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1
Theis, James F., Chen Yang, Christopher B. Schaefer, and Carol S. Newlon. "DNA Sequence and Functional Analysis of Homologous ARS Elements of Saccharomyces cerevisiae and S. carlsbergensis." Genetics 152, no. 3 (1999): 943–52. http://dx.doi.org/10.1093/genetics/152.3.943.
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Abstract ARS elements of Saccharomyces cerevisiae are the cis-acting sequences required for the initiation of chromosomal DNA replication. Comparisons of the DNA sequences of unrelated ARS elements from different regions of the genome have revealed no significant DNA sequence conservation. We have compared the sequences of seven pairs of homologous ARS elements from two Saccharomyces species, S. cerevisiae and S. carlsbergensis. In all but one case, the ARS308-ARS308carl pair, significant blocks of homology were detected. In the cases of ARS305, ARS307, and ARS309, previously identified functional elements were found to be conserved in their S. carlsbergensis homologs. Mutation of the conserved sequences in the S. carlsbergensis ARS elements revealed that the homologous sequences are required for function. These observations suggested that the sequences important for ARS function would be conserved in other ARS elements. Sequence comparisons aided in the identification of the essential matches to the ARS consensus sequence (ACS) of ARS304, ARS306, and ARS310carl, though not of ARS310.
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Danilevskaya, Olga N., Ky Lowenhaupt, and Mary Lou Pardue. "Conserved Subfamilies of the Drosophila HeT-A Telomere-Specific Retrotransposon." Genetics 148, no. 1 (1998): 233–42. http://dx.doi.org/10.1093/genetics/148.1.233.
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Abstract HeT-A, a major component of Drosophila telomeres, is the first retrotransposon proposed to have a vital cellular function. Unlike most retrotransposons, more than half of its genome is noncoding. The 3′ end contains >2.5 kb of noncoding sequence. Copies of HeT-A differ by insertions or deletions and multiple nucleotide changes, which initially led us to conclude that HeT-A noncoding sequences are very fluid. However, we can now report, on the basis of new sequences and further analyses, that most of these differences are due to the existence of a small number of conserved sequence subfamilies, not to extensive sequence change during each transposition event. The high level of sequence conservation within subfamilies suggests that they arise from a small number of replicatively active elements. All HeT-A subfamilies show preservation of two intriguing features. First, segments of extremely A-rich sequence form a distinctive pattern within the 3′ noncoding region. Second, there is a strong strand bias of nucleotide composition: The DNA strand running 5′ to 3′ toward the middle of the chromosome is unusually rich in adenine and unusually poor in guanine. Although not faced with the constraints of coding sequences, the HeT-A 3′ noncoding sequence appears to be under other evolutionary constraints, possibly reflecting its roles in the telomeres.
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Tarès, S., J. M. Cornuet, and P. Abad. "Characterization of an unusually conserved AluI highly reiterated DNA sequence family from the honeybee, Apis mellifera." Genetics 134, no. 4 (1993): 1195–204. http://dx.doi.org/10.1093/genetics/134.4.1195.
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Abstract An AluI family of highly reiterated nontranscribed sequences has been found in the genome of the honeybee Apis mellifera. This repeated sequence is shown to be present at approximately 23,000 copies per haploid genome constituting about 2% of the total genomic DNA. The nucleotide sequence of 10 monomers was determined. The consensus sequences is 176 nucleotides long and has an A + T content of 58%. There are clusters of both direct and inverted repeats. Internal subrepeating units ranging from 11 to 17 nucleotides are observed, suggesting that it could have evolved from a shorter sequence. DNA sequence data reveal that this repeat class is unusually homogeneous compared to the other class of invertebrate highly reiterated DNA sequences. The average pairwise sequence divergence between the repeats is 2.5%. In spite of this unusual homogeneity, divergence has been found in the repeated sequence hybridization ladder between four different honeybee subspecies. Therefore, the AluI highly reiterated sequences provide a new probe for fingerprinting in A. m. mellifera.
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Jones, C. W., M. W. Dalton, and L. H. Townley. "Interspecific comparisons of the structure and regulation of the Drosophila ecdysone-inducible gene E74." Genetics 127, no. 3 (1991): 535–43. http://dx.doi.org/10.1093/genetics/127.3.535.
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Abstract The Drosophila melanogaster E74 gene is induced directly by the steroid hormone ecdysone and is a member of a small set of "early" genes that appear to trigger the onset of metamorphosis. The gene consists of three overlapping transcription units encoding two proteins, E74A and E74B, which possess a common C terminus. According to the Ashburner model for ecdysone's action, an E74 protein product potentially functions as a transcriptional activator of "late" genes as well as a repressor of early genes. We have taken an evolutionary approach to understand the function and regulation of E74 by isolating the homologous genes from Drosophila pseudoobscura and Drosophila virilis and comparing them to D. melanogaster E74 sequences. Conserved characteristics of the E74 genes include ecdysone inducibility, localization to ecdysone-induced polytene chromosome puffs, and gene size. Amino acid sequence comparisons of the E74A protein reveal a highly conserved C-terminal region that is rich in basic amino acid residues and which has been proposed to possess sequence-specific DNA binding activity. The moderately conserved N-terminal region has maintained its overall acidic character and is a potential transcriptional activator domain. The central region contains conserved glutamine and alanine homopolymeric repeats of variable lengths. Nucleotide sequence comparisons of the E74A promoter region fail to reveal ecdysone-response elements but do identify conserved sequences that may function in E74A regulation.
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Coyne, Robert S., and Meng-Chao Yao. "Evolutionary Conservation of Sequences Directing Chromosome Breakage and rDNA Palindrome Formation in Tetrahymenine Ciliates." Genetics 144, no. 4 (1996): 1479–87. http://dx.doi.org/10.1093/genetics/144.4.1479.
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Extensive, programmed chromosome breakage occurs during formation of the somatic macronucleus of ciliated protozoa. The cis-acting signal directing breakage has been most rigorously defined in Tetrahymena thermophila, where it consists of a 15-bp DNA sequence known as Cbs, for chromosome breakage sequence. We have identified sequences identical or nearly identical to the T. thermophila Cbs at sites of breakage flanking the germline micronuclear rDNA locus of six additional species of Tetrahymena as well as members of two related genera. Other general features of the breakage site are also conserved, but surprisingly, the orientation and number of copies of Cbs are not always conserved, suggesting the occurrence of germline rearrangement events over evolutionary time. At one end of the T. thermophila micronuclear rDNA locus, a pair of short inverted repeats adjacent to Cbs directs the formation of a giant palindromic molecule. We have examined the corresponding sequences from two other Tetrahymena species. We find the sequence to be partially conserved, as previously implied from analysis of macronuclear rDNA, but of variable length and organization.
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Randall, T. A., and R. L. Metzenberg. "Species-specific and mating type-specific DNA regions adjacent to mating type idiomorphs in the genus Neurospora." Genetics 141, no. 1 (1995): 119–36. http://dx.doi.org/10.1093/genetics/141.1.119.
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Abstract Mating type idiomorphs control mating and subsequent sexual development in Neurospora crassa and were previously shown to be well conserved in other Neurospora species. The centromere-proximal flanks of the A and a idiomorphs, but not the distal flanks from representative heterothallic, pseudohomothallic, and homothallic Neurospora species contain apparent species-specific and/or mating type-specific sequences adjacent to the well-conserved idiomorphs. The variable flank is bordered by regions that are highly homologous in all species. The sequence of approximately 1 kb immediately flanking the conserved idiomorphs of each species was determined. Sequence identity between species ranged from 20% (essentially unrelated) to > 90%. By contrast, the mt-A1 gene shows 88-98% identity. Sequence and hybridization data also show that the centromere-proximal flanks are very different between the two mating types for N. intermedia, N. discreta, and N. tetrasperma, but not for N. sitophila and N. crassa. The data suggest a close evolutionary relationship between several of the species; this is suppported by phylogenetic analysis of their respective mt-A1 genes. The origin of the variable regions adjacent to the evolutionarily conserved mating type idiomorphs is unknown.
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Thackeray, J. R., and B. Ganetzky. "Conserved alternative splicing patterns and splicing signals in the Drosophila sodium channel gene para." Genetics 141, no. 1 (1995): 203–14. http://dx.doi.org/10.1093/genetics/141.1.203.
