EC:2.7.10.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Amino acids are important taste stimuli for a variety of animals. One animal model, the channel catfish, I. punctatus, possesses sensitive taste receptor systems for several amino acids. Neurophysiological and biochemical receptor binding studies suggest the presence of at least three receptor pathways: one is a relatively nonspecific site(s) responsive to short-chain neutral amino acids such as L-alanine (L-ALA); another is responsive to the basic amino acid L-arginine (L-ARG); still another is a low affinity site for L-proline (L-PRO). Several possible transduction pathways are available in the taste system of this animal model for these amino acids. One of these, formation of inositol trisphosphate (IP3) and cyclic AMP (cAMP), is mediated by GTP-binding regulatory proteins, while another involves ion channels directly activated by stimuli. L-ALA is a potent stimulus to cAMP and IP3 accumulation, while L-ARG at low concentrations is without effect. On the other hand, L-ARG and L-PRO, but not L-ALA, are able to activate stimulus-specific and cation-selective channels in taste epithelial membranes reconstituted in phospholipid bilayers at the tips of patch pipettes. Preliminary studies using mouse taste tissue demonstrate that monosodium-L-glutamate (MSG) did not enhance production of IP3 or cAMP. However, in reconstitution experiments using taste epithelium of mouse, conductance changes due to MSG are observed. The specificity of this channel(s) and its uniqueness have yet to be determined.
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PMID:Transduction mechanisms for the taste of amino acids. 167 59

The specificity of amino acid binding sites in a sedimentable fraction prepared from catfish taste epithelium was examined. Using seven 3H-labeled amino acids as ligands and the unlabeled amino acids in binding competition assays, the presence of possibly three classes of amino acid binding sites was deduced. Site 1 binds L-THR, L-SER, L-ALA and possibly D-ALA and beta-ALA, Site 2 binds L-SER, L-ALA, GLY, D-ALA, and beta-ALA and Site 3 binds L-ARG and L-LYS. Additional evidence supporting the specificity of Site 2 was obtained from the specificity of enhancement of L-ALA binding. The results demonstrate the presence of some major classes of taste receptor sites, and provide a basis for understanding taste receptor specificity at the biochemical level.
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PMID:Biochemical studies of taste sensation--XII. Specificity of binding of taste ligands to a sedimentable fraction from catfish taste tissue. 287 41

Previous work (1,2,3) has indicated that the in vivo post-translational modification of the alpha crystallin primary gene product A2 is due to a specific phosphorylation process involving a serine residue located in a chymotryptic fragment with the sequence ARG-LEU-PRO-SER-ASN-VAL-ASP-GLN-SER-ALA-LEU which corresponds to the residues 119 to 129 of the polypeptide chain. To define which of the two serines is phosphorylated, the present experiments were carried out. The 32P-labeled chymotryptic fragment was obtained from alpha crystallin isolated from the outer cortex of calf lenses incubated in the presence of [32P]-orthophosphate. By analyses of the products obtained after Edman degradation, utilizing electrophoresis in cellulose TLC plates and radioautography, it was possible to locate the phosphate in the serine residue at position 122 in the polypeptide chain. No phosphate could be detected in the serine residue at position 127.
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PMID:Identification of the specific phosphorylated serine in the bovine alpha crystallin A1 chain. 310 7

Bilateral injections of 15 and 45 mcg of synthetic analogue of TYR-D-ALA-LEY-Enkefaline-ARG into the body of the caudate nuclei in dogs produced a manifested increase in parameters of Pavlovian alimentary conditioned reflexes. Moreover, the dose of 15 mcg of LEY-enkefaline enhanced the background salivation and prolonged food consumption. Excited dogs became calm. During analogous injections into the right lateral hypothalamus the effect diminished while injections of 15 mcg of morphine hydrochloride were ineffective. The data point to role of the enkefaline-containing system in alimentary behaviour.
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PMID:[Role of enkephalin-reactive system of the caudate nucleus in acquisition of alimentary conditioned reflex in dogs]. 629 82

