Isolation and sequence analysis of cDNA clones for the small subunit of rabbit calcium-dependent protease

We have isolated and sequenced cDNA clones for the small subunit (30-kDa subunit) of rabbit calcium-dependent protease (Ca2+-protease) using synthesized oligodeoxynucleotide probes based on the partial amino acid sequence of the protein. A nearly full-length cDNA clone containing the total amino acid coding sequence was obtained. From the deduced sequence, the following conclusions about possible functions of the protein are presented. The kDa subunit comprises 266 residues (Mr = 28,238). The N-terminal region (64 residues) is mainly composed of glycine (37 residues) and hydrophobic amino acids and may interact with the cell membrane or an organelle. The sequence of the C-terminal 168 residues is highly homologous to the corresponding C-terminal region of the large subunit (80-kDa subunit) which has been identified as the calcium-binding domain. This region of the 30-kDa subunit contains four E-F hand structures and presumably binds Ca2+, as in the case of the 80-kDa subunit. Thus, the 30-kDa subunit may play important roles in regulating enzyme activity and/or possibly in determining the location of the Ca2+-protease. The marked sequence homology of the C-terminal regions of the two subunits may indicate that the calcium-binding domains have evolved from the same ancestral gene.     

Isolation of cDNA clones and complete amino acid sequence of human erythrocyte glycophorin C

Two cDNA clones for glycophorin C, a transmembrane glycoprotein of the human erythrocyte which carries the blood group Gerbich antigens, have been isolated from a human reticulocyte cDNA library. The clones were identified with a mixture of 32 oligonucleotide probes (14-mer) which have been synthetized according to the amino acid sequence Asp-Pro-Gly-Met-Ala present in the N-terminal tryptic peptide of the molecule. The primary structure of glycophorin C deduced from the nucleotide sequence of the 460 base-pair insert of the pGCW5 clone indicates that the complete protein is a single polypeptide chain of 128 amino acids clearly organized in three distinct domains. The N-terminal part (residues 1-57, approximately) which is N- and O-glycosylated is connected to a hydrophilic C-terminal domain (residues 82-128, approximately) containing 4 tyrosine residues by a hydrophobic stretch of nonpolar amino acids (residues 58-81, approximately) probably interacting with the membrane lipids and permitting the whole molecule to span the lipid bilayer. Northern blot analysis using a 265-base-pair restriction fragment obtained by DdeI digestion of the inserted DNA shows that the glycophorin C mRNA from human erythroblasts is approximately 1.4 kilobases long and is present in the human fetal liver and the human K562 and HEL cell lines which exhibit erythroid features. The glycophorin C mRNA, however, is absent from adult liver and lymphocytes, indicating that this protein represents a new erythrocyte-specific probe which might be useful to study erythroid differentiation.     

Human parainfluenza type 3 virus hemagglutinin-neuraminidase glycoprotein: nucleotide sequence of mRNA and limited amino acid sequence of the purified protein.

The nucleotide sequence of mRNA for the hemagglutinin-neuraminidase (HN) protein of human parainfluenza type 3 virus obtained from the corresponding cDNA clone had a single long open reading frame encoding a putative protein of 64,254 daltons consisting of 572 amino acids. The deduced protein sequence was confirmed by limited N-terminal amino acid microsequencing of CNBr cleavage fragments of native HN that was purified by immunoprecipitation. The HN protein is moderately hydrophobic and has four potential sites (Asn-X-Ser/Thr) of N-glycosylation in the C-terminal half of the molecule. It is devoid of both the N-terminal signal sequence and the C-terminal membrane anchorage domain characteristic of the hemagglutinin of influenza virus and the fusion (F0) protein of the paramyxoviruses. Instead, it has a single prominent hydrophobic region capable of membrane insertion beginning at 32 residues from the N terminus. This N-terminal membrane insertion is similar to that of influenza virus neuraminidase and the recently reported structures of HN proteins of Sendai virus and simian virus 5.     

