Isolation and characterization of a cDNA clone for the amino-terminal portion of the pro-alpha 1(II) chain of cartilage collagen

We have isolated a cDNA clone (pRcol 2) which is complementary to the 5'-terminal portion of the rat pro-alpha 1(II) chain mRNA. A synthetic oligonucleotide was used both as a primer for cDNA synthesis and as a probe for screening a cDNA library. The probe was a mixture of sixteen 14-mers deduced from an amino acid sequence present in the amino-terminal telopeptide of the rat cartilage alpha 1(II) chain. This primer was chosen so that the resulting cDNA would contain the sequence of the 5' end of the mRNA. The nucleotide sequences of the cDNA were determined and compared with that of three other interstitial procollagen chain mRNAs (pro-alpha 1(I), pro-alpha 2(I), and pro-alpha 1(III) chain mRNA). pRcol 2 contains a 521-base pair (bp) insert, including 153 bp of the 5' untranslated region plus 368 bp coding for the signal peptide, the amino-terminal propeptide, and a part of the telopeptide. The signal peptide of the type II collagen chain is composed of about 20 amino acids. There is little homology between the amino acid sequence of the signal peptide in the pro-alpha 1(II) chain and that of three other interstitial procollagen chains. The NH2-terminal propeptide is deduced to contain short nonhelical sequences at its amino and carboxyl ends and an internal helical collagenous domain comprising 25 repeats of Gly-X-Y with one interruption. There is a strong conservation of the amino acid sequence of the carboxyl-terminal part of the NH2-terminal propeptide in the pro-alpha 1(II), pro-alpha 1(I), and pro-alpha 2(I) chains. Type II collagen mRNA does not contain a sequence corresponding to a uniquely conserved nucleotide sequence around the translation initiation site which occurs in mRNA for other procollagen chains.     

Location of the 11 bp exon in the chicken pro alpha 2(I) collagen gene.

During the fine structural analysis of the 5' end of the 38 kb chicken pro alpha 2(I) collagen gene, we failed to locate an exon, only 11 bp in size, which had been predicted from the DNA sequence analysis of a cDNA clone complementary to the 5' end of the pro alpha 2(I) collagen mRNA (1). We know report the location of this 11 bp exon, exon 2, at the 5' end of a 180 bp Pst I fragment, 1900 bp 3' to exon 1 and 600 bp 5' to exon 3. Its sequence, ATGTGAGTGAG, is highly unusual in that it contains two overlapping consensus donor splice sequences. Moreover, it is flanked by two overlapping donor splice sequences but only one of the four splice sequences is actually spliced (1). The first half of intron 1 also has an unusual sequence: it is 68% GC, contains 88 CpG dinucleotides and 11 Hpa II sites. The second half is more like other intron sequences in the collagen gene with a GC content of 41%, 19 CpG, and no Hpa II sites. However it contains two sequences with 7 and 9 bp homology to the 14 bp SV40 enhancer core sequence. It is suggested that some part of intron 1 may be involved in regulation.     

The human alpha 2(XI) collagen (COL11A2) chain. Molecular cloning of cDNA and genomic DNA reveals characteristics of a fibrillar collagen with differences in genomic organization

We have isolated three overlapping cDNA clones encoding the pro alpha 2(XI) collagen chain from a human chondrocyte cDNA library. Together, the cDNAs code for 257 uninterrupted Gly-X-Y triplets (almost 80% of the triple helical domain) and about 200 amino acid residues of the carboxyl telopeptide and carboxyl propeptide. The identification of the clones as pro alpha 2(XI) cDNAs was based on the complete identity between the amino acid sequences of three tryptic peptides derived from human alpha 2(XI) collagen and the cDNA-derived sequence. We have also sequenced six exons within a human genomic alpha 2(XI) cosmid clone. This sequence shows that although type XI collagen belongs to the fibril-forming class of collagens, there are substantial differences in exon sizes at the 3' end of the gene when comparing the alpha 2(XI) gene with those of human types I, II, and III collagens. Finally, pro alpha 2(XI) cDNA has been used as a probe to determine the location of the gene by in situ hybridization of chromosome spreads. The results demonstrate that the gene is located close to the region p212 on chromosome 6. Northern blot analysis shows that the gene is expressed in cartilage but not in adult liver, skin, and tendon.     

