Sequence analysis of three tRNAPhe nuclear genes and a mutated gene,and one gene for tRNAAla from Arabidopsis thaliana

Three genes and one mutant gene for tRNA^Phe (GAA) and one gene for tRNA^Ala (UGC) were isolated from a whole-cell DNA library of Arabidopsis thaliana. All three tRNA^Phe genes are identical in their nucleotide sequence, but differ in their 5 and 3 flanking regions. The mutant tRNA^Phe (GAA) gene differs from the other three genes by one nucleotide change from highly conserved G to C at the 57th nucleotide position. The primary structure of the first tRNA^Ala gene was also determined in this experiment.     

Intron-containing tRNA genes ofSulfolobus solfataricus

Summary Nucleotide sequences of four tRNA genes from the archaebacteriumSulfolobus solfataricus have been determined. Based upon DNA sequence analysis, three of the four genes contain presumptive intervening sequences (introns) in their anticodon loops. The three introns can form similar, but not identical, secondary structures. The cleavage site at the 3 end of all three introns occurs in a three-base bulge loop. All four genes lack an encoded 3 CCA terminus and are flanked by A+T-rich DNA sequences. Two of the genes are located on antiparallel DNA strands, with their 3 termini separated by 414 bp of sequence. Including two previously published sequences, a total of five introns have now been detected among sixS. solfataricus tRNA genes. Occurrence of introns at corresponding locations in both archaebacterial and eukaryotic tRNA genes suggests that the intron/exon form of gene structure predates the evolutionary divergence of the archaebacteria and the eukaryotes.     

Partial purification and properties of guanosine triphosphate cyclohydrolase from Drosophila melanogaster

The first enzyme (named GTP cyclohydrolase) in the pathway for the biosynthesis of pteridines has been partially purified from extracts of late pupae and young adults of Drosophila melanogaster. This enzyme catalyzes the hydrolytic removal from GTP of carbon 8 as formate and the synthesis of 2-amino-4-hydroxy-6-(d-erythro-1,2,3-trihydroxypropyl)-7,8-dihydropteridine triphosphate (dihydroneopterin triphosphate). Some of the properties of the enzyme are as follows: it functions optimally at pH 7.8 and at 42 C; activity is unaffected by KCl and NaCl, but divalent cations (Mg²⁺, Mn²⁺, Zn²⁺, and Ca²⁺) are inhibitory; the K _m for GTP is 22 m; and the molecular weight is estimated at 345,000 from gel filtration experiments. Of a number of nucleotides tested, only GDP and dGTP were used to any extent as substrate in place of GTP, and these respective compounds were used only 1.8% and 1.5% as well as GTP.This work was supported by research grants from the National Institutes of Health (AM03442) and the National Science Foundation (GB33929).     

Conservation of the 3′-untranslated regions of calmodulin mRNAs in cetaceans

Three separate calmodulin (CaM) genes (I, II and III) encoding an identical CaM protein but differing in the 5- and 3-untranslated regions of each of the three mRNAs are present and highly conserved in all mammals (so far examined). Primers complementary to the 3- untranslated region (3UTR) of each of the three mRNAs occurring in human, rat and mouse were synthesized and used to amplify regions of the 3UTR from genomic DNA isolated from cetaceans, specifically from the bottled-nosed dolphin (Tursiops truncates), the pygmy sperm whale (Kogia breviceps) and the humpback whale (Megaptera novaeangliae). Using several primers and PCR conditions, the three CaM genes were identified in all three species by this method with one exception. The sequenced regions of the 3UTRs of the three genes of the cetaceans exhibited a high percentage identity when compared to the corresponding regions of these three CaM mRNAs isolated from humans (85-96%). These partial sequences of the 3UTR regions and the corresponding regions for humans, rats and mice that were available from the database were aligned and a phylogenetic tree was constructed. The three CaM genes from all species showed a close phylogenetic relationship based on these 3UTR sequences. Such high conservation of the 3UTRs suggests a specialized and significant function for this region in mammals.     

