Primary structure of the variable regions of two canine immunoglobulin heavy chains.

The complete amino acid sequences of the variable regions of two canine immunoglobulin heavy chains have been determined by automated Edman degradation and found to be strongly homologous to the human VHIII subgroup. The canine sequences were identical with each other at 76 of 113 residue positions. Twenty-three of the 37 differences are located within the four hypervariable regions previously defined by the sequences of several human VHIII proteins. Forty-five of 77 framework residue positions are invariant in the seven human and two canine VHIII proteins which have been completely sequences. The canine proteins are 78% homologous to the framework of the human prototype. Phylogenetically associated residues before the first hypervariable region were confirmed and several potential phylogenetically associated residues were identified between the first and third hypervariable regions. This study represents the first complete amino acid sequences of VH regions of spontaneously occurring, nonhuman homogeneous immunoglobulins. The date demonstrate a high degree of preservation of VHIII structure in another species.     

Primary structure of the catalytic subunit of calf thymus DNA polymerase delta: sequence similarities with other DNA polymerases.

The 125- and 48-kDa subunits of bovine DNA polymerase delta have been isolated by SDS-polyacrylamide gel electrophoresis and demonstrated to be unrelated by partial peptide mapping with N-chlorosuccinimide. A 116-kDa polypeptide, usually present in DNA polymerase delta preparations, was shown to be a degraded form of the 125-kDa catalytic subunit. Amino acid sequence data from Staphylococcus aureus V8 protease, cyanogen bromide, and trypsin digestion of the 125- and 116-kDa polypeptides were used to design primers for the polymerase chain reaction to determine the nucleotide sequence of a full-length cDNA encoding the catalytic subunit of bovine DNA polymerase delta. The predicted polypeptide is 1106 amino acids in length with a calculated molecular weight of 123,707. This is in agreement with the molecular weight of 125,000 estimated from SDS-polyacrylamide gel electrophoresis. Comparison of the deduced amino acid sequence of the catalytic subunit of bovine DNA polymerase delta with that of its counterpart from Saccharomyces cerevisiae showed that the proteins are 44% identical. The catalytic subunit of bovine DNA polymerase delta contains the seven conserved regions found in a number of bacterial, viral, and eukaryotic DNA polymerases. It also contains five additional regions that are highly conserved between bovine and yeast DNA polymerase delta, but these regions share little or no homology with the alpha polymerases. Four of these additional regions are also highly homologous to the herpes virus family of DNA polymerases, whereas one region is not homologous to any other DNA polymerase that has been sequenced thus far.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cloning and analysis of cDNA sequences coding for two 16 kilodalton heat shock proteins (hsps) in Caenorhabditis elegans: homology with the small hsps of Drosophila.

The nucleotide sequences of two different cDNAs, CEHS48 and CEHS41, coding for the 16,000 dalton heat shock proteins (hsps) of Caenorhabditis elegans have been determined. CEHS48 codes for a polypeptide of 135 amino acids, approximately 15 fewer than the complete protein while CEHS41 is missing approximately 46 amino acids. From nucleotide 113 to the TAA termination signal the extent of homology between the sequences is 91%. Toward the 5' ends, the homology drops to 20% and results in completely divergent amino acid sequences. The 3' noncoding regions are only 30% homologous. Only CEHS48 contains a poly(A) signal and a poly(A) tail, suggesting that CEHS41 has an incomplete 3' end. The region from amino acid 43 to amino acid 115 shows extensive homology with corresponding regions in the four small hsps of Drosophila melanogaster and in mammalian alpha-crystallin. Two-dimensional gel analysis of in vitro synthesized hsp16 reveals the existence of five distinct components of identical molecular weights, but with different isoelectric points.     

The cDNA sequence of the 69-kDa subunit of the carrot vacuolar H+-ATPase. Homology to the beta-chain of F0F1-ATPases

