Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using isoform specific antibodies we have verified the presence of two distinct muscle type myosin heavy chain isoforms in rat uterine muscle. We have shown that an endogenous protease can cleave a small 4 kDa region from the C-terminal of the SM1 isoform which generates a pSM1 species which comigrates with the SM2 isoform on low density SDS gels. While this cleavage can complicate isoform identification, more importantly, this cleavage was associated with a substantial increase in the actomyosin ATPase. Thus we have identified a domain at the C-terminal which may be involved in regulation of the ATPase activity. Interestingly, it is at this C-terminal, tail region of the smooth muscle myosin molecule where the only known isoform specific sequence differences are located. In skinned smooth muscle fibers of rat uterine muscle, we have also shown that differences in myosin heavy chain distribution, induced by beta-estradiol treatment of ovariectomized rats, are correlated with changes in unloaded shortening velocity. Thus our work suggests that the functional significance of myosin heavy chain isoforms in smooth muscle may be similar to that observed in striated muscle.
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PMID:Myosin heavy chain isoforms and smooth muscle function. 180 96

Myosin extracts from central white fibers and peripheral red fibers of the lateral muscle of eel (Anguilla anguilla) were analysed by electrophoresis under non-dissociating conditions, which demonstrated a polymorphism of myosin isoforms. The light and heavy subunit content of the isomyosins was established using SDS-PAGE and two-dimensional electrophoresis. In the central white muscle, 3 myosin isoforms FM3, FM2, FM1, were characterized by 3 types of fast light chain and one fast heavy chain HCf; the existence of a fourth isomyosin is discussed. In the peripheral red muscle, two myosin isoforms were found, SM1 and SM2, each characterized by a specific heavy chain, HCs1 or HCs2, and containing the same slow light chain content. This work demonstrates for the first time the existence of 3 heavy chains in the skeletal muscle of a fish.
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PMID:Myosin structure in the eel (Anguilla anguilla L.). Demonstration of three heavy chains in adult lateral muscle. 226 55

Two new extracellular nucleases, nucleases SM1 and SM2, were purified from the culture fluid of S. marcescens kums 3958, a fresh clinical isolate. The purification was carried out by the following steps; ammonium sulfate precipitation, and DEAE-cellulose and Sephadex G-100 column chromatography. At the final step, nucleases SM1 and SM2 were purified about 3,700- and 1,000-fold, respectively. They were free from phosphomonoesterase and phosphodiesterase activities. The pIs were 8.1 and 7.5 for nucleases SM1 and SM2, respectively. The molecular weight was estimated to be 35,000 for both enzymes by SDS-polyacrylamide disc gel electrophoresis. The results of amino acid analyses showed that both the threonine and serine contents were higher in nuclease SM2 than in SM1. Furthermore, nuclease SM1 was more stable than nuclease SM2 at 4 degrees C. The other properties of the two enzymes were similar; pH optimum (8.0), Mg2+ or Mn2+ for activation, and inhibition by chemical reagents such as EDTA and pyrophosphate. No significant difference was found in base specificity between nucleases SM1 and SM2. Both enzymes specifically degraded double-stranded homopolymers, especially poly(I). poly(C), as well as yeast RNA and calf thymus DNA. They hardly degraded, however, single-stranded homopolymers such as poly(dA), poly(G), and poly(U).
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PMID:Isolation and characterization of nucleases from a clinical isolate of Serratia marcescens kums 3958. 635 Feb 76

The two myosin isozymes (SM1 and SM2) of the anterior latissimus dorsi muscle of the chicken change in relative concentration during development. As SM1 decreases from 13 days of embryonic growth through 1 year of adult maturation, SM2 increases. In the adult muscle SM2 accounts for over 95% of the total myosin. The myosin heavy chains of the two isozymes are distinctly different and may be separated from each other by 5% SDS polyacrylamide gel electrophoresis. The faster migrating myosin heavy chain is identified as originating from SM1 and the slower migrating myosin heavy chain from SM2 myosin isozymes. The myosin heavy chains change in relative concentration during development exactly parallel with changes in SM1 and SM2 isozyme levels. Peptide map analysis also reveals that SM1 myosin heavy chains and SM2 myosin heavy chains are distinctly different. When RNA from the ALD muscle is added to reticulocyte lysate protein synthesizing systems the translation products are shown to include both SM1 and SM2 myosin heavy chains. These comigrate exactly on 5% SDS polyacrylamide gels with authentic counterparts from ALD muscle. Finally, when peptide maps of SM1 and SM2 myosin heavy chains synthesized in the reticulocyte lysate are compared they are again found to be distinctly different and each is identical to a peptide map of respective authentic SM1 and SM2 myosin heavy chains. It is concluded that the myosin heavy chains of SM1 and SM2 myosin isozymes of ALD muscle have different primary structures and that they are encoded by two distinctly different mRNAs.
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PMID:The two myosin isoenzymes of chicken anterior latissimus dorsi muscle contain different myosin heavy chains encoded by separate mRNAs. 715 68

