Isolation and partial purification of the major abundant class rat seminal vesicle poly(A+)-messenger RNA

Total poly(A(+))-RNA (poly(A(+))-RNA(tot)) was isolated from rat seminal vesicle and its size distribution determined by 70% formamide 5-25% sucrose density analysis. One major peak was resolved in the 10-13 S region and accounted for approximately 35% of the total poly(A(+))-RNA applied. Preparative 1% SDS, 5-20% linear sucrose density gradients also resolved a single major peak in the 11S region (poly(A(+))(11S). Analysis of poly(A(+))-RNA(tot) and poly(A(+))-RNA(11S) under denaturing conditions on 2% agarose gel electrophoresis demonstrated two major components in both poly(A(+))-RNA populations. Size estimations for these components are 620 and 540 NT respectively. (3)H-cDNA was made to both poly(A(+))-RNA(tot) and poly(A(+))-RNA(11S). Back-hybridization of poly(A(+))-RNA(tot) and poly(A(+))-RNA(11S) to their respective (3)H-cDNA revealed a highly abundant class representing 41% and 85% of the sequences in their respective (3)H-cDNA's. The highly abundant class corresponded to 3-5 sequences present in 30,000-50,000 copies/cell. Invitro translation of poly(A(+))-RNA(11S) resulted in two major polypeptides coded for by the 620 NT long and 540 NT long poly(A(+))-RNA respectively.Images     

Changes in hepatic RNA, poly(A)+RNA, and poly(A)-RNA during the acute phase response to inflammation

The steady state changes in total rat hepatic cytoplasmic RNA, poly(A)+ RNA and poly(A)-RNA were assessed in response to turpentine induced inflammation. From 18 to 24 h after injury, cytoplasmic RNA doubled, while poly(A)+ RNA peaked at 24 h, 3.5 times over control animals. Cell-free translation showed significant increases in messenger RNA levels beginning at 18 h. Gel electrophoresis of translation products revealed significant increases in several polypeptides and a decrease in others. Poly(A)-RNA from control and injured rats translated to an insignificant level and the electrophoretic gel patterns of their proteins were similar. Furthermore, no change had occurred in the 3' poly(A)-sequences during the course of inflammation.     

Proteolytic precursor processing in the biosynthesis of mitochondria

Essentially all polypeptides synthesized in the cytoplasm and imported into either the matrix or into the inner or outer membrane of mitochondria are made as larger molecular weight precursors. All known examples of in vivo or in vitro synthesized precursors are summarized. Little information on the nature of the proteolytic enzymes involved in the processing of the larger precursor polypeptides exists. The biosynthesis of rat liver cytochrome c oxidase is discussed in detail. In contrast to reported data, the cytoplasmic subunits of rat liver cytochrome c oxidase are synthesized as larger molecular weight precursors and not as a polyprotein. Precursors to subunits IV and V show an extra-peptide sequence of about 3000 daltons. Evidence against the existence of a polyprotein precursor was also obtained, when messenger RNAs for the individual subunits IV and V were isolated and analyzed in respect to their size. A length of 990 +/- 80 and 830 +/- 70 nucleotides was estimated for the poly(A)+-RNA of cytochrome c oxidase subunits IV and V, respectively. In experiments on the site of synthesis, it was found that cytochrome c oxidase subunits IV and V are made on free, loosely and tightly membrane-bound polyribosomes.     

Isolation and characteristics of poly(A+) RNA in the lactating bovine udder

Total cellular poly(A+)-RNA was isolated from a lactating cow mammary gland. The poly(A+)-RNA molecules exhibit a heterogeneous distribution from 500 to 5000 nucleotides (average size--1600 nucleotides) and are made up of three main fractions (1550, 950 and 600 nucleotides) possessing a high template activity during translation in vitro. Optimal conditions for poly(A+)-RNA translation in a cell-free protein-synthesizing system from wheat embryos were elaborated. Immunochemical analysis of translation products revealed that 30% of the synthesized polypeptides are precipitated by immunoglobulins against cow milk proteins. Using hybridization with homologous cDNA, the kinetic complexity and heterogeneity of total cellular poly(A+)-RNA were investigated. This population was shown to consist of four classes differing in the diversity of their nucleotide sequences and the number of copies per cell. The total amount of the poly(A+)-RNA species in the cells of a lactating cow mammary gland is 9200, i.e., 0.46% of the genome complexity.     