Vacuolar ATPases constitute a novel class of N-ethylmaleimide- and nitrate-sensitive proton pumps associated with the endomembrane system of eukaryotic cells. They resemble F0F1-ATPases in that they are large multimeric proteins, 400-500 kDa, composed of three to nine different subunits. Previous studies have indicated that the active site is located on the approximately 70-kDa subunit. Using antibodies to the approximately 70-kDa subunit of corn to screen a carrot root lambda gt11 cDNA library, we have isolated cDNA clones of the carrot 69-kDa subunit. The complete primary structure of the 69-kDa subunit was then determined from the nucleotide sequence of its cDNA. The 69-kDa subunit consists of 623 amino acids (Mr 68,835), with no obvious membrane-spanning regions. The carrot cDNA sequence was over 70% homologous with exons of a Neurospora 69-kDa genomic clone. The protein sequence of the carrot 69-kDa subunit also exhibited 34.3% identity to four representative F0F1-ATPase beta-chains over a 275-amino-acid core stretch of similar sequence. Alignment studies revealed several regions which were highly homologous to beta-chains, including sequences previously implicated in catalytic function. This provides definitive evidence that the vacuolar ATPase is closely related to the F0F1-type ATPases. A major functional difference between the 69-kDa and beta-subunits is the location of 3 critical cysteine residues: two in the putative catalytic region (Cys-248 and Cys-256) and one in the proposed Mg2+-binding site (Cys-279). These cysteines (and two others) probably account for the sensitivity of the vacuolar H+-ATPase to the sulfhydryl reagent, N-ethylmaleimide. It is proposed that the two ATPases may have arisen from a common ancestor by the insertion or deletion of a large stretch of nonhomologous sequence near the amino-terminal end of the subunit.     

Typical three-domain cry proteins of Bacillus thuringiensis strain A1462 exhibit cytocidal activity on limited human cancer cells

Bacillus thuringiensis strain A1462 produced two parasporal inclusion proteins with a molecular mass of 88 kDa that were converted to 64-kDa toxins when activated by proteinase K digestion. Both toxins exhibited strong cytocidal activity against two human cancer cell lines, HL60 (myeloid leukemia cells) and HepG2 (liver cancer cells), while low or no toxicities were observed against 11 human and three mammalian cell lines, including four non-cancer cell lines. The cytotoxicity of both toxins on susceptible cells was characterized by rapid cell swelling. Gene cloning experiments provided two novel genes encoding 88-kDa Cry proteins, Cry41Aa and Cry41Ab. The amino acid sequences of the two proteins contain five block regions commonly conserved in B. thuringiensis insecticidal Cry proteins. This is the first report of the occurrence of typical three-domain Cry proteins with cytocidal activity preferential for cancer cells.     

Yolk vitronectin. Purification and differences from its blood homologue in molecular size, heparin binding, collagen binding, and bound carbohydrate.

This is the first report on a unique vitronectin molecule, yolk vitronectin, which is similar to its blood homologue in cell spreading activity but different in molecular size, bound carbohydrate, and heparin and collagen binding activity. Yolk vitronectin was purified 2,500-fold from chick egg yolk by a combination of hydroxylapatite, DEAE-cellulose, and anti-vitronectin-Sepharose column chromatographies. In SDS-polyacrylamide gel electrophoresis under reducing conditions, yolk vitronectin was separated into 54- and 45-kDa bands, which are 16 and 25 kDa smaller, respectively, than the 70-kDa major band of chick blood vitronectin. The 54-kDa band shares the same NH2-terminal sequence as chick blood vitronectin. In contrast, the NH2-terminal sequence of the 45-kDa band is somewhat homologous with the internal sequences of mammalian vitronectins beginning at the 50th amino acid from the NH2 terminus. The bound carbohydrate of the 54- and 45-kDa species of yolk vitronectin is similar to, but distinct from, that of blood vitronectin. Unlike blood vitronectin, yolk vitronectin cannot bind to either heparin or collagen.     

Selection of Arabidopsis genes encoding secreted and plasma membrane proteins

Secreted and plasma membrane proteins play crucial roles in a variety of physiological and developmental processes of multicellular organisms. Systematic cloning of the genes encoding these proteins is therefore of general interest. An effective method of trapping signal sequences was first described by Tashiro et al. (1993), and a similar yet more efficient method was reported by Klein et al. (1996) and Jacobs et al. (1997). In this study, we carried out the latter yeast-based signal sequence trap to clone genes from Arabidopsis thaliana encoding secreted and plasma membrane proteins. Of 144 sequenced cDNA clones, 18% are identical to previously cloned Arabidopsis thaliana genes, 12% are homologous to genes identified from various organisms, and 46% are novel. All of the isolated genes identical or homologous to previously reported genes are either secreted or plasma membrane proteins, and the remaining novel genes appear to contain functional signal sequences based on computer-aided sequence analysis. The full-length cDNA clones of one homologous gene and another novel gene were isolated and sequenced. The deduced amino acid sequences suggest that the former encodes a secreted protein, and the latter encodes a type 1 membrane protein. These results indicate that the signal sequence trap method is effective and useful for the isolation of plant genes encoding secreted and plasma membrane proteins.     

Nucleotide sequence of the coding region of the mouse N-myc gene.

