An inhibitor-resistant histone deacetylase in the plant pathogenic fungus Cochliobolus carbonum.

We have partially purified and characterized histone deacetylases of the plant pathogenic fungus Cochliobolus carbonum. Depending on growth conditions, this fungus produces HC-toxin, a specific histone deacetylase inhibitor. Purified enzymes were analyzed by immunoblotting, by immunoprecipitation, and for toxin sensitivity. The results demonstrate the existence of at least two distinct histone deacetylase activities. A high molecular weight complex (430,000) is sensitive to HC-toxin and trichostatin A and shows immunoreactivity with an antibody against Cochliobolus HDC2, an enzyme homologous to yeast RPD3. The second activity, a 60,000 molecular weight protein, which is resistant even to high concentrations of well-known deacetylase inhibitors, such as HC-toxin and trichostatin A, is not recognized by antibodies against Cochliobolus HDC1 (homologous to yeast HOS2) or HDC2 and represents a different and/or modified histone deacetylase which is enzymatically active in its monomeric form. This enzyme activity is not present in the related filamentous fungus Aspergillus nidulans. Furthermore, in vivo treatment of Cochliobolus mycelia with trichostatin A and analysis of HDACs during the transition from non-toxin-producing to toxin-producing stages support an HC-toxin-dependent enzyme activity profile.     

Identification of hepatitis B virus polypeptides encoded by the entire pre-s open reading frame.

The open reading frame (ORF) that encodes the 226-amino-acid coat protein (hepatitis B virus surface antigen [HBsAg]) of hepatitis B virus has the potential to encode a 400-amino-acid polypeptide. The entire ORF would direct the synthesis of a polypeptide whose C-terminal amino acids represent HBsAg with an additional 174 amino acids at the N terminus (pre-s). Recently, virus particles have been shown to contain a polypeptide that corresponds to HBsAg with an additional 55 amino acids at the N terminus encoded by the DNA sequence immediately upstream of the HBsAg gene. A novel ORF expression vector containing the TAC promoter, the first eight codons of the gene for beta-galactosidase, and the entire coding sequence for chloramphenicol acetyltransferase was used in bacteria to express determinants of the 174 amino acids predicted from the pre-s portion of the ORF. The resulting tribrid protein containing 108 amino acids encoded by pre-s was expressed as one of the major proteins of bacteria harboring the recombinant plasmid. Single-step purification of the tribrid fusion protein was achieved by fractionation on a chloramphenicol affinity resin. Polyclonal antiserum generated to the fusion protein was capable of detecting 42- and 46-kilodalton polypeptides from virus particles; both polypeptides were also shown to contain HBsAg determinants. The ability of the polyclonal antiserum to identify polypeptides with these characteristics from virus particles presents compelling evidence that the DNA sequence of the entire ORF is expressed as a contiguous polypeptide containing HBsAg. The presence of multiple promoters and primary translation products from this single ORF argues that the function and potential interaction of the encoded polypeptides play a crucial role in the life cycle of the virus. Furthermore, the procedure and vector described in this report can be applied to other systems to facilitate the generation of antibodies to defined determinants and should allow the characterization of the epitope specificity of existing antibodies.     

Properties of the protein encoded by the UL32 open reading frame of herpes simplex virus 1.

The functions previously assigned to the essential herpes simplex virus 1 UL32 protein were in cleavage and/or packaging of viral DNA and in maturation and/or translocation of viral glycoproteins to the plasma membrane. The amino acid sequence predicts N-linked glycosylation sites and sequences conserved in aspartyl proteases and in zinc-binding proteins. We report the following. (i) The 596-amino-acid UL32 protein accumulated predominantly in the cytoplasm of infected cells but was not metabolically labeled with glucosamine and did not band with membranes containing a known glycoprotein in flotation sucrose density gradients. The UL32 protein does not, therefore, have the properties of an intrinsic membrane protein. (ii) Experiments designed to demonstrate aspartyl protease activity in a phage display system failed to reveal proteolytic activity. Moreover, substitution of Asp-110 with Gly in the sequence Asp-Thr-Gly, the hallmark of aspartyl proteases, had no effect on viral replication in Vero and SK-N-SH cell lines or in human foreskin fibroblasts. Therefore, if the UL32 protein functions as a protease, this function is not required in cells in culture. (iii) Both the native UL32 protein and a histidine-tagged UL32 protein made in recombinant baculovirus-infected insect cells bound zinc. The consensus sequence is conserved in the UL32 homologs from varicella-zoster virus and equine herpesvirus 1. UL32 protein is therefore a cysteine-rich, zinc-binding essential cytoplasmic protein whose function is not yet clear.     

