Gene distribution and nucleotide sequence organization in the mouse genome

Mouse DNA was fractionated by preparative centrifugation in density gradients of Cs2SO4 containing 3,6-bis(acetatomercurimethyl)dioxane (BAMD). The effects of temperature, BAMD/nucleotide molar ratio and solvent on the fractionation were explored. The fractions so obtained were investigated by analytical centrifugation in CsCl density gradient and by hybridization with a number of gene probes. These approaches led to the definition of satisfactory conditions for the rapid fractionation of mouse DNA; to the localization of a number of genes in mouse DNA fractions; and to a better understanding of the mosaic organization of the mouse genome and, more specifically, to a better estimate of both the intermolecular and intramolecular compositional heterogeneity of mouse DNA in the (75-150) X 10(3)-base size range.     

Complete nucleotide sequence and genome organization of bovine parvovirus.

We determined the complete nucleotide sequence of bovine parvovirus (BPV), an autonomous parvovirus. The sequence is 5,491 nucleotides long. The terminal regions contain nonidentical imperfect palindromic sequences of 150 and 121 nucleotides. In the plus strand, there are three large open reading frames (left ORF, mid ORF, and right ORF) with coding capacities of 729, 255, and 685 amino acids, respectively. As with all parvoviruses studied to date, the left ORF of BPV codes for the nonstructural protein NS-1 and the right ORF codes for the major parts of the three capsid proteins. The mid ORF probably encodes the major part of the nonstructural protein NP-1. There are promoterlike sequences at map units 4.5, 12.8, and 38.7 and polyadenylation signals at map units 61.6, 64.6, and 98.5. BPV has little DNA homology with the defective parvovirus AAV, with the human autonomous parvovirus B19, or with the other autonomous parvoviruses sequenced (canine parvovirus, feline panleukopenia virus, H-1, and minute virus of mice). Even though the overall DNA homology of BPV with other parvoviruses is low, several small regions of high homology are observed when the amino acid sequences encoded by the left and right ORFs are compared. From these comparisons, it can be shown that the evolutionary relationship among the parvoviruses is B19 in equilibrium with AAV in equilibrium with BPV in equilibrium with MVM. The highly conserved amino acid sequences observed among all parvoviruses may be useful in the identification and detection of parvoviruses and in the design of a general parvovirus vaccine.     

Gene distribution and isochore organization in the nuclear genome of plants.

The genomic distribution of 23 nuclear genes from three dicotyledons (pea, sunflower, tobacco) and five monocotyledons of the Gramineae family (barley, maize, rice, oat, wheat) was studied by localizing these genes in DNA fractions obtained by preparative centrifugation in Cs2SO4/BAMD density gradients. Each one of these genes (and of many other related genes and pseudogenes) was found to be located in DNA fragments (50-100 Kb in size) that were less than 1-2% GC apart from each other. This definitively demonstrates the existence of isochores in plant genomes, namely of compositionally homogeneous DNA regions at least 100-200 Kb in size. Moreover, the GC levels of the 23 coding sequences studied, of their first, second and third codon positions, and of the corresponding introns were found to be linearly correlated with the GC levels of the isochores harboring those genes. Compositional correlations displayed increasing slopes when going from second to first to third codon position with obvious effects on codon usage. Coding sequences for seed storage proteins and phytochrome of Gramineae deviate from the compositional correlations just described. Finally, CpG doublets of coding sequences were characterized by a shortage that decreased and vanished with increasing GC levels of the sequences. A number of these findings bear a striking similarity with results previously obtained for vertebrate genes.     

Genomic organization and nucleotide sequence of a long mosaic repetitive DNA in the mouse genome

A long mosaic repetitive sequence (LMRS) was isolated from a mouse liver genome library using a mouse repetitive DNA as a probe. LMRS exhibits the following features: (1) it is almost 15 kb in length; (2) it is partly organized in tandem array and frequently interrupted by other repeated sequences; and (3) it is located predominantly on the A3 band of the mouse X Chromosome (Chr). One fragment of LMRS (B6) shows restriction fragment length polymorphism (RFLP) between different mouse strains, and is thus potentially useful for mapping studies. The nucleotide sequence confirms a mosaic organization of LMRS which includes three repeats in the 5 part, showing similarity with the 5 end of L1Md-A2, and seven long A+T rich segments in the central part of the element. Our findings suggest that this sequence may have arisen from the duplication of an ancestral motif and has expanded by successive waves of amplification and invasion by foreign sequences.The nucleotide sequence data reported in this paper have been submitted to EMBL and have been assigned the accession number X55036.     

