Carbonic Anhydrase-Related Protein XI: Structure of the Gene in the Greater False Vampire Bat (Megaderma lyra) Compared with Human and Domestic Pig

Carbonic anhydrase-related protein XI (CA-RP XI) is a member of the α-carbonic anhydrase family (encoded by the gene CA-11), which has lost features of the active site required for enzymatic activity. Using PCR, we amplified CA-11 from genomic DNA of the bat Megaderma lyra. To elucidate the gene structure, we sequenced PCR products and compared their sequences with genomic and mRNA sequences known from human and domestic pig. We identified and sequenced eight introns in the bat CA-11. Five introns (introns 3–7) are located in identical or similar positions in other members of the vertebrate α-carbonic anhydrase gene family. Two 5′ introns and one 3′ intron are located in the regions of little or no sequence similarity with other members of the gene family. The low sequence similarity and additional introns suggest a separate evolutionary origin for the 5′ and 3′ portions of the CA-RP XI gene.     

Nucleotide sequence of an actin-encoding gene from Hydra attenuata: structural characteristics and evolutionary implications

We have determined the complete nucleotide sequence of an actin-encoding gene from Hydra attenuata as well as partial sequences of cDNA clones from two additional actin-encoding genes. The gene from the genomic clone contains a single intron, and has promoter and polyadenylation signals similar to those found in other species. The hydra genome has a very A + T-rich base composition (71%). This is reflected in the codon usage of the actin-encoding genes, which is strongly biased towards codons having A or T in the third position. The hydra actin-encoding gene family consists of three or more transcribed genes, two of which are very closely related to each other and probably arose by a recent gene duplication. Hydra actin, like other invertebrate actins, is more similar to the non-muscle isotypes of vertebrates than to the vertebrate muscle actins. Hydra actin is more similar to animal actins than to those of plants or fungi, which is consistent with the view that all metazoans arose from a single protist ancestor.     

The plastid aldolase gene fromChlamydomonas reinhardtii: Intron/exon organization,evolution, and promoter structure

Genomic clones encoding the plastidic fructose- 1,6-bisphosphate aldolase ofChlamydomonas reinhardtii were isolated and sequenced. The gene contains three introns which are located within the coding sequence for the mature protein. No introns are located within or near the sequence encoding the transit-peptide, in contrast to the genes for plastidic aldolases of higher plants. Neither the number nor the positions of the three introns of theC. reinhardtii aldolase gene are conserved in the plastidic or cytosolic aldolase genes of higher plants and animals. The 5′ border sequences of introns in the aldolase gene ofC. reinhardtii exhibit the conserved plant consensus sequence. The 3′ acceptor splice sites for introns 1 and 3 show much less similarity to the eukaryotic consensus sequences than do those of intron 2. The plastidic aldolase gene has two tandemly repeated CAAT box motifs in the promoter region. Genomic Southern blots indicate that the gene is encoded by a single locus in theC. reinhardtii genome.     

Actin-encoding cDNAs and gene expression during the intermolt cycle of the Bermuda land crab Gecarcinus lateralis

Two actin-encoding cDNAs (act1 and act2) from Gecarcinus lateralis have been sequenced or partially sequenced and the corresponding proteins deduced. The actl cDNA has a complete ORF; the act2 cDNA lacks most of the 5′ end of the coding region. The nucleotide (nt) sequences of both clones are very similar to act sequences of many organisms, the most closely related being from another arthropod, the silkmoth Bombyx mori. The proteins Actl and Act2 are more similar to vertebrate cytoplasmic actin isoforms (β-actins) than to vertebrate muscle actins (α-actins); they are also more similar to animal actins than to those of fungi or plants. Codon usage is strongly biased toward C or G in the third position. The deduced number of amino acid (aa) residues and calculated M_r for Actl are 376 aa and 41.94 kDa, respectively. The deduced aa sequence of Actl is very similar to those of muscle actins of B. mori and Drosophila melanogaster. Southern blots indicated seven to eleven act genes in the crab genome. Northern blots probed with a segment from the 3′ UTR of actl showed a single band of approx. 1.6 kb in poly(A)⁺mRNAs from epidermis, limb bud or claw muscle and in total RNAs from ovary and gill, and two bands of approx. 1.6 and 1.8 kb in total RNA from midgut gland. Western blots of one-dimensional gels of proteins from the four layers of the exoskeleton, epidermis, limb buds and claw muscle were probed with a monoclonal Ab against chicken gizzard actin; tissue- and stage-specific changes in actin content were observed. The presence of several isoforms, and differences in their number and occurrence at various stages of the intermolt cycle, were detected on Western blots of two-dimensional gels.     

