Identification of a novel apoptosis suppressor gene from the baculovirus Lymantria dispar multicapsid nucleopolyhedrovirus

Ld652Y cells from Lymantria dispar readily undergo apoptosis upon infection with a variety of nucleopolyhedroviruses (NPVs), while L. dispar multicapsid NPV (LdMNPV) infection of Ld652Y cells results in the production of a high titer of progeny viruses. Here, we identify a novel LdMNPV apoptosis suppressor gene, apsup, which functions to suppress apoptosis induced in Ld652Y cells by infection with vAcΔp35, a p35-defective recombinant Autographa californica MNPV. apsup also suppresses apoptosis of Ld652Y cells induced by actinomycin D and UV exposure. Apsup is expressed in LdMNPV-infected Ld652Y cells late in infection, and RNA interference-mediated apsup ablation induces apoptosis of LdMNPV-infected Ld652Y cells.     

Identification of baculovirus gene that promotes Autographa californica nuclear polyhedrosis virus replication in a nonpermissive insect cell line.

A gene that promotes Autographa californica M nuclear polyhedrosis virus (AcMNPV) replication in IPLB-Ld652Y cells, a cell line that is nonpermissive for AcMNPV, was identified in Lymantria dispar M nuclear polyhedrosis virus (LdMNPV). Cotransfection of AcMNPV DNA and a plasmid carrying the LdMNPV gene into IPLB-Ld652Y cells results in AcMNPV replication. The gene maps between 43.3 and 43.8 map units on the 162-kbp genome of LdMNPV. It comprises a 218-codon open reading frame and encodes a polypeptide with a predicted molecular mass of 25.7 kDa. The predicted polypeptide is glutamic acid and valine rich and negatively charged, with a pI of 4.61. No protein sequence motifs were identified, and no matches with known nucleotide or peptide sequences were found in the AcMNPV genome or database searches that suggest how this gene might function. A recombinant AcMNPV bearing the LdMNPV gene overcomes a block in protein synthesis observed in AcMNPV-infected IPLB-Ld652Y cells. Using Southern blotting techniques, we were unable to identify a homolog in Orgyia pseudotsugata M nuclear polyhedrosis virus, a baculovirus that is routinely propagated in IPLB-Ld652Y cells. This suggests that the LdMNPV host range is unique among the baculoviruses studied to date. We named this gene hrf-1 (for host range factor 1).     

N-glycan structures of human transferrin produced by Lymantria dispar (gypsy moth) cells using the LdMNPV expression system

N-glycan structures of recombinant human serum transferrin (hTf) expressed by Lymantria dispar (gypsy moth) 652Y cells were determined. The gene encoding hTf was incorporated into a Lymantria dispar nucleopolyhedrovirus (LdMNPV) under the control of the polyhedrin promoter. This virus was then used to infect Ld652Y cells, and the recombinant protein was harvested at 120 h postinfection. N-glycans were released from the purified recombinant human serum transferrin and derivatized with 2-aminopyridine; the glycan structures were analyzed by a two-dimensional HPLC and MALDI-TOF MS. Structures of 11 glycans (88.8% of total N-glycans) were elucidated. The glycan analysis revealed that the most abundant glycans were Man1-3(+/-Fucalpha6)GlcNAc2 (75.5%) and GlcNAcMan3(+/-Fucalpha6)GlcNAc2 (7.4%). There was only approximately 6% of high-mannose type glycans identified. Nearly half (49.8%) of the total N-glycans contained alpha(1,6)-fucosylation on the Asn-linked GlcNAc residue. However alpha(1,3)-fucosylation on the same GlcNAc, often found in N-glycans produced by other insects and insect cells, was not detected. Inclusion of fetal bovine serum in culture media had little effect on the N-glycan structures of the recombinant human serum transferrin obtained.     

Mutations predetermined by the primary structure of DNA

This study is concerned with an experimental verification of hypotheses postulating the involvement of self-complementary nucleotide sequences in the formation of deletions and insertions. It was suggested that deletions can arise in the regions of self-complementary nucleotide sequences, which allows the formation of the hairpin structures in a single-stranded DNA, arising during excision repair. These hairpin structures can be eliminated by nucleases or during DNA replication. Insertions can arise as a result of homologous recombination, when a migrating DNA strand contains a self-complementary sequence which forms hairpin structure. Model experiments were carried out with the pBR322 plasmid. A plasmid DNA with premutational damage in the palindrome-containing region was constructed by in vitro dimethylsulfate modification of one strand of EcoRI-BamHI restriction fragment. The plasmid was used for transformation of Escherichia coli. Restriction mapping and nucleotide analysis of the mutant DNAs demonstrated that they all contained deletions. The end points of the deletions coincide with the palindrome. To model homologous recombination, a plasmid with D-loop was constructed. A single-stranded DNA fragment containing palindrome forming a hairpin structure was introduced into the plasmid DNA and covalently fixed in the complex. When E. coli cells were transfected with this DNA, plasmid mutants containing insertions predetermined by palindromic structure arose. The evolutionary role of mutations predetermined by primary DNA structure is discussed.     

