A novel cDNA clone encoding a prolactin-like protein that lacks the two C-terminal cysteine residues isolated from bovine placenta

A new prolactin-like cDNA clone, bPLP-IV, was isolated from a bovine placental cDNA library and the complete nucleotide sequence was determined. The bPLP-IV encodes a protein consisting of 237 amino acids, which is related to, but different from seven other known bovine prolactin-like proteins including two placental lactogens. The predicted amino acid sequence of the bPLP-IV shows over 52% identity to other known members of bovine prolactin-like proteins, 48% to bovine prolactin, 40% to both two bovine placental lactogens and only 22% to bovine growth hormone. The bPLP-IV protein has a unique feature in its primary structure, lacking the two C-terminal cysteine residues which are completely conserved in all other known members of prolactin-growth hormone-placental lactogen gene family. The expression of bPLP-IV in developing bovine placenta was apparently stage-specific, being maximal in the full-term placenta.     

Identification of three prolactin-related hormones as markers of invasive trophoblasts in the rat

An expressed-sequence tag database search has identified three rat cDNA clones in the prolactin/growth hormone family, including a homologue of mouse proliferin-related protein (PRP). The encoded proteins of the two novel clones, designated prolactin-like proteins L (PLP-L) and M (PLP-M), are predicted to be synthesized as precursors of 229 and 227 amino acids, modified by N-linked glycosylation, and secreted as mature glycoproteins of 199 and 200 residues, respectively. Murine homologues to PLP-L and PLP-M were also identified. The open reading frame of rat PRP encodes a precursor protein of 245 amino acids and predicts a secreted 215-amino acid glycoprotein with 81% identity to mouse PRP. All three rat mRNAs are expressed in the placenta, and expression is not detected in other tissues. PLP-L mRNA expression is observed from Days 11-20, with highest levels at Day 13; highest levels of PLP-M are observed from Day 11 until parturition, with peak levels also on Day 13; and highest levels of PRP are also observed from Day 11 until term, with maximal expression on Day 17. All three genes are most highly expressed in invasive trophoblast cells lining the central placental vessel. The identification of molecular markers for endovascular trophoblasts serves to highlight the invasive nature of rodent placentation and may prove useful for future studies of placental function.     

Primary structure of chicken pituitary prolactin deduced from the cDNA sequence. Conserved and specific amino acid residues in the domains of the prolactins

The perform of chicken prolactin (PRL) deduced from the cDNA sequence contains a signal peptide of 30 amino acid residues followed by a mature PRL of 199 residues. Chicken PRL shows 77, 68, 67, 58, and 31% identity of amino acid sequence with whale, human, ovine, rat, and salmon PRLs, respectively. Elucidation of the primary structure of avian PRL enabled extended analysis of the specific and conserved amino acid residues and domains of the PRL molecules. The mammalian, teleostean, and avian PRLs share 32 common residues, and these conserved residues are observed to cluster in four distinct domains (PD1 to PD4), corresponding to four of five conserved domains of the growth hormones. Of the 32 residues, 8 residues in the PD2 and PD4 domains, including 4 cysteines, are conserved by other members of the growth hormone family, which indicates that these 8 residues may be essential for common structural features of the gene family. On the other hand, 13 other residues distributed among all four domains are conserved almost exclusively in the PRLs, suggesting that these residues are indispensable for specific binding of the PRLs to their receptors.     

The purification and characterization of rabbit placental lactogen.

Rabbit placental lactogen, a polypeptide hormone functionally related to the growth hormone/prolactin family, was isolated from placenta by (NH4)2SO4 precipitation, gel filtration and ion-exchange chromatography on DEAE-and CM-cellulose. The hormone was purified to more than 90% homogeneity, as determined by end-group analysis. On disc gel electrophoresis at pH9.0 it migrates as a pair of closely spaced bands with mobilities of 0.489 (minor band) and 0.511 (major band), and its isoelectric point is 6.1. Its mol.wt. is 20600, as determined by sedimentation--equilibrium centrifugation, and 24200, as estimated by gel electrophoresis in sodium dodecyl sulphate. Its amino acid composition resembles that of rabbit growth hormone and rat prolactin, except for a lower glutamic acid and leucine content. Like the prolactins, rabbit placental lactogen has two tryptophan and six cysteine residues, and its N-terminus, valine, is identical with that for human placental lactogen. By radioimmunoassay, it does not cross-react with antisera to either rat growth hormone or rat prolactin; in addition, it does not cross-react with antisera to bovine placental lactogen by double immunodiffusion. The similarity of the biochemical characteristics of rabbit placental lactogen to the other non-primate placental lactogens lends further support to the hypothesis that these molecules occupy a more central position in the growth hormone/prolactin "tree" than do their primate counterparts.     

