Conservation of a long open reading frame in two Neurospora mitochondrial plasmids

The nucleotide sequence of a specific region of the mitochondrial plasmid from the Neurospora intermedia Varkud-lc strain was determined. Analysis of the sequence revealed the presence of a long (up to 710 amino acids) ORF. This ORF is almost identical to a previously characterized ORF in the mitochondrial plasmid from the Neurospora crassa Mauriceville-lc strain. When the ORFs from the two plasmids are compared over their entire length of 2,133 bp, only 34 nucleotide substitutions are found (greater than 98% identity). These substitutions result in only nine amino acid replacements in the protein sequences predicted from the two ORFs. Though no function can be assigned to the putative products of these ORFs, their high conservation of nucleotide and deduced amino acid sequence suggest that they are under selective pressure, presumably to preserve the function of some protein.      

Mitochondrial gene URFN of Neurospora crassa codes for a long polypeptide with highly repetitive structure

The mitochondrial DNA of Neurospora crassa contains a long potential gene, designated URFN, which is located immediately downstream from the CO1 gene. These two genes are encoded in different reading frames and overlap by 13 codons. URFN is 633 triplets long and terminates at a UAG stop codon. Its codon usage is atypical for N. crassa mitochondrial exons and introns, and resembles that of the long open reading frame (ORF) of the mitochondrial plasmid present in N. crassa strain Mauriceville. Multiple sequence repetitions occur in the presumptive URFN polypeptide, most notably a seven-times reiterated motif of 16 to 18 amino acid residues length. The hydropathy pattern shows that the N-terminal third of the URFN polypeptide is predominantly apolar and includes several potentially membrane-spanning stretches; the remaining part is hydrophilic. Calculation of the secondary structure predicts a high proportion (47%) of alpha-helix conformation. The longest alpha-helix contains 40 residues. No similarities to other mitochondrial genes or reading frames have been found, except a significant homology over a stretch of 16 amino acid residues between the N-terminal part of URFN and a well-conserved sequence in the C-terminal region of CO1. The repetitive region in URFN resembles a similarly repetitive stretch in an unassigned reading frame from bacteriophage lambda. Three arguments support the view that URFN is translated. The open reading frame has a considerable length; URFN is transcribed into a mRNA including the overlapping CO1 gene; URFN is most probably conserved among all the various Neurospora species examined thus far, strongly suggesting that it codes for an essential protein.     

A group II intron in the Neurospora mitochondrial coI gene: nucleotide sequence and implications for splicing and molecular evolution.

The temperature-sensitive Neurospora nuclear mutant cyt18-1 is deficient in splicing many Group I mitochondrial introns when grown at its non-permissive temperature; however, splicing of intron 1 in the coI gene of the Adiopodoume (formerly called North Africa) strain is unaffected (R.A. Collins and A.M. Lambowitz, J. Mol. Biol. 184: 413-428, 1985). Here we show that coI intron 1 is a typical Group II intron, the only one identified to date in Neurospora. The differential effect of the cyt18-1 mutation suggests that splicing of certain introns could be regulated independently of others by nuclear-encoded proteins. The intron contains a long open reading frame (ORF) resembling that of the Neurospora Mauriceville mitochondrial plasmid. The intron and plasmid ORFs share unusual features of codon usage that suggest both evolved outside of the Neurospora mitochondrial genetic system.     

Mitochondrial DNA sequence analysis of the cytochrome oxidase subunit II gene from Podospora anserina. A group IA intron with a putative alternative splice site

A 5 kb region of the 95 kb mitochondrial genome of Podospora anserina race s has been mapped and sequenced (1 kb = 10(3) base-pairs). This DNA region is continuous with the sequence for the ND4L and ND5 gene complex in the accompanying paper. We show that this sequence contains the gene for cytochrome oxidase subunit II (COII). This gene is 4 kb in length and is interrupted by a subgroup IB intron (1267 base-pairs (bp) in length) and a subgroup IA intron (1992 bp in length). This group IA intron has a long open reading frame (ORF; 472 amino acid residues) discontinuous with the upstream exon sequence. A putative alternative splice site is present, which brings the ORF into phase with the 5' exon sequence. The 5'- and 3'-flanking regions of the COII gene contain G + C-rich palindromic sequences that resemble similar sequences flanking many Neurospora crassa mitochondrial genes.     

The complete nucleotide sequence of a small cryptic plasmid from Lactobacillus plantarum

The complete nucleotide sequence of a cryptic plasmid isolated from a Lactobacillus plantarum strain has been determined. The plasmid, designated pC30i1, has a molecular size of 2140 bp and a GC content of 37%. The sequence contains one major open reading frame (ORF R) of 951 bp, encoding a basic polypeptide of 317 amino acids, and a molecular weight of 36,956. ORF R shows extensive sequence similarity with genes coding for replication-associated proteins in a group of gram-positive plasmids known to replicate via single-stranded intermediates (ssDNA plasmids), and a stretch of 9 amino acids in the translation of ORF R closely matches a conserved region in these proteins, as well as the active site of the phi X174 Rep protein. Sequences similar to the ssDNA plasmid origins of replication are also present in the pC30i1 sequence, strengthening the hypothesis that pC30i1 belongs to the ssDNA plasmid family. The other main feature of the pC30i1 sequence is a noncoding region consisting of 14 direct, imperfect repeats of a 17-bp sequence, which may have an incompatibility function.     

Nucleotide sequence of the phoM region of Escherichia coli: four open reading frames may constitute an operon.

The phoM gene is one of the positive regulatory genes for the phosphate regulon of Escherichia coli. We analyzed the nucleotide sequence of a 4.7-kilobase chromosomal DNA segment that encompasses the phoM gene and its flanking regions. Four open reading frames (ORFs) were identified in the order ORF1-ORF2-ORF3 (phoM)-ORF4-dye clockwise on the standard E. coli genetic map. Since these ORFs are preceded by a putative promotor sequence upstream of ORF1 and followed by a putative terminator distal to ORF4, they seem to constitute an operon. The 157-amino-acid ORF1 protein contains highly hydrophobic amino acids in the amino-terminal portion, which is a characteristic of a signal peptide. The 229-amino-acid ORF2 protein is highly homologous to the PhoB protein, a positive regulatory protein for the phosphate regulon. The ORF3 (phoM gene) protein contains two stretches of highly hydrophobic residues in the amino-terminal and central regions and, therefore, may be a membrane protein. The 450-amino-acid ORF4 protein contains long hydrophobic regions and is likely to be a membrane protein.