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1.
Tropoelastin is the monomeric form of elastin, a major polymeric protein of the extracellular elastic matrix of vertebrate tissues with properties of extensibility and elastic recoil. Mammalian and avian species contain a single gene for tropoelastin. A tropoelastin gene has also previously been identified in amphibians. In contrast, two tropoelastin genes with different tissue expression patterns have been described in teleosts. While general characteristics of tropoelastins, such as alternating arrangements of hydrophobic and crosslinking domains, are conserved across a wide phylogenetic range, sequences of these domains are highly variable, particularly when amphibian and teleost tropoelastins are included. For this reason exon-to-exon correspondence is not clear, and overall alignment of tropoelastin sequences across all species is not possible. An exception to this is the C-terminal exon, whose coding sequence has been very well-conserved across all species described to date. In mammalians this C-terminal domain has been shown to be important for interactions with cells and other matrix-associated proteins involved in matrix assembly. Here we identify and characterize a second tropoelastin gene in the frog with several unusual characteristics, the most striking of which is truncation of the C-terminal domain, deleting normally conserved sequence motifs. We demonstrate that, in spite of the absence of these motifs, both frog tropoelastin genes are expressed and incorporated into the elastic matrix, although with differential tissue localizations.  相似文献   

2.
Elastin is the extracellular matrix protein responsible for properties of extensibility and elastic recoil in large blood vessels, lung and skin of most vertebrates. Elastin is synthesized as a monomer, tropoelastin, but is rapidly transformed into its final polymeric form in the extracellular matrix. Until recently information on sequence and developmental expression of tropoelastins was limited to mammalian and avian species. We have recently identified and characterized two expressed tropoelastin genes in zebrafish. This was the first example of a species with multiple tropoelastin genes, raising the possibility of differential expression and function of these tropoelastins in elastic tissues of the zebrafish. Here we have investigated the temporal expression and tissue distribution of the two tropoelastin genes in developing and adult zebrafish. Expression was detected early in skeletal cartilage structures of the head, in the developing outflow tract of the heart, including the bulbus arteriosus and the ventral aorta, and in the wall of the swim bladder. While the temporal pattern of expression was similar for both genes, the upregulation of eln2 was much stronger than that of eln1. In general, both genes were expressed and their gene products deposited in most of the elastic tissues examined, with the notable exception of the bulbus arteriosus in which eln2 expression and its gene product was predominant. This finding may represent a sub-specialization of eln2 to provide the unique architecture of elastin and the specific mechanical properties required by this organ.  相似文献   

3.
Due to the low complexity associated with their sequences, uncovering the evolutionary and functional relationships in highly repetitive proteins such as elastin, spider silks, resilin and abductin represents a significant challenge. Using the polymeric extracellular protein elastin as a model system, we present a novel computational approach to the study of sequence, function and evolutionary relationships in repetitive proteins. To address the absence of accurate sequence annotation for repetitive proteins such as elastin, we have constructed a new database repository, ElastoDB (http://theileria.ccb.sickkids.ca/elastin), dedicated to the storage and retrieval of elastin sequence- and meta-data. To analyse their sequence relationships we have devised an innovative new method, based on the identification of overrepresented 'fuzzy' motifs. Applying this method to elastin sequences derived from mammals, chicken, Xenopus and zebrafish resulted in the identification of both highly conserved, and taxon and species specific motifs that likely represent important functional and/or structural elements. The relative spacing and organization of these elements suggest that exon duplication events have played an important role in the evolution of elastin. Clustering of similarity profiles generated for sets of exons and introns, revealed a pattern of putative duplication events involving exons 15-30 in mammalian and chicken elastins, exons 20-31 in both zebrafish elastins, exons 15-20 in fugu elastin and exons 35-50 in Xenopus elastin 1. The success of this approach for elastin offers a promising route to the elucidation of sequence, structure, function and evolutionary relationships for many other proteins with sequences of low complexity.  相似文献   