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Abstract We cloned genomic DNA corresponding to the Drosophila virilis homologue of para, a gene encoding a sodium channel alpha-subunit, and obtained many partial cDNA clones from embryos and adults. Para protein has been well conserved, and the optional elements at six different sites of alternative splicing in D. melanogaster are present in D. virilis, in addition to one new optional exon. Among 31 different splice-types observed in D. virilis, the stage-specific pattern of alternative splicing seen in D. melanogaster is also conserved. Comparison of genomic DNA sequence revealed three aspects that vary between alternatively and constitutively used exon sequences. Sixteen short blocks (10-75 bp), the only recognizably conserved intron sequence, were disproportionately associated with alternatively used splice sites. Silent site substitutions were found much less frequently in alternative than constitutive exon elements, and the degree of match to the Drosophila splice site consensus tended to be lower at less frequently selected alternative splice junctions. This study shows that the developmentally regulated variability of para products is highly conserved and therefore likely to be of functional significance and suggests that a variety of different sequence-dependent mechanisms may regulate this pattern of alternative splicing.
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Cumberledge, Susan, and John Carbon. "Mutational Analysis of Meiotic and Mitotic Centromere Function in Saccharomyces cerevisiae." Genetics 117, no. 2 (1987): 203–12. http://dx.doi.org/10.1093/genetics/117.2.203.
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ABSTRACT A centromere (CEN) in Saccharomyces cerevisiae consists of approximately 150 bp of DNA and contains 3 conserved sequence elements: a high A + T region 78-86 bp in length (element II), flanked on the left by a conserved 8-bp element I sequence (PuTCACPuTG), and on the right by a conserved 25-bp element III sequence. We have carried out a structure-function analysis of the element I and II regions of CEN3 by constructing mutations in these sequences and subsequently determining their effect on mitotic and meiotic chromosome segregation. We have also examined the mitotic and meiotic segregation behavior of ARS plasmids containing the structurally altered CEN3 sequences. Replacing the periodic tracts of A residues within element II with random A + T sequences of equal length increases the frequency of mitotic chromosome nondisjunction only 4-fold; whereas, reducing the A + T content of element II while preserving the length results in a 40-fold increase in the frequence of chromosome nondisjunction. Structural alterations in the element II region that do not decrease the overall length have little effect on the meiotic segregation behavior of the altered chromosomes. Centromeres containing a deletion of element I or a portion of element II retain considerable mitotic activity, yet plasmids carrying these same mutations segregate randomly during meiosis I, indicating these sequences to be essential for maintaining attachment of the replicated sister chromatids during the first meiotic division. The presence of an intact element I sequence properly spaced from the element III region is absolutely essential for proper meiotic function of the centromere.
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Hodges, Dianne, Richard M. Cripps, Martin E. O'Connor, and Sanford I. Bernstein. "The Role of Evolutionarily Conserved Sequences in Alternative Splicing at the 3′ End of Drosophila melanogaster Myosin Heavy Chain RNA." Genetics 151, no. 1 (1999): 263–76. http://dx.doi.org/10.1093/genetics/151.1.263.
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Abstract Exon 18 of the muscle myosin heavy chain gene (Mhc) of Drosophila melanogaster is excluded from larval transcripts but included in most adult transcripts. To identify cis-acting elements regulating this alternative RNA splicing, we sequenced the 3′ end of Mhc from the distantly related species D. virilis. Three noncoding regions are conserved: (1) the nonconsensus splice junctions at either end of exon 18; (2) exon 18 itself; and (3) a 30-nucleotide, pyrimidine-rich sequence located about 40 nt upstream of the 3′ splice site of exon 18. We generated transgenic flies expressing Mhc mini-genes designed to test the function of these regions. Improvement of both splice sites of adult-specific exon 18 toward the consensus sequence switches the splicing pattern to include exon 18 in all larval transcripts. Thus nonconsensus splice junctions are critical to stage-specific exclusion of this exon. Deletion of nearly all of exon 18 does not affect stage-specific utilization. However, splicing of transcripts lacking the conserved pyrimidine sequence is severely disrupted in adults. Disruption is not rescued by insertion of a different polypyrimidine tract, suggesting that the conserved pyrimidine-rich sequence interacts with tissue-specific splicing factors to activate utilization of the poor splice sites of exon 18 in adult muscle.
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Mismer, D., and G. M. Rubin. "Definition of cis-acting elements regulating expression of the Drosophila melanogaster ninaE opsin gene by oligonucleotide-directed mutagenesis." Genetics 121, no. 1 (1989): 77–87. http://dx.doi.org/10.1093/genetics/121.1.77.
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Abstract We have analyzed the cis-acting regulatory sequences of the Rh1 (ninaE) gene in Drosophila melanogaster by P-element-mediated germline transformation of indicator genes transcribed from mutant ninaE promoter sequences. We have previously shown that a 200-bp region extending from -120 to +67 relative to the transcription start site is sufficient to obtain eye-specific expression from the ninaE promoter. In the present study, 22 different 4-13-bp sequences in the -120/+67 promoter region were altered by oligonucleotide-directed mutagenesis. Several of these sequences were found to be required for proper promoter function; two of these are conserved in the promoter of the homologous gene isolated from the related species Drosophila virilis. Alteration of a conserved 9-bp sequence results in aberrant, low level expression in the body. Alteration of a separate 11-bp sequence, found in the promoter regions of several photoreceptor-specific genes of Drosophila, results in an approximately 15-fold reduction in promoter efficiency but without apparent alteration of tissue-specificity. A protein factor capable of interacting with this 11-bp sequence has been detected by DNaseI footprinting in embryonic nuclear extracts. Finally, we have further characterized two separable enhancer sequences previously shown to be required for normal levels of expression from this promoter.
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Kletzin, Arnulf, Angelika Lieke, Tim Urich, Robert L. Charlebois, and Christoph W. Sensen. "Molecular Analysis of pDL10 from Acidianus ambivalens Reveals a Family of Related Plasmids from Extremely Thermophilic and Acidophilic Archaea." Genetics 152, no. 4 (1999): 1307–14. http://dx.doi.org/10.1093/genetics/152.4.1307.
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Abstract The 7598-bp plasmid pDL10 from the extremely thermophilic, acidophilic, and chemolithoautotrophic Archaeon Acidianus ambivalens was sequenced. It contains 10 open reading frames (ORFs) organized in five putative operons. The deduced amino acid sequence of the largest ORF (909 aa) showed similarity to bacterial Rep proteins known from phages and plasmids with rolling-circle (RC) replication. From the comparison of the amino acid sequences, a novel family of RC Rep proteins was defined. The pDL10 Rep protein shared 45-80% identical residues with homologous protein genes encoded by the Sulfolobus islandicus plasmids pRN1 and pRN2. Two DNA regions capable of forming extended stem-loop structures were also conserved in the three plasmids (48-69% sequence identity). In addition, a putative plasmid regulatory protein gene (plrA) was found, which was conserved among the three plasmids and the conjugative Sulfolobus plasmid pNOB8. A homolog of this gene was also found in the chromosome of S. solfataricus. Single-stranded DNA of both pDL10 strands was detected with a mung bean nuclease protection assay using PCR detection of protected fragments, giving additional evidence for an RC mechanism of replication.
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Brody, Thomas, Amarendra Yavatkar, Alexander Kuzin, and Ward F. Odenwald. "Ultraconserved Non-coding DNA Within Diptera and Hymenoptera." G3 Genes|Genomes|Genetics 10, no. 9 (2020): 3015–24. http://dx.doi.org/10.1534/g3.120.401502.