Structural analysis of mouse S-antigen

Mouse S-antigen clones were isolated from a mouse retinal cDNA library using a bovine S-antigen cDNA probe. The largest clone (MSC-242) comprised 1532 bp and contained the entire coding sequence. The nucleotide sequence homology between the mouse and bovine coding regions was 84%, while non-coding regions appeared to be more divergent. The deduced amino acid sequence indicated that the mouse S-antigen had 403 residues and its molecular ratio was 44,930. An overall amino acid sequence similarity of 84% was observed between the mouse and bovine proteins. This degree of similarity dropped to 60% and 47% at the N and the C termini, respectively. The local homology with alpha-transducin observed in the bovine proteins, including the putative phosphoryl and rhodopsin binding sites, was conserved in the mouse as well. There was no overall sequence similarity with other proteins listed in the National Biomedical Research Foundation (NBRF) protein sequence database. Among the uveitopathogenic sites for experimental autoimmune uveitis (EAU), peptides N and M were identical to their bovine counterparts. Peptides 3 and K, however, were more divergent. The short repeats within these peptides were conserved.     

Isolation and identification of a cDNA clone of rat placental lactogen II

The developing rat placenta expresses two placental lactogens at different stages of pregnancy: rat placental lactogen I from Days 11 to 13 of pregnancy and rat placental lactogen II (rPLII) from Day 12 to term. In this paper, we describe cDNA clones for rPLII, which have been isolated from a Day 18 rat placental cDNA library. The rPLII clones hybrid-select a mRNA which translates in vitro to a protein of 25,000 daltons. This protein is processed by dog pancreatic microsomes to a 22,000-dalton form, identical in size to rPLII isolated from pregnant rat serum. Both forms are precipitated by an anti-rPLII antiserum and an anti-ovine prolactin antiserum. The mRNA for rPLII is first expressed in Day 12 placenta and reaches a maximum at about Day 18 of pregnancy, in parallel with the appearance of the hormone in serum. Sequencing of the cDNA shows that, unlike human placental lactogen which is 85% homologous to human growth hormone at the amino acid level, rPLII is much more closely related to the prolactins. Thus, rPLII is 52% homologous to rat prolactin at the amino acid level, but only 34% related to rat growth hormone. This is the second placental lactogen to be fully characterized, and in the rat this hormone appears to have evolved by a route quite different from that which produced placental lactogen in humans.     

Cloning and characterization of the bovine testicular PH-20 hyaluronidase core domain

The core nucleotide sequence of bovine (Bos taurus) testicular PH-20 hyaluronidase was cloned using one step RT-PCR. The 5' and 3' regions were cloned separately and a sequence overlap of 124 bp facilitated the fusion of these two fragments by overlapping PCR, resulting in a concatenated sequence of 1422 bp. This nucleotide sequence and its deduced amino acid sequence were compared to homologous sequences from eight other mammal species. The bovine sequences were most similar to those of the pig, Sus scrofa (swine Spam1: 79.1% nucleotide and 70.1% amino acid similarity) and least similar to sequences from the Norway rat, Rattus norvegicus (murine Spam1: 61% nucleotide and 53.3% amino acid similarity). A phylogenetic analysis joined the red fox (Vulpes vulpes) sequence as sister to the bull-pig pair. Twelve cysteine residues were conserved among all nine aligned amino acid sequences and five proposed glycosylation sites have been identified. The feasibility of developing an effective, low-cost bovine PH-20 expression system is discussed in light of these new data.     