4.
Polymeric elastin provides the physiologically essential properties of extensibility and elastic recoil to large arteries, heart valves, lungs, skin and other tissues. Although the detailed relationship between sequence, structure and mechanical properties of elastin remains a matter of investigation, data from both the full‐length monomer, tropoelastin, and smaller elastin‐like polypeptides have demonstrated that variations in protein sequence can affect both polymeric assembly and tensile mechanical properties. Here we model known splice variants of human tropoelastin (hTE), assessing effects on shape, polymeric assembly and mechanical properties. Additionally we investigate effects of known single nucleotide polymorphisms in hTE, some of which have been associated with later‐onset loss of structural integrity of elastic tissues and others predicted to affect material properties of elastin matrices on the basis of their location in evolutionarily conserved sites in amniote tropoelastins. Results of these studies show that such sequence variations can significantly alter both the assembly of tropoelastin monomers into a polymeric network and the tensile mechanical properties of that network. Such variations could provide a temporal‐ or tissue‐specific means to customize material properties of elastic tissues to different functional requirements. Conversely, aberrant splicing inappropriate for a tissue or developmental stage or polymorphisms affecting polymeric assembly could compromise the functionality and durability of elastic tissues. To our knowledge, this is the first example of a study that assesses the consequences of known polymorphisms and domain/splice variants in tropoelastin on assembly and detailed elastomeric properties of polymeric elastin.  相似文献   

5.
One of the unusual properties of elastin is its ability to coacervate, which has been proposed to play an important role in the alignment of monomeric elastin for cross-linking into the polymeric elastin matrix. The temperature at which this transition takes place depends on several factors including protein concentration, ionic strength, and pH. Previously, polypeptide sequences encoded by different exons of the human tropoelastin gene have been analyzed for their ability to coacervate and to self-assemble. Few of them were indeed able to coacervate and only one, that encoded by exon 30 (EX30), gave amyloid fibers. In this article, we report on two chemically synthesized peptides-a decapeptide and an octadecapeptide-whose sequences are contained in the longer EX30 peptide and on a polypeptide (EX1-7) of 125 amino-acid residues corresponding to the sequence coded by the exons 1-7 and on a polypeptide (EX2-7) of 99 amino-acid residues encoded by exons 2-7 of human tropoelastin obtained by recombinant DNA techniques. Molecular and supramolecular structural characterization of these peptides showed that a minimum sequence of approximately 20 amino acids is needed to form amyloid fibers in the exon 30-derived peptides. The N-terminal region of mature tropoelastin (EX2-7) gives rise to a coacervate and forms elastinlike fibers, whereas the polypeptide sequence containing the signal peptide (EX1-7) forms mainly amyloid fibers. Circular dichroism spectra show that beta-structure is ubiquitous in all the sequences studied, suggesting that the presence of a beta-structure is a necessary, although not sufficient, requirement for the appearance of amyloid fibers.  相似文献   

6.
R A Pierce  S B Deak  C A Stolle  C D Boyd 《Biochemistry》1990,29(41):9677-9683
A lambda gt11 library constructed from poly(A+) RNA isolated from aortic tissue of neonatal rats was screened for rat tropoelastin cDNAs. The first screen, utilizing a human tropoelastin cDNA clone, provided rat tropoelastin cDNAs spanning 2.3 kb of carboxy-terminal coding sequence and extended into the 3'-untranslated region. A subsequent screen using a 5' rat tropoelastin cDNA clone yielded clones extending into the amino-terminal signal sequence coding region. Sequence analysis of these clones has provided the complete derived amino acid sequence of rat tropoelastin and allowed alignment and comparison with published bovine cDNA sequence. While the overall structure of rat tropoelastin is similar to bovine sequence, numerous substitutions, deletions, and insertions demonstrated considerable heterogeneity between species. In particular, the pentapeptide repeat VPGVG, characteristic of all tropoelastins analyzed to date, is replaced in rat tropoelastin by a repeating pentapeptide, IPGVG. The hexapeptide repeat VGVAPG, the bovine elastin receptor binding peptide, is not encoded by rat tropoelastin cDNAs. Variations in coding sequence between rat tropoelastin cDNA clones were also found which may represent mRNA heterogeneity produced by alternative splicing of the rat tropoelastin pre-mRNA.  相似文献   