Transposon mutagenesis of baculoviruses: analysis of TFP3 lepidopteran transposon insertions at the FP locus of nuclear polyhedrosis viruses

We report the complete sequences of two representatives of the TFP3 transposable element family of the lepidopteran, Trichoplusia ni. These elements were isolated as insertions mobilized from the Lepidopteran host genome into two closely related nuclear polyhedrosis viruses (NPV) during infection. Both elements inserted within the 500-bp FP locus of the respective viral genomes (map units 36.0 to 37.0), causing a distinctive plaque morphology phenotype and the loss of a 25-kDa viral-specific protein. Both insertions occurred at the identical TTAA target site in the respective genomes, in the same relative orientation, and are flanked by 15-bp imperfect inverted repeats. The inserted elements interrupt the 25K open reading frame (ORF). One of these FP mutants undergoes spontaneous reversion. Sequence analysis at the excision site of a spontaneous revertant demonstrates that the TFP3 elements are capable of precise excision, restoring the expression of the 25-kDa protein. We also compare the sequences of the 25K genes of the Autographa californica and Galleria mellonella viruses (AcMNPV and GmMNPV, respectively). The 25K gene sequences diverge in five areas, resulting in an additional EcoRV and TaqI site within the GmMNPV 25K gene, and extension of the ORF for an additional 2 amino acids at the C-terminus of the predicted GmMNPV 25 kDa protein. The phenomenon of transposon mutagenesis of Baculovirus genomes provides a unique opportunity for analysis of transposon mobility.     

Mutations in the 5' nontranslated region of bovine viral diarrhea virus result in altered growth characteristics

The 5' nontranslated region (NTR) of pestiviruses functions as an internal ribosome entry site (IRES) that mediates cap-independent translation of the viral polyprotein and probably contains additional cis-acting RNA signals involved in crucial processes of the viral life cycle. Computer modeling suggests that the 5'-terminal 75 nucleotides preceding the IRES element form two stable hairpins, Ia and Ib. Spontaneous and engineered mutations located in the genomic region comprising Ia and Ib were characterized by using infectious cDNA clones of bovine viral diarrhea virus. Spontaneous 5' NTR mutations carrying between 9 and 26 A residues within the loop region of Ib had no detectable influence on specific infectivity and virus growth properties. After tissue culture passages, multiple insertions and deletions of A residues occurred rapidly. In contrast, an engineered mutant carrying 5 A residues within the Ib loop was genetically stable during 10 tissue culture passages. This virus was used as starting material to generate a number of additional mutants. The analyses show that (i) deletion of the entire Ib loop region resulted in almost complete loss of infectivity that was rapidly restored during passages in cell culture by insertions of variable numbers of A residues; (ii) mutations within the 5'-terminal 4 nucleotides of the genomic RNA severely impaired virus replication; passaging of the supernatants obtained after transfection resulted in the emergence of efficiently replicating mutants that had regained the conserved 5'-terminal sequence; (iii) provided the conserved sequence motif 5'-GUAU was retained at the 5' end of the genomic RNA, substitutions and deletions of various parts of hairpin Ia or deletion of all of Ia and part of Ib were found to support replication, but to a lower degree than the parent virus. Restriction of specific infectivity and virus growth of the 5' NTR mutants correlated with reduced amounts of accumulated viral RNAs.     