A genomic clone for the mouse N-myc gene was isolated and the total nucleotide sequence (4807 bp) of the two coding exons and an intron located between them was determined. The amino acid sequence of the N-myc protein was deduced from the DNA sequence. This protein is composed of 462 amino acids, slightly larger than human and mouse c-myc proteins, and is rich in proline like the c-myc protein. Comparison of the amino acid sequences of the mouse N-myc and c-myc proteins showed that conserved sequences are located in eight regions: four regions are in the N-terminal half of the N-myc protein and are separated from each other by regions poorly homologous to those of the c-myc protein, and the four others are located in the C-terminal half, throughout which certain homology exists. A remarkable sequence containing 13 successive acidic amino acids is present in one of the conserved regions located in the middle of the N-myc protein.     

A single gene directs synthesis of a precursor protein with beta- and alpha-amylase activities in Bacillus polymyxa.

The Bacillus polymyxa amylase gene comprises 3,588 nucleotides. The mature amylase comprises 1,161 amino acids with a molecular weight of 127,314. The gene appeared to be divided into two portions by the direct-repeat sequence located at almost the middle of the gene. The 5' region upstream of the direct-repeat sequence was shown to be responsible for the synthesis of beta-amylase. The 3' region downstream of the direct-repeat sequence contained four sequences homologous with those in other alpha-amylases, such as Taka-amylase A. The 48-kilodalton (kDa) amylase isolated from B. polymyxa was proven to have alpha-amylase activity. The amino acid sequences of the peptides generated from the 48-kDa amylase showed complete agreement with the predicted amino acid sequence of the C-terminal portion. The B. polymyxa amylase gene was therefore concluded to contain in-phase beta- and alpha-amylase-coding sequences in the 5' and 3' regions, respectively. A precursor protein, a 130-kDa amylase, directed by a plasmid, pYN520, carrying the entire amylase gene, had both beta- and alpha-amylase activities. This represents the first report of a single protein precursor in procaryotes that gives rise to two enzymes.     

Novel lectin-like proteins on the surface of human monocytic leukemia cell line THP-1 cells that recognize oxidized cells

Presence of lectin-like receptors on the membranes of human monocytic leukemia cell line THP-1 cells for clustered sialylated poly-N-acetyllactosaminyl sugar chains on the membranes of oxidized erythrocytes and T-lympoid cells was investigated. Membranes of THP-1 cells differentiated into macrophages were solubilized, and the membrane proteins obtained by affinity chromatographies using lactoferrin-Sepharose and band 3-Sepharose were purified by successive DE column chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Proteins of 50, 60, and 80 kDa with specificity to bind to sialylated poly-N-acetyllactosaminyl sugar chains were detected in the chromatographic fractions. A 50-kDa protein was isolated in a pure form. N-Terminal amino acid sequence of the protein was Lys-Gln-Lys-Val-Ala-Gly-Lys-Gln-Pro-Val-, which has not been found in the N-terminal regions of the hitherto known proteins. The antibody, raised against the chemially synthesized peptide composed of the N-terminal amino acid sequence, bound to 50-, 60-, and 80-kDa proteins as analyzed by immunoblotting and immunoprecipitation, indicating that these proteins had the same N-terminal amino acid sequence. The results demonstrate that THP-1 cells have novel 50-, 60-, and 80-kDa lectin-like proteins with the same N-terminal amino acid sequence on the cell surface which would bind to clustered sialylated poly-N-acetyllactosaminyl sugar chains generated on oxidized erythrocytes and T-lymphoid cells.     

Purification and characterization of hen oviduct microsomal signal peptidase

Hen oviduct signal peptidase requires only two proteins for proteolysis of fully synthesized secretory precursor proteins in vitro: one with a molecular mass of 19 kilodaltons (kDa) and one which is a glycoprotein whose mass varies from 22 to 24 kDa depending on the extent of glycosylation. Purified signal peptidase has been analyzed both as part of an active catalytic unit and after electroelution of the individual proteins out of a preparative polyacrylamide gel. The multiple forms of the glycoprotein component of signal peptidase bind to concanavalin A and are shown to be derived from the same polypeptide backbone. Removal of their oligosaccharides by digestion with N-glycanase converts these proteins to a single 19.5-kDa polypeptide. The glycoproteins all exhibit very similar profiles following individual digestion with trypsin and separation of the resulting peptides by reverse-phase high-performance liquid chromatography. In addition, sequence analysis of selected peptides from corresponding regions in chromatograms representing each form of the glycoprotein reveals the same amino acid sequences. The 19-kDa signal peptidase protein does not bind concanavalin A, has a distinct tryptic peptide map from that of the glycoprotein, and appears to share no amino acid sequences in common with the glycoprotein. Its copurification on a concanavalin A-Sepharose column indicates that it must interact directly with the glycoprotein subunit.     