7.
The ratios of tropoelastin b to a were measured in chick aorta and lung during embryogenesis. The rates of tropoelastin a and b synthesis were determined in short-term organ culture. The results demonstrated that in lung tissue the ratio of the two tropoelastins remained essentially constant. Each of the tropoelastins comprised 50% of the total elastin synthesis. In the aortic tissue, tropoelastin b represented 70% of the total elastin in the 11- to 13-day embryos and increased to 91% by Day 16. These observations seen in the organ culture system were paralleled in measurements of functional mRNAs coding for the two proteins. Measurements of functional tropoelastin mRNAs from both lung and aortic tissues were performed in a mRNA-dependent rabbit reticulocyte lysate system. Although the changes in the abundance of the tropoelastin mRNAs revealed the same trend as that seen in the organ culture data, the magnitude of the tropoelastin b to a ratio in the aortic organ culture was twice that determined in the cell-free translation of aortic mRNAs. The data obtained from both cell-free translations and organ culture experiments demonstrate that there is a differential expression of elastin genes during aorta development which is significantly different from that found in developing lung.  相似文献   

8.
Neonatal rat aortic smooth muscle cell cultures produce two major soluble elastin molecules termed protropoelastin (77 kDa) and tropoelastin (71 kDa). Cell layer extracts are protroproelastin-enriched, while protropoelastin, tropoelastin, and significant amounts of discrete elastin fragments (Mr of 66,000, 61,000, 56,000, and 45,000) are present in preparations from the medium of these cultures. To determine the role of the various elastin molecules in the metabolism of elastin in neonatal rat aortic smooth muscle cell cultures, the amino termini of these proteins were sequenced. All soluble elastin components present in the medium were purified as a single peak by high performance liquid chromatography; further separation of the components was achieved by polyacrylamide gel electrophoresis and electroblotting. The bands were excised and sequenced. The amino-terminal sequences of protropoelastin, tropoelastin, and the 66-kDa, 61-kDa, and 56-kDa fragments were identical: Gly-Gly-Val-Pro-Gly-Ala-Val-Pro-Gly-Gly. This sequence is identical with published amino-terminal sequences of tropoelastins from several other species. As expected, when the cell cultures were pulsed with [3H]valine, all the soluble elastin molecules were radioactive, while only protropoelastin appeared radioactive after [35S] cysteine pulsing. Since cysteine is present only in the carboxyl-terminal end of the molecule, all the data indicate that the cleavage of the elastin fragments identified in the culture are occurring at the carboxyl end of protropoelastin. These results are consistent with the original hypothesis that a precursor-product relationship exists between the 77-kDa and 71-kDa soluble elastin molecules. Based on known tropoelastin sequences and the molecular weights of the discrete fragments, additional fragmentation of protropoelastin and/or tropoelastin most likely occurs at the lysine/alanine-enriched domains presumably involved in cross-link formation.  相似文献   

9.
Multiple isoforms of tropoelastin, the soluble precursor of elastin, are the products of translation of splice-variant mRNAs derived from the single-copy tropoelastin gene. Previous data had demonstrated DNA sequence heterogeneity in three domains of rat tropoelastin mRNA, indicating alternative splicing of several exons of the rat tropoelastin gene. Rat tropoelastin genomic clones encompassing the sites of alternative splicing were isolated and sequenced. Two sites of alternative splicing identified in rat tropoelastin mRNA sequences corresponded to exons 13-15 and exon 33 of the rat tropoelastin gene. Furthermore, the variable inclusion of an alanine codon in exon 16 resulted from two functional acceptor sites separated by three nucleotides. DNA sequences flanking exons subject to alternative splicing were analyzed. These exons contained splicing signals that differed from consensus sequences and from splicing signals of constitutively spliced exons. Introns immediately 5' of exons 14 and 33, for example, lacked typical polypyrimidine tracts and had weak, overlapping branch point sequences. Further, a region of secondary structure encompassing the acceptor site of exon 13 may influence alternative splicing of this exon. These results demonstrate that multiple cis-acting sequence elements may contribute to alternative splicing of rat tropoelastin pre-mRNA.  相似文献   

