Cloning of the cDNAs encoding the cellular retinaldehyde-binding protein from bovine and human retina and comparison of the protein structures

A 1173-base pair cDNA encoding bovine cellular retinaldehyde-binding protein (CRALBP) was cloned from a bovine retinal cDNA expression library using as probes both anti-CRALBP polyclonal and monoclonal antibodies. The amino acid sequence deduced from the cDNA corresponds exactly to that determined by direct analysis of NH2-terminally acetylated bovine CRALBP (Crabb, J. W., Johnson, C. M., Carr, S. A., Armes, L. G., and Saari, J. C. (1988) J. Biol. Chem. 263, 18678-18687). Nick-translated bovine CRALBP cDNA probes were then used to clone from a human retinal cDNA library a 1317-base pair cDNA encoding human CRALBP. Bovine and human CRALBP are 92% identical in amino acid sequence and not related to any other known protein sequence. Both the bovine and human proteins contain 316 residues and have calculated molecular weights of 36,378 and 36,347, respectively, exclusive of the NH2-terminal blocking groups. The CRALBP cDNA clones should prove valuable as tools for studying the physiological role of the protein in vision and visual disorders.     

Beta-internexin is a microtubule-associated protein identical to the 70-kDa heat-shock cognate protein and the clathrin uncoating ATPase

We have examined the relationship of the ubiquitous 68-70-kDa cytoskeletal-associated protein beta-internexin (Napolitano, E. W., Pachter, J. S., Chin, S. S. M., and Liem, R. K. H. (1985) J. Cell Biol. 101, 1323-1331) to heat-shock cognate 70 (hsc70), the major constitutive member of the mammalian heat-shock protein 70 (hsp70) family of stress proteins. We purify beta-internexin from rat brain microtubules and confirm its identity with hsc70 and the clathrin-uncoating ATPase by the following criteria: 1) The partial sequence of a cyanogen bromide-derived peptide from beta-internexin matches the inferred amino acid sequence of the cDNA clone pRC62 encoding hsc70 from rat brain (O'Malley, K., Mauron, A., Barchas, J. D., and Kedes, L. (1985) Mol. Cell. Biol. 5, 3476-3483). 2) Mixing experiments followed by two-dimensional gel analyses reveal the precise co-migration of beta-internexin, the clathrin-uncoating ATPase, and the in vitro translation product of cDNA clone pHSP-4 encoding rat brain hsc70. 3) beta-Internexin is recognized by a monoclonal antibody reactive against the class of hsp70 proteins. 4) beta-Internexin purified from a microtubule-associated protein-enriched fraction of rat brain by virtue of high affinity binding to ATP-agarose possesses clathrin cage-specific ATPase activity.     

Rat liver NAD(P)H: quinone reductase nucleotide sequence analysis of a quinone reductase cDNA clone and prediction of the amino acid sequence of the corresponding protein

We have determined the nucleotide sequence of a cDNA clone, pDTD55, complementary to rat liver quinone reductase mRNA (Williams, J.B., Lu, A.Y.H., Cameron, R.G., and Pickett, C.B. (1986) J. Biol. Chem. 261, 5524-5528). The cDNA clone contains an open reading frame of 759 nucleotides encoding a polypeptide comprised of 253 amino acids with a Mr = 28,564. To verify the predicted amino acid sequence of quinone reductase, we have been able to align the amino acid sequences of a cyanogen bromide digest of the purified enzyme to the sequence deduced from the cDNA clone. A comparison of the quinone reductase sequence with other known flavoenzymes did not reveal a significant degree of amino acid sequence homology. These data suggest that the quinone reductase gene has evolved independently from genes encoding other flavoenzymes.     

Leucine zipper motif in porcine renin-binding protein (RnBP) and its relationship to the formation of an RnBP-renin heterodimer and an RnBP homodimer

An apparent leucine zipper motif was recognized in the predicted amino acid sequence of porcine kidney renin-binding protein (RnBP) by analysis of the nucleotide sequence of a cDNA encoding the protein (Inoue, H., Fukui, K., Takahashi, S., and Miyake, Y. (1990) J. Biol. Chem. 265, 6556-6561). To evaluate the role of this motif in the formation of an RnBP-renin heterodimer and an RnBP homodimer, a porcine mutant cDNA involving Leu185----Asp and Leu192----Asp substitutions was constructed and expressed in vitro and in Xenopus oocytes. The mutant protein neither binds to renin nor forms the homodimer. The results strongly suggest that the leucine zipper motif in the RnBP molecule mediates the formation of both the RnBP-renin heterodimer and the RnBP homodimer observed previously. The existence of the motif should facilitate elucidation of the role of RnBP in renin metabolism.     