Phosphorylation of serine-rich protein encoded by open reading frame 3 of the TT virus genome

TT virus (TTV) is a newly discovered human virus with a single-stranded, circular DNA genome. The TTV DNA sequence includes two major open reading frames (ORFs), ORF1 and ORF2. Recently, spliced TTV mRNAs were detected and revealed two additional coding regions, ORF3 and ORF4. We found sequence similarity between the TTV ORF3 protein and hepatitis C virus (HCV) nonstructural 5A (NS5A) protein, which is a phosphoprotein and is thought to associate with various cellular proteins. To test whether the TTV ORF3 protein is phosphorylated, the state of phosphorylation was analyzed with a transient protein production system. The TTV ORF3 protein was phosphorylated at the serine residues in its C-terminal portion. Furthermore, the TTV ORF3 gene generated two forms of proteins with a different phosphorylation state, similar to the HCV NS5A region, suggesting that TTV ORF3 protein has function(s) similar to phosphorylated viral proteins such as the HCV NS5A protein.     

Hepatitis B virus particles contain a polypeptide encoded by the largest open reading frame: a putative reverse transcriptase

A segment of the largest open reading frame of hepatitis B virus (HBV) was inserted into an open reading frame vector directing the expression in Escherichia coli of a fusion molecule containing 143 HBV-encoded amino acids. The fusion protein was used to generate antiserum which served in immunoblots to identify a polypeptide with a molecular mass of 65 kilodaltons in HBV particles. Because of the small number of molecules in virus particles, unambiguous detection required the development of a highly sensitive immunoblot procedure.     

Regulation of cyclic peptide biosynthesis and pathogenicity in Cochliobolus carbonum by TOXEp, a novel protein with a bZIP basic DNA-binding motif and four ankyrin repeats

HC-toxin is an epoxide-containing cyclic tetrapeptide that is a critical virulence determinant in the pathogenic interaction between the filamentous fungus Cochliobolus carbonum and maize. HC-toxin exerts a potent cytostatic effect on plant and animal cells by inhibiting histone deacetylase. The biosynthesis of HC-toxin by C. carbonum is controlled by a complex genetic locus, TOX2, that contains multiple, duplicated copies of genes encoding export and biosynthetic enzymes. A new gene in the TOX2 complex, TOXE, has now been isolated. Mutation of TOXE by targeted gene disruption has no effect on growth and sporulation but abolishes HC-toxin production and pathogenicity. TOXE is required for the expression of three genes with a known or putative role in HC-toxin production, but is not required for expression of HTS1, which encodes the large, multifunctional peptide synthetase that is the central enzyme in HC-toxin biosynthesis. At its N-terminus, TOXEp has a bZIP basic DNA binding domain, but it does not contain any discernible leucine zipper or helix-loop-helix. At its carboxy terminus, TOXEp contains four ankyrin repeats. In having these two common regulatory motifs in a single polypeptide, TOXEp appears to represent a novel class of regulatory protein. TOXE is present only in HC-toxin-producing (Tox2⁺) isolates of C. carbonum. Most Tox2⁺ isolates have two copies; in strain SB111, one copy of TOXE is on the same 3.5-Mb chromosome that contains all of the other genes known to be involved in HC-toxin biosynthesis, and the second copy of TOXE is on a 0.7-Mb chromosome.     

