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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Smooth Muscle Phosphatases II (SMP-II) which has been purified from turkey gizzards and previously classified as protein phosphatase 2C, is inactive in the absence of divalent cations. Study of the activation of
SMP
-II by Mg2+ and Mn2+ revealed differences in the modes of activation by these cations. The maximal activation elicited by Mg2+ is 1.5-2.5-fold higher than the maximal Mn2+ activation. However, the latter is achieved at a lower concentration than the maximal Mg2(+)-activation. Furthermore, at low cation concentrations (less than or equal to 2 mM), the Mn2(+)-activated activity is higher than the Mg2(+)-activated activity. In the presence of both cations, the effect of Mn2+ predominates suggesting that the affinity of the enzyme for Mn2+ is greater than for Mg2+. In contrast to Mg2+ and Mn2+, Ca2+ does not activate
SMP
-II but it was observed to antagonize the effects of Mg2+ and Mn2+. Ca2+ acts as a competitive inhibitor of Mg2+. However, the inhibitory effect at high Ca2+ concentrations is not completely reversed by increasing the Mg2+ concentration. Mn2+ activation is also inhibited by Ca2+ but to a lesser extent. Ca2+ cannot completely inhibit Mn2(+)-activation suggesting that
SMP
-II has greater affinity for Mn2+ than for Ca2+. The finding that Ca2+ inhibits the activation of
SMP
-II raises the possibility that Ca2+ may be a regulator of
SMP
-II in vivo.
Mol
Cell Biochem 1991 Feb 27
PMID:Regulation of smooth muscle phosphatase-II by divalent cations. 184 28
The hepatic tissue of the male rat exhibits a gradual decline and ultimate loss in androgen responsiveness during in vivo aging. Appearance of the age-associated androgen insensitivity can be delayed by dietary calorie restriction, an effective means for life-span extension. The androgen receptor mRNA is detectable in the liver only in its androgen-responsive state. Pubertal appearance of hepatic androgen sensitivity is remarkably correlated with the concomitant appearance of a cytoplasmic androgen binding (CAB) protein. Androgen resistance during senescence is associated with the loss of hepatic CAB activity as well. We are investigating the molecular basis for the temporal modulation of this hormone sensitivity through studies on the differential expression of two androgen-responsive marker genes. These are the androgen-repressible
SMP
-2, and the androgen-inducible alpha 2u-globulin. Androgen resistance of hepatocytes during aging results in repression of the alpha 2u-globulin gene, and derepression of the
SMP
-2 gene. The structural organizations for both of these genes have been characterized. The role of nuclear transcription factors (androgen receptor and any other transacting factor(s) which may be involved) in the coordinate regulation of alpha 2u-globulin and
SMP
-2 during aging and nutritional manipulation is being explored to establish the molecular mechanism of andropause in the liver.
J Steroid Biochem
Mol
Biol 1990 Nov 20
PMID:Changes in hepatic androgen sensitivity and gene expression during aging. 225 47
Messenger RNA is released preferentially from isolated rat liver nuclei in the presence of the ATP-generating system and cytosol. The release is suppressed by spermidine, while cytoplasmic RNase inhibitor was ineffective and PCMB like some other thiol-blocking agents inhibitory. Cytoplasmic SOD added to the system strongly suppressed RNA release. A similar effect could be obtained by anaerobiosis due to addition of
SMP
. In both cases the inhibition is reversed by cyanide. In contrast to normal liver where the generation of superoxide radicals takes place almost exclusively in microsomes and is coupled with the oxidation of NADPH, in mouse ascites hepatoma 22a the generation of superoxide radicals occurs mainly in the nuclear envelope and is coupled wih the oxidation of both NADPH and NADH and inhibited by cyanide.