Cloning and characterization of five overlapping cDNAs specific for the human pro alpha 1(I) collagen chain.

We report the cloning of five overlapping cDNAs bearing sequences specific for the human pro alpha 1(I) collagen chain. Poly-A RNA enriched for collagen sequences was purified from normal human fibroblasts and used as template to synthesize double stranded cDNA. The cDNA was inserted into the Eco RI site of pBR 322 by blunt-ending and dG:dC tailing. The clones were screened by colony hybridization using the original RNA population and the resulting five positive clones subjected to restriction endonuclease mapping analysis and DNA sequencing. These overlapping clones cover from residue 247 in the alpha chain to part of the 3' end untranslated region of the pro alpha 1(I) mRNA for a total of 3400 nucleotides.     

Construction of DNA sequences complementary to rat alpha 1 and alpha 2 collagen mRNA and their use in studying the regulation of type I collagen synthesis by 1,25-dihydroxyvitamin D

Type I collagen mRNA from fetal rat calvaria was used as a template for the synthesis of a cDNA that was subsequently inserted in the PstI site of the plasmic vector pBR322 and cloned. Three recombinant plasmids containing type I collagen specific sequences were characterized: p alpha 1R1 is 1600 bp and spans approximately 500 amino acid residues within the triple helical region of alpha 1(I) and p alpha 1R2 is 900 bp in size and covers the entire 3' noncoding and about half of the C-terminal propeptide region of alpha 1(I) collagen mRNA. The third recombinant p alpha 2R2 is 1500 bp and contains alpha 2(I) sequences specific for the entire 3' noncoding and C-terminal propeptide region. Partial nucleic acid sequence data revealed that the decreasing order of amino acid and nucleotide homology to similar regions of the rat cDNA was mouse greater than human greater than chick. Northern hybridization of mRNA after electrophoresis in 0.8% agarose revealed two distinctly different molecular weight patterns characteristic of alpha 1(I) (4.7 and 5.7 kb) and alpha 2(I) (4.2 and 4.5 kb) collagen mRNA when hybridized with the corresponding cDNA probe. Despite the high degree of sequence homology, DNA probes from rat or human produced a significantly reduced hybridization signal when used as an interspecies hybridization probe than to its corresponding mRNA. The rat cDNA probes were used in a dot hybridization assay to measure the type I collagen mRNA content in the fetal rat calvaria.(ABSTRACT TRUNCATED AT 250 WORDS)     

Complete nucleotide sequence of the N-terminal domains of the murine alpha-1 type-III collagen chain

We present the complete nucleotide (nt) sequence and derived amino acid (aa) sequence of the N-terminal portion of the murine alpha-1 type-III collagen chain. The detailed structure of this region is important for the understanding of type-III collagen biosynthesis in normal tissue and during fibrosis. The cDNA clones, pCIII-1-C119, pCIII-1-C534 and pCIII-1-C572, covering a total of 1485 nt, code for 19 nt of the 5' untranslated region, the 24 aa of the signal peptide, the 130 aa of the N-terminal propeptide, the 9 aa of the telopeptide and 334 aa of the helical domain.     

A base substitution at the splice acceptor site of intron 5 of the COL1A2 gene activates a cryptic splice site within exon 6 and generates abnormal type I procollagen in a patient with Ehlers-Danlos syndrome type VII.