Isolation and characterization of Golgi apparatus-specific GODZ with the DHHC zinc finger domain

We identified a novel Golgi apparatus-specific protein with the DHHC zinc finger domain and four putative transmembrane regions, designated as GODZ. The amino acid sequences were highly conserved among mouse and human GODZs and homologous proteins in human, mouse, rat, Drosophila melanogaster, and Caenorhabditis elegans, implying a functional significance of the GODZ protein family. Overexpression of mouse GODZ in COS7 cells suppressed the sorting of the glutamate receptor GluRalpha1 from the Golgi apparatus. These results suggest that GODZ plays a role in the membrane protein trafficking.     

Analysis of two novel classes of plant antifungal proteins from radish (Raphanus sativus L.) seeds.

Two novel classes of antifungal proteins were isolated from radish seeds. The first class consists of two homologous proteins (Rs-AFP1 and Rs-AFP2) that were purified to homogeneity. They are highly basic oligomeric proteins composed of small (5-kDa) polypeptides that are rich in cysteine. Both Rs-AFPs have a broad antifungal spectrum and are among the most potent antifungal proteins hitherto characterized. In comparison with many other plant antifungal proteins, the activity of the Rs-AFPs is less sensitive to the presence of cations. Moreover, their antibiotic activity shows a high degree of specificity to filamentous fungi. The amino-terminal regions of the Rs-AFPs show homology with the derived amino acid sequences of two pea genes specifically induced upon fungal attack, to gamma-thionins and to sorghum alpha-amylase inhibitors. The radish 2S storage albumins were identified as the second novel class of antifungal proteins. All isoforms inhibit growth of different plant pathogenic fungi and some bacteria. However, their antimicrobial activities are strongly antagonized by cations.     

The complete primary structure of ribosomal proteins L1, L14, L15, L23, L24 and L29 from Bacillus stearothermophilus

The amino acid sequences of ribosomal proteins L1, L14, L15, L23, L24 and L29 from Bacillus stearothermophilus have been completely determined. This has been achieved by sequence analyses of peptides derived from enzymatic digestions of the proteins with trypsin, chymotrypsin, pepsin, Staphylococcus aureus protease, and Armillaria mellea protease as well as by chemical cleavage with hydroxylamine and cyanogen bromide. Based on the primary structures of the six proteins, their secondary structures were predicted using four different computer prediction programs. A comparison of the amino acid sequences of the studied proteins from B. stearothermophilus with the homologous proteins from Escherichia coli revealed that in four proteins (L1, L15, L24 and L29) between 40-50% of the residue in the sequences are identical, whereas this value is significantly higher (69%) for L14 and lower (28%) for L23. The distribution of those amino acid residues which are identical in the corresponding proteins from the two bacteria is not random along the protein chain: some regions are highly conserved whereas others are not. This finding indicates that the regions which are conserved during evolution are important for the spatial structure and/or function of the protein.     

Homology between the seed cytolysin enterolobin and bacterial aerolysins

Enterolobin, a 55-kDa cytolytic, inflammatory, and insecticidal protein isolated from seeds of the Brazilian treeEnterolobium contortisiliquum (Leguminosae-Mimosoideae) has been further purified and partially sequenced by using both manual and automated methods. A computational search of enterolobin partial amino acid sequence against the PIR database revealed possible sequence similarities with aerolysins, cytolytic proteins fromAeromonas species. An alignment of enterolobin partial sequence to the amino acid sequences ofA. hydrophila andA. sobria aerolysins showed several similar regions with many residue identites. The seed protein enterolobin and the bacterial aerolysins may be homologous proteins despite the distant phylogenetic relationship.     

Nucleotide sequence of a cDNA for a member of the human 90-kDa heat-shock protein family

This paper describes the isolation and sequence of a human cDNA homologous to a class of proteins commonly referred to as 90-kDa heat-shock proteins. The complete nucleotide sequence of 2563 bp and the deduced amino acid sequence are presented. A single long open reading frame encodes a protein of 83,303 Da, the amino acid composition of which correlates well with that determined for the human 90-kDa heat-shock or 'stress' protein [Welch, W.J. and Feramisco, J.R., J. Biol. Chem. 257 (1982) 14949-14959]. Moreover, sequence analysis of this gene reveals extensive homology with the Drosophila 83-kDa and yeast 90-kDa heat-shock proteins. A comparison of the translated product of the human cDNA to the published yeast 90-kDa heat-shock protein reveals more than 60% homology at both the nucleotide and amino acid levels. Several regions of 50 aa or more show greater than 90% identity. This cDNA also hybridizes with an RNA species which increases upon heat shock of HeLa cells.     