Stable transfer and expression of chimeric genes in licorice (Glycyrrhiza uralensis) using an Ri plasmid binary vector

The pharmaceutically important plant, licorice (Glycyrrhiza uralenesis Fisher), was transformed with a binary vector system of an Ri plasmid, pRi15834, and a mini Ti vector, pGSGluc1, containing chimeric neo and gus genes. The transgenic state of transformed roots was confirmed by detection of agropine and mannopine and by Southern blot hybridization with T-DNA of pGSGluc1. One to three copies of T-DNA of pGSGluc1 was integrated into the genomic DNA of G. uralensis. The expression of chimeric neo and gus genes driven by TR 1 and 2 promoters, respectively, was demonstrated by enzymatic assays. Histochemical analysis showed that the chimeric TR2-gus gene was expressed specifically in phloem and pericycle tissues of the transformed licorice roots.Abbreviations NPT-II neomycin phosphotransferase II - neo NPT-II gene from Tn5 - GUS ß-glucuronidase - gus GUS gene from Escherichia coli - TR 1–2 genes 1 and 2 of TR-DNA of pTiAch5 - Rif rifampicin     

Three extra copies of a C4-related gene in H-2 w7 mice are C4/Slp hybrid genes generated by multiple recombinational events

Mice bearing the H-2 _w7 haplotype have five C4-related genes and constitutively express the Slp antigen. To understand the structure and evolution of the five C4-related genes of the C3H.W7 mouse, we have determined nucleotide sequences of the 5 end region of these genes. A C4/Slp hybrid nature was confirmed for three of five C4-related genes as predicted previously by restriction enzyme analysis. The nucleotide sequences of the 5 flanking regions of these three hybrid genes showed close similarity to that of the C4 gene, while the 3 side of the ninth exon of the three hybrid genes showed close similarity to that of the Slp gene. In contrast, the regions between the first exon and the middle of the ninth exon of the three hybrid genes showed a mosaic structure of C4-like and Slp-like sequences. Moreover, the boundaries of the C4-like and Slp-like sequences were quite different among the three hybrid genes. The pattern of nucleotide sequence diversity in this region among the five C4-related sequences could be mainly explained not by point mutations but by gene conversions or unequal crossovers. These results suggest that multiple genetic recombinational events between two homologous sequences played an important role in the generation and diversification of the extra copies of the C4/Slp gene in the H-2 ^w7 mouse.The nucleotide sequence data reported in this paper have been submitted to the DDBJ, EMBL, and GenBank nucleotide sequence databases and have been assigned the accession numbers D90167-71.     

Genomic characterization ofCampylobacter jejuni by field inversion gel electrophoresis

The genome ofCampylobacter jejuni was characterized by field inversion gel electrophoresis (FIGE) after digestion with three rare-cutting restriction endonucleases. The restriction enzymesSac II (5-CCGCGG),Sal I (5-GTCGAC), andSma I (5-CCCGGG) were found to produce 13, 5, and 8 fragments respectively from theC. jejuni genome. The fragment sizes ranged from 1.6 kb to 1300 kb, which gaveC. jejuni a genome size of approximately 1900 kb. Furthermore, thegly A and rRNA genes ofC. jejuni were localized to specific fragments by use of Southern analysis, and thegly A gene was shown to be closely linked to one of the three rRNA genes.     

