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Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P01350 (
gastrin
)
9,683
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In order to explore whether cortical somatosensory area 11 (SII) was involved in descending modulation of the effect of electroacupuncture (EA) on nucleus ventralis posterolateralis (VPL), the present study was designed to investigate the influence of topical application of lidocaine at SII on the EA effects in VPL nucleus. Experiments were performed on 23 adult cats anaesthetized with pentobarbital sodium (35-40 mg/kg i.p.) and immobilized with gallamine triethiodide. The single unit activities of VPL neurons were extracellularly recorded using glass microelectrodes. The results were as follows: 1. The nociceptive responses of VPL were obviously attenuated after EA at "Huantiao (
G30
)" and "Yanlingquan (
G34
)". The difference was statistically significant at 0-10 minutes after cessation of EA (n = 13, P < 0.001 or P < 0.05), then it was gradually recovered. The results showed that EA could inhibit the nociceptive responses of VPL neurons. 2. The inhibitory effect of acupuncture on nociceptive responses were reduced or abolished after topical application of lidocaine (n = 14, P > 0.05). However, it exerted marked inhibition at 0-10 minutes after cessation of EA in the saline control group (n = 14, P < 0.05). There was a statistical difference between these two groups (P < 0.05). The results showed that SII was involved in descending modulation of acupuncture effect in VPL nucleus.
...
PMID:[Corticofugal modulation of somatosensory area II on acupuncture effect in nucleus ventralis posterolateralis of the thalamus]. 133 23
Escherichia coli tRNA-guanine transglycosylase is an enzyme which catalyzes replacement of guanine (
G34
) of tRNA(Asp), tRNA(Asn), tRNA(His) and tRNA(Tyr) by free guanine or free preQ1 base by a base exchange reaction in the biosynthesis of queuosine (Q) (Okada, N., and Nishimura, S. (1979) J. Biol. Chem. 254, 3061-3066). The gene encoding for this enzyme was amplified from the E. coli genome by polymerase chain reaction and inserted into an overexpression vector, pJLA503. The enzyme was overexpressed by heat induction in E. coli transformed by this recombinant plasmid and purified to homogeneity by two column chromatographies. The sequence requirement in tRNA for recognition by this enzyme was investigated using minihelices corresponding to the anti-codon arm of E. coli tRNA(His). Two uridine residues (U33, U35) were found to be prerequisite for such recognition by this enzyme. Position 32 required pyrimidines, because the enzyme activity toward the minihelices was markedly reduced or entirely lost when this residue was replaced by purines or was deleted. Adenosine at position 37 and the
G30
-C40 base pair were not essential despite their conservation. Our results suggest that the enzyme recognizes the U33-
G34
-U35 sequence in the anti-codon loop and not the tertiary structure of tRNA itself.
...
PMID:A UGU sequence in the anticodon loop is a minimum requirement for recognition by Escherichia coli tRNA-guanine transglycosylase. 752 9
Multiple molecular dynamics trajectories of the solvated and neutralized 17-residue tRNA(Asp) anticodon hairpin were generated for a total of 3 ns. Explicit treatment of all long-ranged electrostatic interactions by the particle mesh Ewald algorithm, as implemented in the AMBER MD software package, effected a degree of structural stabilization not previously achieved by use of a long 16-A solvent interaction truncation scheme. The increased stability of this multiple molecular dynamics set was appropriate for an in-depth analysis of the six 500-ps-long trajectories and allowed the characterization of a number of key structural interactions. The dynamical behavior of the standard Watson-Crick base pairs, the noncanonical
G30
-U40 "wobble" base pair, and the psi 32-C38 pseudo-base pair is presented as well as that of two C--H... O hydrogen bonds found to contribute to the array of tertiary interactions that stabilize the seven-nucleotide native loop conformation. The least mobile residue in the loop is U33, which forms the U-turn motif and which participates in several hydrogen-bonding interactions, whereas the most mobile residue is the apical residue
G34
at the wobble position, a factor undoubtedly important in its biological function. The set of multiple molecular dynamics trajectories obtained does not converge on a 500-ps time scale to a unique dynamical model but instead describes an ensemble of structural microstates accessible to the system under the present simulation protocol, which is the result of local structural heterogeneity rather than of global conformational changes.