The dermal type I collagen of a patient with Ehlers-Danlos type VIIB (EDS-VIIB) contained normal alpha 2(I) chains and mutant pN-alpha 2(I)' chains in which the amino-terminal propeptide (N-propeptide) remained attached to the alpha 2(I) chain. Similar alpha 2(I) chains were produced by cultured dermal fibroblasts. Amino acid sequencing of tryptic peptides, prepared from the mutant amino-terminal pN-alpha 2(I) CB1' peptide, indicated that five amino acids, including the N-proteinase (the specific proteinase that cleaves the procollagen N-propeptide) cleavage site, had been deleted from the junction of the N-propeptide and the N-telopeptide (the nonhelical domain at the amino-terminus of the alpha chains of fully processed type I polypeptide chains) of the mutant pro-alpha 2(I)' chain. The corresponding 15 nucleotides, which were deleted from approximately half of the alpha 2(I) cDNA polymerase chain reaction products, of the alpha 2(I) cDNA polymerase chain reaction products, were encoded by the +1 to +15 nucleotides of exon 6 of the normal alpha 2(I) gene (COL1A2). These 15 nucleotides were deleted in the splicing of alpha 2(I) pre-mRNA to mRNA as a result of inactivation of the 3' splice site of intron 5 by an AG to AC mutation and the activation of a cryptic AG splice acceptor site corresponding to positions +14 and +15 of exon 6. Loss of the N-proteinase cleavage site explained the persistence of the pN-alpha 2(I)' chains in the dermis and in fibroblast cultures. Collagen production by cultured dermal fibroblasts was doubled, possibly due to reduced feedback inhibition by the N-propeptides. In contrast to previously reported cases of EDS-VIIB, Lys5 of the N-telopeptide was not deleted and appeared to take part in the formation of intramolecular cross-linkages. However, increased collagen solubility and abnormal extraction profiles of the mutant type I collagen molecules indicated that collagen cross-linking was abnormal in the dermis. The proband and her son were heterozygous for the mutation. It is likely that the heterozygous loss of the N-proteinase cleavage site, with persistence of a shortened N-propeptide, was the major factor responsible for the EDS-VIIB phenotype.     

Sequence of normal canine COL1A1 cDNA and identification of a heterozygous alpha1(I) collagen Gly208Ala mutation in a severe case of canine osteogenesis imperfecta

The sequence of canine COL1A1 cDNA was determined from four overlapping COL1A1 RT-PCR products generated from canine fibroblast RNA. In the translated region, nucleotide identity between canine and human COL1A1 cDNA was 93.2%, although the canine sequence lacked nucleotides 204 to 215 in the region coding for the N-propeptide. Amino acid identity was 97.7%. Total RNA and type I collagen were collected from cultured skin fibroblasts of a 12-week-old male golden retriever with pathologic fractures suggestive of osteogenesis imperfecta (OI) and dentinogenesis imperfecta. Sequential, overlapping approximately 1,000-bp fragments of COL1A1 and COL1A2 cDNA were each amplified by RT-PCR using primers containing 5' T7 polymerase sites. These PCR products were transcribed with T7 RNA polymerase, hybridized into RNA duplexes, and cleaved at mismatch sites with RNase. The proband had an unique cleavage pattern for the fragment of COL1A1 mRNA spanning nucleotides 709 to 1,531. Sequence analysis identified a G to C point mutation for nucleotide 1,276, predicting a codon change from glycine (GGA) to alanine (GCA) for amino acid 208. This change disrupts the normal Gly-X-Y pattern of the collagen triple helix. Restriction enzyme digestion of the RT-PCR product was consistent with a heterozygous COL1A1 mutation. Type I collagen was labeled with 3H-proline, salt precipitated, and analyzed by SDS-PAGE. Pepsin digested alpha chains were over-hydroxylated, and procollagen processing was delayed. Thus, canine and human OI appear homologous in terms of clinical presentation, etiology, and pathogenesis.     

Analysis of cDNA and genomic clones coding for the pro alpha 1 chain of calf type II collagen.

A bovine cDNA library constructed from fetal cartilage RNA was screened with a pro alpha 1(II) collagen specific chicken cDNA. A recombinant clone (Bc 7), with an insert of 1 kb, was identified and shown to contain sequences exhibiting 85% homology with the chicken pro alpha 1(II) collagen C-propeptide. Interspecies comparison strongly suggested that one potential glycosylation site present in the avian C-propeptide is not utilized, since this site is absent in the bovine chain. In addition, two overlapping genomic clones (Pal 3 and Pal 4) were isolated and partially characterized. These clones span 23 kb of DNA and contain approximately 17 kb of the pro alpha 1(II) calf gene. Sequencing of exon 1 has determined the length of the 3' untranslated region and the exact location of the polyadenylation attachment site.     