Complete nucleotide sequence and the genome organization of tobacco leaf curl geminivirus from Japan

The genomic DNA of tobacco leaf curl geminivirus (TLCV) from tomato plants with leaf curl disease in Japan has been sequenced. The single circular DNA molecule comprises 2,761 nucleotides. TLCV DNA contains six open reading frames (ORFs) capable of encoding proteins with a molecular weight greater than 10 K. In total nucleotide sequence comparisons with other geminiviruses, TLCV was most closely related to tomato leaf curl virus from Taiwan (TwToLCV) (76% identity), tomato leaf curl virus from Bangalore (ToLCV-Ba) (74%) and agerantum yellow vein virus (AYVV) (74%), all possessing a monopartite genome. The significant but relatively low sequence similarity in the genomic DNA between TLCV and other geminiviruses suggests it is a distinct geminivirus in genus Begomovirus.     

Complete nucleotide sequence and genome organization of tobacco mosaic virus isolated fromVicia faba

Based on reported TMV-U1 sequence, primers were designed and fragments covering the entire genome of TMV broad bean strain (TMV-B) were obtained with RT-PCR. These fragments were cloned and sequenced and the 5’ and 3’ end sequences of genome were confirmed with RACE. The complete sequence of TMV-B comprises 6 395 nucleotides (nt) and four open reading frames, which correspond to 126 ku (1 116 amino acids), 183 ku (1 616 amino acids), 30 ku (268 amino acids) and 17.5 ku proteins (159 amino acids). The complete nucleotide sequence of TMV-B is 99.4% identical to that of TMV-U1. The two virus isolates share the same sequence of 5’, 3’ non-coding region and 17.5 K ORF, and 6, 1 and 3 amino acid changes are found in 126 K protein, 54 K protein and 30 K protein, respectively. The possible mechanism on the infection of TMV-B inVicia faba is discussed. The EMBL accession number of the sequence reported in this paper is AJ011933.     

Complete nucleotide sequence and genome organization of tobacco mosaic virus isolated from Viciafaba

Based on reported TMV-U1 sequence, primers were designed and fragments covering the entire genome of TMV broad bean strain (TMV-B) were obtained with RT-PCR. These fragments were cloned and sequenced and the 5' and 3' end sequences of genome were confirmed with RACE. The complete sequence of TMV-B comprises 6 395 nucleotides (nt) and four open reading frames, which correspond to 126 ku (1 116 amino acids), 183 ku (1 616 amino acids), 30 ku (268 amino acids) and 17.5 ku proteins (159 amino acids). The complete nucleotide sequence of TMV-B is 99.4% identical to that of TMV-U1. The two virus isolates share the same sequence of 5', 3' non-coding region and 17.5 K ORF, and 6, 1 and 3 amino acid changes are found in 126 K protein, 54 K protein and 30 K protein, respectively. The possible mechanism on the infection of TMV-B in Vicia faba is discussed.     

The complete nucleotide sequence and its organization of the genome of Barley yellow dwarf virus-GAV

The complete nucleotide sequence of genomic RNA of BYDV-GAV was determined. It comprised 5685 nucleotides and contained six open reading frames and four un-translated regions. The size and organization of BYDV-GAV genome were similar to those of BYDV PAV-aus. The nucleotide and deduced amino acid sequences of the six ORFs were aligned and compared with those of other luteoviruses. The results showed that there was a high degree of identity between BYDV-GAV and MAV-PS1 in all ORFs except ORF5 and ORF6, which had only 87.4% and 70.2% identities respectively. The reported genomic nucleotide sequence of MAV was shorter than that of BYDV-GAV, but the comparison of the genomic nucleotide sequences for MAV-PS1 and GAV showed 90.4% sequence identity for the same region of the genome. According to the level of sequence similarities, BYDV-GAV should be closely related to BYDV-MAV.     

