Sequence analyses of herpesviral enzymes suggest an ancient origin for human sexual behavior

Herpes Simplex Virus and Varicella Zoster Virus Infections in Cancer Patients

Herpes simplex virus (HSV) and varicella zoster virus (VZV) are alpha herpesviruses that establish life-long latent infection in neuronal ganglia after primary infection. Periodic reactivation of these viruses results in recurrent infections that can have significant impact on patients' quality of life. HSV commonly causes oral and genital mucocutaneous infections whereas VZV is responsible for varicella/chickenpox and herpes zoster/shingles, but cancer patients are at particularly higher risk of complications including disseminated and visceral infections due to impaired cell-mediated immunity. While diagnosis of more common HSV and/or VZV infections is frequently clinically based, immunocompromised hosts may have atypical skin presentation or visceral involvement. Thus, diagnostic confirmation using virus-specific tests such as polymerase chain reaction or immunohistochemical staining is crucial in some cases. Oral acyclovir, valacyclovir and famciclovir are usually used for mild to moderate infections and intravenous acyclovir is the drug of choice for severe or disseminated infections. Foscarnet can be used when acyclovir-resistance is confirmed or suspected. Pharmaceutical prophylaxis against HSV and/or VZV should be considered in high-risk cancers patients. Currently, there is no commercially available vaccine against HSV, but VZV vaccines are available to prevent varicella and zoster.

The Role of aDNA in Understanding the Coevolutionary Patterns of Human Sexually Transmitted Infections

Analysis of pathogen genome data sequenced from clinical and historical samples has made it possible to perform phylogenetic analyses of sexually transmitted infections on a global scale, and to estimate the diversity, distribution, and coevolutionary host relationships of these pathogens, providing insights into pathogen emergence and disease prevention. Deep-sequenced pathogen genomes from clinical studies and ancient samples yield estimates of within-host and between-host evolutionary rates and provide data on changes in pathogen genomic stability and evolutionary responses. Here we examine three groups of pathogens transmitted mainly through sexual contact between modern humans to provide insight into ancient human behavior and history with their pathogens. Exploring ancient pathogen genomic divergence and the ancient viral-host parallel evolutionary histories will help us to reconstruct the origin of present-day geographical distribution and diversity of clinical pathogen infections, and will hopefully allow us to foresee possible environmentally induced pathogen evolutionary responses. Lastly, we emphasize that ancient pathogen DNA research should be combined with modern clinical pathogen data, and be equitable and provide advantages for all researchers worldwide, e.g., through shared data.

Usefulness of human herpes simplex virus type 1 genotyping for tracing the geographical origins of unidentified cadavers

Aim: We examined the possibility of tracing the origins of cadavers based on the geographic distribution of genotypes of the latent human herpes simplex virus type 1 (HSV-1). Materials & methods: PCR of the V1 region (667 bp) was performed using DNA from human trigeminal ganglia of 107 Japanese cadavers. The phylogenetic analysis was performed using 16 cadavers in Chiba district and 84 reference sequences in the world. Results: The HSV-1 DNA detection rate was 54.2% and it increased with age. This phylogenetic tree showed four large clusters, types I–IV (African, European, Asian and the mixed-type), and two subclusters (Japanese–Korean type and Japanese–Chinese type) in type III. Conclusion: HSV-1 genotype is possible to trace the geographical origin of unidentified cadavers.

Insights from paleomicrobiology into the indigenous peoples of pre-colonial America - a review

This review investigates ancient infectious diseases in the Americas dated to the pre-colonial period and considers what these findings can tell us about the history of the indigenous peoples of the Americas. It gives an overview, but focuses on four microbial pathogens from this period: Helicobacter pylori, Mycobacterium tuberculosis, Trypanosoma cruzi and Coccidioides immitis, which cause stomach ulceration and gastric cancer, tuberculosis, Chagas disease and valley fever, respectively. These pathogens were selected as H. pylori can give insight into ancient human migrations into the Americas, M. tuberculosis is associated with population density and urban development, T. cruzi can elucidate human living conditions and C. immitis can indicate agricultural development. A range of methods are used to diagnose infectious disease in ancient human remains, with DNA analysis by polymerase chain reaction one of the most reliable, provided strict precautions are taken against cross contamination. The review concludes with a brief summary of the changes that took place after European exploration and colonisation.

Current thinking on genital herpes

PURPOSE OF REVIEW

Genital herpes has a high global prevalence and burden of disease. This manuscript highlights recent advances in our understanding of genital herpes simplex virus (HSV) infections.

RECENT FINDINGS

Studies demonstrate a changing epidemiological landscape with an increasing proportion of genital herpes cases associated with HSV type 1. There is also growing evidence that the majority of infected individuals exhibit frequent, brief shedding episodes that are most often asymptomatic, which likely contribute to high HSV transmission rates. Given this finding as well as readily available serological assays, some have proposed that routine HSV screening be performed; however, this remains controversial and is not currently recommended. Host immune responses, particularly local CD4 and CD8 T cell activity, are crucial for HSV control and clearance following initial infection, during latency and after reactivation. Prior HSV immunity may also afford partial protection against HSV reinfection and disease. Although HSV vaccine trials have been disappointing to date and existing antiviral medications are limited, novel prophylactic and therapeutic modalities are currently in development.

