Regions of the human genome containing homologs of the oncogenes and retrovirus genes. 3. The primary structure of the mos-related region CL-1 from the ORAgp5 locus

The nucleotide sequence of 686 bp from the cloned human genome locus gp5 has been determined. Analysis of this sequence has revealed a statistically significant homology with both the viral and murine mos genes. The region of mos homology contains two adjacent homologous domains, whereas their counterparts in viral mos gene are separated by 471 bp. The position of mos homologous region in the close vicinity to LTR of endogenous human viral-like repeat is in accordance with the hypothesis of retroviral involvement in the process of mos gene amplification.     

Segments of the human genome, containing analogs of oncogenes and retrovirus genes. 4. Primary structure of the mos-related AO section of the ORAgp5 locus

AO region (884 b.p.) of ORAgp5 locus has been sequenced and proved to contain mos-related regions, as well as fragments structurally similar to proretroviral elements and Alu repeats. The data obtained are in accordance with earlier hypotheses on retroviral involvement in mos gene family generation and the role of Alu repeat insertion in the inactivation of mos-related genes. Molecular hybridisation studies showed the structural conservation of the segment in ORAgp5 locus comprising the AO region among higher primates. These data indicate that AO region of ORAgp5 was formed not later than 65-70 MYR ago and that the present structure of this region was kept during last 50 MYR.     

Expression in mouse L cells of mos-related ORAgp5 locus cloned from the human genome]

The recombinant locus ORAgp5 containing the regions homologous to protooncogene mos was previously cloned from the human genome. In order to monitor the expression of this human genome region, we have transfected the recombinant phage gp5 into mouse LMtk cells. One of these transfectants contained several copies of gp5. ORAgp5 sequences were found to be expressed in 1.5 kb RNA from this clone.     

Roles of genes 44, 50, and 51 in regulating gene expression and host takeover during infection of Bacillus subtilis by bacteriophage SPO1

We show that the products of SPO1 genes 44, 50, and 51 are required for the normal transition from early to middle gene expression during infection of Bacillus subtilis by bacteriophage SPO1; that they are also required for control of the shutoff of host DNA, RNA, and protein synthesis; and that their effects on host shutoff could be accounted for by their effects on the regulation of gene expression. These three gene products had four distinguishable effects in regulating SPO1 gene expression: (i) gp44-50-51 acted to restrain expression of all SPO1 genes tested, (ii) gp44 and/or gp50-51 caused additional specific repression of immediate-early genes, (iii) gp44 and/or gp50-51 stimulated expression of middle genes, and (iv) gp44 and/or gp50-51 stimulated expression of some delayed-early genes. Shutoff of immediate-early gene expression also required the activity of gp28, the middle-gene-specific sigma factor. Shutoff of host RNA and protein synthesis was accelerated by either the 44- single mutant or the 50(-)51(-) double mutant and more so by the 44(-)50(-)51(-) triple mutant. Shutoff of host DNA synthesis was accelerated by the mutants early in infection but delayed by the 44(-)50(-)51(-) triple mutant at later times. Although gp50 is a very small protein, consisting almost entirely of an apparent membrane-spanning domain, it contributed significantly to each activity tested. We identify SPO1 genes 41 to 51 and 53 to 60 as immediate-early genes; genes 27, 28, and 37 to 40 as delayed-early genes; and gene 52 as a middle gene.     

Application of non-radioactive methods of DNA detection in analysis of human genetic disorders

We have applied two non-radioactive methods for detection of unique sequences in human genome: 1 polymerase chain reaction, 2 hybridization with digoxigenin-deoxyuridine 5-triphosphate labeled probes. With the polymerase chain reaction technique we were able to amplify short segments of genes coding for coagulation factors VIII and IX. Electrophoretical analysis of products of polymerase chain reaction enabled us to detect deletions causing hemophilia A or B. To analyse deletions in dystrophin gene, the most frequent cause of Duchenne muscular dystrophy, we have amplified several different fragments of this gene simultaneously. We have studied restriction fragment length polymorphism closely linked to the cystic fibrosis locus with digoxigenin-deoxyuridine 5 -triphosphate labeled probe p3.11 with sensitivity comparable to methods involving the use of radioisotopes.     