The complete nucleotide sequence and its organization of the genome of Barley yellow dwarf virus-GAV

The Barley yellow dwarf disease (BYD) was firstly recognized as an aphid transmitted virus disease by Oswald and Houston[1] in 1951. Now, Barley yel-low dwarf viruses (BYDVs) belong to members of the plant virus family Luteoviridae. They are phloem- limited and obligately transmitted in the circula-tive/persistent manner by several species of cereal aphids and can cause significant economic losses worldwide because of damage to barley, wheat, and oats. In China, BYDVs cause mainly yello…     

First complete nucleotide sequence and heterologous gene organization of the two rRNA operons in the phytoplasma genome

Phytoplasmas are cell-wallless Gram-positive low G + C bacteria belonging to the Mollicutes that inhabit the cytoplasm of plants and insects. Although phytoplasmas possess two ribosomal RNA (rrn) operons, only one has been fully sequenced. Here, we determined the complete nucleotide sequence of both rrn operons (designated rrnA and rrnB) of onion yellows (OY) phytoplasma. Both operons have rRNA genes organized as 5'-16S-23S-5S-3' with very highly conserved sequences; the 16S, 23S, and 5S rRNA genes are 99.9, 99.8, and 99.1% identical between the two operons. However, the organization of tRNA genes in the upstream region from 16S rRNA gene and in the downstream region from 5S rRNA gene differs markedly. Several promoter candidates were detected upstream from both operons, which suggests that both operons are functional. Interestingly, both have a tRNA(Ile) gene in the 16S-23S spacer region, while the reported rrnB operon of loofah witches' broom phytoplasma does not, indicating heterogenous gene organization of rrnB within phytoplasmas. The phytoplasma tRNA gene organization is similar to that of acholeplasmas, a closely related mollicute, and different from that of mycoplasmas, another mollicute. Moreover, the organization suggests that the rrn operons were derived from that of a related nonmollicute bacterium, Bacillus subtilis. This data should shed light on the evolutionary relationships and phylogeny of the mollicutes.     

Complete nucleotide sequence and genome organization of a Drosophila transposable genetic element, 297

The complete nucleotide sequence of 297, a Drosophila copia-like transposable element, was determined and compared with those of other similar Drosophila elements and mammalian retrovirus proviruses. It was found that 297 contains three long open reading frames, comparable in sizes and locations with gag, pol, and env genes in the proviruses of replication-competent retroviruses in vertebrates. The first and second open reading frames of 297 exhibit sequence homologies to gag and pol, respectively, of Moloney murine leukaemia virus. In particular, as with 17.6, another Drosophila copia-like element, the second open reading frame of 297 was shown to be very similar in its entire organization to the retroviral pol gene and to consist of three enzymatic domains. By contrast, no appreciable homology was found between the third open reading frame of 297 and the retroviral env gene. It is also suggested that 297 and 17.6 are a peculiar pair of copia-like elements recently diverged from a common progenitor.     

The mitochondrial genome of Saprolegnia ferax: organization, gene content and nucleotide sequence

The mitochondrial genome of the peronosporomycete water mold Saprolegnia ferax has been characterized as a 46 930 bp circle containing an 8618 bp large inverted repeat (LIR). Eighteen reading frames encode identified subunits of respiratory complexes I, III, IV and V; 16 encode polypeptides of small and large mitoribosome subunits; and one encodes a subunit of the sec-independent protein translocation pathway. Of four additional putative reading frames three are homologues of those found in the related Phytophthora infestans genome. Protein encoding loci in the tightly compacted genome typically are arranged in operon-like clusters including three abutting and two overlapping pairs of reading frames. Translational RNAs include the mitochondrial small and large subunit rRNAs and 25 tRNA species. No tRNAs are encoded to enable translation of any threonine or the arginine CGR codons. The LIR separates the molecule into 19 274 bp large and 10 420 bp small single copy regions, and it encodes intact duplicate copies of four reading frames encoding known proteins, both rRNAs, and five tRNAs. Partial 3' sequences of three additional reading frames are duplicated at single copy sequence junctions. Active recombination between LIR elements generates two distinctive gene orders and uses the duplicated 3' sequences to maintain intact copies of the partially duplicated loci.     

