Nucleotide sequence of cytoplasmic 5S ribosomal RNA fromEuglena gracilis

Summary The nucleotide sequence of cytoplasmic 5S ribosomal RNA fromEuglena gracilis has been determined to be: G- _A ^C -G-U-A-C-G-G-C-C-A-U-A-C-U-A-C-C-G-G-G-A-A-U-A-C-A-C-C-U-G-A-A-C-C-C-G--U-C-G-A-U-U-U-C-A-G-A-A-G-U-U-A-A-G-C-C-G-G-G-U-U-A-G-G-C-C-C-A-G-U-U-A-G-U-A-C-U-G-A-G-U-G-G-G-C-G-A-C-C-A-C-U-U-G-G-G-A-A-C-A-C-U-G-G-G-U-G-C-U-G-U-A-C-G-C-U-Up. This RNA is 119 nucleotides long and the sequence of a probable tRNA-binding site is GAUU (position 41–44 from the 5-terminus), which is the same as that of a trypanosoma species,Crithidia fasci-culata. TheEuglena 5S rRNA has a pseudouridine residue at position 38 and 3-terminus is phosphorylated. The 5S rRNA sequence ofEuglena resembles those of several other protozoa and higher animals rather than plants.On leave from Department of Zoology, Hiroshima University, Hiroshima, Japan     

Isolation of Euglena gracilis chloroplast 5S ribosomal RNA and mapping the 5S rRNA gene on chloroplast DNA.

Ribosomal RNA (5S) from Euglena gracilis chloroplasts was isolated by preparative electrophoresis, labeled in vitro with 125I, and hybridized to restriction nuclease fragments from chloroplast DNA or cloned chloroplast DNA segments. Euglena chloroplast 5S rRNA is encoded in the chloroplast genome. The coding region of 5S rRNA has been positioned within the 5.6 kilobase pair (kbp) repeat which also codes for 16S and 23S rRNA. There are three 5S rRNA genes on the 130-kbp genome. The order of RNAs within a single repeat is 16S-23S-5S. The organization and size of the Euglena chloroplast ribosomal repeat is very similar to the ribosomal RNA operons of Escherichia coli.     

Euglena gracilis chloroplast ribosomal RNA transcription units. Nucleotide sequence polymorphism in 5 S rRNA genes and 5 S rRNAs

The three tandemly repeated ribosomal RNA operons from the chloroplast genome of Euglena gracilis Klebs, Pringsheim Strain Z each contain a 5 S rRNA gene distal to the 23 S rRNA gene (Gray, P.W., and Hallick, R.B. (1979) Biochemistry 18, 1820-1825). We have cloned two distinct 5 S rRNA genes, and determined the DNA sequence of the genes, their 5'- and 3'-flanking sequences, and the 3'-end of the adjacent 23 S rRNA genes. The two genes exhibit sequence polymorphism at five bases within the "procaryotic loop" coding region, as well as internal restriction endonuclease site heterogeneity. These restriction endonuclease site polymorphisms are evident in chloroplast DNA, and not just the cloned examples of 5 S genes. Chloroplast 5 S rRNA was isolated, end labeled, and sequenced by partial enzymatic degradation. The same polymorphisms found in 5 S rDNA are present in 5 S rRNA. Therefore, both types of 5 S rRNA genes are transcribed and are present in chloroplast ribosomes.     

Characterization of cytoplasmic and chloroplast ribosomal proteins of Euglena gracilis.

Active cytoplasmic ribosone subunits 41 and 62S were prepared by treatment with 0.1 mM puromycin in the presence of 265 mM KCl. Active chloroplast subunits 32 and 49S were obtained after dialysis of chloroplast ribosomal preparations against 1 mM Mg(2+)-containing buffer. Proteins from these different ribosomal particles were mapped by two-dimensional gel electrophoresis in the presence of urea. The 41S small cytoplasmic ribosomal subunit contains 33-36 proteins, the 62S large cytoplasmic ribosomal subunit contains 37-43, the 32S small chloroplast ribosomal subunit contains 22-24, and the 49ts large chloroplast ribosomal subunit contains 30-34 proteins. Since some proteins are lost during dissociation of monosomes into subunits, the 89S cytoplasmic monosome would have 73-83 proteins and the 68S chloroplast monosome, 56-60. The amino acid composition of ribosomal proteins shows differences between chloroplast and cytoplasmic ribosomes.     