Mol
Biol Rep 1981 May 22
PMID:Some features of nucleo-cytoplasmic RNA transport from isolated nuclei. 626 58
The crystal structure of the complex between the 50 kDa metallo-endoproteinase from Serratia marcescens (
SMP
), a member of the metzincin superfamily, and an inhibitor from Erwinia chrysanthemi (Inh) was solved by molecular replacement using the known structure of
SMP
, and refined at 2.30 A resolution to a crystallographic R-factor of 0.195. The E. chrysanthemi inhibitor folds into a compact eight-stranded antiparallel beta-barrel of simple up-down topology such as is found for members of the retinol binding protein family. It mainly interacts with the protease via its five N-terminal residues, which insert into the active site cleft, occupying the S' sites. The first N-terminal residue, SerI1, is partially cleaved off by the protease, while SerI2 makes a hydrogen bond with the catalytically active glutamic acid, Glu177, of the protease. Further interactions are made between one face of the inhibitor formed by the strands s3, s4 and s5 and the protease segment 218 to 228, which is located immediately after the characteristic "Met-turn" of the metzincins.
J
Mol
Biol 1995 May 05
PMID:Crystal structure of a complex between Serratia marcescens metallo-protease and an inhibitor from Erwinia chrysanthemi. 775 31
Earlier studies by Rouslin and coworkers showed that, during myocardial ischemia in slow heart-rate species which include rabbits and all larger mammals examined including humans, there is an IF1-mediated inhibition of the mitochondrial ATPase due to an increase in the amount of IF1 bound to the ATPase (Rouslin, W., and Pullman, M.E., J.
Mol
. Cell. Cardiol. 19,661-668, 1987). Earlier work by Guerrieri and colleagues demonstrated that IF1 binding to bovine heart ESMP was accompanied by parallel decreases in ATPase activity and in passive proton conduction (Guerrieri, F., et al., FEBS Lett. 213, 67-72, 1987). In the present study rabbit was used as the slow heart-rate species and rat as the fast heart-rate species. Rat is a fast heart-rate species that contains too little IF1 to down regulate the ATPase activity present. Mitochondria were prepared from control and ischemic hearts and ESMP were made from aliquots by sonication at pH 8.0 with 2 mM EDTA. Oligomycin-sensitive ATPase activity and IF1 content were measured in
SMP
prepared from the control and ischemic mitochondrial samples. After identical incubation procedures, oligomycin-sensitive ATPase activity, oligomycin-sensitive proton conductivity, and IF1 content were also measured in ESMP samples. The study was undertaken to corroborate further what appear to be fundamental differences in ATPase regulation between slow and fast heart-rate mammalian hearts evident during total myocardial ischemia. Thus, passive proton conductivity was used as an independent measure of these regulatory differences. The results show that, consistent with the low IF1 content of rat heart cardiac muscle mitochondria, control rat heart ESMP exhibit approximately twice as much passive proton conductivity as control rabbit heart ESMP regardless of the pH of the incubation and assay. Moreover, while total ischemia caused an increase in IF1 binding and a commensurate decrease in passive proton conductivity in rabbit heart ESMP regardless of pH, neither IF1 content nor proton conductivity changed significantly in rat heart ESMP as a result of ischemia.
...
PMID:ATPase activity, IF1 content, and proton conductivity of ESMP from control and ischemic slow and fast heart-rate hearts. 859 81
From post-diapause cysts of Artemia franciscana, we defined fourteen LEA (late embryogenesis abundant) and LEA-like genes, including four novel members (Afrlea1-5, Afrlea3-5, Afrlea3-like1 and Afrlea3-like2), which were classified into four groups: G1, G3, G3-like (LEA group3-like), and
SMP
-like (seed-maturation-protein-like), based on their conserved and diversified sequence motifs and amino acid compositions among bacteria, plants, and animals. We also validated six representative genes based on quantitative RT-PCR, including three LEA and two LEA3-like genes that are down-regulated when dehydrated cysts hatch to desiccation-intolerant larvae as well as one
SMP
-like gene that is slightly up-regulated. We further tested their responses to hypersaline stress for four representatives-one from each group-and found that the expression of Afrlea1-5 and Afrlea3-2 were inducible but not Afrlea3-like1 and Afrsmp-like. This result suggested that the LEA and LEA-like genes may play different roles in resistance to hypersaline stress.