Dynamics of the evolution of orthologous and paralogous portions of a complex locus region in two genomes of allopolyploid wheat

Two overlapping bacterial artificial chromosome (BAC) clones from the B genome of the tetraploid wheat Triticum turgidum were identified, each of which contains one of the two high-molecular-weight (HMW) glutenin genes, comprising the complex Glu-B1 locus. The complete sequence (285 506 bp of DNA) of this chromosomal region was determined. The two paralogous x-type ( Glu-1-1 ) and y-type ( Glu-1-2 ) HMW-glutenin genes of the complex Glu-B1 locus were found to be separated by ca. 168 000 bp instead of the 51 000 bp separation previously reported for the orthologous Glu-D1 locus of Aegilops tauschii, the D-genome donor of hexaploid wheat. This difference in intergene spacing is due almost entirely to be the insertion of clusters of nested retrotransposons. Otherwise, the orientation and order of the HMW glutenins and adjacent genes were identical in the two genomes. A comparison of these orthologous regions indicates modes and patterns of sequence divergence, with implications for the overall Triticeae genome structure and evolution. A duplicate globulin gene, found 5' of each HMW-glutenin gene, assists to tentatively define the original duplication event leading to the paralogous x- and y-type HMW-glutenin genes. The intergenic regions of the two loci are composed of different patterns and classes of retrotransposons, indicating that insertion times of these retroelements were after the divergence of the two wheat genomes. In addition, a putative receptor kinase gene near the y-type HMW-glutenin gene at the Glu-B1 locus is likely active as it matches recently reported ESTs from germinating barley endosperm. The presence of four genes represented only in the Triticeae endosperm ESTs suggests an endosperm-specific chromosome domain.     

Discovery of gene families and alternatively spliced variants by RecA-mediated cloning

Probing the functional complexity of the human genome will require new gene cloning techniques, not only to discover intraspecies gene homologs and interspecies gene orthologs, but also to identify alternatively spliced gene variants. We report homologous cDNA cloning methods that allow cloning of gene family members, genes from different species, and alternatively spliced gene variants. We cloned human 14-3-3 gene family members using DNA probes with as much as 35% sequence divergence, cloned alternatively spliced gene forms of Rad51D, and cloned a novel splice form of the human 14-3-3 theta gene with a unique expression pattern. Interspecies gene cloning was demonstrated for the mouse Rad51C and mouse beta-actin genes using human gene probes. The gene family cloning method is fast, efficient, and free from PCR errors; moreover, it exploits the abilities of RecA protein to pair homologous or partially homologous DNA sequences stably in kinetically trapped, multistranded DNA hybrids that can be used for subsequent gene clone enrichment.     

Pig whey acidic protein gene is surrounded by two ubiquitously expressed genes

A 140-kb pig DNA fragment containing the whey acidic protein (WAP) gene cloned in a bacterial artificial chromosome (BAC344H5) has been shown to contain all of the cis-elements necessary for position-independent, copy-dependent and tissue-specific expression in transgenic mice. The insert from this BAC was sequenced. This revealed the presence of two other genes with quite different expression patterns in pig tissues and in transfected HC11 mouse mammary cells. The RAMP3 gene is located 15 kb upstream of the WAP gene in reverse orientation. The CPR2 gene is located 5 kb downstream of the WAP gene in the same orientation. The same locus organization was found in the human genome. The region between RAMP3 and CPR2 in the human genome contains a WAP gene-like sequence with several points of mutation which may account for the absence of WAP from human milk.     

Comparative genomics of the T4-Like Escherichia coli phage JS98: implications for the evolution of T4 phages

About 130 kb of sequence information was obtained from the coliphage JS98 isolated from the stool of a pediatric diarrhea patient in Bangladesh. The DNA shared up to 81% base pair identity with phage T4. The most conserved regions between JS98 and T4 were the structural genes, but their degree of conservation was not uniform. The head genes showed the highest sequence conservation, followed by the tail, baseplate, and tail fiber genes. Many tail fiber genes shared only protein sequence identity. Except for the insertion of endonuclease genes in T4 and gene 24 duplication in JS98, the structural gene maps of the two phages were colinear. The receptor-recognizing tail fiber proteins gp37 and gp38 were only distantly related to T4, but shared up to 83% amino acid identity to other T6-like phages, suggesting lateral gene transfer. A greater degree of variability was seen between JS98 and T4 over DNA replication and DNA transaction genes. While most of these genes came in the same order and shared up to 76% protein sequence identity, a few rearrangements, insertions, and replacements of genes were observed. Many putative gene insertions in the DNA replication module of T4 were flanked by intron-related endonuclease genes, suggesting mobile DNA elements. A hotspot of genome diversification was located downstream of the DNA polymerase gene 43 and the DNA binding gene 32. Comparative genomics of 100-kb genome sequence revealed that T4-like phages diversify more by the accumulation of point mutations and occasional gene duplication events than by modular exchanges.     