The gene sequence and some properties of protein H. A novel IgG-binding protein

The gene for protein H, a novel bacterial cell wall protein with specific affinity for human IgG Fc, was cloned from a group A Streptococcus and expressed in Escherichia coli. Recombinant E. coli cells produced two forms of a human IgG Fc-binding protein, one with an apparent Mr of 42 kDa in a periplasmic fraction and the other with an apparent Mr of 45 kDa in a mixed fraction of cytoplasms and membranes. Both 42-kDa and 45-kDa protein preparations similarly bound to human IgG1 to IgG4, human IgG Fc, and rabbit IgG, but not to IgG of mouse, rat, bovine, sheep, goat, and human IgA, IgD, IgE, and IgM. The complete nucleotide sequence of the cloned 1.8-kb DNA fragment was determined. An open reading frame encoded a hypothetical protein of 376 amino acid residues (Mr = 42,498). The N-terminal amino acid sequence, consisting of 41 residues, which was removed post-translationally had typical characteristics of Gram-positive bacterial signal peptides. Thus, the mature form of protein H was suggested to consist of 335 residues (Mr = 38,162). There were 3 repeated sequences consisting of 42 residues that were highly homologous to those of protein Arp, an IgA-binding streptococcal cell wall protein, and streptococcal M6 and M24 proteins. The C-terminal amino acid sequence consisting of 93 residues, directly following the repeated sequences, was also highly homologous to that of M6 and M24 proteins. No sequence homology was found between protein H and protein A or protein G, two other IgG-binding bacterial cell wall proteins.     

Cloning and characterization of nuclear genes for two mitochondrial ribosomal proteins in Saccharomyces cerevisiae.

The genes for two large subunit proteins, YmL8 and YmL20, of the mitochondrial ribosome of Saccharomyces cerevisiae were cloned by hybridization with synthetic oligonucleotide mixtures corresponding to their N-terminal amino acid sequences. They were termed MRP-L8 and MRP-L20, respectively, and their nucleotide sequences were determined using a DNA sequencer. The MRP-L8 gene was found to encode a 26.8-kDa protein whose deduced amino acid sequence has a high degree of similarity to ribosomal protein L17 of Escherichia coli. The gene MRP-L20 was found to encode a 22.3-kDa protein with a presequence consisting of 18 amino acid residues. By Southern blot hybridization to the yeast chromosomes separated by field-inversion gel electrophoresis, the MRP-L8 and MRP-L20 genes were located on chromosomes X and XI, respectively. Gene disruption experiments indicate that their products, YmL8 and YmL20 proteins, are essential for the mitochondrial function and the absence of these proteins causes instability of the mitochondrial DNA.     

Nucleotide and deduced amino acid sequences of a GTP-binding protein family with molecular weights of 25,000 from bovine brain

We have purified a novel GTP-binding protein (G protein) with a Mr of about 24,000 to homogeneity from bovine brain membranes (Kikuchi, A., Yamashita, T., Kawata, M., Yamamoto, K., Ikeda, K., Tanimoto, T., and Takai, Y. (1988) J. Biol. Chem. 263, 2897-2904). In the present studies, we have isolated and sequenced the cDNA of this G protein from a bovine brain cDNA library using oligonucleotide probes designed from the partial amino acid sequences. The cDNA of the G protein has an open reading frame encoding a protein of 220 amino acids with a calculated Mr of 24,954. This G protein is designated as the smg-25A protein (smg p25A). The amino acid sequence deduced from the smg-25A cDNA contains the consensus sequences of GTP-binding and GTPase domains. smg p25A shares about 28 and 44% amino acid homology with the ras and ypt1 proteins, respectively. In addition to this cDNA, we have isolated two other homologous cDNAs encoding G proteins of 219 and 227 amino acids with calculated Mr values of 24,766 and 25,975, respectively. These G proteins are designated as the smg-25B and smg-25C proteins (smg p25B and smg p25C), respectively. The amino acid sequences deduced from the three smg-25 cDNAs are highly homologous with one another in the overall sequences except for C-terminal 32 amino acids. Moreover, three smg p25s have a consensus C-terminal sequence, Cys-X-Cys, which is different from the known C-terminal consensus sequences of the ras and ypt1 proteins, Cys-X-X-X and Cys-Cys, respectively. These results together with the biochemical properties of smg p25A described previously indicate that three smg p25s constitute a novel G protein family.