Immunological correlates between multiple isolated subunits of Androctonus australis and Limulus polyphemus hemocyanins: an evolutionary approach

Immunological cross-reactivities between isolated subunits of the scorpion Androctonus australis (Aa) and of the horseshoe crab Limulus polyphemus (Lp) hemocyanins were studied using subunit-specific antibodies prepared through immunoadsorption to pure immobilized subunits. Rocket immunoelectrophoreses of the various subunits of both hemocyanins were carried out at constant antigen concentration against the various subunit-specific antibody preparations. Then the data were analyzed through factorial correspondence analysis and compared to the respective intramolecular locations of the subunits in both hemocyanins. The results show that the dimeric subunits located in the central part of each (4 X 6)meric structure (Aa whole molecule and Lp half molecule) were strongly preserved. In addition, the (8 X 6)mer-forming subunit of Lp hemocyanin (LpIV) and the subunit occupying the same intramolecular position in Aa hemocyanin (Aa5A) were also strongly preserved. Besides the strong antigenic relatedness, less pronounced crossed immunoprecipitations or no precipitation at all were observed between subunits with homologous positions suggesting a minor structural and/or functional roles for these subunits. All the antigen-antibody combinations leading to an absence of immunoprecipitation were screened for the presence of soluble immunocomplexes by radioimmunological tests. In all cases, soluble immunocomplexes were observed. These results suggest the following evolution scenario. First, the central dimeric subunits, responsible of the dodecamer aggregation (Aa3C and 5B and LpV and VI) were already differentiated when Merostomata diverged from Arachnida. Second, the differentiation of the (8 X 6)mer-forming subunit occurred in the Merostomata ramification in a preserved subunit already possessing a functional advantage. Third, the differentiation of subunits Aa3A and Aa3B recently occurred in the scorpion ramification.     

Sequence complexity of messenger RNA in cotyledons of developing pea (Pisum sativum) seeds

The hybridization kinetics of poly(A)⁺-RNA preparations from the cotyledons of developing pea (Pisum sativum seeds to complementary DNAs have shown that the number of distinct sequences in poly(A)⁺ -RNA decreases from ca 20 000 at the early stage of cotyledon development to ca 200 at a late stage of cotyledon development. The decrease in sequences is accounted for entirely by the disappearance of ‘rare’ poly(A)⁺ -RNAs (< 10³ copies/cell) as seed development proceeds. There is an increase (1–6) in very abundant poly(A)⁺-RNA sequences (? 5 × 10⁵ copies/cell) from early- to mid-developmental stages, concomitantly with the increase in the synthesis of seed-specific storage protein polypeptides. In agreement with the continuing synthesis of most of these polypeptides to the end of seed development, the number of very abundant poly(A)⁺-RNAs is maintained to the late cotyledon development stage. Abundant poly(A)⁺-RNA sequences (ca 10⁴ sequences/cell) increase from 80 to 180 during development, possibly corresponding to the polypeptides which are not storage proteins but are known to be accumulated in pea seeds. Hybridization of single-copy pea genomic DNA sequences to poly(A)⁺-RNA from developing seeds showed that ca 5 % of the single-copy sequences were present in mRNA from mid-development cotyledons. In addition, hybridization of cDNA prepared against poly(A)⁺-RNA from nuclei of early development cotyledons to the corresponding cytoplasmic polysomal poly(A)⁺-RNA showed that the cytoplasmic poly(A)⁺-RNA contained ca 50 % of the sequences present in the nuclei. These results are discussed and interpreted in the light of existing results from similar systems.     