...
PMID:H-bond stability in the tRNA(Asp) anticodon hairpin: 3 ns of multiple molecular dynamics simulations. 884 34
Fas (CD95) is a cell surface glycoprotein that mediates apoptotic cell death when cross-linked with agonistic anti-Fas monoclonal antibodies (MAbs) or the endogenous Fas ligand. In this study, we investigated the in vitro biological properties of a panel of anti-human Fas MAbs. We found that five anti-Fas MAbs of IgG1 subclass (B.E28, B.
G30
, B.L25, DX2, and B.
G34
) induced marked apoptotic cell death in Fas-expressing leukemia cells, although this killing was delayed when compared to the cytolytic effect mediated by the prototypic anti-Fas MAb of IgM subclass (clone CH-11). On the other hand, four clones (ZB4, B.G27, B.D29, and B.K14) efficiently blocked apoptotic cell death induced by the CH-11 MAb or Fas ligand. The ability of these MAbs to inhibit cell death appeared to correlate with their relative affinity for the Fas molecule. Furthermore, different clones recognized the same epitope and elicited different effects (induction or inhibition of cell killing); conversely, different clones elicited the same effect but recognized different epitopes. These results suggest that the different biological effects of anti-Fas MAbs would not be mediated in an epitope-restricted manner. The relative binding affinity might correlate to some extent with the biological properties of the MAb.
...
PMID:Epitopes and functional responses defined by a panel of anti-Fas (CD95) monoclonal antibodies. 1060 25
The interaction of human cytoplasmic phenylalanyl-tRNA synthetase (an enzyme with yet unknown 3D-structure) with homologous tRNA(Phe) under functional conditions was studied by footprinting based on iodine cleavage of thiophosphate-substituted tRNA transcripts. Most tRNA(Phe) nucleotides recognized by the enzyme in the anticodon (
G34
), anticodon stem (
G30
-C40, A31-U39), and D-loop (G20) have effectively or moderately protected phosphates. Other important specificity elements (A35 and A36) were found to form weak nonspecific contacts. The D-stem, T-arm, and acceptor stem are also among continuous contacts of the tRNA(Phe) backbone with the enzyme, thus suggesting the presence of additional recognition elements in these regions. The data indicate that mechanisms of interaction between phenylalanyl-tRNA synthetases and specific tRNAs are different in prokaryotes and eukaryotes.
...
PMID:Interaction of human phenylalanyl-tRNA synthetase with specific tRNA according to thiophosphate footprinting. 1926 73
KdpD is a four-spanning membrane protein that has two large cytoplasmic domains at the amino- and at the carboxyterminus, respectively. During its biogenesis KdpD binds to the signal recognition particle (SRP) of Escherichia coli that consists of a 48-kDa protein Ffh and a 4.5S RNA. The protein is targeted to the inner membrane surface and is released after contacting the SRP receptor protein FtsY. The information within the KdpD protein that confers SRP interaction was found in the amino-terminal cytoplasmic domain of KdpD, particularly at residues 22-48. Within this sequence a Walker A motif is present at residues 30-38. To determine the actual sequence specificity to SRP, a collection of mutants was constructed. When the KdpD peptides (residues 22-48) were fused to sfGFP the targeting to the membrane was observed by fluorescence microscopy. Further, nascent chains of KdpD bound to ribosomes were purified and their binding to SRP was analysed by microscale thermophoresis. We found that the amino acid residues R22, K24 and K26 are important for SRP interaction, whereas the residues
G30
,
G34
and G36, essential for a functional Walker A motif, can be replaced with alanines without affecting the affinity to SRP-FtsY and membrane targeting.
...
PMID:The SRP signal sequence of KdpD. 3121 49