Effect of 5-azacytidine on expression of DNA sequences homologous to ENV gene of murine mammary tumor virus in normal human lymphocytes

Expression of DNA sequences, related to MMTV env gene, in peripheral blood lymphocytes, which was strictly specific for human mammary carcinoma, has been previously reported. These sequences (homologous to env gene site coding for MMTV gp52 envelope antigen) expressed in T cells can play the key role in virus infection transmission and propagation. In order to elucidate the possible routes of env MMTV-homologous sequences expression, we tried to induced it in donot T lymphocytes by various methods: hormone and virus treatment (related genome "saving" at the expense of the added virus envelope), T cell culturing with conA, interferon-2, and 5-azacytidine. RT-PCR with primers specific for the gp52-coding area of MMTV env gene showed expression of env-homologous sequences in donor T cells cultured in medium with 5-azacytidine. Indirect immunofluorescence with monospecific serum to MMTV gp52 detected gp52 analogous genes only in cultures with 5-azacytidine but not other agents. We therefore suggested that MMTV env-homologous sequences in donors are situated in the methylated promoter zone. Expression of these sequences in T cells, specific for human mammary carcinoma, can be due to demethylation of the promoter and induction of env-homologous sequences to the level of translation of gp52 analogous antigens or by initial location of some of the expressed sequences in the demethylated zone of the genome.     

Isolation and characterization of a human locus homologous to the transforming gene (v-fes) of feline sarcoma virus

A single locus (designated c-fes) in the human genome which exhibits homology to the transformation-specific onc gene (v-fes) of Snyder-Theilen feline sarcoma virus was identified by the Southern blot technique. Recombinant clones containing 16- to 18-kilobase inserts of human DNA including the c-fes locus were constructed. Restriction endonuclease mapping of these clones verified their identity with native human c-fes and demonstrated the presence of at least two sequences in human c-fes interrupting v-fes-homologous regions. The v-fes-homologous locus in the human genome spans about 4 kilobases. The 5'-3' orientation of the c-fes clones with respect to feline sarcoma virus proviral DNA was determined. The region of the human genome that is homologous to v-fes is proximal to the highly reiterated human Alu sequence but not to the highly reiterated human alphoid sequence.     

Localization of three DNA segments encompassing tRNA genes to human chromosomes 1, 5, and 16: proposed mechanism and significance of tRNA gene dispersion

The chromosomal locations of three cloned human DNA fragments encompassing tRNA genes have been determined by Southern analysis of human-rodent somatic cell hybrid DNAs with subfragments from these cloned genes and flanking sequences used as hybridization probes. These three DNA segments have been assigned to human chromosomes 1, 5, and 16, and homologous sequences are probably located on chromosome 14 and a separate locus on chromosome 1. These studies, combined with previous results, indicate that tRNA genes and pseudogenes are dispersed on at least seven different human chromosomes and suggest that these sequences will probably be found on most, if not all, human chromosomes. Short (8-12 nucleotide) direct terminal repeats flank many of the dispersed tRNA genes. The presence of these flanking repeats, combined with the dispersion of tRNA genes throughout the human genome, suggests that many of these genes may have arisen by an RNA-mediated retroposition mechanism. The possible functional significance of this gene dispersion is considered.     

Characterization of genes for synthesis and catabolism of a new rhizopine induced in nodules by Rhizobium meliloti Rm220-3: extension of the rhizopine concept.

Rhizopines are selective growth substrates synthesized in nodules only by strains of rhizobia capable of their catabolism. We report the isolation and study of genes for the synthesis and catabolism of a new rhizopine, scyllo-inosamine (sIa), from alfalfa nodules induced by Rhizobium meliloti Rm220-3. This compound is similar in structure to the previously described rhizopine 3-O-methyl-scyllo-inosamine from R. meliloti L5-30 (P.J. Murphy, N. Heycke, Z. Banfalvi, M.E. Tate, F.J. de Bruijn, A. Kondorosi, J. Tempé, and J. Schell, Proc. Natl. Acad. Sci. USA 84:493-497, 1987). The synthesis (mos) and catabolism (moc) genes for the Rm220-3 rhizopine are closely linked and located on the nod-nif Sym plasmid. The mos genes are directly controlled by the NifA/NtrA regulatory system. A comparison of the sequence of the 5' regions of the two mos loci shows very extensive conservation of sequence as well as strong homology to the nifH coding region. Restriction mapping and hybridization to DNA from the four open reading frames (ORFs) of the L5-30 mos locus indicate the absence of mosA and presence of the other three ORFs (ORF1 and mosB and -C) in Rm220-3. We suggest that the L5-30 mosA gene product is involved in the conversion of scyllo-inosamine to 3-O-methyl-scyllo-inosamine. Restriction fragment length polymorphism analysis of the moc regions of both strains shows that they are very similar. Regulation studies indicate that the moc region is not controlled by the common regulatory gene nifA, ntrA, and ntrC. We discuss the striking similarities in gene structure, location, and regulation between these two rhizopine loci in relation to the rhizopine concept.