SUMMARY

Although much remains unknown about genital herpes, improved knowledge of HSV epidemiology, pathogenesis and host immunity may help guide new strategies for disease prevention and control.

Genomics, the origins of agriculture, and our changing microbe-scape: time to revisit some old tales and tell some new ones

Though agriculture is often viewed as one of humanity's crowning achievements, skeletal evidence indicates that dependence on domesticated plants and animals was accompanied by an increase in infectious disease. Scientists have proposed that many important infections emerged in the period following the advent of agriculture, as a result of newly dense populations and novel proximity to domestic animals that served as reservoirs for novel pathogens. Here, we review genomic evidence regarding pathogen origins, analyzing these data using the epidemiological transition framework. Genetic information has forced us to reconsider how and when many important pathogens emerged; it appears that a number of infections thought to result from contact with domesticated animals arose much earlier than agriculture was adopted. We also consider the broader effect of agriculture upon the microbiome, exploring potential consequences for human health. We end by discussing the changes in the human microbe-scape we are likely to see in the future.

Primates, Pathogens, and Evolution: A Context for Understanding Emerging Disease

The world is rife with potential pathogens. Of those that infect humans, it is estimated that roughly 20 % are of nonhuman primate origin. The same ease characterizes pathogen transmission in the other direction, from humans to nonhuman primates. This latter problem has increasingly serious ramifications for conservation efforts, as growing numbers of ecotourists and researchers serve as potential vectors of disease. Here, we present an analysis of major cross-species transmission events between human and nonhuman primates. In particular, we consider HIV and malaria as case studies in which nonhuman primate pathogens emerged and became permanent fixtures in human populations. The human practices that facilitate such events are considered, as well as the evolutionary consequences of these events. In addition, we describe human-to-nonhuman primate transmission events and discuss the potential of human pathogens to adapt to nonhuman primate hosts. The topic of emerging infections is addressed, in both human and nonhuman species, in light of changing patterns of contact and novel adaptations on the part of pathogens and hosts.

Evolution of sexually transmitted and sexually transmissible human herpesviruses

Herpesviruses occur in an impressively wide range of animals and are associated with various diseases. The numerous routes taken during hundreds of millions of years of evolution have contributed to their striking adaptability and success as pathogens. Herpesviruses share a distinct virion structure and are classified taxonomically into a single order, the Herpesvirales, which is divided into three families. The phylogenetic relationships among members of the most populous family, the Herpesviridae, which includes all nine human herpesviruses, are generally similar to those among their hosts, supporting the view that there has been a large degree of coevolution between virus and host. Three human herpesviruses (human cytomegalovirus, Kaposi's sarcoma-associated herpesvirus, and herpes simplex virus type 1) are classed as agents capable of sexually transmissible infection (StxI), and one (herpes simplex virus type 2) as an agent capable of sexually transmitted infection (STI). The evolutionary characteristics of these viruses are described.

The evolution of infectious agents in relation to sex in animals and humans: brief discussions of some individual organisms

The following series of concise summaries addresses the evolution of infectious agents in relation to sex in animals and humans from the perspective of three specific questions: (1) what have we learned about the likely origin and phylogeny, up to the establishment of the infectious agent in the genital econiche, including the relative frequency of its sexual transmission; (2) what further research is needed to provide additional knowledge on some of these evolutionary aspects; and (3) what evolutionary considerations might aid in providing novel approaches to the more practical clinical and public health issues facing us currently and in the future?

HSV-2 serology can be predictive of HIV epidemic potential and hidden sexual risk behavior in the Middle East and North Africa

BACKGROUND

HIV prevalence is low in the Middle East and North Africa (MENA) region, though the risk or potential for further spread in the future is not well understood. Behavioral surveys are limited in this region and when available have serious limitations in assessing the risk of HIV acquisition. We demonstrate the potential use of herpes simplex virus-2 (HSV-2) seroprevalence as a marker for HIV risk within MENA.

METHODS

We designed a mathematical model to assess whether HSV-2 prevalence can be predictive of future HIV spread. We also conducted a systematic literature review of HSV-2 seroprevalence studies within MENA.

RESULTS

We found that HSV-2 prevalence data are rather limited in this region. Prevalence is typically low among the general population but high in established core groups prone to sexually transmitted infections such as men who have sex with men and female sex workers. Our model predicts that if HSV-2 prevalence is low and stable, then the risk of future HIV epidemics is low. However, expanding or high HSV-2 prevalence (greater than about 20%), implies a risk for a considerable HIV epidemic. Based on available HSV-2 prevalence data, it is not likely that the general population in MENA is experiencing or will experience such a considerable HIV epidemic. Nevertheless, the risk for concentrated HIV epidemics among several high-risk core groups is present.