10.
Chick tropoelastin isoforms. From the gene to the extracellular matrix   总被引:1,自引:0,他引:1  
Studies from several laboratories have demonstrated the existence of multiple tropoelasting mRNAs and protein isoforms. The present study was designed to examine the developmental expression of a specific tropoelastin mRNA, its encoded isoform, and the fate of that isoform in the extracellular matrix. A chick genomic DNA library was screened with a chick tropoelastin cDNA. Seven unique, overlapping clones spanning 39 kilobases were isolated. A synthetic oligonucleotide complementary to a variable tropoelastin mRNA sequence was used to identify a 1.5-kilobase PstI-BamHI genomic fragment. Nucleotide sequence data revealed that the putative exon was surrounded by intron sequences possessing canonical splice sites at the exon/intron borders. Using both immunologic and molecular probes specific to the tropoelastin isoform and mRNA, quantitative protein and RNA analyses were performed. Results demonstrate that total tropoelastin mRNAs increased significantly during aortic embryogenesis whereas the amount of mRNA containing the variable exon remained relatively constant. The amount of total tropoelastins within the same developmental period reflect the level of total tropoelastin mRNA. The amount of the tropoelastin isoform containing the variable exon essentially mirrored the corresponding mRNA with the exception that a decrease in the isoform at day 15 was not seen in the mRNA level. Immunoelectron micrographs of 13-day chick aortic tissue using both total and isoform-specific antisera showed ultrastructural localization to definable elastic fibers. Antibodies to the variable tropoelastin isoform occurred preferentially at sites where elastic fiber microfibril structures were evident.  相似文献   

11.
 H oxa1 1基因是控制脊椎动物肢发育的重要基因 .根据人和鼠 H oxa1 1基因外显子 区和 区的保守序列设计了简并引物 ,采用 PCR法从热带爪蟾基因组 DNA中扩增和克隆到了H oxa1 1基因 ,并测定了核苷酸序列 .克隆的热带爪蟾 H oxa1 1基因片段长 1 598bp,由外显子 、内含子和外显子 三部分组成 ,其中外显子 60 4 bp,外显子 49bp.将该片段的核苷酸序列与人、鼠、斑马鱼 H oxa1 1基因的相应区域进行比较 ,发现该基因的内含子长度存在明显差异 .斑马鱼、热带爪蟾、鼠和人的内含子长度分别为 632 bp,945bp,1 42 1 bp和 1 41 2 bp,随动物进化阶梯的提高而变长 .外显子 区则高度保守 ,都是 49bp,外显子 区在长度上呈现约 1 0 %的变异 .将热带爪蟾 H oxa1 1基因编码的氨基酸序列与人、鼠、斑马鱼进行比较 ,它们之间分别有 67.0 %、66.5%和 46.0 %的同源性 .热带爪蟾与哺乳动物的同源性高于鱼类 ,可能反映了脊椎动物从鳍到肢的进化过程中 ,H oxa1 1基因经历了较多的变异 .  相似文献   

12.
13.
Elastin is a polymeric structural protein that imparts the physical properties of extensibility and elastic recoil to tissues. The mechanism of assembly of the tropoelastin monomer into the elastin polymer probably involves extrinsic protein factors but is also related to an intrinsic capacity of elastin for ordered assembly through a process of hydrophobic self-aggregation or coacervation. Using a series of simple recombinant polypeptides based on elastin sequences and mimicking the unusual alternating domain structure of native elastin, we have investigated the influence of sequence motifs and domain structures on the propensity of these polypeptides for coacervation. The number of hydrophobic domains, their context in the alternating domain structure of elastin, and the specific nature of the hydrophobic domains included in the polypeptides all had major effects on self-aggregation. Surprisingly, in polypeptides with the same number of domains, propensity for coacervation was inversely related to the mean Kyte-Doolittle hydropathy of the polypeptide. Point mutations designed to increase the conformational flexibility of hydrophobic domains had the unexpected effect of suppressing coacervation and promoting formation of amyloid-like fibers. Such simple polypeptides provide a useful model system for understanding the relationship between sequence, structure, and mechanism of assembly of polymeric elastin.  相似文献   

