Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Ca2+ sensitivity of tension in cardiac muscle is length dependent, such that the sensitivity is diminished with decreasing sarcomere length below 2.4 microm. This length dependence of Ca2+ sensitivity of tension also forms the basis for the Frank-Starling mechanism in the heart. The fast-twitch skeletal muscle has a much lower length dependence of Ca2+ sensitivity. In a recent study of skinned cardiotrabeculae, we indicated that the exchange of endogenous cardiac troponin C (TnC) for skeletal troponin C also resulted in a major reduction in the length dependence to the level of skeletal muscle. These findings suggested that cardiac troponin C has a key role in the length-sensing mechanism. The present investigation supports this conclusion and delineates the specific domain in cardiac TnC responsible for the length effect. Chimeras splicing either 41, 61, or 96 N-terminal cardiac amino acids with the remaining skeletal residues have indicated that while Ca2+ binding in all three constructs is similar to that in wild type cardiac TnC, the functional responsiveness of the 96-cardiac residue construct is improved over the other two. This 96-cardiac residue construct yielded a tension response indistinguishable from that of wild-type cardiac TnC. A tryptophan variant of the chimera indicated fluorescence characteristics indistinguishable from cardiac troponin C. The findings provide further support for the idea that cardiac troponin C in situ is modified in response to sarcomere length change and thereby participates in the Frank-Starling mechanism. Moreover, the study indicates that the tropinin C length-sensing attribute originates within the N-terminal domain constituted by these 96 residues.
J Mol Cell Cardiol 1997 Jan
PMID:The cardiac troponin C isoform and the length dependence of Ca2+ sensitivity of tension in myocardium. 904 52

In patients with a load-induced cardiac dysfunction (LCD), the left ventricular (LV) stroke work is supernormal at rest, but then becomes subnormal during handgrip (HG). The LCD usually occurs in children with the mitral valve prolapse (MVP). Our catheterization study revealed that the end-diastolic pressure (EDP) of both ventricles was elevated in LCD patients. In this study, the LV and right ventricular (RV) systolic time (ET) were measured by echocardiograms. The mitral inflow peak velocities, E and A, were also measured by the pulsed Doppler method. Subjects were divided into four groups, each consisting of 16 individuals: group 1, normal children; group 2, LCD patients; group 3, recovered children from LCD, the same individuals as group 2, but after coenzyme Q10 (CoQ) therapy; and group 4, asymptomatic children with MVP. In group 2, the mean PEP and PEP/ET were significantly smaller and the peak A velocity was significantly larger than in groups 1, 3 and 4. Among groups 1, 3 and 4, no intergroup differences were found regarding the PEP/ET and A. In LCD patients, a depressed inotropic state of the myocardium may result in a high EDP due to the Frank-Starling mechanism, and such a high EDP may then cause STI changes and a large A velocity. CoQ may also return abnormal STIs in LCD patients to normal, probably by improving the inotropic state and, as a consequence, reducing the high EDP of the LV and RV to a normal level.
Mol Aspects Med 1997
PMID:Recovery of the systolic time intervals by coenzyme Q10 in patients with a load-induced cardiac dysfunction. 926 17

Solutions of selectively deuterated 70 S Escherichia coli ribosomes and of free 30 S and 50 S subunits were studied by neutron scattering using contrast variation. The integrity of the partially deuterated particles was controlled by parallel X-ray measurements. Integral parameters of the entire ribosome, of its subunits and of the protein and rRNA moieties were evaluated. The data allow an experimental validation of the two most recent electron microscopy reconstructions of the 70 S ribosome presented by the groups of J. Frank (Albany) and of M. van Heel & R. Brimacombe (Berlin). For each reconstruction, integral parameters and theoretical scattering curves from the 70 S and its subunits were calculated and compared with the experimental data. Although neither of the two models yields a comprehensive agreement with the experimental data, Frank's model provides a better fit. For the 50 S subunit of van Heel & Brimacombe's model the fit with the experimental data improves significantly when the internal channels and tunnels are filled up. The poorer fit of the latter model is thus caused by its "sponge"-like structure which may partly be due to an enhancement of high frequency contributions in some of the steps of the three-dimensional image reconstruction. It seems therefore unlikely that the ribosome has a "sponge"-like structure with a pronounced network of channels.
J Mol Biol 1997 Aug 29
PMID:Solution scattering structural analysis of the 70 S Escherichia coli ribosome by contrast variation. I. Invariants and validation of electron microscopy models. 928 27

