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1.
Homologues of the UL7 gene of herpes simplex virus type 1 are conserved in alpha-, beta-, and gammaherpesviruses. However, little is known about their functions. Using a monospecific rabbit antiserum raised against a bacterial fusion protein, we identified the UL7 gene product of the neurotropic alphaherpesvirus pseudorabies virus (PrV). In Western blot analyses of infected cells and purified PrV particles the serum specifically detected a 29-kDa protein, which matches the calculated mass of the 266-amino-acid translation product of PrV UL7. For functional analysis, UL7 was deleted by mutagenesis of an infectious full-length clone of the PrV genome in Escherichia coli. The obtained recombinant PrV-DeltaUL7F was replication competent in rabbit kidney cells, but maximum virus titers were decreased nearly 10-fold and plaque diameters were reduced by ca. 60% compared to wild-type PrV. Electron microscopy of infected cells revealed that in the absence of UL7, formation and nuclear egress of nucleocapsids were not affected, whereas secondary envelopment of cytoplasmic nucleocapsids appeared to be delayed and release of mature virions was less efficient. The observed replication defects were corrected by repair of the viral UL7 gene or by propagation of PrV-DeltaUL7F in UL7-expressing cells. PrV-DeltaUL7F was moderately attenuated in mice. Compared to wild-type virus, mean survival times were prolonged from 2 to 3 days after intranasal infection. However, neuroinvasion and transneuronal spread of PrV were not abolished in the absence of UL7. Thus, UL7 encodes a virion protein of PrV, which plays a role during virion maturation and egress both in vitro and in vivo.  相似文献   

2.
The erect wing (ewg) locus of Drosophila melanogaster encodes a vital function important for the development of the nervous system and the indirect flight muscles. In order to understand the ewg function at a molecular level, cDNA clones were isolated. Sequence analysis of cDNAs revealed a single open reading frame (ORF) encoding a protein of 733 residues. The translational start for this ORF is a CTG codon. A 225-amino-acid region of this protein is 71% identical to the DNA binding region of the Strongylocentrotus purpuratus P3A2 DNA binding protein. Additionally, the ORF contains large acidic and basic domains characteristic of those in proteins involved in nuclear regulatory functions. Immunoblot analysis using polyclonal anti-EWG antisera generated against a bacterial fusion protein reveals a single, 116-kDa protein present throughout development, beginning at approximately stage 12 of embryogenesis, which is enriched in adult heads and absent from embryos carrying certain ewg alleles. Additionally, we show that EWG is localized specifically to the nuclei of virtually all embryonic neurons. Finally, a minigene consisting of an ewg cDNA under control of the hsp70 promoter can provide the ewg function in transgenic ewg mutant flies.  相似文献   

3.
The dinA (damage inducible) gene was previously identified as one of the SOS genes with no known function; it was mapped near the leuB gene, where the polB gene encoding DNA polymerase II was also mapped. We cloned the chromosomal fragment carrying the dinA region from the ordered Escherichia coli genomic library and mapped the dinA promoter precisely on the physical map of the chromosome. The cells that harbored multicopy plasmids with the dinA region expressed very high levels of DNA polymerase activity, which was sensitive to N-ethylmaleimide, an inhibitor of DNA polymerase II. Expression of the polymerase activity encoded by the dinA locus was regulated by SOS system, and the dinA promoter was the promoter of the gene encoding the DNA polymerase. From these data we conclude that the polB gene is identical to the dinA gene and is regulated by the SOS system. The product of the polB (dinA) gene was identified as an 80-kDa protein by the maxicell method.  相似文献   

4.
N C Franklin  G N Bennett 《Gene》1979,8(1):107-119
Nucleotide sequence has been determined for the restriction fragments and cloned DNA from the pL-N-tL1 region of bacteriophage lambda. A unique reading frame for the N gene is defined by the absence of natural nonsense codons and by the presence of seven nonsense codons generated by mutations in N. This reading frame is initiated at two alternative ATG codons, the second of which is probably the in vivo translation start. Reading is stopped at a single TAG codon. The protein coded is therefore 133 or, more probably, 107 amino acids long, rich in lysine, arginine and proline.  相似文献   

5.
6.
The Gam protein of bacteriophage Mu is an orthologue of eukaryotic Ku   总被引:1,自引:0,他引:1  
Mu bacteriophage inserts its DNA into the genome of host bacteria and is used as a model for DNA transposition events in other systems. The eukaryotic Ku protein has key roles in DNA repair and in certain transposition events. Here we show that the Gam protein of phage Mu is conserved in bacteria, has sequence homology with both subunits of Ku, and has the potential to adopt a similar architecture to the core DNA-binding region of Ku. Through biochemical studies, we demonstrate that Gam and the related protein of Haemophilus influenzae display DNA binding characteristics remarkably similar to those of human Ku. In addition, we show that Gam can interfere with Ty1 retrotransposition in Saccharomyces cerevisiae. These data reveal structural and functional parallels between bacteriophage Gam and eukaryotic Ku and suggest that their functions have been evolutionarily conserved.  相似文献   