RNA:RNA interactions in the large subunit ribosomal RNA of Euglena gracilis

In Euglena gracilis, the cytoplasmic large subunit (LSU) rRNA is composed of 14 discrete small RNA species that must somehow interact in the functional ribosome. We have isolated native complexes of Euglena rRNA and show here that the largest of these complexes contains eight of the 14 LSU rRNA species. Several of these small rRNA species are able to associate in vitro to reform an isolated domain of LSU rRNA structure.     

Separation and partial characterization of chloroplast and cytoplasmic ribosomes from Euglena gracilis

Chloroplast and cytoplasmic ribosomes from Euglena graciliswere separated by centrifugation in zonal rotors. The particleswere characterized by their sedimentation rates as well as bytheir RNA components. Total extracts from green cells contained30S, 55S and 89S particles or their aggregates, depending uponthe Mg⁺⁺ concentration. Extracts from fractions enriched forchloroplasts contained essentially 30S and 55S particles, whilethe supernatant (obtained after sedimentation of the chloroplasts)contained predominantly 89S particles or aggregates of cytoplasmicribosomes. The 30S and 55S ribosomes contained RNA componentswhich were unique and distinct from those of the cytoplasmicribosomes. We were unable to detect 70S particles from the chloroplastpreparations. Under our conditions, chloroplast extracts yielded30S and 55S subunits or a series of rapidly sedimenting particles,possibly polysomes. Despite a variety of extraction techniques,we were unable to detect 70S particles from the chloroplasts. ¹This study was supported in part by grant No. HD 01787 fromthe U. S. Public Health Service. Journal paper of the New JerseyAgricultural Experiment Station (Received December 3, 1969; )     

Chloroplast ribosomal RNA genes in the chloroplast DNA of Euglena gracilis

Euglena chloroplast DNA has a buoyant density in CsCI of 1.686. Shearing this DNA produces a satellite band at density 1.700. The satellite, easily lost during preparative CsCI gradient centrifugation of chloroplast DNA, contains the genes for chloroplast ribosomal RNA. Pure Euglena chloroplast DNA is shown to contain one set of ribosomal RNA genes for each 90 × 10⁶ daltons of DNA.     

Sixteen discrete RNA components in the cytoplasmic ribosome of Euglena gracilis

We have isolated cytoplasmic ribosomes from Euglena gracilis and characterized the RNA components of these particles. We show here that instead of the four rRNAs (17-19 S, 25-28 S, 5.8 S and 5 S) found in typical eukaryotic ribosomes, Euglena cytoplasmic ribosomes contain 16 RNA components. Three of these Euglena rRNAs are the structural equivalents of the 17-19 S, 5.8 S and 5 S rRNAs of other eukaryotes. However, the equivalent of 25-28 S rRNA is found in Euglena as 13 separate RNA species. We demonstrate that together with 5 S and 5.8 S rRNA, these 13 RNAs are all components of the large ribosomal subunit, while a 19 S RNA is the sole RNA component of the small ribosomal subunit. Two of the 13 pieces of 25-28 S rRNA are not tightly bound to the large ribosomal subunit and are released at low (0 to 0.1 mM) magnesium ion concentrations. We present here the complete primary sequences of each of the 14 RNA components (including 5.8 S rRNA) of Euglena large subunit rRNA. Sequence comparisons and secondary structure modeling indicate that these 14 RNAs exist as a non-covalent network that together must perform the functions attributed to the covalently continuous, high molecular weight, large subunit rRNA from other systems.