Selectively deuterated 70 S E. coli ribosomes and isolated 30 S and 50 S subunits were analyzed by X-ray and neutron solution scattering. The resulting contrast variation data set (42 curves in total) was proven to be consistent in describing the ribosome as a four-phase system composed of the protein and rRNA moieties of both subunits. This data set thus provides ten times more information than a single scattering curve. A solid body four-phase model of the 70 S ribosome at low resolution was built from the envelope functions of the 30 S and 50 S subunits and of those of the corresponding RNA moieties. The four envelopes were parameterized at a resolution of 3.5 nm using spherical harmonics and taking into account interface layers between the phases. The initial approximation for the envelopes of the subunits was taken from electron microscopic data presented recently by J. Frank and co-workers (Albany); the rRNA envelopes were initially approximated by spheres. The optimization and the refinement of the model proceeded by non-linear least squares minimization fitting the available experimental data. The refined envelopes of the subunits differ by about 10% from the starting approximation and the shape of the final 70 S model lies between the outer envelopes of the models by Frank and by M. von Heel & R. Brimacombe (Berlin). The rRNA moiety in the 30 S subunit is more anisometric than the subunit itself, whereas the rRNA of the 50 S subunit forms a compact core. The rRNAs protrude to the surfaces of the subunits and occupy approximately 30 to 40% of the corresponding surface areas. X-ray scattering curves of the two main functional elongation 70 S complexes (pre- and post-translocational) differ only marginally from those of the non-programmed ribosomes, suggesting that the low resolution four-phase model is also valid for the elongating 70 S ribosome.
J Mol Biol 1997 Aug 29
PMID:Solution scattering structural analysis of the 70 S Escherichia coli ribosome by contrast variation. II. A model of the ribosome and its RNA at 3.5 nm resolution. 928 28

A genetic screen was devised to identify Saccharomyces cerevisiae splicing factors that are important for the function of the 5' end of U2 snRNA. Six slt (stands for synthetic lethality with U2) mutants were isolated on the basis of synthetic lethality with a U2 snRNA mutation that perturbs the U2-U6 snRNA helix II interaction. SLT11 encodes a new splicing factor and SLT22 encodes a new RNA-dependent ATPase RNA helicase (D. Xu, S. Nouraini, D. Field, S. J. Tang, and J. D. Friesen, Nature 381:709-713, 1996). The remaining four slt mutations are new alleles of previously identified splicing genes: slt15, previously identified as prp17 (slt15/prp17-100), slt16/smd3-1, slt17/slu7-100, and slt21/prp8-21. slt11-1 and slt22-1 are synthetically lethal with mutations in the 3' end of U6 snRNA, a region that affects U2-U6 snRNA helix II; however, slt17/slu7-100 and slt21/prp8-21 are not. This difference suggests that the latter two factors are unlikely to be involved in interactions with U2-U6 snRNA helix II but rather are specific to interactions with U2 snRNA. Pairwise synthetic lethality was observed among slt11-1 (which affects the first step of splicing) and several second-step factors, including slt15/prp17-100, slt17/slu7-100, and prp16-1. Mutations in loop 1 of U5 snRNA, a region that is implicated in the alignment of the two exons, are synthetically lethal with slu4/prp17-2 and slu7-1 (D. Frank, B. Patterson, and C. Guthrie, Mol. Cell. Biol. 12:5179-5205, 1992), as well as with slt11-1, slt15/prp17-100, slt17/slu7-100, and slt21/prp8-21. These same U5 snRNA mutations also interact genetically with certain U2 snRNA mutations that lie in the helix I and helix II regions of the U2-U6 snRNA structure. Our results suggest interactions among U2 snRNA, U5 snRNA, and Slt protein factors that may be responsible for coupling and coordination of the two reactions of pre-mRNA splicing.
Mol Cell Biol 1998 Apr
PMID:Synthetic lethality of yeast slt mutations with U2 small nuclear RNA mutations suggests functional interactions between U2 and U5 snRNPs that are important for both steps of pre-mRNA splicing. 952 78