Cloning of rat aorta lysyl oxidase cDNA: complete codons and predicted amino acid sequence

Lysyl oxidase cDNA clones were identified by their reactivity with anti-bovine lysyl oxidase in a neonatal rat aorta cDNA lambda gt11 expression library. A 500-bp cDNA sequence encoding four of six peptides derived from proteolytic digests of bovine aorta lysyl oxidase was found from the overlapping cDNA sequences of two positive clones. The library was rescreened with a radiolabeled cDNA probe made from one of these clones, thus identifying an additional 13 positive clones. Sequencing of the largest two of these overlapping clones resulted in 2672 bp of cDNA sequence containing partial 5'- and 3'-untranslated sequences of 286 and 1159 nucleotides, respectively, and a complete open reading frame of 1227 bp encoding a polypeptide of 409 amino acids (46 kDa), consistent with the 48 +/- 3 kDa cell-free translation product of rat smooth muscle cell RNA that was immunoprecipitated by anti-bovine lysyl oxidase. The rat aorta cDNA-derived amino acid sequence contains the sequence of each of the six peptides isolated and sequenced from the 32-kDa bovine aorta enzyme, including the C-terminal peptide with sequence identity of 96%. Northern blots screened with lysyl oxidase cDNA probes identified hybridizing species of 5.8 and 4.5 kb in mRNA of rat aorta and lung, while dot blot analyses were negative for lysyl oxidase mRNA in preparations of rat brain, liver, kidney, and heart. A 258-bp segment of the 3'-untranslated region of lysyl oxidase cDNA is 93% identical with a highly conserved region of the 3'-untranslated sequence of rat elastin cDNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Molecular cloning of a multifunctional chicken protein acting as the prolyl 4-hydroxylase beta-subunit, protein disulphide-isomerase and a cellular thyroid-hormone-binding protein. Comparison of cDNA-deduced amino acid sequences with those in other species.

Several recent studies indicate that a single polypeptide may act as the beta-subunit of prolyl 4-hydroxylase, the enzyme protein disulphide-isomerase and a cellular thyroid-hormone-binding protein. We report here the isolation and characterization of cDNA clones encoding this multifunctional protein in the chicken. All the coding sequences were determined on the basis of nucleotide sequencing of five cDNA clones and amino acid sequencing of the N-terminal end of the chicken beta-subunit. The processed polypeptide contains 493 amino acid residues, the size of the respective mRNA being about 2.7 kb. The chicken beta-subunit cDNA sequences were 78% homologous to the previously reported human beta-subunit cDNA sequences at the nucleotide level and 85% homologous at the amino acid level. The homology of the chicken beta-subunit sequences to those reported for bovine thyroid-hormone-binding protein and rat protein disulphide-isomerase was also 85% at the amino acid level. Primary-structure comparisons between the four species indicated that the two proposed active sites of protein disulphide-isomerase, the two Trp-Cys-Gly-His-Cys-Lys sequences, are located within highly conserved regions, which are also homologous to the active sites of a number of thioredoxins. The middle of the polypeptide has an additional conserved region 100 amino acid residues in length in which the degree of homology between the four species is 94% at the amino acid level. This long conserved region may also be important for some of the multiple functions of the protein. The four extreme C-terminal amino acids of the polypeptide in all four species are Lys-Asp-Glu-Leu, a sequence that has been suggested to function as a signal for the retention of a protein in the endoplasmic reticulum.     

Synthesis of an immunopathogenic fusion protein derived from a bovine interphotoreceptor retinoid-binding protein cDNA clone

We have extended the cDNA sequence of bovine interphotoreceptor retinoid-binding protein (IRBP) and subcloned one of the sequenced cDNA fragments into an expression vector. The nucleotide (nt) sequences of four bovine IRBP cDNA clones have been determined. These sequences when assembled cover the 3' proximal 3629 nt of the IRBP mRNA and encode the C-terminal 551 amino acids (aa) of IRBP. This cDNA sequence validates the intron: exon boundaries predicted from the gene. A 2-kb EcoRI insert from lambda IRBP2, one of the clones sequenced, encoding the C-terminal 136 aa of IRBP was subcloned into the expression vector pWR590-1. Escherichia coli carrying this plasmid construction, pXS590-IRBP, produced a fusion protein containing 583 N-terminal aa of beta-galactosidase, three linker aa residues, 136 C-terminal aa of IRBP and possibly a number of additional C-terminal residues due to suppressed termination. This 86-kDa fusion protein, purified by detergent/chaotrope extraction followed by reverse-phase high-performance liquid chromatography, cross-reacted with anti-bovine IRBP on Western blots. This protein induced an experimental autoimmune uveo-retinitis and experimental autoimmune pinealitis in Lewis rats indistinguishable from that induced by authentic bovine IRBP. Thus, it is evident that biological activity of this region of IRBP, as manifested by immuno-pathogenicity, is retained by the fusion protein.     