Hepatitis B virus core gene mutations which block nucleocapsid envelopment

Recently we generated a panel of hepatitis B virus core gene mutants carrying single insertions or deletions which allowed efficient expression of the core protein in bacteria and self-assembly of capsids. Eleven of these mutations were introduced into a eukaryotic core gene expression vector and characterized by trans complementation of a core-negative HBV genome in cotransfected human hepatoma HuH7 cells. Surprisingly, four mutants (two insertions [EFGA downstream of A11 and LDTASALYR downstream of R39] and two deletions [Y38-R39-E40 and L42]) produced no detectable capsids. The other seven mutants supported capsid formation and pregenome packaging/viral minus- and plus-strand-DNA synthesis but to different levels. Four of these seven mutants (two insertions [GA downstream of A11 and EHCSP downstream of P50] and two deletions [S44 and A80]) allowed virion morphogenesis and secretion. The mutant carrying a deletion of A80 at the tip of the spike protruding from the capsid was hepatitis B virus core antigen negative but wild type with respect to virion formation, indicating that this site might not be crucial for capsid-surface protein interactions during morphogenesis. The other three nucleocapsid-forming mutants (one insertion [LS downstream of S141] and two deletions [T12 and P134]) were strongly blocked in virion formation. The corresponding sites are located in the part of the protein forming the body of the capsid and not in the spike. These mutations may alter sites on the particle which contact surface proteins during envelopment, or they may block the appearance of a signal for the transport or the maturation of the capsid which is linked to viral DNA synthesis and required for envelopment.     

The Lymantria dispar nucleopolyhedrovirus enhancins are components of occlusion-derived virus

Enhancins are metalloproteinases, first identified in granuloviruses, that can enhance nucleopolyhedrovirus (NPV) potency. We had previously identified two enhancin genes (E1 and E2) in the Lymantria dispar multinucleocapsid NPV (LdMNPV) and showed that both were functional. For this study, we have extended our analysis of LdMNPV enhancin genes through an immunocytochemical analysis of E1 and E2 expression and localization. E1 and E2 peptide antibodies recognized proteins of approximately 84 kDa and 90 kDa, respectively, on Western blots of extracts from L. dispar 652Y cells infected with wild-type virus. The 84- and 90-kDa proteins were first detected at 48 h postinfection (p.i.) and were present through 96 h p.i. E1 and E2 peptide antibodies detected E1 and E2 in polyhedron extracts, and the antibodies were shown to be specific for E1 and E2, respectively, through the use of recombinant virus strains lacking the enhancin genes. E1 and E2 were further localized to occlusion-derived virus (ODV). The enhancins were not found in budded virus. Immunoelectron microscopy indicated that E1 and E2 were present in ODV envelopes and possibly in nucleocapsids. Fractionation studies with several detergents suggested that the enhancins were present in ODV envelopes in association with nucleocapsids. In contrast, enhancins in granuloviruses are located within the granulin matrix. The presence of LdMNPV enhancins within ODV provides a position for the proteins to interact directly on the peritrophic membrane as ODV traverses this host defense barrier.     

High frequency of independent IS50 transposition during Tn5 mutagenesis of Bordetella pertussis virulence-associated genes

Transposon Tn5-generated mutants of Bordetella pertussis were selected on the basis of their inability to bind the dye Congo red (Crb-). No mutants which were solely Crb- were found. Ten mutants were phenotypically equivalent to previously described strains with mutations in the virulence regulatory (bvg) locus and failed to express a range of virulence-associated factors. Two of these mutants were shown to have Tn5 insertions within the bvg locus, while another two mutants showed deletions in this regulatory region. Complementation studies indicated that the other six mutants had spontaneous mutations in the bvg locus, but with Tn5 inserted elsewhere in the chromosome. Several of the mutants, besides having a single Tn5 insertion, also showed additional IS50 insertions, indicating that the IS50 element contained within Tn5 had transposed independently. Such additional insertion events, which themselves would have the potential to cause mutation, could complicate the interpretation of mutant phenotypes which could thus arise from the insertional inactivation of more than one gene.     

Acquisition of Host Cell DNA Sequences by Baculoviruses: Relationship Between Host DNA Insertions and FP Mutants of Autographa californica and Galleria mellonella Nuclear Polyhedrosis Viruses

Mutants of Autographa californica and Galleria mellonella nuclear polyhedrosis viruses, which produce an altered plaque phenotype as a result of reduced numbers of viral occlusions in infected cells, were isolated after passage in Trichoplusia ni (TN-368) cells. These mutants, termed FP (few-polyhedra) mutants, had acquired cell DNA sequences ranging from 0.8 to 2.8 kilobase pairs in size. The insertions of cell DNA occurred in a specific region between 35.0 and 37.7 map units of the A. californica viral genome. A cloned viral fragment containing one of the host DNA inserts was homologous to host DNA inserts in two other mutant viruses and to dispersed, repetitious sequences in T. ni cell DNA. Most of the homology between the cloned insert and cell DNA was contained within a 1,280-base-pair AluI fragment. Marker rescue studies and analysis of infected-cell-specific proteins suggested that the insertion of cell DNA into the viral genomes resulted in the FP plaque phenotype, possibly through the inactivation of a 25,000-molecular-weight protein.     