14.
Characterization of rat heart tropoelastin   总被引:1,自引:0,他引:1  
Several overlapping rat tropoelastin cDNA clones were isolated from a lambda gt11 rat heart cDNA library and their nucleotide sequence was determined. The corresponding deduced amino acid sequence of rat tropoelastin revealed strong homology to bovine and human tropoelastins although possessing some unique features including greater size (18%) and composition of repetitive units. Comparison of the amino acid sequence of rat tropoelastin to four other tropoelastin species reveals that the hydrophobic peptide repeat regions in the middle of each molecule and the crosslinking areas containing three lysine residues are remarkably conserved. A possible function for the clustering of three lysine residues in providing a mechanism for the in vivo reduction of dehydrolysinonorleucine via a redox shuttle with dihydrodesmosine is proposed. In addition, the COOH-terminal sequence of the rat tropoelastin is virtually identical to tropoelastins of other species in possessing a cysteine/arginine/lysine containing segment. There are no obvious amino acid insertions or substitutions in the COOH-terminal half of the rat tropoelastin molecule which would signal unique cleavage or glycosylation sites. Examination of the steady-state levels of rat tropoelastin mRNA in 8- and 12-day neonatal lung, heart, and aortic tissues showed that the amount of tropoelastin mRNA was abundant and of similar size (3.9 kb) in all three tissues.  相似文献   

15.
The glucose-dependent insulinotropic polypeptide (GIP) gene is believed to have originated from a gene duplication event very early in vertebrate evolution that also produced the proglucagon gene, yet so far GIP has only been described within mammals. Here we report the identification of GIP genes in chicken, frogs, and zebrafish. The chicken and frog genes are organized in a similar fashion to mammalian GIP genes and contain 6 exons and 5 introns in homologous locations. These genes can also potentially be proteolytically processed in identical patterns as observed in the mammalian sequences that would yield a GIP hormone that is only one amino shorter than the mammalian sequences due to the removal of an extra basic residue by carboxypeptidase E. The zebrafish GIP gene and precursor protein is shorter than other vertebrate GIP genes and is missing exon 5. The predicted zebrafish GIP hormone is also shorter, being only 31 amino acids in length. The zebrafish GIP hormone is similar in length to the proglucagon-derived peptide hormones, peptides encoded from the gene most closely related to GIP. We suggest that the structure of zebrafish GIP is more similar to the ancestral gene, and that tetrapod GIP has been extended. The mammalian GIP hormone has also undergone a period of rapid sequence evolution early in mammalian evolution. The discovery of a conserved GIP in diverse vertebrate suggests that it has an essential role in physiology in diverse vertebrates, although it may have only recently evolved a role as an incretin hormone.  相似文献   

16.
Elastin is the polymeric, extracellular matrix protein that provides properties of extensibility and elastic recoil to large arteries, lung parenchyma, and other tissues. Elastin assembles by crosslinking through lysine residues of its monomeric precursor, tropoelastin. Tropoelastin, as well as polypeptides based on tropoelastin sequences, undergo a process of self‐assembly that aligns lysine residues for crosslinking. As a result, both the full‐length monomer as well as elastin‐like polypeptides (ELPs) can be made into biomaterials whose properties resemble those of native polymeric elastin. Using both full‐length human tropoelastin (hTE) as well as ELPs, we and others have previously reported on the influence of sequence and domain arrangements on self‐assembly properties. Here we investigate the role of domain sequence and organization on the tensile mechanical properties of crosslinked biomaterials fabricated from ELP variants. In general, substitutions in ELPs involving similiar domain types (hydrophobic or crosslinking) had little effect on mechanical properties. However, modifications altering either the structure or the characteristic sequence style of these domains had significant effects on such properties. In addition, using a series of deletion and replacement constructs for full‐length hTE, we provide new insights into the role of conserved domains of tropoelastin in determining mechanical properties. © 2012 Wiley Periodicals, Inc. Biopolymers 99: 392–407, 2013.  相似文献   