Mitochondrial NADH:ubiquinone reductase: complementary DNA sequence of the import precursor of the bovine 75-kDa subunit

The 75-kDa subunit of complex I (NADH:ubiquinone oxidoreductase) from bovine heart mitochondria is its largest subunit and is a component of the iron-sulfur (IP) fragment of the enzyme. It is encoded in nuclear DNA and is imported into the organelle. Protein sequences have been determined at the N-terminus of the intact protein and on fragments generated by partial cleavage with cyanogen bromide and with Staphylococcus aureus protease V8. Parts of these data have been used to design two mixtures of oligonucleotides 17 bases long, containing 192 and 256 different sequences, which have been synthesized and used as hybridization probes for identification of cognate cDNA clones. Two different but overlapping clones have been isolated, and the sequences of the cloned DNAs have been determined. Together they code for a precursor of the 75-kDa subunit of complex I. The mature protein is 704 amino acids in length, has a calculated molecular mass of 75,961 daltons, and contains no segments of sequence that could be folded into hydrophobic alpha-helixes of sufficient length to span the inner membrane of the mitochondrion. Its precursor has an N-terminal extension of 23 amino acids to specify its import into the mitochondrion from the cytoplasm. Seventeen cysteine residues are dispersed throughout the 75-kDa subunit; some of them are close to each other in the sequence in three separate groups and, by analogy with other iron-sulfur proteins, could be involved in iron-sulfur clusters.(ABSTRACT TRUNCATED AT 250 WORDS)     

The MAK11 protein is essential for cell growth and replication of M double-stranded RNA and is apparently a membrane-associated protein

MAK11 is a gene necessary for the maintenance of killer M1 double-stranded RNA, but not for other cellular double-stranded RNAs (L-A, L-BC, T, W). The DNA sequence of this gene revealed a 1407-base pair open reading frame, which corresponds to a 54-kDa protein. The C-terminal region is lysine-rich and is necessary for mak11-complementing activity. The N-terminal 24 amino acids of the open reading frame include 16 hydrophobic amino acids, 4 basic residues, and 4 neutral amino acids; this sequence could span a membrane. We constructed a MAK11-lacZ fusion that includes the entire MAK11 protein and complements the mak11-1 mutation. The fusion protein was localized in a membrane fraction as shown by centrifugation in Percoll gradients. The fusion protein could be released from the membrane fraction by salt washing. Western blotting of protein, isolated from the membrane fraction and purified by p-aminophenyl-beta-D-thiogalactoside-agarose column chromatography, revealed a fusion protein monomer of 170 kDa which agrees with the predicted molecular weight. While the mak11-1 mutation results in specific loss of M1 double-stranded RNA without any apparent growth defect, replacing a 792-base pair internal EcoRV fragment of MAK11 with the URA3 gene (gene disruption) resulted in a lethal mutation.     

Isolation of Tyrosinase From Bovine Eyes

Pigmented tissues from bovine eye were used as a source for isolation of tyrosinase from normal melanocytes. Tyrosinase is highly hydrophobic and the isolation procedure is mainly based on the use of hydrophobic interaction chromatography. The bovine enzyme is, in contrast to the human melanoma tyrosinase, mainly soluble. The predominant part of the ocular enzyme from cow has a molecular weight and isoelectric behavior similar to that of the soluble tyrosinase in the human melanoma cells. The N-terminal amino acid sequence of isolated bovine tyrosinase was determined by automated Edman degradation. The N-terminal amino acid sequence from normal bovine tyrosinase was identical to the sequence of an N-terminal region of mouse melanoma tyrosinase predicted from a c-DNA clone by Kwon et al. (1988). The amino acid sequence of bovine tyrosinase shows homology to that of human tyrosinase (Wittbjer et al., 1989), but three amino acids of the 16 residues determined by us differed. Histidine was the N-terminal amino acid.     