Sequence and functional analysis of the left-hand part of the T-region from the nopaline-type Ti plasmid,pTiC58

The Agrobacterium tumefaciens nopaline strain C58 transfers a large, 29 kb T-DNA into plant cells during infection. Part of this DNA (the `common DNA') is also found on the T-DNA of octopine strains, the remaining DNA is nopaline strain-specific. Up to now, only parts of the C58 T-DNA and related T37 T-DNA have been sequenced. We have sequenced the remainder of the nopaline-specific T-DNA (containing genes a to d) and acs to iaaM. Gene c codes for a new unknown T-DNA protein. Gene a is homologous to the agrocinopine synthase gene. Genes b, c, d and e are part of a larger family: they are related to the T-DNA genes 5, rolB, lso and 3. Genes 5, rolB and lso induce or modify plant growth and have been called T-DNA oncogenes. Our studies show that gene 3 (located on the TR-DNA of octopine strains) is also oncogenic. Although the b–e T-DNA fragment from C58 and its individual genes lack growth-inducing activity, an a-acs deletion mutant was distinctly less virulent on Kalanchoe daigremontiana and showed reduced shoot formation on Kalanchoe tubiflora. Shoot formation could be restored by genes c and c in co-infection experiments. Contrary to an earlier report, a C58 e gene deletion mutant was fully virulent on all plants tested.     

The intron of Arabidopsis thaliana polyubiquitin genes is conserved in location and is a quantitative determinant of chimeric gene expression

We have isolated and determined DNA sequence for the 5-flanking regions of three Arabidopsis thaliana polyubiquitin genes, UBQ3, UBQ10, and UBQ11. Comparison to cDNA sequences revealed the presence of an intron in the 5-untranslated region at the same position immediately upstream of the initiator methionine codon in each of the three genes. An intron at this position is also present in two sunflower and two maize polyubiquitin genes. An intron is also found in the 5-untranslated regions of several animal polyubiquitin genes, although the exact intron position is not conserved among them, and none are in the same position as those in the higher plant polyubiquitin genes. Chimeric genes containing the 5-flanking regions of UBQ3, UBQ10, and UBQ11 in front of the coding regions for the reporter enzyme Escherichia coli -glucuronidase (GUS) were constructed. When introduced transiently into Arabidopsis leaves via microprojectile bombardment, all resulted in readily detectable levels of GUS activity that were quantitatively similar. The introns of UBQ3 and UBQ10 in the corresponding promoter fragments were removed by replacement with flanking cDNA sequences and chimeric genes constructed. These constructs resulted in 2.5- to 3-fold lower levels of marker enzyme activity after transient introduction into Arabidopsis leaves. The UBQ10 promoter without the 5 intron placed upstream of firefly luciferase (LUX) resulted in an average of 3-fold lower LUX activity than from an equivalent construct with the UBQ10 intron. A UBQ3 promoter cassette was constructed for the constitutive expression of open reading frames in dicot plants and it produced readily detectable levels of GUS activity in transient assays.     

Characterization and mapping of the gene encoding mouse proteasome subunit DELTA (Lmp19)

The proteasome subunit DELTA is unusually closely related to the major histocompatibility complex (MHC)-linked proteasome subunit, LMP2. The sequence of a mouse cDNA for DELTA confirms that this 22 100 M _r proteasome subunit is highly conserved across species. Sequence analysis of the mouse gene encoding DELTA, designated Lmp19, indicates that it consists of six exons and five introns, similar to the Lmp2 gene. The 5 upstream region lacks a TATA regulatory sequence, which is also absent from proteasome genes isolated from Drosophila. BXD recombinant inbred (RI) mice were used to map the potential chromosomal location of Lmp19, and revealed that the DELTA subunit has related sequences present on two different mouse chromosomes, chromosomes 1 and 11. Typing of 89 progeny from a C57BL/6J X Mus spretus DNA backcross panel (BSS) confirmed the chromosome 1 assignment. Southern hybridization with a polymerase chain reaction-generated Lmp19 intron 2-specific probe indicates that the Lmp19 genomic clone corresponds to the sequence on chromosome 11, and further suggests that the chromosome 1 copy represents a processed pseudogene (Lmp19-ps1).     