Purification and characterization of an endotoxin-binding protein with protease inhibitory activity from Limulus amebocytes

Using a lipopolysaccharide affinity column and ion exchange chromatography, a 12-kDa protein has been purified from Limulus amebocytes. In solid phase binding assays, the radiolabeled protein binds specifically to lipopolysaccharide (LPS) with a Kd value on the order of 10(-7) M. A cDNA coding for this protein has been isolated and sequenced. The amino acid sequence deduced from the cDNA indicates that this protein shares no sequence homology with LPS-binding proteins isolated from different species of vertebrates (Schumann, R. R., Leong, S. R., Flaggs, G. W., Gray, P. W., Wright, S. D., Mathison, J. C., Tobias, P. S., and Ulevitch, R. J. (1990) Science 249, 1429-1431) and invertebrates (Aketagawa, J., Miyata, T., Ohtsubo, S., Nakamura, T., Morita, T., Hayashida, H., Miyata, T., Iwanaga, S., Takao, T., and Shimonishi, Y. (1986) J. Biol. Chem. 261, 7357-7365). The binding to LPS can be displaced by the unlabeled 12-kDa protein, polymyxin B, lipid A, and to a lesser extent by D-glucosamine. In whole cell binding assays, the 12-kDa protein has also been shown to bind to Escherichia coli. Using both [14C]casein and a synthetic substrate, the protein has been shown to inhibit the proteolytic activity of trypsin, with an IC50 of approximately 10(-7) M. In the presence of LPS, the antitryptic acitivity of the Limulus endotoxin-binding protein-protease inhibitor remains unaffected. The protein is a major component of the cytoplasmic proteins (1%). Immunocytochemical analysis reveals that this protein exists in the secretory granules of the amebocytes where enzymes and substrates for the clotting cascade reside. Based on the unusual dual functional properties, the newly isolated protein was named a "Limulus endotoxin-binding protein-protease inhibitor" (LEBP-PI).     

A single gene codes for two forms of rat nucleolar protein B23 mRNA

Protein B23 (38 kDa, pI = 5.1) is an abundant RNA-associated nucleolar phosphoprotein and putative ribosome assembly factor. A full length cDNA clone (lambda JH1) encoding a major expressed form of rat protein B23, now designated B23.1, was reported recently (Chang, J. H., Dumbar, T. S., and Olson, M. O. J. (1988) J. Biol. Chem. 263, 12824-12837). In this paper the isolation from a rat brain library and sequence of a cDNA clone (lambda JH2) coding for a second form (B23.2) of protein B23 is reported. Isoforms B23.1 and B23.2 are polypeptides of 292 and 257 amino acids, respectively. The 5'-untranslated regions of the two cDNAs and the amino-terminal 255 amino acids of the proteins are identical in the two isoforms. However, the 3'-untranslated regions of the mRNAs are completely different, and the dipeptide Gly-Gly in B23.1 (residues 256 and 257) is replaced by Ala-His in B23.2 indicating that the former is not a precursor of the latter. The finding of AGGT sequences in the 3' regions of lambda JH1 suggest the presence of intron-exon boundaries at the point where the two cDNAs begin to differ. To investigate the origin of the two isoforms, two rat genomic libraries were screened with oligonucleotide probes based on sequences from the unique regions of the two cDNAs. One of the genomic clones isolated (lambda JH125) contained a 6.5-kilobase fragment encoding the 3' end of both cDNAs. lambda JH125 contains four exons designated W, X, Y, and Z in the order indicated. Exons W and X encode 36 amino acids at the carboxyl terminus of B23.2, whereas exons W, Y, and Z encode the carboxyl-terminal 71 amino acid residues of B23.1. Exons X and Z each contain distinct 3'-untranslated sequences in which are found polyadenylation signals. These data suggest that two different mRNAs are formed by alternative splicing of separate 3' segments onto a common 5' region.     

Glycoprotein biosynthesis in Saccharomyces cerevisiae. Isolation and characterization of the gene encoding a specific processing alpha-mannosidase.