7.
The DNA sequence of 30 nucleotides which surrounds the origin of viral strand DNA replication is highly conserved amongst the icosahedral single-stranded DNA bacteriophages. The A gene of these phages encodes a protein which is required for initiation and termination of viral strand DNA synthesis and acts as a nicking-closing activity specifically within this 30-nucleotide sequence. A system of purified Escherichia coli host proteins and phi X174 gene A protein has been developed which specifically replicates in vitro the viral strand of phi X174 from RF (replicative form) I template DNA and yields single-stranded circular DNA products (RF leads to SS(c) DNA replication system). Recombinant plasmids carrying inserts derived from phage phi X174 or G4 DNA which range in length from 49 to 1175 base pairs and contain the 30-nucleotide conserved sequence have been shown to support phi X A protein-dependent DNA synthesis in vitro in this replication system. We report here that insertion of the 30-nucleotide sequence alone into pBR322 allows the resulting recombinant plasmids to support phi X A protein-dependent in vitro DNA synthesis as efficiently as phi X174 template DNA in the RF leads to SS(c) replication system. The 30-nucleotide sequence functions as a fully wild type DNA replication origin as determined by the rate of DNA synthesis and the structure of resulting DNA products. Furthermore, the DNA sequence requirements for nicking of RF I DNA by the phi X A protein and for supporting replication origin function have been partially separated. Homology to positions 1, 29, and 30 of the 30-nucleotide conserved sequence are not required for cleavage of RF I DNA by the A protein; homology to position 1 but not 29 or 30 is required for efficient DNA replication.  相似文献   

8.
The HUELLENLOS (HLL) gene participates in patterning and growth of the Arabidopsis ovule. We have isolated the HLL gene and shown that it encodes a protein homologous to the L14 proteins of eubacterial ribosomes. The Arabidopsis genome also includes a highly similar gene, HUELLENLOS PARALOG (HLP), and genes for both cytosolic (L23) and chloroplast ribosome L14 proteins. Phylogenetic analysis shows that HLL and HLP differ significantly from these other two classes of such proteins. HLL and HLP fusions to green fluorescent protein were localized to mitochondria. Ectopic expression of HLP complemented the hll mutant, indicating that HLP and HLL share redundant functions. We conclude that HLL and HLP encode L14 subunits of mitochondrial ribosomes. HLL mRNA was at significantly higher levels than HLP mRNA in pistils, with the opposite pattern in leaves. This differential expression can explain the confinement of effects of hll mutations to gynoecia and ovules. Our elucidation of the nature of HLL shows that metabolic defects can have specific effects on developmental patterning.  相似文献   

9.
10.
Photoreceptor cells of the Drosophila compound eye begin to develop specialized membrane foldings at the apical surface in midpupation. The microvillar structure ultimately forms the rhabdomere, an actin-rich light-gathering organelle with a characteristic shape and morphology. In a P-element transposition screen, we isolated mutations in a gene, bifocal (bif), which is required for the development of normal rhabdomeres. The morphological defects seen in bif mutant animals, in which the distinct contact domains established by the newly formed rhabdomeres are abnormal, first become apparent during midpupal development. The later defects seen in the mutant adult R cells are more dramatic, with the rhabdomeres enlarged, elongated, and frequently split. bif encodes a novel putative protein of 1063 amino acids which is expressed in the embryo and the larval eye imaginal disc in a pattern identical to that of F actin. During pupal development, Bif localizes to the base of the filamentous actin associated with the forming rhabdomeres along one side of the differentiating R cells. On the basis of its subcellular localization and loss-of-function phenotype, we discuss possible roles of Bif in photoreceptor morphogenesis.  相似文献   

11.
C Kao  L Snyder 《Journal of bacteriology》1988,170(5):2056-2062
Escherichia coli lit(Con) mutations cause a severe inhibition of gene expression late in infection by bacteriophage T4 owing to the overproduction of one, and possibly two, proteins (C. Kao, E. Gumbs, and L. Snyder, J. Bacteriol. 169:1232-1238, 1987). One or both of these proteins interact, either directly or indirectly, with a short sequence about one-quarter of the way into the major capsid protein gene of T4, and the inhibition occurs when this late gene of the virus is expressed. In this report we show that lit(Con) mutations are up-promoter mutations in the cryptic DNA element e14 and that only one of the proteins, gplit, of about 34 kilodaltons, is required for the inhibition. We have sequenced the lit gene and the surrounding regions. From the sequence, and from cell fractionation studies, we conclude that gplit is an inner membrane protein. Since the assembly of T4 heads is thought to occur on the inner face of the inner membrane, we propose that gplit interferes with a normal regulation which coordinates the synthesis of proteins and the assembly of T4 heads.  相似文献   

