Publications by authors named "Hallick R"

Evidence is presented for the recent, horizontal transfer of a self-splicing, homing group II intron from a cyanobacteria to the chloroplast genome of Euglena myxocylindracea. The psbA gene of E.myxocylindracea was found to contain a single 2566 nt group II intron with a gene in domain 4 for a 575 amino acid maturase.

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When the sequence of the Euglena gracilis chloroplast genome was reported in 1993 the alpha-subunit gene (rpoA) of RNA polymerase appeared to be missing, based on a comparison of all putative reading frames to the then known rpoA loci. Since there has been a large increase in known rpoA sequences, the question of a Euglena chloroplast rpoA gene was re-examined. A previously described unknown reading frame of 161 codons was found to be part of an rpoA gene split by a single group III intron.

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The Escherichia coli aadA gene product, which confers resistance to spectinomycin and streptomycin, has been widely used as a dominant selectable marker for chloroplast transformation of Chlamydomonas and tobacco. An aadA transformation cassette was adapted for expression in Euglena gracilis chloroplasts by replacing the Chlamydomonas promoter and 3' untranslated region (UTR) with the E. gracilis psbA promoter and 3' UTR.

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A novel mixed operon has been identified in the photosynthetic protist E. gracilis. The genes for psbK, ycf12, psaM, and trnR are co-transcribed.

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The fourth intron of the Euglena gracilis chloroplast photosystem II gene, psbCi4, is a 1,605-bp twintron composed of two group III introns and a coding locus for a 458-aa polypeptide, mat1, located in the internal intron. psbCi4 homologs have been identified in seven euglenoids, including E. myxocylindracea, E.

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82 of the 155 chloroplast introns in Euglena gracilis have been categorized as group II introns. Because they are shorter and more divergent than group II introns from other organisms, the assignment of these Euglena introns to the group II class has been questioned. In the current study, two homologs of E.

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Studies of the phylogeny and chloroplast intron content of selected Euglena species have led to insights in our understanding of the timing of intron acquisition. In the current study, two new twintrons, found in E. gracilis, have been characterized by the analysis of partially spliced pre-mRNAs.

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The origin of present day introns is a subject of spirited debate. Any intron evolution theory must account for not only nuclear spliceosomal introns but also their antecedents. The evolution of group II introns is fundamental to this debate, since group II introns are the proposed progenitors of nuclear spliceosomal introns and are found in ancient genes from modern organisms.

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The 4,144 nt Euglena gracilis chloroplast psbC intron 2 has been characterized as a single, cis-spliced 593 nt group II intron interrupted by an open reading frame of 758 codons in the loop region of domain IV. The 2,277 nt coding region of orf 758 is interrupted by two additional group II introns of 369 nt and 352 nt. Another 553 nt group II intron is located in the 5' untranslated leader region of orf 758.

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A novel gene, roaA (ribosomal operon-associated gene), encoding a potential RNA-binding protein has been identified in the rpl23 ribosomal protein operon of the Euglena gracilis chloroplast genome. The roaA gene is interrupted by one group III and three group II introns. Introns 1 and 2 of roaA can be interpreted as a twintron, formed from the insertion of a group II intron into the 5'splice site of a group III intron.

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A 2.4 kb region of the Euglena gracilis chloroplast genome containing the genes psbT, psbH and psbN was characterized. The mRNAs transcribed from psbB, psbT, psbH and psbN were analyzed by northern hybridization, S1 nuclease protection analysis and primer extension RNA sequencing.

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A 1352-nucleotide intron within the Euglena gracilis chloroplast ycf8 gene has been characterized as a complex twintron with overlapping internal introns and alternative splicing pathways. Partially spliced pre-mRNAs were characterized by a combination of cDNA cloning and sequencing, Northern hybridization, and S1 nuclease protection analyses. In the predominant pathway, two internal group II introns (601 and 392 nucleotides) are spliced from subdomain ID of an external group II intron (359 nucleotides).