Site-selected insertion of the transposon Tc1 into a Caenorhabditis elegans myosin light chain gene.

We used the polymerase chain reaction to detect insertions of the transposon Tc1 into mlc-2, one of two Caenorhabditis elegans regulatory myosin light chain genes. Our goals were to develop a general method to identify mutations in any sequenced gene and to establish the phenotype of mlc-2 loss-of-function mutants. The sensitivity of the polymerase chain reaction allowed us to identify nematode populations containing rare Tc1 insertions into mcl-2. mlc-2::Tc1 mutants were subsequently isolated from these populations by a sib selection procedure. We isolated three mutants with Tc1 insertions within the mlc-2 third exon and a fourth strain with Tc1 inserted in nearby noncoding DNA. To demonstrate the generality of our procedure, we isolated two additional mutants with Tc1 insertions within hlh-1, the C. elegans MyoD homolog. All of these mutants are essentially wild type when homozygous. Despite the fact that certain of these mutants have Tc1 inserted within exons of the target gene, these mutations may not be true null alleles. All three of the mlc-2 mutants contain mlc-2 mRNA in which all or part of Tc1 is spliced from the pre-mRNA, leaving small in-frame insertions or deletions in the mature message. There is a remarkable plasticity in the sites used to splice Tc1 from these mlc-2 pre-mRNAs; certain splice sites used in the mutants are very different from typical eukaryotic splice sites.     

Isolation of Zoogloea ramigera I-16-M exopolysaccharide biosynthetic genes and evidence for instability within this region.

The genetics of the biosynthesis of an exocellular polysaccharide (EPS) from Zoogloea ramigera I-16-M is being investigated. Tn5 insertion mutants deficient in EPS production were isolated by screening for the absence of fluorescence on plates containing the dye Cellufluor (Polysciences Chemicals). Complementation of these mutations was achieved with a Z. ramigera I-16-M gene library constructed in a broad-host-range cosmid vector and introduced into the I-16-M mutants by conjugation. Four recombinant plasmids able to restore EPS production to all of these mutants were found to contain at least 14 kilobases of common insert DNA. Subcloning of the common region and restriction mapping the locations of Tn5 insertions have identified two complementation groups contained within a chromosomal segment of DNA that is between 4.6 and 6.5 kilobases in size. We have clearly demonstrated genetic instability in this region which leads to spontaneous deletions and possibly rearrangements resulting in the loss of EPS production.     

Frame shift mutations as a novel mechanism for the generation of neutralization resistant mutants of human respiratory syncytial virus.

The genetic characterization of four previously reported mutants of human respiratory syncytial (RS) virus resistant to monoclonal antibody 63G is described. Sequences of the G protein genes were obtained from: (i) mRNA derived cDNA recombinants, (ii) direct mRNA sequencing and (iii) amplified vRNA derived cDNAs. The results obtained indicate that the original escape mutants, recovered from individual plaques, contained heterogeneous viral populations. This heterogeneity affected the number of adenosine residues present after nucleotides 588 or 623 of the G protein gene. Mutant viruses recovered after a second plaque purification step generated homogeneous sequences but contained single adenosine insertions or deletions at those two sites compared with the Long sequence. These genetic alterations introduced frameshift changes which are reflected in both the antigenic and structural properties of the mutant G proteins. The origin and importance of frameshift mutations in the RS virus G protein gene are discussed.     

cyt gene of adenoviruses 2 and 5 is an oncogene for transforming function in early region E1B and encodes the E1B 19,000-molecular-weight polypeptide