Sequencing of coronavirus IBV genomic RNA: a 195-base open reading frame encoded by mRNA B

DNA sequencing of genomic cDNA clones of avian infectious bronchitis virus (IBV) has been carried out. 770 bases have been determined which include genomic sequences spanning the 5' termini of the two smallest mRNAs of the 3'-coterminal "nested" set: mRNA A and mRNA B. This region contains the complete coding sequences for mRNA B which are additional to those present in mRNA A. Two open reading frames are present, predicting proteins of Mrs 7500 and 9500.     

Herpes simplex virus 1 protein kinase is encoded by open reading frame US3 which is not essential for virus growth in cell culture.

Earlier reports have described a novel protein kinase in cells infected with herpes simplex or pseudorabies viruses. These novel enzymes were characterized by their acceptance of protamine as a substrate and by their differential chromatographic behavior in anion-exchange chromatography. We report that this activity was not present in extracts of uninfected cells or of cells infected with a mutant constructed so as to contain a deletion in the US3 open reading frame mapping in the small component of herpes simplex virus 1 DNA. The activity was present in extracts of cells infected with wild-type virus and with a recombinant in which the US3 open reading frame had been rescued. Our results are consistent with the observation reported earlier that the coding sequences predict an amino acid motif common to protein kinases and lead to the conclusion that the US3 open reading frame encodes a virus-specific protein kinase that is not required for virus growth in cells in culture.     

A 100-kilodalton polypeptide encoded by open reading frame (ORF) 1b of the coronavirus infectious bronchitis virus is processed by ORF 1a products.

The genome-length mRNA (mRNA 1) of the coronavirus infectious bronchitis virus (IBV) contains two large open reading frames (ORFs), 1a and 1b, with the potential to encode polypeptides of 441 and 300 kDa, respectively. The downstream ORF, ORF 1b, is expressed by a ribosomal frameshifting mechanism. In an effort to detect viral polypeptides encoded by ORF 1b in virus-infected cells, immunoprecipitations were carried out with a panel of region-specific antisera. A polypeptide of approximately 100 kDa was precipitated from IBV-infected, but not mock-infected, Vero cells by one of these antisera (V58). Antiserum V58 was raised against a bacterially expressed fusion protein containing polypeptide sequences encoded by ORF 1b nucleotides 14492 to 15520; it recognizes specifically the corresponding in vitro-synthesized target protein. A polypeptide comigrating with the 100,000-molecular-weight protein (100K protein) identified in infected cells was also detected when the IBV sequence from nucleotides 8693 to 16980 was expressed in Vero cells by using a vaccinia virus-T7 expression system. Deletion analysis revealed that the sequence encoding the C terminus of the 100K polypeptide lies close to nucleotide 15120; it may therefore be generated by proteolysis at a potential QS cleavage site encoded by nucleotides 15129 to 15135. In contrast, expression of IBV sequences from nucleotides 10752 to 16980 generated two polypeptides of approximately 62 and 235 kDa, which represent the ORF 1a stop product and the 1a-1b fused product generated by a frameshifting mechanism, respectively, but no processed products were observed. Since the putative picornavirus 3C-like proteinase domain is located in ORF 1a between nucleotides 8937 and 9357, this observation suggests that deletion of the picornavirus 3C-like proteinase domain and surrounding regions abolishes processing of the 1b polyprotein. In addition, the in vitro translation and in vivo transfection studies also indicate that the ORF 1a region between nucleotides 8763 and 10720 contains elements that down-regulate the expression of ORF 1b.     

Discovery of a protein phosphatase activity encoded in the genome of bacteriophage lambda. Probable identity with open reading frame 221.