The differentiation patterns of smooth muscle cells (SMC) in rabbit bladder during development and in the hypertrophic response to partial outflow obstruction induced in adult animals were evaluated by biochemical and immunochemical techniques and by using a panel of monoclonal antibodies specific for desmin, vimentin, alpha-actin of smooth muscle (SM) type, SM myosin, and nonmuscle (NM) myosin isoforms. Desmin and SM alpha-actin were homogeneously distributed in SMC of developing, adult, and obstructed bladders. Conversely, marked changes in the ratio and antigenicity of SM myosin isoforms were observed by SDS electrophoresis and Western blotting, respectively. In particular, the 205 K (SM1) isoform was down-regulated with development whereas the 200 K (SM2) isoform was up-regulated around 7 days after birth and down-regulated in the obstructed bladder. Vimentin was expressed in SMC of the fetal bladder and declined markedly during postnatal, physiological hypertrophy of SMC, which occurs concomitantly with diminution of DNA synthesis. This polypeptide became detectable, however, in SMC of obstructed bladders. The 196 K (NM) myosin isoform recognized by NM-A9 antibody, present only in endothelium of blood vessels and in mucosa of normal fetal and adult bladders, became expressed in detrusor muscle, when SMC underwent a process of pathological hypertrophy. The reexpression of vimentin and the de novo appearance of NM myosin isoform in hypertrophic bladders can be reversed when the tissue mass is reduced, such as in bladders after 1-month recovery from partial obstruction. Thus, a specific NM myosin isoform can be used as a marker of SMC hypertrophy in obstructed bladder. In addition, the combined use of anti-vimentin and NM-A9 antibodies can distinguish between SMC which are in the physiological or in the pathological condition of adaptive bladder hypertrophy.
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PMID:Cytoskeletal and cytocontractile protein composition of smooth muscle cells in developing and obstructed rabbit bladder. 834 83

In smooth muscle tissue, two or three isoforms of myosin heavy chain (MHC) have been reported (SM1, SM2, and/or NM). In mouse uterus tissue, four bands in the region of the MHC's can be resolved on high resolution SDS polyacrylamide gels. Western blots using smooth muscle (SM) MHC-specific and nonmuscle (NM) MHC-specific polyclonal antibodies show the upper two bands in the MHC region are SM isoforms, whereas the lower two bands are NM isoforms. One-dimensional peptide maps of these four bands show each to have a unique pattern of polypeptide fragments following alpha-chymotrypsin digestion. Developmental expression of myosin heavy chains (MHC) in mouse uterus, aorta, bladder, and stomach (6 ages, 10-150 days) was determined using tissue homogenates. In the uterus, both SM MHC's show an increase in relative content with increasing age, whereas the NM MHC's show a decrease. The mouse aorta shows a significant increase in the SM MHC's and a significant decrease in the NM MHC from day 10 to day 30, which is similar to data reported for the rat aorta. Whereas both the bladder and stomach contain relatively small amounts of NM MHC's (approximately 10% or less), these quantities do show decreases with development. The SM1:SM2 ratio for the uterus remains high (3.4 at 150 days) through development; the aorta, bladder, and stomach also start out high, but tend toward 1.0 in the 150-day animals. The presence of four MHC isoforms in the uterus with unique developmental regulation of expression is consistent with hypotheses of unique functional roles for these isoforms.
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PMID:Expression of four myosin heavy chain isoforms with development in mouse uterus. 840 56

