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Gene/Protein
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Target Concepts:
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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In attempts to isolate human
elastin
cDNAs, a human placental lambda gt11 cDNA library was screened with a 1.3 kilobase sheep genomic DNA subclone, corresponding to the 3'-end of the
elastin
mRNA. The four largest clones, the largest being approximately 3 kilobase, were characterized by Northern transfer analyses, restriction
endonuclease
digestions and dideoxy nucleotide sequencing. Northern transfer analyses of poly(A)+RNA revealed hybridization to mRNA transcripts in the region of 3.5 kilobase. Restriction
endonuclease
mapping and nucleotide sequencing demonstrated distinct domains characteristic of
elastin
, and identified areas of variability which apparently reflects alternative splicing of the primary
elastin
transcripts. To demonstrate the utilization of these cDNAs for studies on elastin gene expression in human cells,
elastin
mRNA was examined in fibroblast cultures established from the skin of several individuals of varying ages. Northern transfer analyses and slot blot hybridizations demonstrated that elastin gene expression is initiated early during fetal development, and continues at a relatively constant level through several decades. The lowest abundance of
elastin
mRNA was noted in the cell cultures established for the oldest individual studied (61-year-old female). Demonstration of elastin gene expression in cultured fibroblasts provides a system to study diseases affecting the elastic fibers.
...
PMID:Isolation and characterization of human elastin cDNAs, and age-associated variation in elastin gene expression in cultured skin fibroblasts. 283 31
A human cDNA library was constructed utilizing RNA isolated from cultured skin fibroblasts. Recombinant clones containing
elastin
sequences were identified by plaque hybridizations with previously characterized human placental
elastin
cDNAs. Seven positive recombinant clones with inserts of approximately 3.2-2.2 kb were isolated. Characterization of the clones by restriction
endonuclease
analysis and dot-blot hybridizations with exon-specific synthetic oligonucleotides demonstrated considerable variability in the primary nucleotide sequence. Dideoxy nucleotide sequencing confirmed this finding. The variability is most likely a result of alternative splicing of exons from the primary
elastin
transcripts. The two largest clones contained approximately 1 kb of 3' untranslated sequence and approximately 2.2 kb of translated sequence encoding 730 amino acids. Six amino acids, encoded by exon 12A, have not been previously noted in human
elastin
cDNAs. In addition, these human skin fibroblast clones contained a 49 bp 5' untranslated sequence. These results demonstrate that there is considerable variability in the processed nucleotide sequence of the
elastin
mRNAs. These transcripts may code for isoforms of tropoelastin with different biologic properties.
...
PMID:Cloning of full-length elastin cDNAs from a human skin fibroblast recombinant cDNA library: further elucidation of alternative splicing utilizing exon-specific oligonucleotides. 317 Dec 21
The identity of the primary in vitro translation products of fetal sheep nuchal ligament
elastin
mRNA was confirmed as two distinct polypeptides of 63 Kdal and 65 Kdal in both rabbit reticulocyte and wheat germ extract cell-free translation systems. Both polypeptides were co-translationally processed by a microsomal membrane signal peptidase, with the removal of 20-25 amino acid residues. A single (3,5 kb) RNA species encodes both tropoelastin polypeptides. Restriction
endonuclease
mapping of sheep genomic DNA by hydridization with two radiolabelled genomic DNA fragments containing sequences coding for sheep tropoelastin (pSE1-1,3 and pSE1-0.7,) indicated the presence of a single elastin gene. The elastin gene copy number was further quantitated by comparison of hybridisation of pSE1-1.3 and pSE1-0.7 to slot-blots and Southern transfers of sheep genomic DNA and to standard curves constructed with each clone. These results clearly demonstrate that each of these sequences is represented only once per haploid genome, suggesting that the two tropoelastin polypeptides are products of a single elastin gene.
...