Infection of Escherichia coli with phage lambda gt10 resulted in the appearance of a protein phosphatase with activity towards 32P-labelled casein. Activity reached a maximum near the point of cell lysis and declined thereafter. The phosphatase was stimulated 30-fold by Mn2+, while Mg2+ and Ca2+ were much less effective. Activity was unaffected by inhibitors 1 and 2, okadaic acid, calmodulin and trifluoperazine, distinguishing it from the major serine/threonine-specific protein phosphatases of eukaryotic cells. The lambda phosphatase was also capable of dephosphorylating other substrates in the presence of Mn2+, although activity towards 32P-labelled phosphorylase was 10-fold lower, and activity towards phosphorylase kinase and glycogen synthase 25 50-fold lower than with casein. No casein phosphatase activity was present in either uninfected cells, or in E. coli infected with phage lambda gt11. Since lambda gt11 lacks part of the open reading frame (orf) 221, previously shown to encode a protein with sequence similarity to protein phosphatase-1 and protein phosphatase-2A of mammalian cells [Cohen, Collins, Coulson, Berndt & da Cruz e Silva (1988) Gene 69, 131-134], the results indicate that ORF221 is the protein phosphatase detected in cells infected with lambda gt10. Comparison of the sequence of ORF221 with other mammalian protein phosphatases defines three highly conserved regions which are likely to be essential for function. The first of these is deleted in lambda gt11.     

Identification and characterization of the herpes simplex virus type 1 virion protein encoded by the UL35 open reading frame.

The UL35 open reading frame (ORF) of herpes simplex virus type 1 (HSV-1) has been predicted from DNA sequence analysis to encode a small polypeptide with a molecular weight of 12,095. We have investigated the protein product of the UL35 ORF by using a trpE-UL35 gene fusion to produce a corresponding fusion protein in Escherichia coli. The TrpE-UL35 chimeric protein was subsequently isolated and used as a source of immunogen for the production of rabbit polyclonal antiserum directed against the UL35 gene product. The TrpE-UL35 antiserum was found to recognize a 12-kDa protein which was specifically present in HSV-1-infected cells. By utilizing the TrpE-UL35 antiserum, the kinetics of synthesis of the UL35 gene product was examined, and these studies indicate that UL35 is expressed as a gamma 2 (true late) gene. The 12-kDa protein recognized by the TrpE-UL35 antiserum was associated with purified HSV-1 virions and type A and B capsids, suggesting that the UL35 ORF may encode the 12-kDa capsid protein variably designated p12, NC7, or VP26. To confirm this assignment, immunoprecipitation and immunoblotting studies were performed to demonstrate that the TrpE-UL35 antiserum reacts with the same polypeptide as an antiserum directed against the purified p12 capsid protein (anti-NC7) (G.H. Cohen, M. Ponce de Leon, H. Diggelmann, W.C. Lawrence, S.K. Vernon, and R.J. Eisenberg, J. Virol. 34:521-531, 1980). Furthermore, the anti-NC7 serum was also found to react with the TrpE-UL35 chimeric protein isolated from E. coli, providing additional evidence that the UL35 gene encodes p12. On the basis of these studies, we conclude that UL35 represents a true late gene which encodes the 12-kDa capsid protein of HSV-1.     

Purification and properties of the polymeric fatty acid synthetase from a filamentous fungus.

Fatty acid synthetase was purified from the filamentous fungus, Aspergillus fumigatus to a specific activity of 4000--5000 munits/mg protein. Its purity was established by its appearance in electron micrographs, on sodium dodecyl sulphate polyacrylamide gels and by analytical ultracentrifugation, and also by its behaviour upon sucrose gradient centrifugation. This enzyme comprises two large polypeptides with molecular weights of 190 000 and 186 000. Evidence from electron microscopy indicates that it consists of three equivalent loops of protein. It dissociates into different-sized circular subunits on ageing or upon dissolution in buffer of low ionic strength. Differences in properties between this fungal synthetase and that found in yeast have been noted and relate, for example, to inhibition by acetyl CoA and malonyl-CoA, cold-lability and pH optimum. The synthetase from A. fumigatus, purified by different procedures, consistently exists in two forms of similar specific activity, with sedimentation coefficients approx. 40 S and 60 S. Synthetase activity present in crude extracts has been identified as a very heavy component with sedimentation coefficient greater than 100 S.     

The 85-kilodalton phosphoprotein (pp85) of human herpesvirus 7 is encoded by open reading frame U14 and localizes to a tegument substructure in virion particles.