Regulation of the synthesis of ribulose-1,5-bisphosphate carboxylase and its subunits in the flagellate Chlorogonium elongatum. Different levels of translatable messenger RNAs for the large and the small subunits in autotrophic and heterotrophic cells as determined by immunological techniques

Poly(A)-rich and poly(A)-free RNAs were isolated from autotrophic and heterotrophic cells of the phytoflagellate Chlorogonium elongatum and translated in an mRNA-depleted reticulocyte lysate system. Immunoprecipitation methods were improved to detect large and small subunits of the chloroplast enzyme ribulose-1,5-bisphosphate carboxylase synthesized in vitro. Large-subunit polypeptides were shown to be the translation products of poly(A)-free RNA having the same molecular weight as large subunits made in vivo. Small-subunit polypeptides were synthesized when poly(A)-rich RNA was used as a template. They were made in vitro as a precursor, with an Mr about 6000 larger than mature small subunits. Cells growing heterotrophically in the dark with acetate are provided with lower levels of mRNA activities for the large and the small subunits is at least partially controlled by the amounts of translatable mRNAs.     

Changes in protein synthesis and translatable messenger RNA populations associated with ABA-induced cold hardiness in potato (Solatium commersonii)

Plantlets of Solanum commersonii Dun, PI 458317 stem-culture were treated with abscisic acid (ABA) (3.78 to 113.5 μ M ) at a 20°/15°C day/night temperature regime for 14 days. Cold hardiness increased from—3.3°C to—8.4°C (killing temperature) after 7 days of ABA treatment and remained at this level thereafter. During the course of treatment (14 days), the synthesis of polypeptides was investigated and poly(A⁺)-RNA was isolated. Translation products of poly(A⁺)-RNA in a rabbit reticulocyte lysate system were then analyzed by 2-D polyacrylamide gel electropho-resis. During the 14 days of ABA treatment, 30 ABA-induced polypeptides were identified. The synthesis of one group of polypeptides was stable and prominent throughout the treatment period. The other group was transient. The most prominent and stable polypeptides had molecular weights of 21 (pi 6.0, 6.3), 22 (pI 6.0, 6.3), 31 (pi 4.5) and 83 (pi 5.4, 5.5, 5.6) ItDa. About one-third of the new polypeptides appeared after cold hardiness reached a maximum (after 7 days of ABA treatments.
ABA treatment alters translatable mRNA populations during the development of cold hardiness. Several mRNAs, encoding in vitro translation products at 26 (pi 6.0, 6.3, 6.4), and 27 (pi 6.0, 6.3, 6.4), 40 (pi 6.4) and 50 (pi 4.5) kDa were identified during course of the ABA treatment. These proteins may play important roles for the development of cold hardiness in tuber-bearing S. commersonii .     

Molecular characterisation and evolution of the hemocyanin from the European spiny lobster,<Emphasis Type="Italic"> Palinurus elephas</Emphasis>

The hemocyanin of the European spiny lobster Palinurus elephas (synonym: Palinurus vulgaris) is a hexamer composed by four closely related but distinct subunits. We have obtained the full cDNA sequences of all four subunits, which cover 2275-2298 bp and encode for native polypeptides of 656 and 657 amino acids. The P. elephas hemocyanin subunits belong to the alpha-type of crustacean hemocyanins, whereas beta- and gamma-subunits are absent in this species. An unusual high ratio of non-synonymous versus synonymous nucleotide substitutions was observed, suggesting positive selection among subunits. Assuming a constant evolution rate, the P. elephas hemocyanin subunits emerged from a single hemocyanin gene around 25 million years ago. The alpha-type hemocyanins of P. elephas and the American spiny lobster Panulirus interruptus split around 100 million years ago. This is about five times older than the assumed divergence time of the species and suggests that the genera may have split with the formation of the Atlantic Ocean. The application of the Bayesian method for phylogenetic inference allows for the first time a solid reconstruction of the evolution of the decapod hemocyanins, showing that the beta-subunit types diverged first and that the crustacean pseudo-hemocyanins are associated with the gamma-type subunits.     