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Abstract This study has taken advantage of the availability of the assembled genomic sequence of flies, mosquitos, ants and bees to explore the presence of ultraconserved sequence elements in these phylogenetic groups. We compared non-coding sequences found within and flanking Drosophila developmental genes to homologous sequences in Ceratitis capitata and Musca domestica. Many of the conserved sequence blocks (CSBs) that constitute Drosophila cis-regulatory DNA, recognized by EvoPrinter alignment protocols, are also conserved in Ceratitis and Musca. Also conserved is the position but not necessarily the orientation of many of these ultraconserved CSBs (uCSBs) with respect to flanking genes. Using the mosquito EvoPrint algorithm, we have also identified uCSBs shared among distantly related mosquito species. Side by side comparison of bee and ant EvoPrints of selected developmental genes identify uCSBs shared between these two Hymenoptera, as well as less conserved CSBs in either one or the other taxon but not in both. Analysis of uCSBs in these dipterans and Hymenoptera will lead to a greater understanding of their evolutionary origin and function of their conserved non-coding sequences and aid in discovery of core elements of enhancers. This study applies the phylogenetic footprinting program EvoPrinter to detection of ultraconserved non-coding sequence elements in Diptera, including flies and mosquitos, and Hymenoptera, including ants and bees. EvoPrinter outputs an interspecies comparison as a single sequence in terms of the input reference sequence. Ultraconserved sequences flanking known developmental genes were detected in Ceratitis and Musca when compared with Drosophila species, in Aedes and Culex when compared with Anopheles, and between ants and bees. Our methods are useful in detecting and understanding the core evolutionarily hardened sequences required for gene regulation.
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Sánchez-Alonso, Patricia, and Plinio Guzmán. "Organization of Chromosome Ends in Ustilago maydis. RecQ-like Helicase Motifs at Telomeric Regions." Genetics 148, no. 3 (1998): 1043–54. http://dx.doi.org/10.1093/genetics/148.3.1043.
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Abstract In this study we have established the structure of chromosome ends in the basidiomycete fungus Ustilago maydis. We isolated and characterized several clones containing telomeric regions and found that as in other organisms, they consist of middle repeated DNA sequences. Two principal types of sequence were found: UTASa was highly conserved in nucleotide sequence and located almost exclusively at the chromosome ends, and UTASb was less conserved in nucleotide sequence than UTASa and found not just at the ends but highly interspersed throughout the genome. Sequence analysis revealed that UTASa encodes an open reading frame containing helicase motifs with the strongest homology to RecQ helicases; these are DNA helicases whose function involves the maintenance of genome stability in Saccharomyces cerevisiae and in humans, and the suppression of illegitimate recombination in Escherichia coli. Both UTASa and UTASb contain a common region of about 300 bp located immediately adjacent to the telomere repeats that are also found interspersed in the genome. The analysis of the chromosome ends of U. maydis provides information on the general structure of chromosome ends in eukaryotes, and the putative RecQ helicase at UTASa may reveal a novel mechanism for the maintenance of chromosome stability.
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Nagaki, Kiyotaka, Junqi Song, Robert M. Stupar, et al. "Molecular and Cytological Analyses of Large Tracks of Centromeric DNA Reveal the Structure and Evolutionary Dynamics of Maize Centromeres." Genetics 163, no. 2 (2003): 759–70. http://dx.doi.org/10.1093/genetics/163.2.759.
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Abstract We sequenced two maize bacterial artificial chromosome (BAC) clones anchored by the centromere-specific satellite repeat CentC. The two BACs, consisting of ∼200 kb of cytologically defined centromeric DNA, are composed exclusively of satellite sequences and retrotransposons that can be classified as centromere specific or noncentromere specific on the basis of their distribution in the maize genome. Sequence analysis suggests that the original maize sequences were composed of CentC arrays that were expanded by retrotransposon invasions. Seven centromere-specific retrotransposons of maize (CRM) were found in BAC 16H10. The CRM elements inserted randomly into either CentC monomers or other retrotransposons. Sequence comparisons of the long terminal repeats (LTRs) of individual CRM elements indicated that these elements transposed within the last 1.22 million years. We observed that all of the previously reported centromere-specific retrotransposons in rice and barley, which belong to the same family as the CRM elements, also recently transposed with the oldest element having transposed ∼3.8 million years ago. Highly conserved sequence motifs were found in the LTRs of the centromere-specific retrotransposons in the grass species, suggesting that the LTRs may be important for the centromere specificity of this retrotransposon family.
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Warda, Mohamad, Eman M. Gouda, Adel M. El-Behairy, and Said Z. Mousa. "Conserved and Non-Conserved Loci of the Glucagon Gene in Old World Ruminating Ungulates." Zeitschrift für Naturforschung C 61, no. 1-2 (2006): 135–41. http://dx.doi.org/10.1515/znc-2006-1-224.
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Abstract The homology and diversification of genomic sequence encoding glucagon gene among native Egyptian buffalos, camel and sheep were tested using cattle as model. Oligodeoxynucleotide primers designed from the available GenBank data were used for PCR probing of the glucagon gene encoding sequence at different loci. The DNA oligomer probes were constructed to flank either the whole gene encoding sequence or different intra-gene encoding sequences. The PCR products were visualized using agarose gel electrophoresis. All species showed a same size band of prepro-glucagon when PCR was used to amplify the whole gene encoding sequence. In contrary, amplifications of different intra-gene loci failed to give the same results. The results indicated variable degrees of diversity among old world ruminating ungulates in the glucagon gene encoding sequence. Compared with other ruminants, the variation appears predominantly in camel. Surprisingly, the similarity in size between both amplification products of whole gene encoding sequence and the proposed size of glucagon cDNA definitely excludes the possibility of large intervening introns spanning the genomic sequence of the glucagon gene in these species. This indicates that, in contrast to other tested mammals, the glucagon gene includes an essentially full-length copy of glucagon mRNA. The study revealed a possible new aspect of glucagon gene evolution in order to correlate its corresponding protein function among different ruminant species
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Langham, Richard J., Justine Walsh, Molly Dunn, Cynthia Ko, Stephen A. Goff, and Michael Freeling. "Genomic Duplication, Fractionation and the Origin of Regulatory Novelty." Genetics 166, no. 2 (2004): 935–45. http://dx.doi.org/10.1093/genetics/166.2.935.
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Abstract Having diverged 50 MYA, rice remained diploid while the maize lineage became tetraploid and then fractionated by losing genes from one or the other duplicate region. We sequenced and annotated 13 maize genes (counting the duplicate gene as one gene) on one or the other of the pair of homeologous maize regions; 12 genes were present in one cluster in rice. Excellent maize-rice synteny was evident, but only after the fractionated maize regions were condensed onto a finished rice map. Excluding the gene we used to define homeologs, we found zero retention. Once retained, fractionation (loss of functioning DNA sequence) could occur within cis-acting gene space. We chose a retained duplicate basic leucine zipper transcription factor gene because it was well marked with big, exact phylogenetic footprints (CNSs). Detailed alignments of lg2 and retained duplicate lrs1 to their rice ortholog found that fractionation of conserved noncoding sequences (CNSs) was rare, as expected. Of 30 CNSs, 27 were conserved. The 3 unexpected, missing CNSs and a large insertion support subfunctionalization as a reflection of fractionation of cis-acting gene space and the recent evolution of lg2’s novel maize leaf and shoot developmental functions. In general, the principles of fractionation and consolidation work well in making sense of maize gene and genomic sequence data.
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Minovitsky, Simon, Philip Stegmaier, Alexander Kel, Alexey S. Kondrashov, and Inna Dubchak. "Short sequence motifs, overrepresented in mammalian conserved non-coding sequences." BMC Genomics 8, no. 1 (2007): 378. http://dx.doi.org/10.1186/1471-2164-8-378.
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Sievers, Aaron, Liane Sauer, Michael Hausmann, and Georg Hildenbrand. "Eukaryotic Genomes Show Strong Evolutionary Conservation of k-mer Composition and Correlation Contributions between Introns and Intergenic Regions." Genes 12, no. 10 (2021): 1571. http://dx.doi.org/10.3390/genes12101571.
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Several strongly conserved DNA sequence patterns in and between introns and intergenic regions (IIRs) consisting of short tandem repeats (STRs) with repeat lengths <3 bp have already been described in the kingdom of Animalia. In this work, we expanded the search and analysis of conserved DNA sequence patterns to a wider range of eukaryotic genomes. Our aims were to confirm the conservation of these patterns, to support the hypothesis on their functional constraints and/or the identification of unknown patterns. We pairwise compared genomic DNA sequences of genes, exons, CDS, introns and intergenic regions of 34 Embryophyta (land plants), 30 Protista and 29 Fungi using established k-mer-based (alignment-free) comparison methods. Additionally, the results were compared with values derived for Animalia in former studies. We confirmed strong correlations between the sequence structures of IIRs spanning over the entire domain of Eukaryotes. We found that the high correlations within introns, intergenic regions and between the two are a result of conserved abundancies of STRs with repeat units ≤2 bp (e.g., (AT)n). For some sequence patterns and their inverse complementary sequences, we found a violation of equal distribution on complementary DNA strands in a subset of genomes. Looking at mismatches within the identified STR patterns, we found specific preferences for certain nucleotides stable over all four phylogenetic kingdoms. We conclude that all of these conserved patterns between IIRs indicate a shared function of these sequence structures related to STRs.