Chlamydomonas reinhardii gene for the 32 000 mol. wt. protein of photosystem II contains four large introns and is located entirely within the chloroplast inverted repeat

The chloroplast psbA gene from the green unicellular alga Chlamydomonas reinhardii has been localized, cloned and sequenced. This gene codes for the rapidly-labeled 32-kd protein of photosystem II, also identified as as herbicide-binding protein. Unlike psbA in higher plants which is found in the large single copy region of the chloroplast genome and is uninterrupted, psbA in C. reinhardii is located entirely within the inverted repeat, hence present in two identical copies per circular chloroplast genome, and contains four large introns. These introns range from 1.1 to 1.8 kb in size and fall into the category of Group I introns. Two of the introns contain open reading frames which are in-frame with the preceding exon sequences. We present the nucleotide sequence for the C. reinhardii psbA 5'-and 3' -flanking sequences, the coding region contained in five exons and the deduced amino acid sequence. The algal gene codes for a protein of 352 amino acid residues which is 95% homologous, excluding the last eight amino acid residues, with the higher plant protein.     

Molecular cloning of actin genes in Trichomonas vaginalis and phylogeny inferred from actin sequences

The parasitic protozoan Trichomonas vaginalis is known to contain the ubiquitous and highly conserved protein actin. A genomic library and a cDNA library have been screened to identify and clone the actin gene(s) of T. vaginalis. The nucleotide sequence of one gene and its flanking regions have been determined. The open reading frame encodes a protein of 376 amino acids. The sequence is not interrupted by any introns and the promoter could be represented by a 10 bp motif close to a consensus motif also found upstream of most sequenced T. vaginalis genes. The five different clones isolated from the cDNA library have similar sequences and encode three actin proteins differing only by one or two amino acids. A phylogenetic analysis of 31 actin sequences by distance matrix and parsimony methods, using centractin as outgroup, gives congruent trees with Parabasala branching above Diplomonadida.     

A Novel Family of Unconventional Actins in Volvocalean Algae

The unicellular green alga Chlamydomonas reinhardtii has two actin genes, one encoding a conventional actin (90% amino acid identity with mammalian actin), the other a highly divergent actin (64% identity) named novel actin-like protein (NAP). To see whether the presence of conventional and unconventional actins in a single organism is unique to C. reinhardtii, we searched for genomic sequences related to the NAP sequence in several other species of volvocalean algae. Here we show that Chlamydomonas moewusii and Volvox carteri also have, in addition to a conventional actin, an unconventional actin similar to the C. reinhardtii NAP. Analyses of the deduced protein sequences indicated that the NAP homologues form a distinct group derived from conventional actin.     

Macronuclear Molecules Encoding Actins in Spirotrichs

Abstract The nucleotide sequences of 16 newly reported and 8 previously reported actin-encoding macronuclear DNA molecules in spirotrichs have been compared. As described for the eight previously reported molecules, the first 50 bases (noncoding) inside the telomere at both 5′ strands in additional actin molecules are purine-rich. This anomalous base composition might serve as a signal to identify macronuclear molecules in micronuclear DNA during development. The 50-base segment upstream of the ATG in the 5′ leaders of the actin molecules contains extensive, conserved sequence motifs that are possibly promoter elements. The 3′ noncoding trailers contain virtually no conserved sequence motifs. With one exception, the 3′ trailers contain a second stop codon (TGA) 36 bases on average downstream of the primary stop codon. Excluding Moneuplotes crassus, amino acid identities in actin I range from 78 to 100%, with variations distributed nonrandomly along the sequence. Phylogenetic trees based on the actin nucleotide sequences of 22 spirotrichs define the evolutionary relationships of their actin-encoding molecules. The actin phylogeny, while well supported by posterior probabilities, does not always coincide with the phylogeny defined in rDNA analyses or classical taxonomic classifications.     