A densovirus of German cockroach Blatella germanica: detection,nucleotide sequence and genome organization

A new Blattella germanica densovirus (BgDNV, Parvoviridae: Densovirinae, Densovirus) was found. Virus DNA and cockroach tissues infected with BgDNV were examined by electron microscopy. Virus particles about 20 nm in diameter were observed both in the nucleus and in the cytoplasm of infected cells. Virus DNA proved to be a linear molecule sized about 1.2 microns. The complete BgDNV genome was sequenced and analyzed. Five ORF were detected: two coded for structural capsid proteins and were on one DNA strand, and three coded for regulatory proteins and were on the other strand. Potential promoters and polyadenylation signals were identified. Structural analysis was performed for terminal inverted repeats containing extended palindromes. The genome structure of BgDNV was compared with that of other Parvoviridae.     

The complete nucleotide sequence and gene organization of carp (Cyprinus carpio) mitochondrial genome

The complete sequence of the carp mitochondrial genome of 16,575 base pairs has been determined. The carp mitochondrial genome encodes the same set of genes (13 proteins, 2 rRNAs, and 22 tRNAs) as do other vertebrate mitochondrial DNAs. Comparison of this teleostean mitochondrial genome with those of other vertebrates reveals a similar gene order and compact genomic organization. The codon usage of proteins of carp mitochondrial genome is similar to that of other vertebrates. The phylogenetic relationship for mitochondrial protein genes is more apparent than that for the mitochondrial tRNA and rRNA genes.Correspondence to: F. Huang     

The chloroplast genome of mulberry: complete nucleotide sequence, gene organization and comparative analysis

The complete nucleotide sequence of mulberry (Morus indica cv. K2) chloroplast genome (158,484 bp) has been determined using a combination of long PCR and shotgun-based approaches. This is the third angiosperm tree species whose plastome sequence has been completely deciphered. The circular double-stranded molecule comprises of two identical inverted repeats (25,678 bp each) separating a large and a small single-copy region of 87,386 bp and 19,742 bp, respectively. A total of 83 protein-coding genes including five genes duplicated in the inverted repeat regions, eight ribosomal RNA genes and 37 tRNA genes (30 gene species) representing 20 amino acids, were assigned on the basis of homology to predicted genes from other chloroplast genomes. The mulberry plastome lacks the genes infA, sprA, and rpl21 and contains two pseudogenes ycf15 and ycf68. Comparative analysis, based on sequence similarity, both at the gene and genome level, indicates Morus to be closer to Cucumis and Lotus, phylogenetically. However, at genome level, inclusion of non-coding regions brings it closer to Eucalyptus, followed by Cucumis. This may reflect differential selection pressure operating on the genic and intergenic regions of the chloroplast genome.Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.Communicated by Y. Tsumura     

Complete nucleotide sequence and genome organization of tobacco mosaic virus isolated fromVicia faba

Based on reported TMV-U1 sequence, primers were designed and fragments covering the entire genome of TMV broad bean strain (TMV-B) were obtained with RT-PCR. These fragments were cloned and sequenced and the 5’ and 3’ end sequences of genome were confirmed with RACE. The complete sequence of TMV-B comprises 6 395 nucleotides (nt) and four open reading frames, which correspond to 126 ku (1 116 amino acids), 183 ku (1 616 amino acids), 30 ku (268 amino acids) and 17.5 ku proteins (159 amino acids). The complete nucleotide sequence of TMV-B is 99.4% identical to that of TMV-U1. The two virus isolates share the same sequence of 5’, 3’ non-coding region and 17.5 K ORF, and 6, 1 and 3 amino acid changes are found in 126 K protein, 54 K protein and 30 K protein, respectively. The possible mechanism on the infection of TMV-B inVicia faba is discussed.     

Analysis of the distribution of the nucleotide sequence and electrostatic potential of the Escherichia coli genome

The oligonucleotide composition of the E. coli genome and its sigma70-specific promoters has been analyzed. The promoter DNA was shown to contain mainly AT-rich hexanucleotides having functionally important physical properties such as the ability to form easily melting sites and induce the bending of the double helix. A comparative analysis of the electrostatic characteristics of hexanucleotides within the whole sequence of the E. coli genome and its promoter regions was made. Hexanucleotides possessing a more electronegative surrounding were found to predominate in the nucleotide sequence of the promoter DNA.