A total of 59 cytocidal (cyt) mutants were isolated from adenovirus 2 (Ad2) and Ad5. In contrast to the small plaques and adenovirus type of cytopathic effects produced by wild-type cyt+ viruses, the cyt mutants produced large plaques, and the cytopathic effect was characterized by marked cellular destruction. cyt mutants were transformation defective in established rat 3Y1 cells. cyt+ revertants and cyt+ intragenic recombinants recovered fully the transforming ability of wild-type viruses. Thus, the cyt gene is an oncogene responsible for the transforming function of Ad2 and Ad5. Genetic mapping in which we used three Ad5 deletion mutants (dl312, dl313, and dl314) as reference deletions located the cyt gene between the 3' ends of the dl314 deletion (nucleotide 1,679) and the dl313 deletion (nucleotide 3,625) in region E1B. Restriction endonuclease mapping of these recombinants suggested that the cyt gene encodes the region E1B 19,000-molecular-weight (175R) polypeptide (nucleotides 1,711 to 2,236). This was confirmed by DNA sequencing of eight different cyt mutants. One of these mutants has a single missense mutant, two mutants have double missense mutations, and five mutants have nonsense mutations. Except for one mutant, these point mutations are not located in any other known region E1B gene. We conclude that the cyt gene codes for the E1B 19,000-molecular-weight (175R) polypeptide, that this polypeptide is required for morphological transformation of rat 3Y1 cells, and that simple amino acid substitutions in the protein can be sufficient to produce the cyt phenotype.     

Random mutagenesis in the large extrinsic loop E and transmembrane α-helix VI of the CP 47 protein of Photosystem II

The intrinsic chlorophyll-protein CP 47 is a component of Photosystem II which functions in both light-harvesting and oxygen evolution. Using the Escherichia coli mutator strain XL-1 Red, we introduced mutations at 14 sites in the large extrinsic loop E of CP 47 and its adjacent transmembrane -helix VI. Four mutant cell lines were recovered in which the histidyl residues 455H, 466H and 469H were altered. The cell lines H455T, H455Y, H469Y, and the double mutant F432L,H466R exhibited phenotypes that supported the identification of the histidyl residues 455H, 466H and 469H as chlorophyll ligands. Four additional mutant cell lines were recovered which contained mutations at positions 448R in the large extrinsic loop of CP 47. These mutants, R448K, R448Q, R448S, and R448W, exhibited variable phenotypes ranging from moderate alteration of photoautotrophic growth and oxygen evolution rates to a complete inhibition of these parameters. Those mutants exhibiting photoautotrophic growth and oxygen evolution capability under standard conditions were unable to grow photoautotrophically or evolve oxygen when grown at low chloride concentrations. Finally, a mutant cell line exhibiting a substitution at position 342G was recovered. The mutant G342D exhibited moderate alterations of photoautotrophic growth and oxygen evolution. In addition to these alterations, mutants were recovered in which deletions and insertions (leading to frame shifts) and stop codons were introduced. These mutants uniformly lacked the ability to either grow photoautotrophically or evolve oxygen.     

苜蓿丫纹夜蛾核型多角体病毒fp25k基因的改造及用于稳定转化Sf9昆虫细胞系

【目的】苜蓿丫纹夜蛾核型多角体病毒(Autographa californica multicapsid nucleopolyhedrovirus, AcMNPV)在昆虫细胞中连续传代以后,会出现从多多角体表型到少多角体表型的转变,这种转变与一个编码25 kDa蛋白的基因（few polyhedra, fp25k）突变失活有关。杆状病毒的fp25k基因突变后产生的包涵体（多角体）衍生病毒粒子变少而出芽型病毒粒子增加,会降低外源基因在杆状病毒表达系统中的表达。本研究拟改造fp25k并构建能持续表达FP25K蛋白的转基因昆虫细胞,以克服杆状病毒, fp25k基因易突变导致的表达系统缺陷。【方法】本实验通过改造杆状病毒, fp25k基因在细胞传代过程中容易产生突变的位点,得到 mfp25k,并将mfp25k构建到pIZT/V5-His载体上,重组载体转染Sf9细胞,通过Zeocin抗性筛选逐步淘汰未成功转化的Sf9细胞。【结果】成功改造AcMNPV的, fp25k基因的TTAA位点,得到pIZT-mfp25k重组载体。重组载体成功转染Sf9细胞,通过Zeocin抗性筛选后获得基因组中带有mfp25k的Sf9-mfp25k稳定的转基因细胞系。用AcMNPV的fp25k突变型病毒AcP2感染转基因Sf9-mfp25k昆虫细胞系与正常Sf9细胞,发现转基因Sf9-mfp25k昆虫细胞系表达的FP25K蛋白可弥补病毒, fp25k基因突变的缺陷。【结论】建立的Sf9-mfp25k转基因昆虫细胞系通过细胞表达FP25K蛋白,可以弥补因杆状病毒fp25k基因突变产生的缺陷。研究结果为构建稳定的杆状病毒 昆虫细胞表达系统提供了新途径。     

Isolation and characterization of the Beadex locus of Drosophila melanogaster: a putative cis-acting negative regulatory element for the heldup-a gene.