Nucleus-encoded, plastid-targeted acetolactate synthase genes in two closely related chlorophytes, Chlamydomonas reinhardtii and Volvox carteri: phylogenetic origins and recent insertion of introns

Acetolactate synthase (ALS) catalyzes the first committed step in the synthesis of branched-chain amino acids. In green plants and fungi, ALS is encoded by a nuclear gene whose product is targeted to plastids (in plants) or to mitochondria (in fungi). In red algae, the gene is plastid-encoded. We have determined the complete sequence of nucleus-encoded ALS genes from the green algae Chlamydomonas reinhardtii and Volvox carteri. Phylogenetic analyses of the ALS gene family indicate that the ALS genes of green algae and plants are closely related, sharing a recent common ancestor. Furthermore, although these genes are clearly of eubacterial origin, a relationship to the ALS genes of red algae and cyanobacteria (endosymbiotic precursors of plastids) is only weakly indicated. The algal ALS genes are distinguished from their homologs in higher plants by the fact that they are interrupted by numerous spliceosomal introns; plant ALS genes completely lack introns. The restricted phylogenetic distribution of these introns suggests that they were inserted recently, after the divergence of these green algae from plants. Two introns in the Volvox ALS gene, not found in the Chlamydomonas gene, are positioned precisely at sites which resemble “proto-splice” sequences in the Chlamydomonas gene.     

Structure of the chicken interferon-γ gene,and comparison to mammalian homologues

The sequence of the chicken interferon-γ (ifn-γ) gene was determined, one of the first non-mammalian cytokine gene structures to be elucidated. Initial genomic clones were amplified from chicken genomic DNA and were used to isolate a cosmid clone covering the entire gene for sequencing. The exon:intron structure of chicken ifn-γ is very similar to those of its mammalian homologues, with the exception of the third intron, which is markedly shorter in the chicken. The first exon contains both 5′ UTR and signal sequence and the first 22 aa of the mature protein. The remainder of the coding region lies in exons 2–4. Exon 4 also encodes the stop codon and the 3′ UTR, including two possible polyadenylation signals. A number of potential regulatory sequences similar to those found in mammals have been identified, in the promoter, in each intron and in the 3′ UTR. In the promoter, these include the TATAATA- and CCAT-boxes, a consensus GATA motif in the reverse orientation and a potential NF-κB binding site. Other regulatory elements identified in the promoters of mammalian ifn-γ genes are absent. Internal to the gene structure, regulatory sequences identified include elements found in the DNase I hypersensitivity region of the first intron of the human ifn-γ gene and several potential NF-κB binding sites. The 3′ UTR contains an AT-rich sequence, including nine repeats of the `instability' motif ATTTA. As in mammals, chicken ifn-γ is a single copy gene. The gene is highly conserved, with no polymorphisms yet identified using either RFLP or SSCP in the coding region. However, promoter sequence polymorphisms between different inbred lines of chickens have been identified, with possible links to disease resistance.     

Evidence for sub-families of actin genes in Dictyostelium as determined by comparisons of 3' end sequences

We have sequenced the 3′ end of five actin genomic clones and three actin complementary DNA clones from Dictyostelium. Comparison of the sequences shows that the protein coding regions are highly conserved, while the region corresponding to the 3′ untranslated regions are divergent. Additional analysis indicates regions of homology in the 3′ untranslated region between sets of actin genes. Southern DNA blot hybridization studies using labeled 3′ ends suggest that there are sub-families of actin genes that are related within the 3′ untranslated regions. No homology is found in the sequences outside the messenger RNA encoding regions. Analysis of the sequence data has shown that the difference in length between the ~1.25 × 10³ and ~1.35 × 10³ base actin messenger RNAs is in the lengths of the 3′ untranslated region.