cDNA clones encoding bovine gamma-crystallins

We have determined the nucleotide sequence of two bovine lens gamma-crystallin cDNA clones, pBL gamma II-1 and pBL gamma III-1. The 644 bp cDNA insert of pBL gamma II-1 contains coding information for the entire amino acid sequence of bovine gamma II-crystallin. The 497 bp cDNA insert of pBL gamma III-1 encodes a homologous but different gamma-crystallin polypeptide, and appears to lack the coding information for the C-terminal 17 amino acid residues. While the nucleotide and predicted amino acid sequences of the coding regions of the clones show a high degree of homology, the untranslated leader sequences are relatively dissimilar. The leader sequence of pBL gamma III-1 is strikingly homologous to a portion of a rabbit immunoglobulin alpha-heavy chain mRNA.     

Molecular cloning and sequence analysis of full-length cDNA coding for mouse contrapsin

Four overlapping cDNA clones encoding contrapsin were isolated from a mouse liver cDNA library constructed in the expression vector, lambda gt11. M13 vector sequence analysis revealed that contrapsin cDNA contained an open reading frame of 1,254 bases encoding 418 amino acids. The N-terminal amino acid sequence of the isolated contrapsin matched residues 30 to 48 of the sequence deduced on nucleotide analysis. One clone, which had the longest 3' untranslated region, contained two sets of tandem polyadenylation signals, AATACA and AATAAA, which were located 497 bases apart, while the remaining three clones terminated at the first signal. The entire reading frame sequence of contrapsin cDNA showed 64% homology with that of human alpha-1-antichymotrypsin.     

Isolation and cloning of a voltage-dependent anion channel-like Mr 36,000 polypeptide from mammalian brain.

A polypeptide of M(r) 36,000 (36 kDa) was isolated from detergent-solubilized membrane fractions of mammalian brain on a benzodiazepine affinity column utilized for the purification of the gamma-aminobutyric acid/benzodiazepine receptor protein, followed by preparative gel electrophoresis. Partial protein sequence for two fragments of the 36-kDa polypeptide allowed the isolation of cDNA clones from a rat hippocampal library. An open reading frame coding a sequence of 295 amino acid residues containing the two probe peptide sequences with minor differences, and a putative N-terminal signal peptide of 25 residues was found. Hydropathy index revealed no regions of alpha-helix suitable for membrane spanning, but several areas of alternating hydrophilic and hydrophobic residues consistent with beta-strands. The sequence of this brain protein was 24% identical to that of a yeast mitochondrial protein, the voltage-dependent anion channel (VDAC), and over 70% identical with the VDAC from human B lymphocytes. The gamma-aminobutyric acid type A (GABAA) receptor/36-kDa preparation purified on benzodiazepine affinity column has channel-forming activity in lipid bilayer membranes that is virtually identical to VDAC isolated from mitochondria of various sources, indicating that the 36-kDa protein is a new member of the VDAC family of proteins. An antiserum raised against the purified 36-kDa polypeptide was able to precipitate [3H]muscimol binding activity, indicating a tight association with the GABAA receptor protein in vitro and copurification on the benzodiazepine affinity column due to this association. Further studies are needed to determine whether such an association occurs in vivo.     