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Reenan, R. A., and R. D. Kolodner. "Isolation and characterization of two Saccharomyces cerevisiae genes encoding homologs of the bacterial HexA and MutS mismatch repair proteins." Genetics 132, no. 4 (1992): 963–73. http://dx.doi.org/10.1093/genetics/132.4.963.
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Abstract Homologs of the Escherichia coli (mutL, S and uvrD) and Streptococcus pneumoniae (hexA, B) genes involved in mismatch repair are known in several distantly related organisms. Degenerate oligonucleotide primers based on conserved regions of E. coli MutS protein and its homologs from Salmonella typhimurium, S. pneumoniae and human were used in the polymerase chain reaction (PCR) to amplify and clone mutS/hexA homologs from Saccharomyces cerevisiae. Two DNA sequences were amplified whose deduced amino acid sequences both shared a high degree of homology with MutS. These sequences were then used to clone the full-length genes from a yeast genomic library. Sequence analysis of the two MSH genes (MSH = mutS homolog), MSH1 and MSH2, revealed open reading frames of 2877 bp and 2898 bp. The deduced amino acid sequences predict polypeptides of 109.3 kD and 109.1 kD, respectively. The overall amino acid sequence identity with the E. coli MutS protein is 28.6% for MSH1 and 25.2% for MSH2. Features previously found to be shared by MutS homologs, such as the nucleotide binding site and the helix-turn-helix DNA binding motif as well as other highly conserved regions whose function remain unknown, were also found in the two yeast homologs. Evidence presented in this and a companion study suggest that MSH1 is involved in repair of mitochondrial DNA and that MSH2 is involved in nuclear DNA repair.
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Rodermel, Steven R., та Lawrence Bogorad. "Molecular Evolution and Nucleotide Sequences of the Maize Plastid Genes for the α Subunit of CF1 (atpA) and the Proteolipid Subunit of CF0 (atpH)". Genetics 116, № 1 (1987): 127–39. http://dx.doi.org/10.1093/genetics/116.1.127.
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ABSTRACT The nucleotide sequences of the maize plastid genes for the α subunit of CF1 (atpA) and the proteolipid subunit of CF 0 (atpH) are presented. The evolution of these genes among higher plants is characterized by a transition mutation bias of about 2:1 and by rates of synonymous and nonsynonymous substitution which are much lower than similar rates for genes from other sources. This is consistent with the notion that the plastid genome is evolving conservatively in primary sequence. Yet, the mode and tempo of sequence evolution of these and other plastid-encoded coupling factor genes are not the same. In particular, higher rates of nonsynonymous substitution in atpE (the gene for the ∊ subunit of CF1) and higher rates of synonymous substitution in atpH in the dicot vs. monocot lineages of higher plants indicate that these sequences are likely subject to different evolutionary constraints in these two lineages. The 5′- and 3′ transcribed flanking regions of atpA and atpH from maize, wheat and tobacco are conserved in size, but contain few putative regulatory elements which are conserved either in their spatial arrangement or sequence complexity. However, these regions likely contain variable numbers of "species-specific" regulatory elements. The present studies thus suggest that the plastid genome is not a passive participant in an evolutionary process governed by a more rapidly changing, readily adaptive, nuclear compartment, but that novel strategies for the coordinate expression of genes in the plastid genome may arise through rapid evolution of the flanking sequences of these genes.
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Yue, X. N., B. Sakaguchi, and T. H. Eickbush. "Gene conversions can generate sequence variants in the late chorion multigene families of Bombyx mori." Genetics 120, no. 1 (1988): 221–31. http://dx.doi.org/10.1093/genetics/120.1.221.
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Abstract The 140-kbp late chorion locus of Bombyx mori strain 703 contains 15 divergently oriented gene pairs encoding the high cysteine (Hc) eggshell proteins. Sequence homology is approximately 91% for the 2-kb region of each gene pair, including the 5' flanking region, intron and exons. The homology rapidly disappears within a few hundred basepairs of the 3' end of most genes. Here we present the results of the nucleotide sequence and genomic blot comparison of Hc genes from different races of B. mori. Comparison of the nucleotide sequences of the same gene pair in two different races reveals that most of the nucleotide differences occur in clusters or patches and correspond to sequences present in other Hc genes in the locus. The number of nucleotide differences that have accumulated in the highly conserved regions of the gene pair (2.3/100 bp), most of which are attributable to patchwork exchanges, is significantly higher than the number of differences in the poorly conserved 3' flanking regions (0.6/100 bp), due primarily to new mutations. These data are consistent with a gene conversion process, which in the short-term generates new combinations of sequence variants, but in the long-term results in concerted evolution. Genomic blot analyses of different geographical races of B. mori reveal that there is variation in the number of Hc gene pairs (14-19 gene pairs), indicating that unequal crossovers also occur in the locus.
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Hooper, J. E., M. Pérez-Alonso, J. R. Bermingham, et al. "Comparative studies of Drosophila Antennapedia genes." Genetics 132, no. 2 (1992): 453–69. http://dx.doi.org/10.1093/genetics/132.2.453.
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Abstract The Antennapedia (Antp) homeotic gene of Drosophila melanogaster controls cell fates and pattern formation in the epidermis, nervous system and mesoderm of thoracic segments. Its expression is controlled at the levels of transcription, alternative RNA splicing, polyadenylation and translation. Two nested Antp transcription units extend over 103 kb and produce sixteen different transcripts. We have compared the Antp genes of Drosophila virilis, Drosophila subobscura and D. melanogaster to determine which structural features are conserved and therefore may be important to the gene's function. The overall gene structures are similar. There are many conserved sequence blocks throughout the large introns, at least 15 kb upstream of the first promoter, and at least 3 kb downstream of the last polyadenylation site. Intron and exon sequence conservation around alternative splice sites indicates that alternative protein coding forms may also be conserved. Protein coding potential is perfectly conserved around the C-terminal homeodomain, well conserved in the N-terminal region, and more variable in the middle. The large size of the Antp gene may reflect a large number of control elements necessary for appropriate Antp protein expression. The conservation of transcript complexity suggests functional requirements for the different protein forms.
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Miller, Joseph T., Fenggao Dong, Scott A. Jackson, Junqi Song, and Jiming Jiang. "Retrotransposon-Related DNA Sequences in the Centromeres of Grass Chromosomes." Genetics 150, no. 4 (1998): 1615–23. http://dx.doi.org/10.1093/genetics/150.4.1615.
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Abstract Several distinct DNA fragments were subcloned from a sorghum (Sorghum bicolor) bacterial artificial chromosome clone 13I16 that was derived from a centromere. Three fragments showed significant sequence identity to either Ty3/gypsy- or Ty1/copia-like retrotransposons. Fluorescence in situ hybridization (FISH) analysis revealed that the Ty1/copia-related DNA sequences are not specific to the centromeric regions. However, the Ty3/gypsy-related sequences were present exclusively in the centromeres of all sorghum chromosomes. FISH and gel-blot hybridization showed that these sequences are also conserved in the centromeric regions of all species within Gramineae. Thus, we report a new retrotransposon that is conserved in specific chromosomal regions of distantly related eukaryotic species. We propose that the Ty3/gypsy-like retrotransposons in the grass centromeres may be ancient insertions and are likely to have been amplified during centromere evolution. The possible role of centromeric retrotransposons in plant centromere function is discussed.
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Parsch, John, Wolfgang Stephan, and Soichi Tanda. "A Highly Conserved Sequence in the 3′-Untranslated Region of the Drosophila Adh Gene Plays a Functional Role in Adh Expression." Genetics 151, no. 2 (1999): 667–74. http://dx.doi.org/10.1093/genetics/151.2.667.