12.
13.
LTE1 belongs to the CDC25 family that encodes a guanine nucleotide exchange factor for GTP-binding proteins of the ras family. Previously we have shown that LTE1 is essential for termination of M phase at low temperatures. We have identified TEM1 as a gene that, when present on a multicopy plasmid, suppresses the cold-sensitive phenotype of lte1. Sequence analysis of TEM1 and GTP-binding analysis of the gene product revealed that TEM1 encodes a novel low-molecular-weight GTP-binding protein. The defect of TEM1 was lethal, and the tem1-defective cells were arrested at telophase with high H1-kinase activity under restrictive conditions, indicating that TEM1 is required to exit from M phase. The defect of TEM1 was suppressed by a high dose of CDC15, which encodes a protein kinase homologous to mitogen-activated protein kinase kinase kinases. The genetic interaction among LTE1, TEM1, and CDC15 indicates that they cooperatively play an essential role for termination of M phase.  相似文献   

14.
15.
G Chaconas  E B Giddens  J L Miller  G Gloor 《Cell》1985,41(3):857-865
The phage-encoded proteins required for conservative integration of infecting bacteriophage Mu DNA were investigated. Our findings show that functional gpA, an essential component of the phage transposition system, is required for integration. The Mu B protein, which greatly enhances replicative transposition of Mu DNA, is also required. Furthermore, a truncated form of gpB lacking 18 amino acids from the carboxy terminus is blocked in replicative transposition, but not conservative integration. Our results point to a more prominent role for gpB than simply a replication enhancer in Mu DNA transposition. The ability of a truncated form of B to function in conservative integration, but not replicative transposition, also suggests a key role for the carboxy-terminal domain of the protein in the replicative reaction. The existence of a shortened form of gpB, which uncouples conservative integration from replicative transposition, should be invaluable for future dissection of Mu DNA transposition.  相似文献   

16.
S S Dignam  S T Case 《Gene》1990,88(2):133-140
We have continued to map and identify genes encoding a family of secretory proteins. These proteins are synthesized in larval salivary glands of the midge, Chironomus tentans, and assemble in vivo into insoluble silk-like threads. The genes for several secretory proteins exist in Balbiani rings (BRs) on salivary-gland polytene chromosomes. A randomly primed cDNA clone, designated pCt185, hybridized in situ to BR3 and was shown on Northern blots to originate from a salivary gland-specific 6-kb poly(A) + RNA. The partial cDNA sequence contained 483 nucleotides including one open reading frame (ORF) encoding 160 amino acids (aa). A striking feature of the ORF was the periodic distribution of cysteine residues (Cys-X-Cys-X-Cys-X6-Cys) which occurred approximately every 22 aa. A cDNA-encoded 18-aa sequence was selected for chemical peptide synthesis. When affinity-purified antipeptide antibodies were incubated with a Western blot containing salivary-gland proteins they reacted specifically with a 185-kDa secretory protein (sp185). Developmental studies showed that sp185 and its mRNA were present in salivary glands throughout the fourth larval instar. Thus sp185 and a family of 1000-kDa secretory proteins are encoded by a class of genes that are expressed throughout the fourth instar. This contrasts with the developmentally regulated expression of the sp140 and sp195 genes whose expression is maximal during the prepupal stages of larval development.  相似文献   

17.
The previously unstudied vaccinia virus gene I2L is conserved in all orthopoxviruses. We show here that the 8-kDa I2 protein is expressed at late times of infection, is tightly associated with membranes, and is encapsidated in mature virions. We have generated a recombinant virus in which I2 expression is dependent upon the inclusion of tetracycline in the culture medium. In the absence of I2, the biochemical events of the viral life cycle progress normally, and virion morphogenesis culminates in the production of mature virions. However, these virions show an ~400-fold reduction in specific infectivity due to an inability to enter target cells. Several proteins that have been previously identified as components of an essential entry/fusion complex are present at reduced levels in I2-deficient virions, although other membrane proteins, core proteins, and DNA are encapsidated at normal levels. A preliminary structure/function analysis of I2 has been performed using a transient complementation assay: the C-terminal hydrophobic domain is essential for protein stability, and several regions within the N-terminal hydrophilic domain are essential for biological competency. I2 is thus yet another component of the poxvirus virion that is essential for the complex process of entry into target cells.  相似文献   

18.
R Kahmann  F Rudt  C Koch  G Mertens 《Cell》1985,41(3):771-780
The Gin function of bacteriophage Mu catalyzes inversion of the G DNA segment, thus switching the host range of Mu phage particles. This site-specific recombination event takes place between inverted repeat sequences (IR) that border the G segment. Sequences in the Mu beta region extending approximately from position 118 to 178 are essential for efficient inversion. In cis this region, termed sis, stimulates inversion about 15-fold. Neither the relative orientation of sis with respect to the IR sequences nor the distance to IR substantially influences the stimulatory effect. For full activity purified Gin protein must be supplemented with crude host factor from E. coli K12. We suggest that, in addition to Gin, a DNA-binding host protein is required for efficient G inversion.  相似文献   

19.
20.
The Brachyury gene encodes a novel DNA binding protein.   总被引:17,自引:3,他引:14       下载免费PDF全文
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