Evolution of nucleic acids coding for ribonucleases: the mRNA sequence of mouse pancreatic ribonuclease

The cDNA of mouse pancreatic mRNA has been cloned. After the library was screened with a rat ribonuclease cDNA probe, the positive clones were isolated and sequenced. There were no differences from the previously determined protein sequence. The mRNA codes for a preribonuclease of 149 amino acid residues including a signal peptide of 25 amino acids. The 3' noncoding region has a length of 260 bp, and the total mRNA length is approximately 940 bp. Comparison with the rat pancreatic ribonuclease sequence showed a high rate of nucleotide substitution. Within the coding region, nonsynonymous and synonymous substitution rates are 4.3 X 10(-9) and 15 X 10(-9) nucleotide substitutions/site/year, respectively. The latter value is one of the highest rates observed in the molecular evolution of mammalian nuclear genes. In the signal sequences the synonymous substitution rate is much lower and about the same as the nonsynonymous rate. Signal sequences of other mouse and rat proteins also exhibit little difference between synonymous and nonsynonymous rates. The sequences of rat and mouse pancreatic ribonuclease messengers were compared with those of bovine pancreatic, seminal, and brain ribonuclease. While the 3' noncoding regions of rat and mouse are very similar, as are those of the three bovine messengers, there is no significant similarity between both rodent and the three bovine messengers for the greater part of these regions. There is a duplication of approximately 50 nucleotides in the 3' noncoding region of the bovine messengers, with a region rich in A and C in between. The presence of this structural feature may be correlated with recent gene duplications that have occurred in the bovine genome.     

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.     

Cloning and sequence analysis of cDNA for mouse prolactin

The present study was undertaken to find out whether or not sexual dimorphism in biological activities and amino acid compositions of mouse prolactin might be due to heterogeneity in mRNA for mouse prolactin Cloned cDNAs for mouse prolactin were first isolated from a mouse pituitary cDNA library by hybridization with a rat prolactin cDNA. Then, one clone of about 140 positive clones obtained from 2000 transformants was subjected to nucleotide sequence analysis and verified to contain a nearly full length of cDNA sequence coding for mouse prolactin precursor. The deduced complete amino acid sequence indicates that the precursor molecule consists of 31 amino acids as the signal peptide and 197 amino acids of prolactin, in which two amino acids were found to be different from the amino acid sequence previously published elsewhere. S1 nuclease mapping analysis using male and female pituitary RNAs indicates that mouse preprolactin is encoded by two mRNAs in both sexes. The two mRNAs differ from each other based upon the deletion of three nucleotides in the coding region for the signal peptide determined by the nucleotide sequence analysis in other cDNA clones. In the present study, no sexual difference was revealed in murine prolactin mRNA.     

Complete amino acid sequences of a pair of fish (tilapia) prolactins, tPRL177 and tPRL188

The complete amino acid sequences of a pair of tilapia (Oreochromis mossambicus) prolactins (PRLs) were determined. The larger PRL of molecular mass 20,836 Da consists of 188 amino acid residues. The smaller PRL of molecular mass 19,584 Da is 11 residues shorter. On alignment of the two sequences, the 19.6-kDa PRL (tPRL177) has two conspicuous deletions on the NH2-terminal side of the disulfide bond which connects the first and second cysteine residues. The degree of similarity between the two PRL sequences is unexpectedly low (130 identical residues, 69%) compared with that between the variants of other teleostean PRLs. Circular dichroism spectra and hydropathy profiles suggest structural similarity of the two PRLs. The sequence of the 20.8-kDa PRL (tPRL188) has 69% identity with that of salmon PRL. The sequence of tPRL177 is 56% identical with that of salmon PRL. Each tilapia PRL is equally similar to mammalian PRLs (about 30% identical residues). Regions highly conserved among teleostean and mammalian PRLs were identified on the COOH-terminal side of the disulfide bond connecting the first and second cysteine residues.     

Molecular cloning and characterization of prolactin-like protein C complementary deoxyribonucleic acid.