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Abstract Phylogenetic analysis identified a highly conserved eight-base sequence (AAGGCTGA) within the 3′-untranslated region (UTR) of the Drosophila alcohol dehydrogenase gene, Adh. To examine the functional significance of this conserved motif, we performed in vitro deletion mutagenesis on the D. melanogaster Adh gene followed by P-element-mediated germline transformation. Deletion of all or part of the eight-base sequence leads to a twofold increase in in vivo ADH enzymatic activity. The increase in activity is temporally and spatially general and is the result of an underlying increase in Adh transcript. These results indicate that the conserved 3′-UTR motif plays a functional role in the negative regulation of Adh gene expression. The evolutionary significance of our results may be understood in the context of the amino acid change that produces the ADH-F allele and also leads to a twofold increase in ADH activity. While there is compelling evidence that the amino acid replacement has been a target of positive selection, the conservation of the 3′-UTR sequence suggests that it is under strong purifying selection. The selective difference between these two sequence changes, which have similar effects on ADH activity, may be explained by different metabolic costs associated with the increase in activity.
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Mayer, Kimberly M., and James D. Forney. "A Mutation in the Flanking 5′-TA-3′ Dinucleotide Prevents Excision of an Internal Eliminated Sequence From the Paramecium tetraurelia Genome." Genetics 151, no. 2 (1999): 597–604. http://dx.doi.org/10.1093/genetics/151.2.597.
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Abstract The germline chromosomes in Paramecium and other ciliated protozoa contain regions of DNA that are excised and eliminated during the development of a new macronuclear genome. Paramecium tetraurelia internal eliminated sequences (IESs) are invariably flanked by a 5′-TA-3′ dinucleotide sequence that is part of a larger 8-bp terminal inverted-repeat consensus sequence. Both features, the absolutely conserved 5′-TA-3′ and the remaining 6-bp terminal inverted repeat, are shared with the mariner/Tc1 class of transposons. In this article we describe a mutant cell line (AIM-2) defective in excision of a single IES from the coding region of the A51 surface antigen gene. Excision of the 370-bp IES6649 is prevented by a single A to G transition in the invariably conserved 5′-TA-3′ dinucleotide. Failure to excise IES6649 also revealed a 29-bp IES located inside IES6649. Additional experiments with the previously isolated AIM-1 mutant, which also contains an internal IES, shows that alternate excision using the wild-type end of IES2591 with an end from the internal IES is extremely rare or nonexistent. These results indicate that IESs are discrete elements whose excision depends upon nucleotides located within the consensus sequence, but also suggest that additional information is required to match one end of an IES with its excision partner.
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Miriami, E. "Conserved sequence elements associated with exon skipping." Nucleic Acids Research 31, no. 7 (2003): 1974–83. http://dx.doi.org/10.1093/nar/gkg279.
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Dasgupta, Jaydip, and R. K. Mandal. "A conserved tandemly repeated DNA sequence inCruciferae." Journal of Genetics 69, no. 3 (1990): 169–77. http://dx.doi.org/10.1007/bf02927977.
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Fletcher, L. D., J. M. McDowell, R. R. Tidwell, R. B. Meagher, and C. C. Dykstra. "Structure, expression and phylogenetic analysis of the gene encoding actin I in Pneumocystis carinii." Genetics 137, no. 3 (1994): 743–50. http://dx.doi.org/10.1093/genetics/137.3.743.
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Abstract Actin is a major component of the cytoskeleton and one of the most abundant proteins found in eukaryotic cells. Comparative sequence analysis shows that this essential gene has been highly conserved throughout eukaryotic evolution making it useful for phylogenetic analysis. Complete cDNA clones for the actin-encoding gene were isolated and characterized from Pneumocystis carinii purified from immunosuppressed rat lungs. The nucleotide sequence encodes a protein of 376 amino acids. The predicted actin protein of P. carinii shares a high degree of conservation to other known actins. Only one major actin gene was found in P. carinii. The P. carinii actin sequence was compared with 30 other actin sequences. Gene phylogenies constructed using both neighbor-joining and protein parsimony methods places the P. carinii actin sequence closest to the majority of the fungi. Since the phylogenetic relationship of P. carinii to fungi and protists has been questioned, these data on the actin gene phylogeny support the grouping of P. carinii with the fungi.
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Rodriguez, Luis L., Steven J. Pauszek, Thomas A. Bunch, and Kate R. Schumann. "Full-length genome analysis of natural isolates of vesicular stomatitis virus (Indiana 1 serotype) from North, Central and South America." Journal of General Virology 83, no. 10 (2002): 2475–83. http://dx.doi.org/10.1099/0022-1317-83-10-2475.
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Most studies on the molecular biology and functional analysis of vesicular stomatitis virus Indiana 1 serotype (VSV-IN1) are based on the only full-length genomic sequence currently deposited in GenBank. This sequence is a composite of several VSV-IN1 laboratory strains passaged extensively in tissue culture over the years and it is not certain that this sequence is representative of strains circulating in nature. We describe here the complete genomic sequence of three natural isolates, each representing a distinct genetic lineage and geographical origin: 98COE (North America), 94GUB (Central America) and 85CLB (South America). Genome structure and organization were conserved, with a 47 nucleotide 3′ leader, five viral genes – N, P, M, G and L – and a 59 nucleotide 5′ trailer. The most conserved gene was N, followed by M, L and G, with the most variable being P. Sequences containing the polyadenylation and transcription stop and start signals were completely conserved among all the viruses studied, but changes were found in the non-transcribed intergenic nucleotides, including the presence of a trinucleotide at the M–G junction of the South American lineage isolate. A 102–189 nucleotide insertion was present in the 5′ non-coding region of the G gene only in the viruses within a genetic lineage from northern Central America. These full-length genomic sequences should be useful in designing diagnostic probes and in the interpretation of functional genomic analyses using reverse genetics.
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Sievers, Aaron, Frederik Wenz, Michael Hausmann, and Georg Hildenbrand. "Conservation of k-mer Composition and Correlation Contribution between Introns and Intergenic Regions of Animalia Genomes." Genes 9, no. 10 (2018): 482. http://dx.doi.org/10.3390/genes9100482.
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In this study, we pairwise-compared multiple genome regions, including genes, exons, coding DNA sequences (CDS), introns, and intergenic regions of 39 Animalia genomes, including Deuterostomia (27 species) and Protostomia (12 species), by applying established k-mer-based (alignment-free) comparison methods. We found strong correlations between the sequence structure of introns and intergenic regions, individual organisms, and within wider phylogenetical ranges, indicating the conservation of certain structures over the full range of analyzed organisms. We analyzed these sequence structures by quantifying the contribution of different sets of DNA words to the average correlation value by decomposing the correlation coefficients with respect to these word sets. We found that the conserved structures within introns, intergenic regions, and between the two were mainly a result of conserved tandem repeats with repeat units ≤ 2 bp (e.g., (AT)n), while other conserved sequence structures, such as those found between exons and CDS, were dominated by tandem repeats with repeat unit sizes of 3 bp in length and more complex DNA word patterns. We conclude that the conservation between intron and intergenic regions indicates a shared function of these sequence structures. Also, the similar differences in conserved structures with known origin, especially to the conservation between exons and CDS resulting from DNA codons, indicate that k-mer composition-based functional properties of introns and intergenic regions may differ from those of exons and CDS.
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Larkin, Denis M., Annelie Everts-van der Wind, Mark Rebeiz, et al. "A Cattle–Human Comparative Map Built with Cattle BAC-Ends and Human Genome Sequence." Genome Research 13, no. 8 (2003): 1966–72. http://dx.doi.org/10.1101/gr.1560203.
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As a step toward the goal of adding the cattle genome to those available for multispecies comparative genome analysis, 40,224 cattle BAC clones were end-sequenced, yielding 60,547 sequences (BAC end sequences, BESs) after trimming with an average read length of 515 bp. Cattle BACs were anchored to the human and mouse genome sequences by BLASTN search, revealing 29.4% and 10.1% significant hits (E < e-5), respectively. More than 60% of all cattle BES hits in both the human and mouse genomes are located within known genes. In order to confirm in silico predictions of orthology and their relative position on cattle chromosomes, 84 cattle BESs with similarity to sequences on HSA11 were mapped using a cattle–hamster radiation hybrid (RH) panel. Resulting RH maps of BTA15 and BTA29 cover ∼85% of HSA11 sequence, revealing a complex patchwork shuffling of segments not explained by a simple translocation followed by internal rearrangements. Overlay of the mouse conserved syntenies onto HSA11 revealed that segmental boundaries appear to be conserved in all three species. The BAC clone-based comparative map provides a foundation for the evolutionary analysis of mammalian karyotypes and for sequencing of the cattle genome.