We have isolated the gene from Saccharomyces cerevisiae encoding an alpha-mannosidase of unique specificity which catalyzes the removal of one mannose residue from Man9GlcNAc to produce a single isomer of Man8GlcNAc (Jelinek-Kelly, S., and Herscovics, A. (1988) J. Biol. Chem. 263, 14757-14763). Amino acid sequence information was obtained and corresponding degenerate oligonucleotide primers were synthesized for polymerase chain reactions on yeast genomic DNA. The labeled polymerase chain reaction products were used to screen a S. cerevisiae genomic library in YEp24, and positive clones of different lengths with similar restriction maps were isolated. A 4.6-kilobase fragment which hybridized with the probes was sequenced. It contained a 1650-base pair open reading frame encoding peptide sequences corresponding to the amino acid sequences of the purified alpha-mannosidase. The gene, designated MNS1, encodes a 549-amino acid polypeptide of calculated molecular size 63,017 Da produced by an mRNA species of approximately 1.7 kilobases. The protein possesses a putative noncleavable signal sequence near its N-terminal region which probably acts as a transmembrane domain. It has three potential N-glycosylation sites and a calcium-binding consensus sequence. Its amino acid sequence is homologous to the recently isolated cDNA from rabbit liver alpha-1,2 mannosidase which can transform Man9GlcNAc to Man5GlcNAc (Moremen, K. W., Schutzbach, J. S., Forsee, W. T., Neame, P., Bishoff, J., Lodish, H. F., and Robbins, P. W. (1990) Glycoconjugate J. 7, 401). Overexpression of the MNS1 gene caused an 8-10-fold increase in specific alpha-mannosidase activity. Disruption of the MNS1 gene resulted in undetectable specific alpha-mannosidase activity but no apparent effect on growth. These results demonstrate that MNS1 is the structural gene for the specific alpha-mannosidase and that its activity is not essential for viability.     

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.     

YmL9, a nucleus-encoded mitochondrial ribosomal protein of yeast, is homologous to L3 ribosomal proteins from all natural kingdoms and photosynthetic organelles.

The nuclear gene for mitochondrial ribosomal protein YmL9 (MRP-L9) of yeast has been cloned and sequenced. The deduced amino acid sequence characterizes YmL9 as a basic (net charge + 30) protein of 27.5 kDa with a putative signal peptide for mitochondrial import of 19 amino acid residues. The intact MRP-L9 gene is essential for mitochondrial function and is located on chromosome XV or VII. YmL9 shows significant sequence similarities to Escherichia coli ribosomal protein L3 and related proteins from various organisms of all three natural kingdoms as well as photosynthetic organelles (cyanelles). The observed structural conservation is located mostly in the C-terminal half and is independent of the intracellular location of the corresponding genes [Graack, H.-R., Grohmann, L. & Kitakawa, M. (1990) Biol. Chem. Hoppe Seyler 371, 787-788]. YmL9 shows the highest degree of sequence similarity to its eubacterial and cyanelle homologues and is less related to the archaebacterial or eukaryotic cytoplasmic ribosomal proteins. Due to their high sequence similarity to the YmL9 protein two mammalian cytoplasmic ribosomal proteins [MRL3 human and rat; Ou, J.-H., Yen, T. S. B., Wang, Y.-F., Kam, W. K. & Rutter, W. J. (1987) Nucleic Acids Res. 15, 8919-8934] are postulated to be true nucleus-encoded mitochondrial ribosomal proteins.     

A subunit of mammalian signal peptidase is homologous to yeast SEC11 protein

Canine signal peptidase consists of a complex of five proteins (Evans, A. E., Gilmore, R., and Blobel, G. (1986) Proc. Natl. Acad. Sci. U.S.A. 83, 581-585). A cDNA encoding the 21-kDa subunit of the signal peptidase complex was isolated from a liver cDNA library using an 88-base pair probe, generated by the polymerase chain reaction. The 820-base pair cDNA was sequenced and found to encode a protein of 21,585 daltons. The deduced amino acid sequence from the canine cDNA was found to be 47% identical to the yeast SEC11 protein. SEC11 has been shown to be required for signal peptide cleavage, normal rate of secretion, and cell survival in Saccharomyces cerevisiae (B?hni, P. C., Deshaies, R. J., and Schekman, R. W. (1988) J. Cell Biol. 106, 1035-1042). It is, therefore, likely that the 21-kDa subunit of signal peptidase complex is the structural and functional homologue of the yeast SEC11 gene product.     