Adult vascular smooth muscle expresses 204-kD (SM1) and 200-kD (SM2) myosin heavy chain (MHC) isoforms. Fetal vascular smooth muscle expresses another 200-kD isoform, MHC-B, that appears to be developmentally regulated. The ontogeny of expression of these MHC isoforms in vascular and nonvascular smooth muscles is not fully understood and may differ. In the present report we examined the ontogeny of these isoforms in aortic and bladder smooth muscle from male fetal (n = 12, 119-140-d gestation; term 145 +/- 5 d) and neonatal (n = 12, 1-33 d) sheep. Tissues were analyzed for total and soluble protein contents. Actin, MHC, and MHC isoforms were analyzed by SDS-PAGE using 3-20% and 4% polyacrylamide gels, respectively. The expression of the adult and fetal 200-kD MHC isoforms were determined by Western analysis. Between 119 d gestation and 33 d neonatal, age-dependent increases (p < 0.02) occurred in bladder actin (16 +/- 0.8 versus 22 +/- 1.4 micrograms/mg of wet weight), MHC (6.5 +/- 0.2 versus 9.7 +/- 1.1) and both soluble (71 +/- 2.9 versus 92 +/- 6.3) and total protein (78 +/- 3.9 versus 103 +/- 5.5). Aortic smooth muscle actin (8.5 +/- 0.7 versus 17 +/- 1.1), MHC (3.1 +/- 0.4 versus 5.2 +/- 0.5), and soluble (44 +/- 2.3 versus 61 +/- 3.0) and total protein (87 +/- 5.8 versus 108 +/- 3.2) also increased (p < 0.01). Aortic SM1 increased (r = 0.79, p < 0.001) during this time, whereas expression of the 200-kD MHC fell (r = -0.79, p < 0.001). In contrast, bladder SM1 fell (r = -0.88, p < 0.001) as the 200-kD MHC rose (r = 0.88, p < 0.001). The type of 200-kD MHC isoform expressed also differed between tissue types; bladder expressed SM2 and little or no MHC-B throughout this phase of development, whereas fetal aorta appeared to express primarily MHC-B, which decreased as adult SM2 expression rose after birth. Expression of smooth muscle proteins and MHC isoforms are developmentally regulated and tissue-dependent, the latter perhaps reflecting developmental differences in organ growth and/or function.
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PMID:Smooth muscle myosin heavy chain isoforms are developmentally regulated in male fetal and neonatal sheep. 855 36

The nucleotide and deduced amino acid sequences of two isoforms of mouse smooth-muscle myosin heavy chain (SM1 and SM2) were determined. SM1 (6175 bp) and SM2 (6214 bp) cDNA contained a single open reading frame that encodes 1972 and 1938 amino acids (227,056 Da and 223,294 Da), respectively. Smooth muscle myosin heavy chain mRNA was expressed highly in smooth muscle tissue (small intestine) and weakly in heart and lung. Each of SM1 and SM2 cDNA was transfected and expressed in CHO cells. The expressed myosin heavy chains were detected with an antibody raised against smooth muscle myosin heavy chains and showed the same mobility as the native smooth muscle myosin heavy chains in SDS-PAGE.
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PMID:Molecular cloning and expression of murine smooth muscle myosin heavy chains. 912 71

SDS gel electrophoresis showed the presence of connectin, approximately 3000 kDa, in skeletal muscles of fishes, lamprey, electric ray and horse mackerel. The antibodies to avian or mammalian skeletal muscle connectin, 3B9 and Pc1200, reacted with all the fish connectins. However, a monoclonal antibody SM1 recognized electric ray connectin but did not react with lamprey and horse mackerel connectins. Immunoelectron microscopy revealed that the epitope to Pc1200 was localized at the periphery of the Z line of all the fish muscle sarcomeres and that to SM1 was located at the N2 line in the I band of ray muscle. These two localizations are the same as those in rabbit, chicken and frog skeletal muscles. On the other hand, the positions of epitopes to 3B9 were variable in the three classes of fishes, although all of them were localized in the A band. Some of the epitope positions were common to those in chicken skeletal muscle. Thus the present work demonstrates biodiversity of connectin in fish skeletal muscles, distinct from avian and mammalian skeletal muscles.
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PMID:Biodiversity of the localization of the epitopes to connectin antibodies in the sarcomeres of lamprey, electric ray, and horse mackerel skeletal muscles. 943 46

Single smooth muscle cells isolated from guinea pig ileum using collagenase and papain produce contractile response to muscarinic agents, while the cultured cells do not. Using fluo-3/AM and a confocal laser scanning fluorescence microscope, it was observed that carbachol, a muscarinic agent, caused an increase in the intracellular Ca2+ of both single and cultured cells. SDS-PAGE and Western Blot analyses revealed the expression of myosin heavy chain isoforms of SM1 (204 kDa) and SM2 (200 kDa) in single smooth muscle cells, and non muscle isoform (196 kDa) of myosin heavy chain only in the cultured cells. With respect to actin isoforms, alpha-actin was predominant in single cells and beta-actin was major in the cultured cells. Two types of tropomyosin monomer, 39 kDa and 41 kDa, were detected in single cells, while the 41 kDa monomer was lost in cultured cells. These differences in contractile protein profiles between single and cultured cells were collaborated with the observation of cells using immunofluorescence microscope with responsible antibodies to isoforms of myosin heavy chain, actin and tropomyosin. These results suggest that the loss of contractility in cultured smooth muscle cells is profoundly related to changes in contractile protein profiles from smooth muscle type to non muscle type.
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PMID:Contractile protein isoforms of single and cultured smooth muscle cells from guinea pig ileum. 1037 28


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