Nucleotide sequence analysis of the cloned salmon preproinsulin cDNA

A cDNA library was constructed using polyadenylated RNA from salmon (Oncorhynchus keta) Brockmann bodies, plasmid vector pBR322, and in vitro recombinant DNA techniques. Insulin-related clones were identified with a cDNA probe generated from the same RNA and enriched for insulin sequences. Two recombinants were shown to contain the nucleotide sequence of the entire coding region and parts of the 5' and 3' untranslated regions. The salmon preproinsulin mRNA is about 760 nucleotides long, 315 of which code for the protein, while about 190 and 200 nucleotides belong to the 5' and 3' flanking regions, respectively. Comparison of the nucleotide sequences of salmon insulin mRNA with those from other species reveals that sequence conservation is limited to the regions coding for the B and A peptides and two segments of the signal peptide. The C-peptide region exhibits no significant sequence homology with the C-peptides of other vertebrates. The 5' and 3' untranslated regions of the salmon preproinsulin mRNA are homologous only with the anglerfish mRNA, whereas there is no evident homology with those of birds and mammals. In addition to establishing the sequence of the preproinsulin mRNA, cloned salmon insulin cDNA provides a specific probe for the analysis and isolation of genomic DNA fragments containing insulin genes.     

A uniquely conserved regulatory signal is found around the translation initiation site in three different collagen genes

We have determined the nucleotide sequence of the 5' untranslated region and the sequence encoding the signal peptide for mRNAs of the chick alpha 1 type I and alpha 1 type III collagen. These sequences were obtained by synthesizing the corresponding cDNAs using as primers either a synthetic oligonucleotide to prime alpha 1 type I cDNA or a DNA fragment isolated from a genomic clone coding for alpha 1 type III collagen to prime the cognate cDNA. Both primers were selected so that the resulting cDNAs would be short and would contain sequence information for the 5' untranslated region and the signal peptide of the proteins. The nucleotide sequences of these cDNAs were compared with the corresponding sequence of alpha 2 type I collagen. In each mRNA the 5' untranslated segment is approximately 130 nucleotides and contains two or more AUG triplets preceding the AUG which serves as a translation initiation codon. A sequence of about 50 nucleotides surrounding the translation initiation codon is remarkably conserved in all three mRNAs, whereas the sequences preceding and following this segment diverge markedly. This homologous sequence contains an almost identical inverted repeat sequence which could form a stable stem-loop structure. The initiation codon and the AUG which precedes it are found at the same place within this symmetrical sequence and the distance between them is invariant. The rest of the conserved sequence shows a less perfect symmetry. This conserved sequence has not been found in other genes. Our data suggest that these three and perhaps other collagen genes contain an identical regulatory signal that may play a role in determining the level of expression of these genes by modulating translational efficiency.     

Complementary DNA and derived amino acid sequence of the alpha subunit of human complement protein C8: evidence for the existence of a separate alpha subunit messenger RNA

The entire amino acid sequence of the alpha subunit (Mr 64,000) of the eighth component of complement (C8) was determined by characterizing cDNA clones isolated from a human liver cDNA library. Two clones with overlapping inserts of net length 2.44 kilobases (kb) were isolated and found to contain the entire alpha coding region [1659 base pairs (bp)]. The 5' end consists of an untranslated region and a leader sequence of 30 amino acids. This sequence contains an apparent initiation Met, signal peptide, and propeptide which ends with an arginine-rich sequence that is characteristic of proteolytic processing sites found in the pro form of protein precursors. The 3' untranslated region contains two polyadenylation signals and a poly(A) sequence. RNA blot analysis of total cellular RNA from the human hepatoma cell line HepG2 revealed a message size of approximately 2.5 kb. Features of the 5' and 3' sequences and the message size suggest that a separate mRNA codes for alpha and argues against the occurrence of a single-chain precursor form of the disulfide-linked alpha-gamma subunit found in mature C8. Analysis of the derived amino acid sequence revealed several membrane surface seeking domains and a possible transmembrane domain. These occur in a cysteine-free region of the subunit and may constitute the structural basis for alpha interaction with target membranes. Analysis of the carbohydrate composition indicates 1 or 2 asparagine-linked but no O-linked oligosaccharide chains, a result consistent with predictions from the amino acid sequence.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chick pro alpha 2 (I) collagen gene: exon location and coding potential for the prepropeptide.

We report the DNA sequence of a cDNA clone complementary to the 5' end of the chick pro alpha 2(I) mRNA. The sequence enables us to deduce the amino acid sequence of this region, which has been refractory to conventional protein sequencing techniques. Its importance lies in the role of the prepropeptide in secretion, triple helix formation of the mature protein and initiation of fibrillogenesis. We have also located four of the five exons which code for this region on the genome. One exon is only 11bp in size and appears to code exclusively for the signal propeptidase cleavage site. This is an extreme example of an exon defining a functional unit.     