Molecular cloning and expression of chondroitin 4-sulfotransferase

Chondroitin 4-sulfotransferase (C4ST) catalyzes the transfer of sulfate from 3'-phosphoadenosine 5'-phosphosulfate to position 4 of N-acetylgalactosamine residue of chondroitin. The enzyme has been previously purified to apparent homogeneity from the serum-free culture medium of rat chondrosarcoma cells (Yamauchi, A., Hirahara, Y., Usui, H., Takeda, Y., Hoshino, M., Fukuta, M., Kimura, J. H., and Habuchi, O. (1999) J. Biol. Chem. 274, 2456-2463). The purified enzyme also catalyzed the sulfation of partially desulfated dermatan sulfate. We have now cloned the cDNA of the mouse C4ST on the basis of the amino acid sequences of peptides obtained from the purified enzyme by protease digestion. This cDNA contains a single open reading frame that predicts a protein composed of 352 amino acid residues. The protein predicts a Type II transmembrane topology. The predicted sequence of the protein contains all of the known amino acid sequence and four potential sites for N-glycosylation, which corresponds to the observation that the purified C4ST is an N-linked glycoprotein. The amino acid sequence of mouse C4ST showed significant sequence homology to HNK-1 sulfotransferase. Comparison of the sequence of mouse C4ST with human HNK-1 sulfotransferase revealed approximately 29% identity and approximately 48% similarity at the amino acid level. When the cDNA was introduced in a eukaryotic expression vector and transfected in COS-7 cells, the sulfotransferase activity that catalyzes the transfer of sulfate to position 4 of GalNAc residue of both chondroitin and desulfated dermatan sulfate was overexpressed. Northern blot analysis showed that, among various mouse adult tissues, 5.7-kilobase message of C4ST was mainly expressed in the brain and kidney.     

Novel multigene families encoding highly repetitive peptide sequences. Sequence analyses of rat and mouse proline-rich protein cDNAs

Multigene families encode the proline-rich proteins that are so prominent in human saliva and are dramatically induced in mouse and rat salivary glands by isoproterenol treatment and by feeding tannins. A cDNA encoding an acidic proline-rich protein of rat has been sequenced (Ziemer, M. A., Swain, W. F., Rutter, W. J., Clements, S., Ann, D. K., and Carlson D. M. (1984) J. Biol. Chem. 259, 10475-10480). This study presents the nucleotide sequences of five additional proline-rich protein cDNAs complementary to both mouse and rat parotid and submandibular gland mRNAs. Amino acid compositions deduced from the nucleotide sequences are typical for proline-rich proteins: 25-45% proline, 18-22% glycine, and 18-22% glutamine and generally an absence of sulfur-containing amino acids except for the initiator methionine. These proline-rich proteins display unusual repeating peptide sequences of 14-19 amino acids. The derived amino acid sequence of the cDNA insert of plasmid pMP1 from mouse has a 19-amino acid sequence which is repeated four times. The inserts of plasmids pUMP40 and pUMP4 also from mouse encode for 12 and 11 repeats of a 14-amino acid peptide, respectively. These repetitive sequences, and others from rat and mouse cDNAs and from human genomic clones, all show very high homologies and likely evolved from duplication of internal portions of an ancestral gene. Gene conversion could account for the high degree of conservation of nucleotide sequences of the repeat regions. Protein derived from the nucleotide sequences are all characterized by four general regions: a putative signal peptide, a transition region, the repetitive region, and a carboxyl-terminal region. The 5'-flanking sequences and sequences encoding the putative signal peptides are highly conserved (greater than 94%) in all six cDNAs. This sequence conservation may be important in the regulation of the biosynthesis of these unusual proteins.     

Cloning of a human collagen-binding protein, and its homology with rat gp46, chick hsp47 and mouse J6 proteins.

Several cDNA clones encoding a collagen-binding protein were isolated from human fibroblasts. The cDNA encoded a 417 amino acid protein, containing two potential N-linked oligosaccharide binding sites and a C-terminal RDEL sequence, which has been shown to act as an endoplasmic retention signal in other systems. The derived amino acid sequence of the protein shows close homology with gp46 from rat skeletal myoblasts, J6 protein from mouse F9 embryonal carcinoma cells and hsp47 from chick embryo fibroblasts. It also shows sequence similarity with members of the serpin family.     

cDNA and deduced primary structure of rat protein B23, a nucleolar protein containing highly conserved sequences