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Schaeffer, Stephen W., and Charles F. Aquadro. "Nucleotide Sequence of the Adh Gene Region of Drosophila pseudoobscura: Evolutionary Change and Evidence for an Ancient Gene Duplication." Genetics 117, no. 1 (1987): 61–73. http://dx.doi.org/10.1093/genetics/117.1.61.
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ABSTRACT The alcohol dehydrogenase (Adh) locus (ADH; alcohol: NAD+ oxidoreductase, EC 1.1.1.1) of Drosophila pseudoobscura was cloned and sequenced. Forty-five percent of the "effectively silent sites" have changed between Adh in D. pseudoobscura of the obscura species group and the homologous DNA sequence in D. mauritiana, the latter representing the melanogaster species group. The untranslated leader sequence of the adult transcript of D. pseudoobscura has two deletions relative to the D. mauritiana message. The ADH protein sequences of D. pseudoobscura is missing the third and fourth amino acids at the N-terminus relative to the D. mauritiana enzyme. Of the remaining 254 amino acid positions, 27 (10.64%) differ between the two species. Amino acid replacements are randomly distributed into hydrophilic and hydrophobic domains of ADH. However, replacement substitutions are distributed nonrandomly across the three exons among D. pseudoobscura and members of the melanogaster subgroup, suggesting that functional constraints across the exons are different. Surprisingly, silent substitutions are also nonrandomly distributed with the third exon being the most divergent. This pattern suggests possible selective constraints on supposedly neutral silent substitutions and/or variation in underlying mutation rates across the gene. The presence of transcriptional and translational signals at the beginning and end of conserved sequences 3′ to Adh implies the existence of a previously undescribed gene. Codon usage and patterns of nucleotide divergence are consistent with a protein coding function for this gene. In addition, conservation of nucleotide and amino acid sequence and similarity in hydropathy plots suggests that the gene 3′ to Adh represents an ancient duplication of the Adh gene.
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Park, Kiyun, Joohyun Kang, Krishna Pd Subedi, Ji-Hong Ha, and Chankyu Park. "Canine Polydactyl Mutations With Heterogeneous Origin in the Conserved Intronic Sequence ofLMBR1." Genetics 179, no. 4 (2008): 2163–72. http://dx.doi.org/10.1534/genetics.108.087114.
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Mayer, Kimberly M., Kazuyuki Mikami, and James D. Forney. "A Mutation in Paramecium tetraurelia Reveals Functional and Structural Features of Developmentally Excised DNA Elements." Genetics 148, no. 1 (1998): 139–49. http://dx.doi.org/10.1093/genetics/148.1.139.
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Abstract The excision of internal eliminated sequences (IESs) from the germline micronuclear DNA occurs during the differentiation of a new macronuclear genome in ciliated protozoa. In Paramecium, IESs are generally short (28–882 bp), AT rich DNA elements that show few conserved sequence features with the exception of an inverted-terminal-repeat consensus sequence that has similarity to the ends of mariner/Tc1 transposons (Klobutcher and Herrick 1995). We have isolated and analyzed a mutant cell line that cannot excise a 370-bp IESs (IES2591) from the coding region of the 51A variable surface protein gene. A single micronuclear C to T transition within the consensus sequence prevents excision. The inability to excise IES2591 has revealed a 28-bp IES inside the larger IES, suggesting that reiterative integration of these elements can occur. Together, the consensus sequence mutation and the evidence for reiterative integration support the theory that Paramecium IESs evolved from transposable elements. Unlike a previously studied Paramecium IES, the presence of this IES in the macronucleus does not completely inhibit excision of its wild-type micronuclear copy through multiple sexual generations.
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Zhou, Qiuzhong, Yuxi Jiang, Chaoqun Cai, et al. "Multidimensional conservation analysis decodes the expression of conserved long noncoding RNAs." Life Science Alliance 6, no. 6 (2023): e202302002. http://dx.doi.org/10.26508/lsa.202302002.
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Although long noncoding RNAs (lncRNAs) experience weaker evolutionary constraints and exhibit lower sequence conservation than coding genes, they can still conserve their features in various aspects. Here, we used multiple approaches to systemically evaluate the conservation between human and mouse lncRNAs from various dimensions including sequences, promoter, global synteny, and local synteny, which led to the identification of 1,731 conserved lncRNAs with 427 high-confidence ones meeting multiple criteria. Conserved lncRNAs, compared with non-conserved ones, generally have longer gene bodies, more exons and transcripts, stronger connections with human diseases, and are more abundant and widespread across different tissues. Transcription factor (TF) profile analysis revealed a significant enrichment of TF types and numbers in the promoters of conserved lncRNAs. We further identified a set of TFs that preferentially bind to conserved lncRNAs and exert stronger regulation on conserved than non-conserved lncRNAs. Our study has reconciled some discrepant interpretations of lncRNA conservation and revealed a new set of transcriptional factors ruling the expression of conserved lncRNAs.
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Purugganan, M. D., and S. R. Wessler. "Molecular evolution of the plant R regulatory gene family." Genetics 138, no. 3 (1994): 849–54. http://dx.doi.org/10.1093/genetics/138.3.849.
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Abstract Anthocyanin pigmentation patterns in different plant species are controlled in part by members of the myc-like R regulatory gene family. We have examined the molecular evolution of this gene family in seven plant species. Three regions of the R protein show sequence conservation between monocot and dicot R genes. These regions encode the basic helix-loop-helix domain, as well as conserved N-terminal and C-terminal domains; mean replacement rates for these conserved regions are 1.02 x 10(-9) nonsynonymous nucleotide substitutions per site per year. More than one-half of the protein, however, is diverging rapidly, with nonsynonymous substitution rates of 4.08 x 10(-9) substitutions per site per year. Detailed analysis of R homologs within the grasses (Poaceae) confirm that these variable regions are indeed evolving faster than the flanking conserved domains. Both nucleotide substitutions and small insertion/deletions contribute to the diversification of the variable regions within these regulatory genes. These results demonstrate that large tracts of sequence in these regulatory loci are evolving at a fairly rapid rate.
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Bouchard, Robert A. "Characterization of expressed meiotic prophase repeat transcript clones of Lilium: meiosis-specific expression, relatedness, and affinities to small heat shock protein genes." Genome 33, no. 1 (1990): 68–79. http://dx.doi.org/10.1139/g90-012.
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The inserts of plasmid cDNA clones for transcripts showing meiotic prophase specific expression show cross reassociation to varying degrees of intensity with one another. These clones were recovered from a cDNA library made from Lilium microsporocyte poly(A)+ RNA. RNA-dot and Northern-blot analyses indicate that these clones represent transcripts specific to the meiotic prophase interval in microsporocytes. The transcripts appear to constitute the most abundant class of meiosis-specific poly(A)+ RNAs. At least two subgroups can be distinguished by examining cloned transcripts from genes of this expressed meiotic prophase repeat (EMPR) sequence family. Members of each subgroup have similar although not identical restriction maps and show relatively high but varying fidelities of DNA cross reassociation between members. However, consensus restriction maps of the two subgroups are largely dissimilar and, except at low stringencies, cross reassociation is readily detected only at restriction fragments from a particular conserved internal segment. The DNA sequence of a representative EMPR clone has been determined, and the inferred peptide product has been found to show extensive sequence homology to that of a small heat-shock gene of Glycine max, particularly in the conserved region. Alignment of the sequences for the conserved regions of two EMPR subgroup representatives with the soybean sequence suggests that selection has acted to conserve similar blocks of amino acids in this area. These observations suggest that a major portion of the transcripts produced during the apparently unrelated processes of meiosis and heat shock in higher plants are derived from related gene sequences encoding similar products.Key words: meiosis, transcription, specific cDNA, heat-shock mRNA.
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Rudel, David, and Judith Kimble. "Conservation of glp-1 Regulation and Function in Nematodes." Genetics 157, no. 2 (2001): 639–54. http://dx.doi.org/10.1093/genetics/157.2.639.