Complete sequence of the 24-mer hemocyanin of the tarantula Eurypelma californicum. Structure and intramolecular evolution of the subunits

Hemocyanins are large oligomeric respiratory proteins found in many arthropods and molluscs. The hemocyanin of the tarantula Eurypelma californicum is a 24-mer protein complex with molecular mass of 1, 726,459 Da that consists of seven different polypeptides (a-g), each occupying a distinct position within the native molecule. Here we report the complete molecular structure of the E. californicum hemocyanin as deduced from the corresponding cDNAs. This represents the first complex arthropod hemocyanin to be completely sequenced. The different subunits display 52-66% amino acid sequence identity. Within the subunits, the central domain, which bears the active center with the copper-binding sites A and B, displays the highest degree of identity. Using a homology modeling approach, the putative three-dimensional structure of individual subunits was deduced and compared. Phylogenetic analyses suggest that differentiation of the individual subunits occurred 400-550 million years ago. The hemocyanin of the stemline Chelicerata was probably a hexamer built up of six distinct subunit types a, b/c, d, e, f, and g, whereas that of the early Arachnida was originally a 24-mer that emerged after the differentiation of subunits b and c.     

Messenger RNA during early embryogenesis in Artemia salina: altered translatability and sequence complexity

RNA from developing embryos of Artemia salina (5, 10, and 20 h after re-initiation of development) was translated 3-10 times more efficiently in a rabbit reticulocyte lysate cell-free protein synthesizing system than RNA from dormant gastrulae. The latter did not appear to contain any significant amount of translation inhibitor activity. Ninety percent of the translatable activity in dormant gastrulae was recovered as poly(A)--RNA, whereas 80% of that in post-gastrular developing embryos was present as poly(A)+-RNA. The size of most polypeptides coded for by dormant gastrular RNA was less than 130,000 daltons whereas the size of those coded for by developing embryonic RNA was up to 200,000 daltons, which correlated with a corresponding shift to poly A-containing RNA of higher molecular weight. Two major polypeptides of about 37,000 daltons coded for by dormant gastrular RNA disappeared at 20 h after resumption of development. Hybridization of complementary DNA (cDNA) to a 1000-fold excess of the homologous poly(A)+-RNA revealed the presence of three complexity classes of mRNA. Forty-five percent, 30%, and 25% of RNA in dormant gastrulae were present as high, middle, and low abundance classes comprising about 10, 80, and 9700 species, respectively whereas in the nauplii there were 10, 150, and 7900 species of high, middle, and low abundancy sequences, respectively. Heterologous hybridizations using cDNA complementary to highly abundant messenger population of nauplii (isolated by chromatography on hydroxyapatite) to poly(A)+-RNA from dormant cysts showed considerably divergence in this class of messengers from the two developmental stages. Re-initiation of development of dormant Artemia gastrulae is thus characterized by a "re-programming" seen as a simultaneous and rapid increase in the polyadenylation and translatability of poly(A)+-RNA accompanied by a qualitative change in its sequence complexity.     

Crustacean immunity. Antifungal peptides are generated from the C terminus of shrimp hemocyanin in response to microbial challenge

We report here the isolation from plasma of two penaeid shrimp species of novel peptides/polypeptides with exclusive antifungal activities. A set of three molecules was purified with molecular masses at 2.7 kDa (Penaeus vannamei), 7.9 kDa, and 8.3 kDa (Penaeus stylirostris). Primary structure determination was performed by a combination of Edman degradation and mass spectrometry. The peptides display 95-100% sequence identity with a C-terminal sequence of hemocyanin, indicating that they are cleaved fragments of the shrimp respiratory protein. Specific immunodetection of the hemocyanin-derived (poly)peptides revealed that experimental microbial infections increase their relative concentration in plasma as compared with nonstimulated animals. Thus, the production of antifungal (poly)peptides by limited proteolysis of hemocyanin could be relevant to a shrimp immune reaction that would confer a new function to the multifunctional respiratory pigment of crustaceans.     