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The 1605 bp intron 4 of the Euglena gracilis chloroplast psbC gene was characterized as a group III twintron composed of an internal 1503 nt group III intron with an open reading frame of 1374 nt (ycf13, 458 amino acids), and an external group III intron of 102 nt. Twintron excision proceeds by a sequential splicing pathway. The splicing of the internal and external group III introns occurs via lariat intermediates.

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The genes encoding cytochrome b6 of the chloroplast cytochrome b6/f complex (petB) and the ATP synthase CF1-beta subunit (atpB) and epsilon-subunit (atpE) were identified on the EcoD fragment of the Euglena gracilis chloroplast genome. The complete nucleotide sequence of these three genes was determined. The petB-atpB-atpE genes are cotranscribed as a tricistronic operon.

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The chloroplast genome of Euglena gracilis contains a psaA operon which encodes a lysine tRNA gene, trnK; psaA and psaB photosystem I genes, and psbE, psbF, psbL and psbJ photosystem II genes. The pre-mRNA of the psaA operon undergoes a complex processing pathway of 5' and 3' tRNA processing, splicing of 11 group II introns and one group II twintron, plus three intercistronic RNA cleavage events. The accumulated transcripts of the psaA operon have been characterized by Northern hybridization, S1 nuclease analysis and primer extension RNA sequencing.

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Two new and important features of introns have emerged from analysis of the Euglena gracilis chloroplast genome. One is a new class of introns, designated group III, that may be the closest contemporaries to nuclear pre-mRNA introns. The second is introns that are interrupted by other introns termed twintrons.

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We report the complete DNA sequence of the Euglena gracilis, Pringsheim strain Z chloroplast genome. This circular DNA is 143,170 bp, counting only one copy of a 54 bp tandem repeat sequence that is present in variable copy number within a single culture. The overall organization of the genome involves a tandem array of three complete and one partial ribosomal RNA operons, and a large single copy region.

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Twintrons are introns-within-introns excised by sequential splicing reactions. A new type of complex twintron comprised of four individual group III introns has been characterized. The external intron is interrupted by an internal intron containing two additional introns.

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The structure of a Euglena gracilis chloroplast operon encoding four subunits of the chloroplast ATP synthase complex and two ribosomal proteins has been determined. These six genes contain 17 introns. This operon is transcribed as a hexacistronic primary transcript which is subsequently processed to monocistronic mRNAs.

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Chloroplasts.

Curr Opin Genet Dev

December 1992

New features of chloroplast gene expression are continually being discovered, particularly in the area of post-transcriptional RNA processing. RNA editing of chloroplast pre-mRNAs occurs in both monocotyledons and dicotyledons, and involves both initiator and internal codons. The view of introns as mobile genetic elements expands both with the identification of additional twintrons in Euglena chloroplast genes and with studies on the homing group I introns of Chlamydomonas.

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The chloroplast genes of Euglena gracilis contain more than 60 group II and 47 group III introns. Some Euglena chloroplast genes also contain twintrons, introns-within-introns. Two types of twintrons have previously been described, a group II twintron and a mixed group II/group III twintron.

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A new method is presented for measurement of the CO(2)/O(2) specificity factor of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco). The [(14)C]3-phosphoglycerate (PGA) from the Rubisco carboxylase reaction and its dilution by the Rubisco oxygenase reaction was monitored by directly measuring the specific radioactivity of PGA. (14)CO(2) fixation with Rubisco occurred under two reaction conditions: carboxylase with oxygenase with 40 micromolar CO(2) in O(2)-saturated water and carboxylase only with 160 micromolar CO(2) under N(2).

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The splicing of a 409 nucleotide intron from the Euglena gracilis chloroplast ribosomal protein S3 gene (rps3) was examined by cDNA cloning and sequencing, and northern hybridization. Based on the characterization of a partially spliced pre-mRNA, the intron was characterized as a 'mixed' twintron, composed of a 311 nucleotide group II intron internal to a 98 nucleotide group III intron. Twintron excision is via a 2-step sequential splicing pathway, with removal of the internal group II intron preceding excision of the external group III intron.

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