A family of antigenically related proteins present in cells infected with human herpesvirus 7 (HHV-7), designated phosphoprotein 85 (pp85), comprises a complex of proteins, of which the 85-kDa species is phosphorylated. pp85 is a major determinant of human response to HHV-7 infection (L. Foà-Tomasi, E. Avitabile, L. Ke, and G. Campadelli-Fiume, J. Gen. Virol. 75:2719-2727, 1994; L. Foà-Tomasi, M. P. Fiorilli, E. Avitabile, and G. Campadelli-Fiume, J. Gen. Virol. 77:511-518, 1996; J. B. Black et al., Clin. Diagn. Lab. Immunol. 3:79-83, 1996). By immunoscreening of a cDNA library from HHV-7-infected cells with monoclonal antibody (MAb) 5E1, directed to the proteins of the pp85 complex, we mapped the gene encoding pp85 to the U14 open reading frame of the HHV-7 genome. A prokaryotically expressed fusion protein containing the U14 open reading frame reacted with MAb 5E1 in an immunoblot assay. A functional role for pp85 was defined by immunoelectron microscopy studies. Immunogold labeling of cryosections of HHV-7-infected cord blood mononuclear cells at high resolution localized the reactivity of MAb 5E1 to the outer surface of the virion tegument. This finding demonstrates that pp85, the product of the U14 gene, is a component of the HHV-7 tegument and suggests that the HHV-7 tegument is not a homogeneous structure but rather is composed of substructures, including an outermost layer containing pp85. The present findings, together with previously reported properties of MAb 5E1, including its ability to react with formalin-fixed paraffin-embedded samples, make this antibody a specific tool useful for etiopathogenetic studies of HHV-7 infection in humans and provide the basis for further development of pp85 into a specific recombinant diagnostic reagent.     

Structural analysis of a peptide synthetase gene required for ergopeptine production in the endophytic fungus Neotyphodium lolii.

Lysergyl peptide synthetase 1 catalyzes the assembly of toxic ergopeptines from activated D-lysergic acid and three amino acids. The gene encoding this enzyme in the endophytic fungus Neotyphodium lolii was analyzed and compared to a homologous gene from the ergot fungus Claviceps purpurea. Each gene contained two introns, which were found in the same relative position within two modules of the gene. The 5' ends of the two genes were unusually divergent. Signature sequences determining substrate specificity were similar in adenylation domains that recognized identical amino acids but differed within the adenylation domain for the amino acid that varies between the major ergopeptines of the two fungi. Homologues were detected in several related endophytic fungi; the tall fescue endophyte Neotyphodium coenophialum contained a divergent, second copy of the gene. Our results provide new information on the structure and distribution of this important peptide synthetase involved in ergot alkaloid biosynthesis.     

Characterization of a triplex DNA-binding protein encoded by an alternative reading frame of loricrin.

In an attempt to identify genes encoding triple-helical DNA-binding proteins, we performed South-Western screening of a human keratinocyte cDNA expression library using a purine (Pu)-rich triplex DNA probe. We isolated two independent clones containing part of the loricrin gene. Both were translated with a different reading frame than that of the loricrin protein, the major component of the cell envelope during normal keratinocyte cornification. The affinity of the encoded polypeptide for Pu-triplex DNA was confirmed by electrophoretic mobility shift assays using a bacterially expressed N-terminal loricrin deletion fused with the maltose-binding protein (MBP-LOR3ARF). Interactions between Pu-triplex DNA and MBP-LOR3ARF are characterized by a distribution of four increasingly slower mobility complexes, suggesting that multiple MBP-LOR3ARF molecules can recognize a single triplex. Binding was also observed between MBP-LOR3ARF and a pyrimidine-motif triplex DNA, although at lower affinity than Pu-triplex DNA. No apparent binding was observed between MBP-LOR3ARF and double-stranded DNA, suggesting that MBP-LOR3ARF is a bona fide Pu-triplex binding protein. Finally, purified specific rabbit antibodies against LORARF detected four human proteins with apparent molecular masses of 210, 110, 68, and 66 kDa on Western blot analysis. The 210-, 110-, and 68-kDa proteins also showed specific Pu-triplex DNA binding in a South-Western experiment, suggesting that LORARF shares common domains with other human Pu-triplex DNA-binding proteins.