mRNA for the plasminogen activator of the urokinase type: translation in oocytes of Xenopus laevis

Poly(A)+-RNA from human kidney and human embryonal lung fibroblasts fractionated by sucrose gradient centrifugation was translated in Xenopus oocytes. Assay for plasminogen-dependent fibrinolytic activity detected synthesis of secreted plasminogen activator and revealed the active fraction of poly(A)+-RNA with a sedimentation coefficient of approximately 23S. Translation products of the active fraction were immunoadsorbed by antiurokinase monoclonal antibodies immobilized on sepharose. Gel electrophoretic analysis of the protein products showed that the 23S fraction of poly(A)+-RNA from human kidney contains mRNA for single-chain urokinase-type plasminogen activator with apparent molecular weight of approximately 50 kDa.     

Identification of barley and wheat cDNA clones related to the high-Mr polypeptides of wheat gluten

We have identified 3 cDNA clones related to the high-M_r group of storage proteins in barley endosperm, the D-hordeins. A cDNA library has been constructed from wheat endosperm poly(A⁺)-RNA and screened using one of the D-hordein cDNA clones. Two wheat clones which cross-hybridised to the barley clone have been identified, by hybrid-release translation and nucleotide sequence analysis, as partial copies of mRNAs encoding the high-M_r gluten polypeptides of wheat.     

Characterization of microtubule-associated proteins isolated from bovine adrenal gland

Following induction of hemopoiesis, poly(A)-rich RNA was prepared from the heart of the tarantula, Eurypelma californicum, and translated in rabbit reticulocyte lysates. In vitro translation products were immunoprecipitated with antiserum against whole dissociated Eurypelma hemocyanin. Analysis of the immunoprecipitate by sodium dodecyl sulfate/polyacrylamide gel electrophoresis revealed a set of polypeptides comigrating with authentic Eurypelma hemocyanin. The mRNA was transcribed into cDNA, clones were constructed using the pUC9 vector and probed with a synthetic 17-mer oligonucleotide probe complementary to the amino acid sequence of the 'copper A' binding site of chelicerate hemocyanins. One clone, pHC4, contained a 1.62-kb cDNA insert, which was subcloned into phage M13. Sequence analysis by the dideoxynucleotide chain-termination method yielded a nucleotide sequence coding for 526 amino acids of Eurypelma hemocyanin subunit e.     

Hemocyanin of the horseshoe crab, Limulus polyphemus. Structural differentiation of the isolated components.

The high molecular weight hemocyanin found in the hemolymph of the horseshoe crab, Limulus polyphemus, is composed of at least eight different kinds of subunits. Ion exchange chromatography at high pH in the presence of EDTA yields five major zones, hemocyanins I to V, three of which are electrophoretically heterogeneous. The subunits have similar molecular weights, 65,000 to 70,000, and their amino acid compositions are remarkably similar to each other and to other arthropod and molluscan hemocyanins. Digestion of the native subunits of Limulus hemocyanin by formic acid or trypsin shows considerable structural diversity which is supported by cyanogen bromide cleavage patterns and by peptide mapping of the tryptic peptides prepared from denatured hemocyanin subunits. The structural differentiation of the subunits is accompanied by functional differentiation, as shown in previous investigations of their O2 and CO affinities (Sullivan, B., Bonaventura, J., and Bonaventura, C. (1974) Proc. Natl. Acad. Sci. U.S.A. 71, 2558-2562; Bonaventura, C., Bonaventura, J., Sullivan, B., and Bourne, S. (1975) Biochemistry 13, 4784-4789). The subunit diversity of Limulus hemocyanin suggests that other electrophoretically heterogeneous hemocyanins may be composed of structurally distinct subunits.     