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Abstract The Caenorhabditis elegans (Ce) glp-1 gene encodes a Notch-like receptor. We have cloned glp-1 from C. briggsae (Cb) and C. remanei (Cr), two Caenorhabditis species that have diverged from C. elegans by roughly 20–40 million years. By sequence analysis, we find that the Cb-GLP-1 and Cr-GLP-1 proteins have retained the same motif architecture as Ce-GLP-1, including number of domains. In addition, two regions (CC-linker and regions flanking the ANK repeats) are as highly conserved as regions previously recognized as essential for signaling (e.g., ANK repeats). Phylogenetic analysis of glp-1 sequences suggests a C. briggsae/C. remanei clade with C. elegans as a sister taxon. Using RNAi to test biological functions, we find that Ce-glp-1, Cb-glp-1, and Cr-glp-1 are all required for proliferation of germline stem cells and for specifying blastomere fates in the embryo. In addition, certain biological roles of Cb-glp-1, e.g., in the vulva, have diverged from those of Ce-glp-1 and Cr-glp-1, suggesting a change in either regulation or function of the Cb-glp-1 gene during evolution. Finally, the regulation of glp-1 mRNA, previously analyzed for Ce-glp-1, is conserved in Cb-glp-1, and we identify conserved 3′ UTR sequences that may serve as regulatory elements.
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Rina, M., and C. Savakis. "A cluster of vitellogenin genes in the Mediterranean fruit fly Ceratitis capitata: sequence and structural conservation in dipteran yolk proteins and their genes." Genetics 127, no. 4 (1991): 769–80. http://dx.doi.org/10.1093/genetics/127.4.769.
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Abstract Four genes encoding the major egg yolk polypeptides of the Mediterranean fruit fly Ceratitis capitata, vitellogenins 1 and 2 (VG1 and VG2), were cloned, characterized and partially sequenced. The genes are located on the same region of chromosome 5 and are organized in pairs, each encoding the two polypeptides on opposite DNA strands. Restriction and nucleotide sequence analysis indicate that the gene pairs have arisen from an ancestral pair by a relatively recent duplication event. The transcribed part is very similar to that of the Drosophila melanogaster yolk protein genes Yp1, Yp2 and Yp3. The Vg1 genes have two introns at the same positions as those in D. melanogaster Yp3; the Vg2 genes have only one of the introns, as do D. melanogaster Yp1 and Yp2. Comparison of the five polypeptide sequences shows extensive homology, with 27% of the residues being invariable. The sequence similarity of the processed proteins extends in two regions separated by a nonconserved region of varying size. Secondary structure predictions suggest a highly conserved secondary structure pattern in the two regions, which probably correspond to structural and functional domains. The carboxy-end domain of the C. capitata proteins shows the same sequence similarities with triacyglycerol lipases that have been reported previously for the D. melanogaster yolk proteins. Analysis of codon usage shows significant differences between D. melanogaster and C. capitata vitellogenins with the latter exhibiting a less biased representation of synonymous codons.
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Bui, Quang T., John E. Zimmerman, Haixi Liu, and Nancy M. Bonini. "Molecular Analysis of Drosophilaeyes absentMutants Reveals Features of the Conserved Eya Domain." Genetics 155, no. 2 (2000): 709–20. http://dx.doi.org/10.1093/genetics/155.2.709.
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AbstractThe eyes absent (eya) gene is critical to eye formation in Drosophila; upon loss of eya function, eye progenitor cells die by programmed cell death. Moreover, ectopic eya expression directs eye formation, and eya functionally synergizes in vivo and physically interacts in vitro with two other genes of eye development, sine oculis and dachshund. The Eya protein sequence, while highly conserved to vertebrates, is novel. To define amino acids critical to the function of the Eya protein, we have sequenced eya alleles. These mutations have revealed that loss of the entire Eya Domain is null for eya activity, but that alleles with truncations within the Eya Domain display partial function. We then extended the molecular genetic analysis to interactions within the Eya Domain. This analysis has revealed regions of special importance to interaction with Sine Oculis or Dachshund. Select eya missense mutations within the Eya Domain diminished the interactions with Sine Oculis or Dachshund. Taken together, these data suggest that the conserved Eya Domain is critical for eya activity and may have functional subregions within it.
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Morgan, John G., Nikki J. Holbrook, and Gerald R. Crabtree. "Nucleotide sequence of the gamma chain gene of rat fibrinogen: conserved intronic sequences." Nucleic Acids Research 15, no. 6 (1987): 2774–76. http://dx.doi.org/10.1093/nar/15.6.2774.
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Dueñas, Juan C. Rondan, Cristina N. Gardenal, Guillermo Albrieu Llinás, and Graciela M. Panzetta-Dutari. "Structural organization of the mitochondrial DNA control region in Aedes aegypti." Genome 49, no. 8 (2006): 931–37. http://dx.doi.org/10.1139/g06-053.
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The complete A+T - rich region of Aedes aegypti mitochondrial DNA has been cloned and sequenced. In Argentinean populations of the species, a polymorphism in the length of the amplified fragment was observed. Nucleotide sequence comparison of the shortest and longest A+T - rich amplified fragments detected revealed the presence of 2 types of tandemly repeated blocks. The size variation observed in natural populations is mainly due to the presence of a variable number of a 181 bp tandem repeat unit, located toward the 12S rRNA gene end. The size of the longest A+T - rich region was of 2070 bp, representing the largest control sequence reported for any mosquito species. Few relevant short blocks of primary-sequence similarity conserved in the control region of mosquitoes and other insects were detected scattered throughout the whole region. Five putative stem-loop secondary structures were found, one of them flanked by conserved sequences described in other insects. Our results suggest that there are no universal models of structure–function relations in the control region of insect mtDNA. In addition, we identified a short A+T - rich variable segment in the Ae. aegyti control region that would be suitable for population genetic studies.Key words: mitochondrial DNA, A+T - rich region, repeated elements, conserved blocks, Aedes aegypti.
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Parsch, John, John M. Braverman, and Wolfgang Stephan. "Comparative Sequence Analysis and Patterns of Covariation in RNA Secondary Structures." Genetics 154, no. 2 (2000): 909–21. http://dx.doi.org/10.1093/genetics/154.2.909.
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Abstract A novel method of RNA secondary structure prediction based on a comparison of nucleotide sequences is described. This method correctly predicts nearly all evolutionarily conserved secondary structures of five different RNAs: tRNA, 5S rRNA, bacterial ribonuclease P (RNase P) RNA, eukaryotic small subunit rRNA, and the 3′ untranslated region (UTR) of the Drosophila bicoid (bcd) mRNA. Furthermore, covariations occurring in the helices of these conserved RNA structures are analyzed. Two physical parameters are found to be important determinants of the evolution of compensatory mutations: the length of a helix and the distance between base-pairing nucleotides. For the helices of bcd 3′ UTR mRNA and RNase P RNA, a positive correlation between the rate of compensatory evolution and helix length is found. The analysis of Drosophila bcd 3′ UTR mRNA further revealed that the rate of compensatory evolution decreases with the physical distance between base-pairing residues. This result is in qualitative agreement with Kimura's model of compensatory fitness interactions, which assumes that mutations occurring in RNA helices are individually deleterious but become neutral in appropriate combinations.
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Quiros, C. F., F. Grellet, J. Sadowski, T. Suzuki, G. Li, and T. Wroblewski. "Arabidopsis and Brassica Comparative Genomics: Sequence, Structure and Gene Content in the ABI1-Rps2-Ck1 Chromosomal Segment and Related Regions." Genetics 157, no. 3 (2001): 1321–30. http://dx.doi.org/10.1093/genetics/157.3.1321.
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Abstract The region corresponding to the ABI1-Rps2-Ck1 segment on chromosome 4 of Arabidopsis thaliana was sequenced in Brassica oleracea. Similar to A. thaliana, the B. oleracea homolog BoRps2 is present in single copy. The B. oleracea orthologous segment was located on chromosome 4 and can be distinguished by the presence of an N-myristoyl transferase coding gene (N-myr) between the Rps2 and Ck1 (BoCk1a) genes. The N-myr homologs in Arabidopsis are on chromosomes 2 and 5. Additional homologs for Ck1 are located on these two chromosomes. A second Ck1 homolog found on B. oleracea (BoCk1b) chromosome 7 served to define another orthologous segment located in Arabidopsis chromosome 1. The two segments displayed identical gene content and order in both species, namely BoCK1b, a gene encoding a hypothetical protein (BohypothA) and transcription factor eiF4A. High levels of sequence identity were observed for the coding sequences of all genes examined. Although in general larger spacers were found in Brassica than in A. thaliana, this was not always the case. Promoters were poorly conserved, except for several sequence stretches of a few nucleotides. Comparative sequencing revealed microsyntenic changes resulting from chromosomal structural rearrangements, which are often undetectable by genetic mapping.