In this report, we describe the isolation and characterization of a full length cDNA clone for rat prolactin-like protein C (PLP-C) and describe the expression of PLP-C mRNA in the developing rat placenta. Nucleotide sequence analysis of the PLP-C cDNA clone predicted a mature protein of 238 amino acids, including a 30-amino acid signal sequence. The predicted PLP-C amino acid sequence contains seven cysteine residues, three tryptophan residues, and two putative N-linked glycosylation sites. Six of the cysteine residues in PLP-C are located in positions homologous to the cysteines of pituitary prolactin (PRL). Additional sequence similarities with pituitary PRL and other members of the rat placental PRL family are evident. The PLP-C gene was localized to rat chromosome 17. Northern blot analysis showed that the PLP-C cDNA clone specifically hybridized to a 1.0-kilobase mRNA. PLP-C mRNA was first detectable between days 13 and 14 of gestation, peaked by day 18 of gestation, and remained elevated until term. In situ hybridization analysis indicated that PLP-C mRNA was specifically expressed by spongiotrophoblast cells and some trophoblast giant cells in the junctional zone region of rat chorioallantoic placenta.     

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.     

The gene encoding hypoxanthine-guanine phosphoribosyltransferase as target for mutational analysis: PCR cloning and sequencing of the cDNA from the rat.

In this paper, the cloning and nucleotide sequence of the cDNA of the rat gene coding for hypoxanthine-guanine phosphoribosyltransferase (hprt) is reported. Knowledge of the cDNA sequence is needed, among other reasons, for the molecular analysis of hprt mutations occurring in rat cells, such as skin fibroblasts isolated according to the granuloma pouch assay. The rat hprt cDNA was synthesized and used as a template for in vitro amplification by PCR. For this purpose, oligonucleotide primers were used, the nucleotide sequences of which were based on mouse and hamster hprt cDNA sequences. Sequence analysis of 1146 bp of the amplified rat hprt cDNA showed a single open reading frame of 654 bp, encoding a protein of 218 amino acids. In the predicted rat hprt amino acid sequence, the proposed functional domains for 5'-phosphoribosyl-1-pyrophosphate (PRPP) and nucleotide binding in phosphoribosylating enzymes as well as a region near the carboxyl terminal part were highly conserved when compared with amino acid sequences of other mammalian hprt proteins. Analysis of hprt amino acid sequences of 727 independent hprt mutants from human, mouse, hamster and rat cells bearing single amino acid substitutions revealed that a large variety of amino acid changes were located in these highly conserved regions, suggesting that all 3 domains are important for proper catalytic activity. The suitability of the hprt gene as target for mutational analysis is demonstrated by the fact that amino acid changes in at least 151 of the 218 amino acid residues of the hprt protein result in a 6-thioguanine-resistant phenotype.     

Characterization of the cytochrome P-450IID subfamily in bovine liver. Nucleotide sequences and microheterogeneity.

To elucidate the molecular mechanisms underlying drug detoxification, the structures of the members of the microsomal cytochrome P-450IID subfamily were analyzed by isolating, mapping and sequencing cytochrome P-450IID (CYP2D) cDNA clones from bovine liver. The screening was performed under nonstringent conditions so that most of the P-450IID subfamily members could be obtained. 114 of the 147 positive clones were classified into four groups on the basis of their restriction-enzyme maps. The maps of the four groups were highly similar, however, the clones of one group contained an insertion of approximately 500 bp in the coding region. Analysis of partial nucleotide sequences of several representative clones from each group showed that the bovine P-450IID subfamily in liver consisted of several, not many, highly similar members, differing by less than 7% in their nucleotide sequences. The location of the insertion found in the minor group corresponded to intron 7 and the GT/AG rule was found at the exon/intron boundary, suggesting that intron 7 was retained in this group. The complete nucleotide sequences of two clones from the major group were examined to determine the structures of the P-450IID subfamily in bovine liver. A full-length cDNA clone (1615 bp) and a partial cDNA clone (1538 bp) contained open reading frames encoding 500 and 487 amino acid residues, respectively. The partial clone lacked the nucleotide sequence corresponding to the first 13 N-terminal amino acid residues. The deduced amino acid sequences of the two clones were 98% similar, and 80% and 68% similar to those from human CYP2D6 and rat CYP2D1, respectively. Comparisons of the amino acid sequences of the P-450IID subfamily members showed the highly conserved C-terminal region of their molecules and the high similarity between the members in one species, especially in cattle and man.     