We expressed an N-terminally extended Schistocerca gregaria ion transport peptide (ScgITP) and its homologue (ion transport peptide-like; ITP-L) in insect Sf9 cells using baculovirus expression vectors. Antibodies raised against peptide fragments of ITP and ITP-L were used to detect and characterize the baculovirus expressed peptides (bacITP, bacITP-L). Biological activity of the expressed peptides was assayed using the highly specific bioassay for native ITP, namely the increase in ileal short-circuit current which is a measure of active Cl- transport. BacITP and bacITP-L expression was optimal in Sf9 cells infected at a multiplicity of infection of 1, grown in Grace's medium, and harvested 2-3 days after infection. Western blots showed that bacITP was 2 kDa larger than native or synthetic ITP. This difference was not due to glycosylation and could in part be attributed to post-translational cleavage of the ITP propeptide at a site 11 amino acids upstream of the cleavage site used by S. gregaria to produce native ITP. BacITP stimulated ileal short-circuit current but is significantly less active (270-fold) than synthetic ITP (synITP) possibly as a result of the N-terminal extension. Production of bacITP-L permitted us to show that it is not stimulatory in the bioassay but reduces the synITP response in vitro and thus may have some potential for enhancing the effectiveness of biological control agents such as baculoviruses.
Insect Biochem Mol Biol 1998 Jan
PMID:Expression of Schistocerca gregaria ion transport peptide (ITP) and its homologue (ITP-L) in a baculovirus/insect cell system. 961 36

We previously reported an identification of a 77-kDa GTP-binding protein that co-purified with the alpha 1-adrenoceptor following ternary complex formation. In the present paper, we report on the purification and characterization of this GTP-binding protein (termed G alpha h5) isolated from pig heart membranes. After solubilization of pig heart membranes with NaCl, G alpha h5 was purified by sequential chromatographies using DEAE-Cellulose, Q-Sepharose, and GTP-agarose columns. The protein displayed high-affinity GTP gamma S binding which is Mg(2+)-dependent and saturable. The relative order of affinity of nucleotide binding by G alpha h5 was GTP > GDP > ITP >> ATP > or = adenyl-5'-yl imidodiphosphate, which was similar to that observed for other heterotrimeric G-proteins involved in receptor signaling. Moreover, the G alpha h5 demonstrated transglutaminase (TGase) activity that was blocked either by EGTA or GTP gamma S. In support of these observations, the G alpha h5 was recognized by a specific antibody to G alpha h7 or TGase II, indicating a homology with G alpha h (TGase II) family. These results demonstrate that 77-kDa G alpha h5 from pig heart is an alpha 1-adrenoceptor-coupled G alpha h (TGase II) family which has species-specificity in molecular mass.
Exp Mol Med 1998 Jun 30
PMID:A new member of alpha 1-adrenoceptor-coupled G alpha h (transglutaminase II) family in pig heart: purification and characterization. 987 27