Complement component C4 gene intron 9 as a phylogenetic marker for primates: long terminal repeats of the endogenous retrovirus ERV-K(C4) are a molecular clock of evolution

The complement component C4 genes of Old World primates exhibit a long/short dichotomous size variation, except that chimpanzee and gorilla only contain short C4 genes. In human it has been shown that the long C4 gene is attributed to the integration of an endogenous retrovirus, HERV-K(C4), into intron 9. This 6.36 kilobase retroviral element is absent in short C4 genes. Here it is shown that the homologous endogenous retrovirus, ERV-K(C4), is present precisely at the same position in the long C4 gene of orangutan and African green monkey. Determination of the short C4 gene intron 9 sequences from human, three apes, two Old World monkeys, and a New World monkey allowed the establishment of consistent phylogenetic trees for primates, which favors a chimpanzee-gorilla clade. The 5 long terminal repeats (LTR) and 3 LTR of ERV-K(C4) in long C4 genes of human, orangutan, and African green monkey have similar sequence divergence values of 9.1%–10.5%. These values are more than five-fold higher than the sequence divergence of the homologous intron 9 sequences between the long and short C4 genes in higher primates. The latter is probably a result of homogenization or concerted evolution. We suggest that the 5 LTR and 3 LTR of an endogenous retrovirus can serve as a reliable reference point or a molecular clock for studies of gene duplication and gene evolution. This is because the 5/3 LTR sequences were identical at the time of retroviral integration and evolved independently of each other afterwards. Our data provides strong evidence for the short C4 gene being the ancestral form in primates, trans-species evolution, and the slow-down phenomenon of the sequence divergence in great apes.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers L38796-L38807     

"Nick translation" in Escherichia coli rep strains deficient in DNA polymerase I activities.

Summary Using X174 replicative form (RF) DNA as an in vivo probe, we have investigated the coordinated action of the 53 exonuclease and polymerase activities of DNA polymerase I in order to understand better its physiological role. We constructed double mutants containing the rep mutation (the replication of X174 RF does not occur in rep mutants) together with a mutation affecting DNA polymerase I, either polA12 or polA546ex. Using these mutants, which are believed to be thermosensitive in the polymerase function or the 53 exonuclease function respectively, we studied the kinetics of nick translation at the permissive and non-permissive temperatures in vivo. The substrate was the X174 replicative form DNA nicked by the X174 gene A protein. E. coli rep polA546ex gave the lowest rate of nick translation, although the ability to perform nick translation, at least as measured by our assay, was still present. E. coli rep polA12 showed a similar low rate at the non-permissive temperature but a rate close to the wildtype level at the permissive temperature. Formation of the parental replicative form molecule in either strain was affected little, even at the restrictive temperature. Our results suggest that DNA polymerase I may not play a major role in ongoing DNA replication.     

Organization of the histone H3 and H4 multigenic families in maize and in related genomes

Summary Five cloned histone H3 and H4 genes from maize have specific 5 non-transcribed regions. Blot hybridization of each 5 region to DNA from different maize inbred lines showed that the H3 and H4 multigenic families are organized into subfamilies. Each subfamily has a specific environment and contains a different (from 4–16) number of gene copies. H3 and H4 subfamilies with similar environments as those found in maize were shown to exist in the genomes of more or less related plants, including perennial teosinte, sorgho, sugar cane and Coïx. Such observations may contribute to establishing phylogenetic relationships at a molecular level between different plants and thus highlight some of the evolutionary mechanisms of the genomes of higher plants.     