One-Step Lipophilization of Proteins Using Fatty Acyl Anhydride

Nucleotide sequences of mRNAs were compared between major calcium-sensitive caseins of cow (α_s1-casein) and rat (α-casein). A best fit alignment of the two sequences showed homology of 81% and 69% for the 5′- and 3′-untranslated regions, respectively. Homology in the comparable coding region of the mature asl-casein (76% of total codons) was remarkably lower at amino acid level (46%) than at nucleotide level (69%). The low conservation at amino acid level is explained by the unusual nucleotide substitution pattern (random at all three positions of codons) in contrast to synonymous substitutions at the third position revealed on comparison of other related proteins. The evolutionary distances among the number of the casein family were estimated by comparing known nucleotide sequences of the signal peptides which were the most conserved coding regions in the family. The divergence time for most distantly related caseins (both rat α-casein/rat β-casein and rat α-casein/mouse ε-casein) was estimated to be about 170 million years.     

Complete nucleotide sequences of bovine alpha S2- and beta-casein cDNAs: comparisons with related sequences in other species

The nucleotide sequences corresponding to bovine alpha S2- and beta- casein mRNAs have been determined by cDNA analysis. Both sequences appear to be complete at their 5' ends. The nucleotide sequence of alpha S2-casein, when compared with the corresponding cavine A sequence, helps to define the boundaries of a large amino acid repeat (approximately 80 residues) whereas comparisons with the nucleotide sequences of rat gamma- and mouse epsilon-casein mRNAs also reveal extensive sequence similarities. An alignment of these four sequences shows that the divergence of their translated regions has been characterized by the duplication and deletion of discrete segments of sequence that probably correspond to exons. A high degree of nucleotide substitution is also found when the four sequences are compared, except for well-conserved leader-peptide and phosphorylation-site sequences and, to a lesser extent, the 5'-untranslated regions. Similar comparison of the bovine and rat beta-caseins shows that their divergence has involved a high rate of nucleotide substitution but that no major insertions or deletions of sequence have occurred. The several splice sites that have veen defined in the rat beta-casein gene are likely to have been conserved in the bovine. The contrasting evolutionary histories of the alpha- and beta-casein coding sequences correlate with the distinctive functions of these proteins in the casein micelle system in milk.      

Structural and functional properties of calmodulin from the eukaryotic microorganism Dictyostelium discoideum

Calmodulin was purified from the eukaryotic microorganism Dictyostelium discoideum and characterized in terms of its nearly complete primary structure and quantitative activator activity. The strategy for amino acid sequence analysis took advantage of the highly conserved structure of calmodulin and employed a new procedure for limited cleavage of calmodulin that uses a protease from mouse submaxillary gland. Fourteen amino acid sequence differences between Dictyostelium and bovine calmodulin were identified unequivocally, as well as an unmethylated lysine at residue 115 instead of N epsilon, N epsilon, N epsilon-trimethyllysine. Seven of the amino acid substitutions in Dictyostelium calmodulin are novel in that the residues at these positions are invariant in all calmodulin sequences previously examined, most notably an additional residue at the carboxy terminus. Comparison of the Dictyostelium calmodulin sequence with other calmodulin sequences shows that the region with the greatest extended sequence identity includes parts of the first and second structural domains and the interdomain region between domains 1 and 2. Dictyostelium calmodulin activated bovine brain cyclic nucleotide phosphodiesterase in a manner indistinguishable from that of bovine brain calmodulin. However, Dictyostelium calmodulin activated pea NAD kinase to a maximal level 4.6-fold greater than that produced by bovine brain calmodulin. This functional difference demonstrates the potential biological importance of the limited number of amino acid sequence differences between Dictyostelium calmodulin and other calmodulins and provides further insight into the structure, function, and evolution of the calmodulin family of proteins.