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1.
A cDNA expression library of approximately 80,000 members was prepared from rat embryonic fibroblast mRNA using the plasmid expression vectors pUC8 and pUC9. Using an immunological screening procedure and 32P-labeled cDNA probes, clones encoding rat embryonic fibroblast tropomyosin 1 (TM-1) were identified and isolated. DNA sequence analysis was carried out to determine the amino acid sequence of the protein. Rat embryonic fibroblast TM-1 was found to contain 284 amino acids and is most homologous to smooth muscle alpha-tropomyosin compared with skeletal muscle alpha- and beta-tropomyosins and platelet beta-tropomyosin. Among the various tropomyosins, two regions where the greatest sequence divergence is evident are between amino acids 185 and 216 and amino acids 258 and 284. Rat embryonic fibroblast TM-1 and chicken smooth muscle alpha-tropomyosin are most closely related from amino acids 185 and 216 compared with skeletal muscle and platelet tropomyosins. In contrast, rat embryonic fibroblast TM-1, smooth muscle alpha-tropomyosin, and platelet tropomyosin are most homologous from amino acids 258 and 284 compared with skeletal muscle tropomyosins. These differences in sequences at the carboxyl-terminal region of the various tropomyosins are discussed in relation to differences in their binding to skeletal muscle troponin and its T1 fragment.  相似文献   

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We have isolated and characterized cDNA clones from chicken cDNA libraries derived from skeletal muscle, body wall, and cultured fibroblasts. A clone isolated from a skeletal muscle cDNA library contains the complete protein-coding sequence of the 284-amino-acid skeletal muscle beta-tropomyosin together with 72 bases of 5' untranslated sequence and nearly the entire 3' untranslated region (about 660 bases), lacking only the last 4 bases and the poly(A) tail. A second clone, isolated from the fibroblast cDNA library, contains the complete protein-coding sequence of a 248-amino-acid fibroblast tropomyosin together with 77 bases of 5' untranslated sequence and 235 bases of 3' untranslated sequence through the poly(A) tract. The derived amino acid sequence from this clone exhibits only 82% homology with rat fibroblast tropomyosin 4 and 80% homology with human fibroblast tropomyosin TM30nm, indicating that this clone encodes a third 248-amino-acid tropomyosin isoform class. The protein product of this mRNA is fibroblast tropomyosin 3b, one of two low-molecular-weight isoforms expressed in chicken fibroblast cultures. Comparing the sequences of the skeletal muscle and fibroblast cDNAs with a previously characterized clone which encodes the smooth muscle alpha-tropomyosin reveals two regions of absolute homology, suggesting that these three clones were derived from the same gene by alternative RNA splicing.  相似文献   

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We isolated and characterized a cDNA clone encoding tropomyosin isoform 2 (TM2) from a mouse fibroblast cDNA library. TM2 was found to contain 284 amino acids and was closely related to the rat smooth and skeletal muscle alpha-TMs and the human fibroblast TM3. The amino acid sequence of TM2 showed a nearly complete match with that of human fibroblast TM3 except for the region from amino acids 189 to 213, the sequence of which was identical to those of rat smooth and skeletal muscle alpha-TMs. These results suggest that TM2 is expressed from the same gene that encodes the smooth muscle alpha-TM, the skeletal muscle alpha-TM, and TM3 via an alternative RNA-splicing mechanism. Comparison of the expression of TM2 mRNA in low-metastatic Lewis lung carcinoma P29 cells and high-metastatic D6 cells revealed that it was significantly less in D6 cells than in P29 cells, supporting our previous observations (K. Takenaga, Y. Nakamura, and S. Sakiyama, Mol. Cell. Biol. 8:3934-3937, 1988) at the protein level.  相似文献   

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Avian tropomyosin gene expression.   总被引:3,自引:2,他引:1       下载免费PDF全文
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We describe the analysis of two quail cDNA clones representing distinct but closely related alpha-tropomyosin mRNAs. cDNA clone cC101 corresponds to a 1.2-kilobase RNA which accumulates to high levels during myoblast differentiation and which encodes the major isoform of skeletal muscle alpha-tropomyosin. cDNA clone cC102 corresponds to a 2-kilobase RNA which is abundant in cultured embryonic skin fibroblasts and which encodes one of two alpha-tropomyosin-related fibroblast tropomyosins of 35,000 and 34,000 daltons apparent molecular mass (class 1 tropomyosins). The cC102 protein is unique among reported nonstriated-muscle tropomyosins in being identical in amino acid sequence to the major isoform of skeletal muscle alpha-tropomyosin over an uninterrupted stretch of at least 183 amino acids (residues 75-257). The two protein sequences differ in the COOH-terminal region beginning with residue 258. Because the cC101 and cC102 RNAs share an extensive region (at least 373 nucleotides) of nucleotide sequence identity upstream of the codon for residue 258, they are likely derived from a single gene by alternative RNA splicing, as was recently proposed in the case of related beta-tropomyosin mRNAs in human fibroblasts and skeletal muscle (MacLeod, A. R., Houlker, C., Reinach, R. C., Smillie, L. B., Talbot, K., Modi, G., and Walsh, F. S. (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 7835-7837). No alpha-tropomyosin-related RNAs are abundant in undifferentiated myoblasts. This suggests the possibility of a fibroblast-specific function, as opposed to a general nonmuscle-cell function for class 1 tropomyosins and also has implications for the regulation of alpha-tropomyosin gene expression during embryonic development.  相似文献   

