons sequenced. HLA-B51 genes obtained from Caucasian and Oriental individuals were identical. HLA-Bw52 differs from HLA-B51 by four nucleotide substitutions in exon 2 encoding the alpha 1 domain. These comprise one isolated silent substitution in codon 23 and a cluster of three coding substitutions in codons 63 and 67. Amino acid substitutions of N----E at position 63 and F----S at position 67 are the only differences between HLA-B51 and HLA-Bw52 and these residues are postulated to form HLA-B51 specific epitopes. HLA-B51 could have been formed from HLA-Bw52 by the combination of a genetic exchange with HLA-B8 and a point mutation. Similarity of HLA-B51 and HLA-Bw52 with HLA-Bw58 suggest they also share a common ancestor. 相似文献
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Russell D. Salter 《Immunogenetics》1994,39(4):266-271
Intracellular transport of class I MHC complexes is dependent on assembly of class I heavy chains with 2-microglobulin (2m) and peptides. This suggests that amino acid residues of individual class I molecules which are important for their stability and transport are likely to include those which contribute to binding of a majority of the cleft-associated peptides. To identify such critical residues, substitutions at polymorphic positions within the peptide binding cleft were introduced into a mutant HLA-A*0201 molecule bearing an additional gly>lys substitution at position 242 (242K). The 242K mutation weakens association of the HLA-A*201 heavy chain with 2m and was used to enhance potential effects of substitutions in the peptide binding groove on class I stability. Critical in choosing which binding cleft positions to mutate was the observation that HLA-A*6801 was less sensitive to the effects of 242K mutation than HLA-A*0201 and A*6901. This suggested that one or more of the six residues in the 2 domain differing between HLA-A*6901 and A*6801 were likely to affect class I complex stability. Positions 95, 97, 107, 114, 116, and 156 in either 242K or wild-type HLA-A*0201 molecules were therefore each converted to those residues found in HLA-A*6801. One of the second-site substitutions, arg>met at position 97, increased stability and restored surface expression of the 242K molecule. Five other substitutions either had no additional effect or further impaired 242K stability. Substitution of his>arg at position 114 blocked surface expression of both 242K and wild-type HLA-A*0201 molecules. These results demonstrate that polymorphic residues in the binding cleft influence the stability of class I complexes, and suggest that position 97 plays a critical role in stabilizing class I molecules for transport. 相似文献
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Litman GW; Rast JP; Shamblott MJ; Haire RN; Hulst M; Roess W; Litman RT; Hinds- Frey KR; Zilch A; Amemiya CT 《Molecular biology and evolution》1993,10(1):60-72
Immunoglobulins are encoded by a large multigene system that undergoes
somatic rearrangement and additional genetic change during the development
of immunoglobulin-producing cells. Inducible antibody and antibody-like
responses are found in all vertebrates. However, immunoglobulin possessing
disulfide-bonded heavy and light chains and domain-type organization has
been described only in representatives of the jawed vertebrates. High
degrees of nucleotide and predicted amino acid sequence identity are
evident when the segmental elements that constitute the immunoglobulin gene
loci in phylogenetically divergent vertebrates are compared. However, the
organization of gene loci and the manner in which the independent elements
recombine (and diversify) vary markedly among different taxa. One striking
pattern of gene organization is the "cluster type" that appears to be
restricted to the chondrichthyes (cartilaginous fishes) and limits
segmental rearrangement to closely linked elements. This type of gene
organization is associated with both heavy- and light-chain gene loci. In
some cases, the clusters are "joined" or "partially joined" in the germ
line, in effect predetermining or partially predetermining, respectively,
the encoded specificities (the assumption being that these are expressed)
of the individual loci. By relating the sequences of transcribed gene
products to their respective germ-line genes, it is evident that, in some
cases, joined-type genes are expressed. This raises a question about the
existence and/or nature of allelic exclusion in these species. The
extensive variation in gene organization found throughout the vertebrate
species may relate directly to the role of intersegmental
(V<==>D<==>J) distances in the commitment of the individual
antibody-producing cell to a particular genetic specificity. Thus, the
evolution of this locus, perhaps more so than that of others, may reflect
the interrelationships between genetic organization and function.
相似文献
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