Tyrosine protein kinase activity has been estimated in purified testicular cells with the synthetic peptide substrate NH2-GLU-ASP-ALA-GLU-TYR-ALA-ALA-ARG-ARG-ARG-GLY-COOH. High levels of enzyme specific activity (56-165 pmol/mg/min) were found in the two populations of Leydig cells isolated by Metrizamide gradient centrifugation. Some activity was also detected in germinal cells, red cells and seminiferous tubules from testis but at levels 6-20 times lower than those found in the Leydig cell fractions. Higher levels of tyrosine protein kinase specific activity were found in population I than in population II Leydig cells.
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PMID:Tyrosine protein kinase activity in purified rat Leydig cells. 668 33

A lot of over 60 atherosclerotics with clinical manifestations of senile depressive illness was studied comparatively with a lot of subjects of the same age with essential arterial hypertension (EAH). As concerns the behaviour of the catecholamine content in CSF and blood, the total catecholamines are approxiately equal in the two lots, but with a clear difference of the catecholamine fractions. The CSF catecholamines behaviour in old atherosclerotics is characterized by the presence of increased values of noradrenaline (NA) and of adrenaline (A), with increased statistical significance, but without modifications of the adrenaline percentage (A %) from the total catecholamines, comparatively to the values found in normal subjects. The serotonin (5-HT) content of the CSF in men with atherosclerotic senile depressive illness was lower even than in subjects with coronary atherosclerosis. In atherosclerosis protides modifications precede the histologic changes. In CSF, GLU, ALA, TYR increase in old subjects. In blood, GLU, ALA, TYR, HIS, LEU, SER increase in the same subjects. ARG decreases with age. THR is higher in men than in women. In the urine of all the men as well as of all the women of more than 60 years, GLN and ALA have increased values. LYS increases with age. GLN and ARG are higher in men than in women.
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PMID:Pattern of the cerebrospinal fluid (CSF) and blood biogenic amines and of the CSF, blood and urine amino acids as pathogenetic ground of the senile depressive illness. 677 91

Structural distributions of each amino acid were compared between 20 pairs of thermophilic and mesophilic proteins to obtain thermostable factors. Five kinds of residual structure states such as fully-exposed, exposed, partially exposed (or partially buried), buried, well-buried states were considered for analyzing the structural patterns of amino acids. The statistical tests revealed that lower frequency in partially exposed state of SER, lower frequency in exposed state and higher frequency in well-buried state of ALA, higher frequency in buried state of GLU, higher frequency in exposed state of ARG, etc. could be critical factors related with protein thermostability.
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PMID:Protein thermostability: structure-based difference of amino acid between thermophilic and mesophilic proteins. 1524 63

Impaired glucose uptake and metabolism by peripheral tissues is a common feature in both type I and type II diabetes mellitus. This phenomenon was examined in the context of oxidative stress and the early events within the insulin signalling pathway using soleus muscles derived from non-obese, insulin-resistant type II diabetic Goto-Kakizaki (GK) rats, a well-known genetic rat model for human type II diabetes. Insulin-stimulated glucose transport was impaired in soleus muscle from GK rats. Oxidative and non-oxidative glucose disposal pathways represented by glucose oxidation and glycogen synthesis in soleus muscles of GK rats appear to be resistant to the action of insulin when compared to their corresponding control values. These diabetes-related abnormalities in glucose disposal were associated with a marked diminution in the insulin-mediated enhancement of protein kinase B (Akt/PKB) and insulin receptor substrate-1 (IRS-1)-associated phosphatidylinostol 3-kinase (PI 3-kinase) activities; these two kinases are key elements in the insulin signalling pathway. Moreover, heightened state of oxidative stress, as indicated by protein bound carbonyl content, was evident in soleus muscle of GK diabetic rats. Chronic administration of the hydrophobic/hydrophilic antioxidant alpha -lipoic-acid (ALA, 100 mg/kg, i.p.) partly ameliorated the diabetes-related deficit in glucose metabolism, protein oxidation as well as the activation by insulin of the various steps of the insulin signalling pathway, including the enzymes Akt/PKB and PI-3 kinase. Overall, the current investigation illuminates the concept that oxidative stress may indeed be involved in the pathogenesis of certain types of insulin resistance. It also harmonizes with the notion of including potent antioxidants such as ALA in the armamentarium of antidiabetic therapy.
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PMID:Alpha-lipoic acid mitigates insulin resistance in Goto-Kakizaki rats. 1532 64