PMID:The gene coding for tropoelastin is represented as a single copy sequence in the haploid sheep genome. 360 4
A sheep genomic library containing sheep DNA in the bacteriophage vector Charon 4A was screened for
elastin
-gene sequences with partially purified, 32P-labelled
elastin
mRNA (mRNAE). A recombinant containing a 9.9-kb (kilobase) insert was selected from several positive clones by secondary and tertiary screening for further characterization. Positive identification of this
elastin
clone, designated SE1, was made with radiolabelled mRNAE by hydridization-selected translation and Southern blotting of restriction-enzyme fragments of SE1 DNA. Hybridization of either mRNAE or
elastin
complementary DNA to restriction fragments of SE1 showed that most of these fragments of SE1 contained
elastin
-coding sequences. Orientation of the insert was established by preferential hybridization of a short complementary
elastin
DNA to restriction fragments adjacent to the right arm of Charon 4A. Reciprocal hybridizations of nick-translated SE1 and sheep genomic DNA on Southern blots showed that two restriction fragments of SE1 contained sequence elements which were repeated at high frequency in a restriction-
endonuclease
-EcoR1 digest of total sheep genomic DNA. In the accompanying paper [Davidson, Shibahara, Boyd, Mason, Tolstoshev & Crystal (1984) Biochem. J. 220, 653-663], it is shown that a subcloned fragment of this elastin gene quantitatively and specifically hybridized to mRNAE sequences in sheep tissue RNA. Electron microscopy of SE1-mRNAE hybrids indicated the presence of at least seven large R-loops. Measurements of these structures indicated that SE1 is likely to contain less than 2 kb of coding sequence and more than 8 kb of intervening sequence, with an average exon size of 120 base-pairs. Thus the elastin gene is distributed over an extended region of the sheep genome and contains numerous intervening and coding sequences.
...
PMID:Sheep elastin genes. Isolation and preliminary characterization of a 9.9-kilobase genomic clone. 654 35
The unique advantage of genetic engineering techniques for the design and development of polymers for controlled gene delivery lies in exquisite control over polymer structure. In this article we report the biosynthesis and characterization of a series of new silk-elastinlike protein polymers (SELPs), namely, SELP415K, with larger
elastin
blocks per monomer unit than SELP47K previously studied for matrix-mediated gene delivery. A new cloning strategy was used, where a block of eight
elastin
units (8E) was integrated into the existing DNA sequence of SELP47K monomer genes using appropriate restriction
endonuclease
recognition sites. Following random multimerization, multimer gene segments of desired size were selected, expressed, and purified on Ni-agarose columns. The molecular weight and sequence composition of the purified SELPs were determined by MALDI-TOF and amino acid analysis, respectively. The influence of structural changes on the rheological properties of the polymers was investigated. In addition, hydrogel disks were prepared from 47K and 415K-8mer polymer solutions, and the effects of cure time and environmental conditions on the hydrogel equilibrium swelling ratio as a function of polymer composition were studied. DNA sequencing and agarose gel electrophoresis confirmed the successful cloning of the monomer gene segment of SELP415K consisting of 312 bp. Random concatemerization of SELP415K monomer gene segments resulted in a library of SELP415K multimer sequences of 6, 8, and 10 repeats respectively, each yielding a polymer with exact molecular weight and sequence. Rheometric measurements showed that both complex shear modulus (G*) and gelation point were influenced by polymer composition. Equilibrium swelling studies on hydrogel disks prepared from 47K and 415K-8mer polymer solutions showed that changes in polymer composition resulted in different gelation patterns and increased sensitivity toward changes in temperature and ionic strength but not pH. Together these results demonstrate the potential of recombinant techniques in engineering polymers with defined structures which allows the study of the structural parameters affecting matrix-mediated delivery of genes and bioactive agents.
...
PMID:Molecular engineering of silk-elastinlike polymers for matrix-mediated gene delivery: biosynthesis and characterization. 1580 88