The intrinsic cellular mechanisms by which length regulates myocardial contraction, the basis of the Frank-Starling relation, are uncertain. The aim of this work was to test the hypothesis that passive force, possibly via titin, participates in the modulation of Ca2+ sensitivity of cardiac contractile proteins induced by stretch. Titin degradation by a mild trypsin digestion modulated passive force induced by increasing from 1.9 to 2.3 microm sarcomere length in skinned rat cardiac cells. Force-pCa curves were established at these two sarcomere lengths after various durations of trypsin application that induced different passive force levels. They allowed us to evaluate myofilament Ca2+ sensitivity by the pCa of half-maximal activation (pCa50). In control conditions, stretching cells from 1.9 to 2.3 microm induced a leftward shift of pCa50 (DeltapCa50) of 0.39+/-0.03 pCa units (mean+/-SEM, n=8 cells), reflecting an increase in Ca2+ sensitivity of the contractile machinery. Passive force measured every 2 min decreased exponentially after the beginning of the trypsin application (t1/2 approximately 12 min). The first 30% decrease of passive force did not affect the stretch-induced variation in Ca2+ sensitivity. Then, with further decrease in passive force, DeltapCa50 decreased. At the lowest passive force investigated 20% of initial passive force, DeltapCa50 decreased by approximately 55%. These effects were not accompanied by a significant modification of either maximal activated force at pCa 4.5 solution or pCa50 at 1.9 microm sarcomere length. This indicates that there was no major functional alteration of the contractile machinery during the protocol as also suggested by contractile and regulatory protein electrophoresis on 2.5-12% gradient and 15% SDS-PAGE gels. Thus, besides modulation induced by the reduced lattice spacing during enhanced heart refilling, Ca2+ sensitivity of the cardiac contractile machinery may be controlled at least partially by internal passive load, which is known to be largely attributable to titin.
J Mol Cell Cardiol 1999 Jun
PMID:Length modulation of active force in rat cardiac myocytes: is titin the sensor? 1037 96

The aim of our study was to examine the effects of different purine nucleotides [GTP, ITP, and xanthosine 5'-triphosphate (XTP)] on receptor/G protein coupling. As a model system, we used a fusion protein of the beta(2)-adrenergic receptor and the alpha subunit of the G protein G(s). GTP was more potent and efficient than ITP and XTP at inhibiting ternary complex formation and supporting adenylyl cyclase (AC) activation. We also studied the effects of several beta(2)-adrenergic receptor ligands on nucleotide hydrolysis and on AC activity in the presence of GTP, ITP, and XTP. The efficacy of agonists at promoting GTP hydrolysis correlated well with the efficacy of agonists for stimulating AC in the presence of GTP. This was, however, not the case for ITP hydrolysis and AC activity in the presence of ITP. The efficacy of ligands at stimulating AC in the presence of XTP differed considerably from the efficacies of ligands in the presence of GTP and ITP, and there was no evidence for receptor-regulated XTP hydrolysis. Our findings support the concept of multiple ligand-specific receptor conformations and demonstrate the usefulness of purine nucleotides as tools to study conformational states of receptors.
Mol Pharmacol 1999 Aug
PMID:Effects of guanine, inosine, and xanthine nucleotides on beta(2)-adrenergic receptor/G(s) interactions: evidence for multiple receptor conformations. 1041 54

Correct removal of RNA primers of Okazaki fragments during lagging-strand DNA synthesis is a critical process for the maintenance of genome integrity. Disturbance of this process has severe mutagenic consequences and could contribute to the development of cancer. The role of the mammalian nucleases RNase HI and FEN-1 in RNA primer removal has been substantiated by several studies. Recently, RNase H(35), the Saccharomyces cerevisiae homologue of mammalian RNase HI, was identified and its possible role in DNA replication was proposed (P. Frank, C. Braunshofer-Reiter, and U. Wintersberger, FEBS Lett. 421:23-26, 1998). This led to the possibility of moving to the genetically powerful yeast system for studying the homologues of RNase HI and FEN-1, i.e., RNase H(35) and Rad27p, respectively. In this study, we have biochemically defined the substrate specificities and the cooperative as well as independent cleavage mechanisms of S. cerevisiae RNase H(35) and Rad27 nuclease by using Okazaki fragment model substrates. We have also determined the additive and compensatory pathological effects of gene deletion and overexpression of these two enzymes. Furthermore, the mutagenic consequences of the nuclease deficiencies have been analyzed. Based on our findings, we suggest that three alternative RNA primer removal pathways of different efficiencies involve RNase H(35) and Rad27 nucleases in yeast.
Mol Cell Biol 1999 Dec
PMID:Saccharomyces cerevisiae RNase H(35) functions in RNA primer removal during lagging-strand DNA synthesis, most efficiently in cooperation with Rad27 nuclease. 1056 61


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