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Chakrabarti, S., C. J. Lanczycki, A. R. Panchenko, T. M. Przytycka, P. A. Thiessen, and S. H. Bryant. "Refining multiple sequence alignments with conserved core regions." Nucleic Acids Research 34, no. 9 (2006): 2598–606. http://dx.doi.org/10.1093/nar/gkl274.
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Newfeld, Stuart J., Richard W. Padgett, Seth D. Findley, et al. "Molecular Evolution at the decapentaplegic Locus in Drosophila." Genetics 145, no. 2 (1997): 297–309. http://dx.doi.org/10.1093/genetics/145.2.297.
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Using an elaborate set of cis-regulatory sequences, the decapentaplegic (dpp) gene displays a dynamic pattern of gene expression during development. The C-terminal portion of the DPP protein is processed to generate a secreted signaling molecule belonging to the transforming growth factor-β (TGF-β) family. This signal, the DPP ligand, is able to influence the developmental fates of responsive cells in a concentration-dependent fashion. Here we examine the sequence level organization of a significant portion of the dpp locus in Drosophila melanogaster and use interspecific comparisons with D. simulans, D. pseudoobscura and D.virilis to explore the molecular evolution of the gene. Our interspecific analysis identified significant selective constraint on both the nucleotide and amino acid sequences. As expected, interspecific comparison of protein coding sequences shows that the C-terminal ligand region is highly conserved. However, the central portion of the protein is also conserved, while the N-terminal third is quite variable. Comparison of noncoding regions reveals significant stretches of nucleotide identity in the 3′ untranslated portion of exon 3 and in the intron between exons 2 and 3. An examination of cDNA sequences representing five classes of dpp transcripts indicates that these transcripts encode the same polypeptide.
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Fisher, Robert F., Jean A. Swanson, John T. Mulligan, and Sharon R. Long. "Extended Region of Nodulation Genes in Rhizobium meliloti 1021. II. Nucleotide Sequence, Transcription Start Sites and Protein Products." Genetics 117, no. 2 (1987): 191–201. http://dx.doi.org/10.1093/genetics/117.2.191.
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ABSTRACT We have established the DNA sequence and analyzed the transcription and translation products of a series of putative nodulation (nod) genes in Rhizobium meliloti strain 1021. Four loci have been designated nodF, nodE, nodG and nodH. The correlation of transposon insertion positions with phenotypes and open reading frames was confirmed by sequencing the insertion junctions of the transposons. The protein products of these nod genes were visualized by in vitro expression of cloned DNA segments in a R. meliloti transcription-translation system. In addition, the sequence for nodG was substantiated by creating translational fusions in all three reading frames at several points in the sequence; the resulting fusions were expressed in vitro in both E. coli and R. meliloti transcription-translation systems. A DNA segment bearing several open reading frames downstream of nodG corresponds to the putative nod gene mutated in strain nod-216. The transcription start sites of nodF and nodH were mapped by primer extension of RNA from cells induced with the plant flavone, luteolin. Initiation of transcription occurs approximately 25 bp downstream from the conserved sequence designated the "nod box," suggesting that this conserved sequence acts as an upstream regulator of inducible nod gene expression. Its distance from the transcription start site is more suggestive of an activator binding site rather than an RNA polymerase binding site.
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Kim, Dae-Won, Sang-Haeng Choi, Ryong Nam Kim, et al. "Comparative genomic analysis of the false killer whale (Pseudorca crassidens) LMBR1 locus." Genome 53, no. 9 (2010): 658–66. http://dx.doi.org/10.1139/g10-043.
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The sequencing and comparative genomic analysis of LMBR1 loci in mammals or other species, including human, would be very important in understanding evolutionary genetic changes underlying the evolution of limb development. In this regard, comparative genomic annotation of the false killer whale LMBR1 locus could shed new light on the evolution of limb development. We sequenced two false killer whale BAC clones, corresponding to 156 kb and 144 kb, respectively, harboring the tightly linked RNF32, LMBR1, and NOM1 genes. Our annotation of the false killer whale LMBR1 gene showed that it consists of 17 exons (1473 bp), in contrast to 18 exons (1596 bp) in human, and it displays 93.1% and 95.6% nucleotide and amino acid sequence similarity, respectively, compared with the human gene. In particular, we discovered that exon 10, deleted in the false killer whale LMBR1 gene, is present only in primates, and this fact strongly implies that exon 10 might be crucial in determining primate-specific limb development. ZRS and TFBS sequences have been well conserved across 11 species, suggesting that these regions could be involved in an important function of limb development and limb patterning. The neighboring gene RNF32 showed several lineage-conserved exons, such as exons 2 through 9 conserved in eutherian mammals, exons 3 through 9 conserved in mammals, and exons 5 through 9 conserved in vertebrates. The other neighboring gene, NOM1, had undergone a substitution (ATG→GTA) at the start codon, giving rise to a 36 bp shorter N-terminal sequence compared with the human sequence. Our comparative analysis of the false killer whale LMBR1 genomic locus provides important clues regarding the genetic regions that may play crucial roles in limb development and patterning.
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Mushegian, Arcady R., and Eugene V. Koonin. "Sequence Analysis of Ewkaryotic Developmental Proteins: Ancient and Novel Domains." Genetics 144, no. 2 (1996): 817–28. http://dx.doi.org/10.1093/genetics/144.2.817.
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Abstract Most of the genes involved in the development of multicellular eukaryotes encode large, multidomain proteins. To decipher the major trends in the evolution of these proteins and make functional predictions for uncharacterized domains, we applied a strategy of sequence database search that includes construction of specialized data sets and iterative subsequence masking. This computational approach allowed us to detect previously unnoticed but potentially important sequence similarities. Developmental gene products are enriched in predicted nonglobular regions as compared to unbiased sets of eukaryotic and bacterial proteins. Developmental genes that act intracellularly, primarily at the level of transcription regulation, typically code for proteins containing highly conserved DNA-binding domains, most of which appear to have evolved before the radiation of bacteria and eukaryotes. We identified bacterial homologues, namely a protein family that includes the Escherichia coli universal stress protein UspA, for the MADS-box transcription regulators previously described only in eukaryotes. We also show that the FUS6 family of eukaryotic proteins contains a putative DNA-binding domain related to bacterial helix-turn-helix transcription regulators. Developmental proteins that act extracellularly are less conserved and often do not have bacterial homologues. Nevertheless, several provocative similarities between different groups of such proteins were detected.
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Yan, H. H., J. Mudge, D.-J. Kim, R. C. Shoemaker, D. R. Cook, and N. D. Young. "Comparative physical mapping reveals features of microsynteny between Glycine max, Medicago truncatula, and Arabidopsis thaliana." Genome 47, no. 1 (2004): 141–55. http://dx.doi.org/10.1139/g03-106.
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To gain insight into genomic relationships between soybean (Glycine max) and Medicago truncatula, eight groups of bacterial artificial chromosome (BAC) contigs, together spanning 2.60 million base pairs (Mb) in G. max and 1.56 Mb in M. truncatula, were compared through high-resolution physical mapping combined with sequence and hybridization analysis of low-copy BAC ends. Cross-hybridization among G. max and M. truncatula contigs uncovered microsynteny in six of the contig groups and extensive microsynteny in three. Between G. max homoeologous (within genome duplicate) contigs, 85% of coding and 75% of noncoding sequences were conserved at the level of cross-hybridization. By contrast, only 29% of sequences were conserved between G. max and M. truncatula, and some kilobase-scale rearrangements were also observed. Detailed restriction maps were constructed for 11 contigs from the three highly microsyntenic groups, and these maps suggested that sequence order was highly conserved between G. max duplicates and generally conserved between G. max and M. truncatula. One instance of homoeologous BAC contigs in M. truncatula was also observed and examined in detail. A sequence similarity search against the Arabidopsis thaliana genome sequence identified up to three microsyntenic regions in A. thaliana for each of two of the legume BAC contig groups. Together, these results confirm previous predictions of one recent genome-wide duplication in G. max and suggest that M. truncatula also experienced ancient large-scale genome duplications.Key words: Glycine max, Medicago truncatula, Arabidopsis thaliana, conserved microsynteny, genome duplication.