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The molecular basis for the expression of rat embryonic fibroblast tropomyosin 1 and skeletal muscle beta-tropomyosin was determined. cDNA clones encoding these tropomyosin isoforms exhibit complete identity except for two carboxy-proximal regions (amino acids 189 to 213 and 258 to 284) and different 3'-untranslated sequences. The isoform-specific regions delineate the troponin T-binding domains of skeletal muscle tropomyosin. Analysis of genomic clones indicates that there are two separate loci in the rat genome that contain sequences complementary to these mRNAs. One locus is a pseudogene. The other locus contains a single gene made up of 11 exons and spans approximately 10 kilobases. Sequences common to all mRNAs were found in exons 1 through 5 (amino acids 1 to 188) and exons 8 and 9 (amino acids 214 to 257). Exons 6 and 11 are specific for fibroblast mRNA (amino acids 189 to 213 and 258 to 284, respectively), while exons 7 and 10 are specific for skeletal muscle mRNA (amino acids 189 to 213 and 258 to 284, respectively). In addition, exons 10 and 11 each contain the entire 3'-untranslated sequences of the respective mRNAs including the polyadenylation site. Although the gene is also expressed in smooth muscle (stomach, uterus, and vas deferens), only the fibroblast-type splice products can be detected in these tissues. S1 and primer extension analyses indicate that all mRNAs expressed from this gene are transcribed from a single promoter. The promoter was found to contain G-C-rich sequences, a TATA-like sequence TTTTA, no identifiable CCAAT box, and two putative Sp1-binding sites.  相似文献   

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Human hTM alpha gene: expression in muscle and nonmuscle tissue.   总被引:2,自引:2,他引:0       下载免费PDF全文
We have isolated a cDNA clone from a human skeletal muscle library which contains the complete protein-coding sequence of a skeletal muscle alpha-tropomyosin. This cDNA sequence defines a fourth human tropomyosin gene, the hTM alpha gene, which is distinct from the hTMnm gene encoding a closely related isoform of skeletal muscle alpha-tropomyosin. In cultured human fibroblasts, the hTM alpha gene encodes both skeletal-muscle- and smooth-muscle-type alpha-tropomyosins by using an alternative mRNA-splicing mechanism.  相似文献   

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A library of cDNA clones was constructed from adult rat skeletal muscle mRNA, from which a set of contractile protein clones was selected. These clones were identified by sequencing the cDNA inserts and comparing the derived amino acid sequences with published sequences of rabbit contractile proteins. In this manner, clones corresponding to myosin light chains 1, 2, and 3, troponin-C, troponin-T, alpha-tropomyosin, and alpha-actin were identified. A high degree of amino acid sequence conservation was found upon comparison of the rat and rabbit proteins. Using the cDNA clone panel, we analyzed the expression of abundant rat muscle mRNAs. We show that abundant rat muscle mRNAs can be classified into four developmentally regulated groups, based upon their expression at different stages of myogenesis. One class of mRNAs is expressed during all stages of muscle development. Since these mRNAs are also present in nonmuscle tissues, we conclude that they code for housekeeping proteins. The second class of mRNAs is present in both embryonic and adult muscle, while a third class of mRNAs is expressed only in adult muscle. A small number of mRNAs, which are present at greater levels in undifferentiated myoblasts than in adult muscle, comprise a fourth class. These results suggest the existence of at least four modes of gene control during myogenesis.  相似文献   

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The myosin 20,000-D regulatory light chain (RLC) has a central role in smooth muscle contraction. Previous work has suggested either the presence of two RLC isoforms, one specific for nonmuscle and one specific for smooth muscle, or the absence of a true smooth muscle-specific isoform, in which instance smooth muscle cells would use nonmuscle isoforms. To address this issue directly, we have isolated rat RLC cDNAs and corresponding genomic sequences of two smooth muscle RLC based on homology to the amino acid sequence of the chicken gizzard RLC. These cDNAs are highly homologous in their amino acid coding regions and contain unique 3'-untranslated regions. RNA analyses of rat tissue using these unique 3'-untranslated regions revealed that their expression is differentially regulated. However, one cDNA (RLC-B), predominantly a nonmuscle isoform, based on abundant expression in nonmuscle tissues including brain, spleen, and lung, is easily detected in smooth muscle tissues. The other cDNA (RLC-A; see Taubman, M., J. W. Grant, and B. Nadal-Ginard. 1987. J. Cell Biol. 104:1505-1513) was detected in a variety of nonmuscle, smooth muscle, and sarcomeric tissues. RNA analyses comparing expression of both RLC genes with the actin gene family and smooth muscle specific alpha-tropomyosin demonstrated that neither RLC gene was strictly smooth muscle specific. RNA analyses of cell lines demonstrated that both of the RLC genes are expressed in a variety of cell types. The complete genomic structure of RLC-A and close linkage to RLC-B is described.  相似文献   