Nucleotide and deduced amino acid sequence of the alpha subunit of yeast pyruvate dehydrogenase

A 413-base cDNA insert encoding a portion of the alpha subunit of pyruvate dehydrogenase (E1 alpha; EC 1.2.4.1) from Saccharomyces cerevisiae was isolated from a lambda gt11 cDNA library by immunoscreening and by hybridization with an oligonucleotide probe which corresponded to the amino acid sequence around the phosphorylation site of E1 alpha. This cDNA was subcloned, sequenced and used as a probe to isolate two additional cDNA inserts which were subcloned and sequenced. These overlapping clones comprised the carboxyl-terminal part of E1 alpha. To identify the missing nucleotide sequence, the polymerase chain reaction was used to amplify yeast genomic DNA with synthetic oligonucleotide primers based on the amino-terminal sequence of E1 alpha and the 5' end of one of the cDNA clones. Three DNA fragments were isolated and sequenced. The composite nucleotide sequence has an open reading frame of 1260 nucleotides encoding a putative presequence of 33 amino acids and a mature protein of 387 amino acids (Mr = 42,703). Hybridization analysis showed that the size of the mRNA is about 1.4 kilobases.     

Human and chick alpha 2(I) collagen mRNA: comparison of the 5' end in osteoblasts and fibroblasts

Type I collagen, a heterotrimer of two alpha 1(I) chains and one alpha 2(I) chain, is the major structural protein of bone, skin, and tendon. The collagen of patients with bone diseases has been studied in skin fibroblasts instead of osteoblasts because the genes for type I collagen are single-copy genes. While these studies should detect structural changes in the gene, they might fail to detect defects in processes which are dependent on tissue-specific expression. The studies reported here sought to determine whether the expression of type I collagen in skin and bone was characterized by the use of alternate promoters or alternative splicing in the N-propeptide region. Primer extension and nuclease S1 protection experiments were used to analyze the structure of the alpha 2(I) mRNA from the 5' end of the gene through the N-telopeptide coding region (exons 1-6) in human and chick osteoblasts and fibroblasts. The protection and primer extension experiments using human and chick mRNA demonstrated identical routes of splicing in skin and bone at the first five splice junctions. These studies provide reassurance that information obtained from the study of type I collagen in fibroblasts may be extrapolated to bone.     

Structure of a cDNA for the pro alpha 2 chain of human type I procollagen. Comparison with chick cDNA for pro alpha 2(I) identifies structurally conserved features of the protein and the gene

Nucleotide sequences were determined for cloned cDNAs encoding for more than half of the pro alpha 2 chain of type I procollagen from man. Comparisons with previously published data on homologous cDNAs from chick embryos made it possible to examine evolution of the gene in two species which have diverged for 250-300 million years. The amino acid sequence of the alpha-chain domain supported previous indications that there is a strong selective pressure to maintain glycine as every third amino acid and to maintain a prescribed distribution of charged amino acids. However, there is little apparent selective pressure on other amino acids. The amino acid sequence of the C-propeptide domain showed less divergence than the alpha-chain domain. The 5' end or N terminus of the human C-propeptide, however, contained an insert of 12 bases coding for 4 amino acids not found in the chick C-propeptide. About 100 amino acid residues from the N terminus, two residues found in the chick sequence were missing from the human. In the second half of the C-propeptide, there was complete conservation of a 37 amino acid sequence and conservation of 50 out of 51 amino acids in the same region, an observation which suggested that the region serves some special purpose such as directing the association of one pro alpha 2(I) C-propeptide with two pro alpha 1(I) C-propeptides so as to produce the heteropolymeric structure of type I procollagen. In addition, comparison of human and chick DNAs for pro alpha 2(I) revealed three different classes of conservation of nucleotide sequence which have no apparent effect on the structure of the protein: a preference for U on the third base position of codons for glycine, proline, and alanine; a high degree of nucleotide conservation in the 51 amino acid highly conserved region of the C-propeptide; a high degree of nucleotide conservation in the 3'-noncoding region. These three classes of nucleotide conservation may reflect unusual features of collagen genes, such as their high GC content or their highly repetitive coding sequences.