Comp Biochem Physiol B Biochem
Mol
Biol 2011 Sep
PMID:Diverse LEA (late embryogenesis abundant) and LEA-like genes and their responses to hypersaline stress in post-diapause embryonic development of Artemia franciscana. 2162 Sep 91
The aim of this study was to investigate radioprotective effect of the polysaccharides from soybean meal (
SMP
) against X-ray radiation-induced damage in mouse spleen lymphocytes. MTT and comet assay were performed to evaluate
SMP
's ability to prevent cell death and DNA damage induced by radiation. The results show that, X-ray radiation (30 KV, 10 mA, 8 min (4 Gy)) can significantly increase cell death and DNA fragmentation of mouse spleen lymphocytes. Pretreatment with
SMP
for 2 h before radiation could increase cell viability, moreover, the
SMP
can reduce X-ray radiation-induced DNA damage. The percentage of tail DNA and the tail moment of the
SMP
groups were significantly lower than those of the radiation alone group (p < 0.05). These results suggest
SMP
may be a good candidate as a radioprotective agent.
Int J
Mol
Sci 2011
PMID:Protective effects of polysaccharides from soybean meal against X-ray radiation induced damage in mouse spleen lymphocytes. 2217 52
The extended-synaptotagmins (tricalbins in yeast) derive their name from their partial domain structure similarity to the synaptotagmins, which are characterized by an N-terminal membrane anchor and cytosolically exposed C2 domains. However, they differ from the synaptotagmins in localization and function. The synaptotagmins tether secretory vesicles, including synaptic vesicles, to the plasma membrane (PM) via their C2 domains and regulate their Ca
2+
triggered exocytosis. In contrast, the extended-synaptotagmins are resident proteins of the endoplasmic reticulum (ER), which tether this organelle to the plasma membrane via their C2 domains, but not as a premise to fusion of the two membranes. They transport glycerolipids between the two bilayers via their lipid-harboring
SMP
domains and Ca
2+
regulates their membrane tethering and lipid transport function. Additionally, the extended-synaptotagmins are more widely expressed in different organisms, as they are present not only in animal cells, but also in fungi and plants, which do not express the synaptotagmins. Thus, they have a more general function than the synaptotagmins, whose appearance in animal species correlated with the occurrence of Ca
2+
triggered exocytosis. This article is part of a Special Issue entitled: Membrane Contact Sites edited by Christian Ungermann and Benoit Kornmann.
Biochim Biophys Acta
Mol
Cell Res 2017 Sep
PMID:The Extended-Synaptotagmins. 2836 89
Tubular lipid binding proteins (TULIPs) have become a focus of interest in the cell biology of lipid signalling, lipid traffic and membrane contact sites. Each tubular domain has an internal pocket with a hydrophobic lining that can bind a hydrophobic molecule such as a lipid. This allows TULIP proteins to carry lipids through the aqueous phase. TULIP domains were first found in a large family of extracellular proteins related to the bacterial permeability-inducing protein (BPI) and cholesterol ester transfer protein (CETP). Since then, the same fold and lipid transfer capacity have been found in
SMP
domains (so-called for their occurrence in synaptotagmin, mitochondrial and lipid binding proteins), which localise to intracellular membrane contact sites. Here the methods for identifying known TULIPs are described, and used to find previously unreported TULIPs, one in the silk polymer and another in prokaryotes illustrated by the E. coli protein YceB. The bacterial TULIP alters views on the likely evolution of the domain, suggesting its presence in the last universal common ancestor. The major function of TULIPs is to handle lipids, but we still do not know how they work in detail, or how many more remain to be discovered. This article is part of a Special Issue entitled: Membrane Contact Sites edited by Christian Ungermann and Benoit Kornmann.
Biochim Biophys Acta
Mol
Cell Res 2017 Sep
PMID:Tubular lipid binding proteins (TULIPs) growing everywhere. 2855 74