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The 20-kDa regulatory myosin light chain (MLC), also known as MLC-2, plays an important role in the regulation of both smooth muscle and nonmuscle cell contractile activity. Phosphorylation of MLC-2 by the enzyme MLC kinase increases the actin-activated myosin ATPase activity and thereby regulates the contractile activity. We have isolated and characterized an MLC-2 cDNA corresponding to the human vascular smooth muscle MLC-2 isoform from a cDNA library derived from umbilical artery RNA. The translation of the in vitro synthesized mRNA, corresponding to the cDNA insert, in a rabbit reticulocyte lysate results in the synthesis of a 20,000-dalton protein that is immunoreactive with antibodies raised against purified chicken gizzard MLC-2. The derived amino acid sequence of the putative human smooth muscle MLC-2 shows only three amino acid differences when compared to chicken gizzard MLC-2. However, comparison with the human cardiac isoform reveals only 48% homology. Blot hybridizations and S1 nuclease analysis indicate that the human smooth muscle MLC-2 isoform is expressed restrictively in smooth muscle tissues such as colon and uterus and in some, but not all, nonmuscle cell lines. Previously reported MLC-2 cDNA from rat aortic smooth muscle cells in culture is ubiquitously expressed in all muscle and nonmuscle cells, and it was suggested that both smooth muscle and nonmuscle MLC-2 proteins are identical and are probably encoded by the same gene. In contrast, the human smooth muscle MLC-2 cDNA that we have characterized from an intact smooth muscle tissue is not expressed in skeletal and cardiac muscles and also in a number of nonmuscle cells.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

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We used differential scanning calorimetry (DSC) and circular dichroism (CD) to investigate thermal unfolding of recombinant fibroblast isoforms of alpha-tropomyosin (Tm) in comparison with that of smooth muscle Tm. These two nonmuscle Tm isoforms 5a and 5b differ internally only by exons 6b/6a, and they both differ from smooth muscle Tm by the N-terminal exon 1b which replaces the muscle-specific exons 1a and 2a. We show that the presence of exon 1b dramatically decreases the measurable calorimetric enthalpy of the thermal unfolding of Tm observed with DSC, although it has no influence on the alpha-helix content of Tm or on the end-to-end interaction between Tm dimers. The results suggest that a significant part of the molecule of fibroblast Tm (but not smooth muscle Tm) unfolds noncooperatively, with the enthalpy no longer visible in the cooperative thermal transitions measured. On the other hand, both DSC and CD studies show that replacement of muscle exons 1a and 2a by nonmuscle exon 1b not only increases the thermal stability of the N-terminal part of Tm, but also significantly stabilizes Tm by shifting the major thermal transition of Tm to higher temperature. Replacement of exon 6b by exon 6a leads to additional increase in the alpha-Tm thermal stability. Thus, our data show for the first time a significant difference in the thermal unfolding between muscle and nonmuscle alpha-Tm isoforms, and indicate that replacement of alternatively spliced exons alters the stability of the entire Tm molecule.  相似文献   

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We have isolated and characterized two distinct myosin heavy chain cDNA clones from a neonatal rat aorta cDNA library. These clones encode part of the light meromyosin region and the carboxyl terminus of smooth muscle myosin heavy chain. The two rat aorta cDNA clones were identical in their 5' coding sequence but diverged at the 3' coding and in a portion of the 3' untranslated regions. One cDNA clone, RAMHC21, encoded 43 unique amino acids from the point of divergence of the two cDNAs. The second cDNA clone, RAMHC 15, encoded a shorter carboxyl terminus of nine unique amino acids and was the result of a 39 nucleotide insertion. This extra nucleotide sequence was not present in RAMHC21. The rest of the 3' untranslated sequences were common to both cDNA clones. Genomic cloning and DNA sequence analysis demonstrated that an exon specifying the 39 nucleotides unique to RAMHC15 mRNA was present, together with the 5' upstream common exons in the same contiguous stretch of genomic DNA. The 39 nucleotide exon is flanked on either side by two relatively large introns of approximately 2600 and 2700 bases in size. RNase protection analysis indicated that the two corresponding mRNAs were coexpressed in both vascular and non-vascular smooth muscle tissues. This is the first demonstration of alternative RNA processing in a vertebrate myosin heavy chain gene and provides a novel mechanism for generating myosin heavy chain protein diversity in smooth muscle tissues.  相似文献   

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