Genetic manipulation of the restricted facultative methylotroph Hyphomicrobium X by the R-plasmid-mediated introduction of the Escherichia coli pdh genes

The inability of Hyphomicrobium X to grow on compounds such as pyruvate and succinate is most likely due to the absence of a functional pyruvate dehydrogenase (PDH) complex. Further support for this was sought by studying the effect of the introduction of the Escherichia coli pdh genes in Hyphomicrobium X on the pattern of substrate utilization by the latter organism. These genes were cloned by in vivo techniques using the broad-host range conjugative plasmid RP4: :Mucts. Plasmid RP4 derivatives containing pdh genes were selected by their ability to complement a pyruvate dehydrogenase deletion mutant of E. coli, strain JRG746 recA (ace-1pd) 18. The plasmids thus obtained could be transferred through an intermediary host (C600 recA), selecting only for an antibiotic resistance coded for by RP4 and back into JRG746 or other E. coli pdh mutants, upon which they still conferred the wild type phenotype. Enzyme assays showed that the latter strains, when carrying plasmid RP4 pdh1 also possessed PDH complex activity. Conjugation between the auxotrophic E. coli JRG746 (RP4 pdh1) strain and Hyphomicrobium X on pyruvate minimal agar gave rise to progeny which, on the basis of its morphology (stalked bacteria), their ability to grow on C₁-compounds and to denitrify (now also with pyruvate) were identified as hyphomicrobia. This Hyphomicrobium X transconjugant was also able to grow in minimal medium with succinate, but no other novel growth substrates have been identified so far. An analysis of protein extracts with 2-dimensional gel electrophoresis indicated that Hyphomicrobium X and JRG746 only synthesized all three components of the PDH complex when carrying plasmid RP4 pdh1. These results are compatible with the suggested significance of the lack of a functional PDH complex in wild type Hyphomicrobium X.Abbreviations PDH pyruvate dehydrogenase - TCA tricarboxylic acid Dedicated to Prof. H. G. Schlegel on the occasion of his 60th birthday     

The structure and evolution of the human salivary proline-rich protein gene family

We present the nucleotide sequences of four members of the six-member human salivary prolinerich protein (PRP) gene family. The four genes are PRB1 and PRB2, which encode basic PRPs, and PRB3 and PRB4, which encode glycosylated PRPs. Each PRB gene is approximately 4.0 kb in length and contains four exons, the third of which is entirely composed of 63-bp tandem repeats and encodes the proline-rich portion of the protein products. Exon 3 contains different numbers of tandem repeats in the different PRB genes. Variation in the numbers of these repeats is also responsible for length variations in different alleles of the PRB genes. We have determined a probable evolutionary history of the human PRP gene family by comparing the nucleotide sequences of the six PRP genes. The present-day six PRP loci probably evolved from a single ancestral gene by four sequential gene duplications, leading to six genes that fall into three subsets, each consisting of two genes. During this evolutionary process, multiple rearrangements and gene conversion occurred mainly in the region from the 3 end of IVS2 and the 3 end of exon 3.     

A physical and genetic map of theCorynebacterium glutamicum ATCC 13032 chromosome

A combined physical and genetic map of theCorynebacterium glutamicum ATCC 13032 chromosome was constructed using pulsed-field gel electrophoresis (PFGE) and hybridizations with cloned gene probes. Total genomic DNA was digested with the meganucleasesSwaI (5-ATTTAAAT-3),PacI (5-TTAATTAA-3), andPmeI (5-GTTTAAAC-3) yielding 26, 27, and 23 fragments, respectively. The chromosomal restriction fragments were then separated by PFGE. By summing up the lengths of the fragments generated with each of the three enzymes, a genome size of 3082 +/- 20 kb was determined. To identify adjacentSwaI fragments, a genomic cosmid library ofC. glutamicum was screened for chromosomal inserts containingSwaI sites. Southern blots of the PFGE gels were hybridized with these linking clones to connect theSwaI fragments in their natural order. By this method, about 90% of the genome could be ordered into three contigs. Two of the remaining gaps were closed by cross-hybridization of blottedSwaI digests using as probesPacI andPmeI fragments isolated from PFGE gels. The last gap in the chromosomal map was closed by hybridization experiments using partialSwaI digestions, thereby proving the circularity of the chromosome. By hybridization of gene probes toSwaI fragments separated by PFGE about 30 genes, including rRNA operons, IS element and transposon insertions were localized on the physical map.