An angle Omega is defined to serve as a metric for global side-chain orientations, which reflects the orientation of the side chain relative to the radial vector from the center of the protein to an amino acid. The side-chain orientations of buried residues exhibit characteristically different orientations than do exposed residues, in both monomeric and dimeric structures. Overall, buried side chains point mostly inward, whereas surface side chains tend to point outward from the surface. This difference in behavior also correlates well with the residue hydrophobicity; so a global side-chain orientation can be viewed as a direct structural manifestation of hydrophobicity. When various solvent-accessible layers are considered, the behavior is relatively continuous between centrally located and exposed residues. In the case of interfacial residues between subunits, there are statistically significant differences between exposed residues and interface residues for ALA, ARG, ASN, ASP, GLU, HIS, LYS, THR, VAL, MET, PRO, and overall the interface residues have an increased tendency to point inward. Presumably, these substantial differences in orientations of side chains may be a manifestation of hydrophobic forces.
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PMID:How do side chains orient globally in protein structures? 1615 44

ZnS nanocrystal, a class of wide-gap semiconductors, has shown interesting optical, electrical, and optoelectric properties via quantum confinement. For those applications, phase controls of ZnS nanocrystals and nanowires were critical to tune their physical properties to the appropriate ones. The wurtzite ZnS nanocrystal growth at room temperature is the useful fabrication; however, the most stable ZnS structure in nanoscale is the zinc blende (cubic) structure, and scientists have just begun exploring the room-temperature synthesis of the wurtzite (hexagonal) structure of ZnS nanocrystals. In this report, we applied the Zn finger-like peptides as templates to control the phase of ZnS nanocrystals to the wurtzite structure at room temperature. The peptide nanotubes, consisting of a 20 amino acids (VAL-CYS-ALA-THR-CYS-GLU-GLN-ILE-ALA-ASP-SER-GLN-HIS-ARG-SER-HIS-ARG-GLN-MET-VAL, M1 peptide) synthesized based on the peptide motif of the Influenza Virus Matrix Protein M1, could grow the wurtzite ZnS nanocrystals on the nanotube templates in solution. In the M1 protein, the unfolding process of the helical peptide motif via pH change creates a linker region between N- and C-terminated helical domains that contains a Zn finger-like Cys2His2 motif. Because the higher pH increases the uptake of Zn ions in the Cys2His2 motif of the M1 peptide by unfolding more helical domains, the pH change can essentially control the size and the number of the nucleation sites in the M1 peptides to grow ZnS nanocrystals with desired phases. Here we optimized the nucleation sites in the M1 peptides by unfolding them via pH change to obtain highly monodisperse and crystalline wurtzite ZnS nanocrystals on the template nanotubes at room temperature. This type of peptide-induced biomineralization technique will provide a clean and reproducible method to produce semiconductor nanotubes due to its efficient nanocrystal formation, and the band gaps of resulting nanotubes can also be tuned simply by phase control of ZnS nanocrystal coatings via the optimization of the unfolding peptide structures.
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PMID:Room-temperature Wurtzite ZnS nanocrystal growth on Zn finger-like peptide nanotubes by controlling their unfolding peptide structures. 1628 68

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