Protein B23 (Mr/pI = 38,000/5.1) is a major RNA-associated nucleolar phosphoprotein which contains highly acidic segments and has a high affinity for silver ions. Using synthetic oligonucleotides as probes cloned cDNAs encoding protein B23 were isolated and characterized. One of the cDNAs, obtained from a rat brain library, contained an insert of 1232 base pairs of DNA encoding a polypeptide of 292 amino acid residues. Segments of the protein sequence were confirmed by partial sequencing of CNBr fragments from rat hepatoma protein B23. The protein contains a methionine-rich amino-terminal sequence and two highly acidic segments in the center of the sequence. The first acidic segment, in which 11 of the 13 residues are acidic, begins at residue 120 and contains a major phosphorylation site. In the second segment (residues 159-187) there are four copies of the sequence Asp-Asp-Glu, and all but two of the 29 residues have acidic side chains. When the sequence of the rat protein was compared with available sequences from other species a high degree of conservation was found; the 77-residue carboxyl-terminal sequence is identical with that of human protein B23 (Chan, P. K., Chan, W.-Y., Yung, B. Y. M., Cook, R. G., Aldrich, M. B., Ku, D., Goldknopf, I. L., and Busch, H. (1986) J. Biol. Chem. 261, 14335-24341), and about 63% of the residues are identical when the rat B23 sequence is compared with protein N038 from Xenopus laevis (Schmidt-Zachmann, M. S., Hügle-D?rr, B., and Franke, W. (1987) EMBO J. 6, 1881-1890). Except for the presence of highly acidic regions no significant similarities were found with protein C23 (nucleolin), the other major nucleolar protein.     

Purification and molecular cloning of succinyltransferase of the rat alpha-ketoglutarate dehydrogenase complex. Absence of a sequence motif of the putative E3 and/or E1 binding site

Full-length cDNA clones for succinyltransferase of the rat alpha-ketoglutarate dehydrogenase complex were isolated from rat heart cDNA libraries in lambda gt11. The cDNA clones were identified as those for rat succinyltransferase by the identity of their predicted amino acid sequence with the NH2-terminal amino acid sequence of rat succinyltransferase determined by protein chemical analysis and the known amino acid sequence of bovine succinyltransferase. The clone with the longest cDNA consisted of 2747 base pairs and coded for a leader peptide of 56 amino acid residues and a mature protein of 386 amino acid residues. The primary structure of rat succinyltransferase showed close similarity to Escherichia coli and Azotobacter vinelandii succinyltransferases, in the COOH-terminal part forming the lipoyl-binding domain and the NH2-terminal part forming the inner core-catalytic domain. However, the rat succinyltransferase did not contain a sequence motif that has been found as an E3- and/or E1-binding site in the dihydrolipoamide acyltransferases of three alpha-ketoacid dehydrogenase complexes (Hummel, K. B., Litwer, S., Bradford, A. P., Aitken, A., Danner, D. J., and Yeaman, S. J. (1988) J. Biol. Chem. 263, 6165-6168, Reed, L. J., and Hackert, M. L. (1990) J. Biol. Chem. 265, 8971-8974). The absence of this sequence was confirmed by direct sequencing of the polymerase chain reaction product of rat heart mRNA and by computer analysis. These results show that the rat succinyltransferase does not have the sequence motif of the putative E3- and/or E1-binding site.     

Molecular cloning of a protein associated with soybean seed oil bodies that is similar to thiol proteases of the papain family

A 34,000-Da protein (P34) is one of the four major soybean oil body proteins observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of isolated organic solvent-extracted oil bodies from mature seeds. P34 is processed during seedling growth to a 32,000-Da polypeptide (P32) by the removal of an amino-terminal decapeptide (Herman, E.M., Melroy, D.L., and Buckhout, T.J. (1990) Plant Physiol, in press). A soybean lambda ZAP II cDNA library constructed from RNA isolated from midmaturation seeds was screened with monoclonal antibodies directed against two different epitopes of P34. The isolated cDNA clone encoding P34 contains 1,350 base pairs terminating in a poly(A)+ tail and an open reading frame 1,137 base pairs in length. The open reading frame includes a deduced amino acid sequence which matches 23 of 25 amino-terminal amino acids determined by automated Edman degradation of P34 and P32. The cDNA predicts a mature protein of 257 amino acids and of 28,641 Da. The open reading frame extends 5' from the known amino terminus of P34 encoding a possible precursor and signal sequence segments with a combined additional 122 amino acids. Prepro-P34 is deduced to be a polypeptide of 42,714 Da, indicating that the cDNA clone apparently encodes a polypeptide of 379 amino acids. A comparison of the nucleotide and deduced amino acid sequences in the GenBank Data Bank with the sequence of P34 has shown considerable sequence similarity to the thiol proteases of the papain family. Southern blot analysis of genomic DNA indicated that the P34 gene has a low copy number.