We isolated recombinant lambda phage clones spanning 49 kilobases of DNA which contain the Beadex and heldup-a loci of Drosophila melanogaster. These cloned DNAs were used to analyze the structure of eight dominant mutant alleles of the Beadex locus which show increased gene activity. A region, only 700 base pairs in length, is altered in each of these mutants. Six of the mutations have DNA insertions within this segment. Most of these insertions resemble retrovirus-like transposable elements. In one case (Beadex2) the inserted sequences are homologous to the gypsy transposon family. The other two Beadex alleles were induced by hybrid dysgenesis and suffered deletions which included at least part of the 700-base-pair segment. These deletions appear to have resulted from imprecise excision or deletion of a nearby P element found in the wild-type parental strain. Analysis of one heldup-a allele (heldup-aD30r) indicates that a similar P element-mediated event is responsible for this lesion. In this mutant, deletion of sequences no more than 1,600 base pairs from the Beadex locus accompanies the loss of heldup-a function. The deleted sequences in heldup-aD30r include the entire 700-base-pair segment within which at least part of the Beadex locus resides, yet these flies have no Beadex phenotype. This indicates that a functional heldup-a gene is necessary for expression of the Beadex phenotype. Together, these results suggest that the Beadex functional domain is contained within a short segment of DNA near the heldup-a gene and support the hypothesis that the Beadex locus functions as a cis-acting negative regulatory element for the heldup-a gene.     

Nucleotide sequence required for resolution of the concatemer junction of vaccinia virus DNA.

The mature form of the vaccinia virus genome consists of a linear, 185,000-base-pair (bp) DNA molecule with a 10,000-bp inverted terminal repetition and incompletely base-paired 104-nucleotide hairpin loops connecting the two strands at each end. In concatemeric forms of intracellular vaccinia virus DNA, the inverted terminal repetitions of adjacent genomes form an imperfect palindrome. The apex of this palindrome corresponds in sequence to the double-stranded form of the hairpin loop. Circular plasmids containing palindromic concatemer junction fragments of 250 bp or longer are converted into linear minichromosomes with hairpin ends when they are transfected into vaccinia virus-infected cells, providing a model system with which to study the resolution process. To distinguish between sequence-specific and structural requirements for resolution, plasmids with symmetrical insertions, deletions, and oligonucleotide-directed mutations within the concatemer junction were constructed. A sequence (ATTTAGTGTCTAGAAAAAAA) located on both sides of the apex segment was found to be critical for resolution. Resolution was more efficient when additional nucleotides, TGTG, followed the run of A residues. Both the location and sequence of the proposed resolution signal are highly conserved among poxviruses.     

Directed evolution and identification of control regions of ColE1 plasmid replication origins using only nucleotide deletions

Genes can be mutated by altering DNA content (base changes) or DNA length (insertions or deletions). Most in vitro directed evolution processes utilize nucleotide content changes to produce DNA libraries. We tested whether gain of function mutations could be identified using a mutagenic process that produced only nucleotide deletions. Short nucleotide stretches were deleted in a plasmid encoding lacZ, and screened for increased beta-galactosidase activity. Several mutations were found in the origin of replication that quantitatively and qualitatively altered plasmid behavior in vivo. Some mutations allowed co-residence of ColE1 plasmids in Escherichia coli, and implicate hairpin structures II and III of the ColE1 RNA primer as determinants of plasmid compatibility. Thus, useful and unexpected mutations can be found from libraries containing only deletions.     

Host range factor 1 from Lymantria dispar Nucleopolyhedrovirus (NPV) is an essential viral factor required for productive infection of NPVs in IPLB-Ld652Y cells derived from L. dispar

Host range factor 1 (HRF-1) of Lymantria dispar multinucleocapsid nucleopolyhedrovirus promotes Autographa californica MNPV replication in nonpermissive Ld652Y cells derived from L. dispar. Here we demonstrate that restricted Hyphantria cunea NPV replication in Ld652Y cells was not due to apoptosis but was likely due to global protein synthesis arrest that could be restored by HRF-1. Our data also showed that HRF-1 promoted the production of progeny virions for two other baculoviruses, Bombyx mori NPV and Spodoptera exigua MNPV, whose replication in Ld652Y cells is limited to replication of viral DNA without successful production of infectious progeny virions. Thus, HRF-1 is an essential viral factor required for productive infection of NPVs in Ld652Y cells.