The primary structure of the mitochondrial energy-linked nicotinamide nucleotide transhydrogenase deduced from the sequence of cDNA clones

The amino acid sequence of the bovine mitochondrial nicotinamide nucleotide transhydrogenase, which catalyzes hydride ion transfer between NAD(H) and NADP(H) coupled to proton translocation across the mitochondrial inner membrane, has been deduced from the corresponding cDNA. Two clones were isolated by screening a bovine lambda gt10 cDNA library, using two synthetic oligonucleotides and a cDNA restriction fragment as probes. The inserts together covered 3,105 base pairs of coding sequence, corresponding to 1.035 amino acid residues. However, the reading frame at the 5' end was still open. N-terminal sequence analysis of the isolated enzyme indicated the presence of 8 additional residues. Thus, the mature transhydrogenase appeared to have 1,043 amino acid residues and a calculated molecular weight of 109,212. The deduced amino acid sequence of the transhydrogenase contained the sequences of four tryptic peptides that had been isolated from the enzyme. Two of these were the peptides that had been used for construction of the oligonucleotide probes. The other two were tryptic peptides isolated after labeling the NAD-binding site of the transhydrogenase once with [3H]p-fluorosulfonylbenzoyl-5'-adenosine (FSBA), and another time with [14C]N,N'-dicyclohexylcarbodiimide. The FSBA-labeled peptide was found to be located immediately upstream of the [14C]N,N'-dicyclohexylcarbodiimide-labeled peptide, about 230 residues from the N terminus. One of the tryptic peptides used for oligonucleotide probe construction was the same as that labeled with [3H]FSBA when the NAD-binding site was protected from FSBA attack. This peptide, which might be at the NADP-binding site of the transhydrogenase, was located very near the C terminus of the enzyme. The central region of the transhydrogenase (residues 420-850) is highly hydrophobic and appears to comprise about 14 membrane-spanning segments. By comparison, the N- and the C-terminal regions of the enzyme, which contain the NAD- and the putative NADP-binding sites, respectively, are relatively hydrophilic and are probably located outside the mitochondrial inner membrane on the matrix side. There is considerable homology between the bovine enzyme and the Escherichia coli transhydrogenase (two subunits, alpha with Mr = 54,000 and beta with Mr = 48,700), whose amino acid sequence has been determined from the genes (Clarke, D.M., Loo, T.W., Gillam, S., and Bragg, P.D. (1986) Eur. J. Biochem. 158, 647-653).     

The primary structure of human dopamine-beta-hydroxylase: insights into the relationship between the soluble and the membrane-bound forms of the enzyme.

A full length dopamine-beta-hydroxylase (DBH) cDNA clone was isolated from a human pheochromocytoma lambda gt11 library. Both structural and functional evidence confirms the authenticity of the clone: (i) antibodies selected with fusion proteins generated by positive clones precipitate DBH activity, (ii) the sequence of three internal DBH tryptic peptides are included in the deduced DBH sequence, (iii) the previously reported N-terminal 15 amino acids of bovine DBH exhibits a nearly complete identity with that predicted for human DBH. The polypeptide chain of DBH comprises 578 amino acids corresponding to an unmodified protein of 64 862 daltons and is preceded by a cleaved signal peptide of 25 residues. DBH exists in both membrane-bound and soluble forms. The hydropathy plot reveals no obvious hydrophobic segment, except the signal peptide. S1 mapping analysis indicates no diversity in the 5' and 3' extremities of the DBH mRNA. Taken together with available biochemical data, these observations suggest that the membrane attachment of DBH probably results from a post-translational modification, glypiation being the most likely candidate. Comparative amino acid sequence analysis establishes that DBH shares no homology with the other catecholamine synthesizing enzymes, tyrosine hydroxylase and phenylethanolamine-N-methyl transferase.     

Structure of soybean Kunitz trypsin inhibitor mRNA determined from cDNA by using oligodeoxynucleotide primers

Oligodeoxynucleotides complementary to the deduced mRNA sequence of soybean Kunitz trypsin inhibitor (KTI) were used to prime the synthesis of cDNA from soybean cotyledon total poly(A) RNA. The primed cDNA was used to select clones from a Glycine max cotyledon cDNA library. Two out of twelve hybridizing clones were shown to contain KTI cDNA. The nucleotide sequence of one clone, pSTI 9-2, was determined and it was found to encompass the complete protein coding region of KTI excet for three C-terminal residues. Trypsin inhibitor is synthesized with a 25 amino acid hydrophobic N-terminal sequence presumed to be a signal peptide. The mature polypeptide encoded by pSTI 9-2 agrees with the published amino acid composition of KTI, but contains two discrepancies at the peptide sequence level.