17.
Elastic fiber assembly is a complicated process involving multiple different proteins and enzyme activities. However, the specific protein-protein interactions that facilitate elastin polymerization have not been defined. To identify domains in the tropoelastin molecule important for the assembly process, we utilized an in vitro assembly model to map sequences within tropoelastin that facilitate its association with fibrillin-containing microfibrils in the extracellular matrix. Our results show that an essential assembly domain is located in the C-terminal region of the molecule, encoded by exons 29-36. Fine mapping studies using an exon deletion strategy and synthetic peptides identified the hydrophobic sequence in exon 30 as a major functional element in this region and suggested that the assembly process is driven by the propensity of this sequence to form beta-sheet structure. Tropoelastin molecules lacking the C-terminal assembly domain expressed as transgenes in mice did not assemble nor did they interfere with assembly of full-length normal mouse elastin. In addition to providing important information about elastin assembly in general, the results of this study suggest how removal or alteration of the C terminus through stop or frameshift mutations might contribute to the elastin-related diseases supravalvular aortic stenosis and cutis laxa.  相似文献   

18.
Miao M  Cirulis JT  Lee S  Keeley FW 《Biochemistry》2005,44(43):14367-14375
Elastin is a major structural protein found in large blood vessels, lung, ligaments, and skin, imparting the physical properties of extensibility and elastic recoil to these tissues. To achieve the required structural durability of the elastic matrix, the elastin monomer, tropoelastin, undergoes ordered assembly into a covalently cross-linked, fibrillar polymeric structure. Human tropoelastin consists of 34 exons coding for alternating hydrophobic and cross-linking domains. Using a series of well-defined recombinant polypeptides based on human elastin sequences mimicking native elastin, we have previously investigated the role of sequence and context of hydrophobic domains in elastin self-assembly. Here, we demonstrate that the structure of both cross-linking and hydrophobic domains have significant effects on the assembly of these polypeptides. Removing a putative flexible hinge region in the center of a cross-linking domain substantially increased the alpha-helical content and strongly promoted their self-aggregation. However, while trifluoroethanol (TFE) promoted and urea inhibited self-assembly of these polypeptides, these effects were not predominantly due to altered alpha-helicity of the polypeptides. Our results suggest that, while increased alpha helicity also favors this process, the major effect of TFE to promote organized self-assembly of elastin-like polypeptides is likely related to direct effects of this cosolvent on hydrophobic domains. Such simple elastin polypeptide models can provide an important tool for understanding the relationships between sequence, structure, and polymeric assembly of elastin.  相似文献   

19.
Nucleotide sequence analysis of cDNA clones for bovine elastin revealed the occurrence of three mRNAs for elastin in fetal calf nuchal ligament, encoding three forms of elastins (a, b, and c, of 747, 733, and 713 amino acid residues, respectively). These forms arise as the result of the presence, at a single position, of 102 additional nucleotides in the mRNA for elastin a and of 60 of these nucleotides in the mRNA for elastin b as compared to the mRNA for elastin c. As expected, most lysines occur in pairs, separated by two or three small amino acid residues. However, at two places, lysines occur in groups of three. The occurrence of a group of three lysines followed by a hydrophobic residue (lysine 400, 404, and 407) offers an explanation for the formation of lysinonorleucine. The alignment of amino acid sequences of porcine tropoelastin tryptic peptides with the sequence for bovine elastin a results in the ordering of these tryptic peptides. The analysis of the complete primary structures of elastin a, b, and c provides further insight into the structure-function relations of elastin.  相似文献   

20.
Myostatin三维结构模建及分子进化分析   总被引:1,自引:1,他引:0  
Myostatin(MST)为肌肉生长负调节因子,其功能受抑制可导致肌肉量增加.对MST核酸序列进行序列比对,构建进化树;采用同源模建方法首次模建MST成熟肽生物活性二聚体的四级结构,并预测MST与其受体ActRIIB的相互作用模式.进化树将肌肉生长抑制素基因(MSTN)分成4个亚家族:哺乳动物MSTN,鸟类MSTN以及鱼类MSTN 1和2.MST受纯化选择作用,在不同物种的直系同源基因具有较高的刚源性,其中哺乳动物、鸟类MST C端活性肽氨基酸序列高度保守.表明哺乳动物、鸟类MST的结构、功能类似,且信号传导路径可能一致;而鱼类MST的调控机制可能存在较大差异.MST结构及其表面静电势和疏水氨基酸分布表明静电力和疏水相互作用在MST与其受体结合过程中可能起到十分重要的作用.  相似文献   

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