Biosynthesis and processing of legumin-like storage proteins in Lupinus angustifolius (lupin).

Synthesis, secretion and post-translational proteolysis of the storage proteins in cotyledons of Lupinus angustifolius L. (lupin) have been examined in vivo and in vitro by using a combination of pulse-chase experiments with [3H]- or [35S]-labelled amino acids, subcellular fractionation and cell-free translation from poly(A)+ (polyadenylylated) RNA or membrane-bound polyribosomes. Related polypeptides were identified by immunoprecipitation, separation on sodium dodecyl sulphate/polyacrylamide gels and fluorography. The synthesis and processing of two proteins were compared. Conglutin alpha, the 11 S protein, was found as a family of precursor polypeptides of Mr 68000-88000 when translated from poly(A)+ RNA under conditions where signal segments were not cleaved, and Mr 64000-85000 both when sequestered into the endoplasmic reticulum and when accumulated in the protein bodies. Pulse-chase labelling showed that cotyledons from early stages of development were completely incapable of further proteolysis of these precursors. Nevertheless, in the same juvenile cotyledons, the precursors of the minor storage protein conglutin gamma, two polypeptides with Mr 50000-51000, were proteolytically cleaved to mature subunits of Mr 32000 and 17000 within 2 h. Further cleavage of the precursors of conglutin alpha into families of mature subunits of Mr 21000-24000 and 42000-62000 was detected in more mature cotyledons. A model is proposed which suggests that the mature subunits are produced by a single proteolytic cleavage of each of the three major precursors of conglutin alpha and also suggests that a close similarity exists between these subunits and those of other legumin-like proteins. The enzyme responsible for this cleavage, which appears at a specific stage in the middle of cotyledonary development, seems to be an integral part of the programmed developmental sequence in these pods.     

The metabolic behaviour of nuclear and cytoplasmic non-polyadenylated RNAs with an affinity for poly(adenylic acid) from Friend murine leukaemia cells

Using poly(A)-Sepharose and poly(U)-Sepharose affinity chromatography, various classes of nuclear RNA can be distinguished in Friend leukaemia cells. One of these contains a poly(A) tract (poly(A)+-RNA) and another lacks a poly(A) tract but has an affinity for poly(A)-Sepharose (poly(A)-u+-RNA). The stability of these two particular nuclear RNA classes was examined by using a 'pulse-chase' technique involving D-glucosamine treatment. Nuclear poly(A)-u+-RNA was found to decay as a single component with a half-life of about 12 min. In contrast, nuclear poly(A)+-RNA appears to consist of at least two distinct metabolic components with half-lives of about 22 min and 120 min. Furthermore, poly(A)-u+-RNA is transported from the nuclei much more rapidly than the poly(A)+-RNA. The 'pulse-chase' approach also allowed a quantitative estimate to be made of the conversion of nuclear poly(A)+-RNA and poly(A)-u+-RNA to cytoplasmic poly(A)-RNA and poly(A)-u+-RNA.     

Intramolecular localization of epitopes within an oligomeric protein by immunoelectron microscopy and image processing

Three epitopes have been localized by immunoelectron microscopy on subunit Aa6 of the 4 x 6-meric hemocyanin of the scorpion Androctonus australis. Soluble immunocomplexes composed of monoclonal antibodies and of native hemocyanin were purified, negatively stained with uranyle acetate by the single-layer technique, and examined under the electron microscope (EM). The molecule images were digitized, aligned, and submitted to correspondence analysis according to the method of Van Heel and Frank (Ultramicroscopy 6:187-194, 1981). A high-precision localization of the attachment point of the Fab arm to the antigen was achieved through a careful analysis of the average images. This method easily allowed the discrimination of epitopes located in different domains (Mr 20 kDa) of the same subunit. Nonoverlapping epitopes located in the same structural domain of subunit Aa6 could be distinguished by the stain exclusion patterns of their Fab arms. The method is general and may be used for epitope mapping in any antigen producing definite EM views.