CONCLUSIONS

HSV-2 prevalence surveys provide a useful mechanism for identifying and corroborating populations at risk for HIV within MENA. HSV-2 serology offers an effective tool for probing hidden sexual risk behaviors in a region where quality behavioral data are limited.

Novel less-abundant viral microRNAs encoded by herpes simplex virus 2 latency-associated transcript and their roles in regulating ICP34.5 and ICP0 mRNAs

We recently identified an acutely and latently expressed viral microRNA (miRNA), miR-I, encoded by herpes simplex virus 2 (HSV-2) latency-associated transcript (LAT) through small RNA cloning and two miRNAs encoded by HSV-1 LAT through prediction. We now report the use of high-throughput sequencing technology to identify two additional relatively less-abundant viral miRNAs, miR-II and miR-III, encoded by HSV-2 LAT exon 2. miR-II includes two miRNAs, miR-II-5p and miR-II-3p, which are processed from the same miRNA precursor. miR-II and miR-III map antisense to the 5' untranslated region of ICP34.5 and to the coding region of ICP0 exon 3, respectively. These novel miRNAs are conserved in different HSV-2 strains, and their presence in infected- and transfected-cell cultures was confirmed by Northern hybridization. All three HSV-2 LAT-encoded miRNAs map to genome locations similar to those of three out of four identified HSV-1 LAT-encoded miRNAs, but the sequences of these miRNAs are not conserved. The expression of LAT-encoded miRNAs is negatively regulated by ICP4, the major viral transactivator. We further show that, similar to miR-I, miR-II is able to efficiently silence the expression of ICP34.5, a key viral neurovirulence factor, and that miR-III is able to silence the expression of ICP0, a key viral transactivator. All these data suggest that LAT sequences likely contribute to HSV latency and reactivation through tight control of these LAT-encoded miRNAs and their viral targets.

Diversity of the a sequence of herpes simplex virus type 1 developed during evolution

Herpes simplex virus type 1 (HSV-1) is a ubiquitous human pathogen. The a sequence of HSV-1 is the cis-acting site required for the cleavage and encapsidation of unit-length HSV-1 DNA from concatemeric forms. The consensus a sequence consists of (i) DR1 (direct repeat 1), (ii) Ub, (iii) a DR2 array [a repeat of various copy numbers of DR2 elements (11 or 12 bp)], (iv) a DR4 stretch and (v) Uc. In the present study, the nucleotide sequences of the a sequences of 26 HSV-1 isolates were determined and the DR4 stretches were classified into three groups. The state of a set of 20 DNA polymorphisms in the genomes of these HSV-1 isolates was determined previously. A correct classification rate of 100 % was achieved when discriminant analysis was performed between the DR4 stretch (criterion variable) and the set of 20 DNA polymorphisms (predictor variables), suggesting a close association of the DR4 stretch with HSV-1 diversification. DR2 elements of 9, 13 and 14 bp were detected in addition to those of 11 and 12 bp, and a correct classification rate of 93 % was achieved when discriminant analysis was performed between the DR2 array and the set of 20 DNA polymorphisms. Some DR2 elements of one HSV-1 isolate had the same nucleotide sequences as part of the adjacent DR4 stretch, and these variations were adequately explained by postulating recombination involving DR2 elements; hence, the DR2 array was deduced to be prone to recombination.

Discriminant analysis of DNA polymorphisms in herpes simplex virus type 1 strains involved in primary compared to recurrent infections

The restriction fragment length polymorphism (RFLP) was analyzed using a set of herpes simplex virus type 1 (HSV-1) strains isolated from oro-facial lesions (oro-facial site collection), which was composed of two subsets: one subset consisted of 57 strains from primary oro-facial lesions, and the other of 47 strains from recurrent oro-facial lesions of patients complicated by factors possibly triggering the recurrence (e.g. malignancy, operation, and treatment of dental caries). RFLP analysis was carried out previously on two other sets of HSV-1 strains: one set was from genital lesions (genital site collection), and the other was from non-genital lesions (non-genital site collection). Discriminant analysis was carried out on the three sets of HSV-1 strains: the criterion variable had two values of primary infection or recurrence, and the predictor variables were 20 RFLPs. The degrees of separation between primary infection and recurrence increased in the order oro-facial site collection, genital site collection, and non-genital site collection. The results of discriminant analysis in this study confirmed that reactivation of HSV-1 infection is influenced by triggering factors and the site of infection, thereby suggesting the capabilities of multivariate analysis (including discriminant analysis) with DNA polymorphisms for molecular epidemiological studies.

Ocular herpes simplex: changing epidemiology, emerging disease patterns, and the potential of vaccine prevention and therapy

PURPOSE

To review the changing epidemiology of herpes simplex virus infection, emerging patterns of herpetic ocular disease, and the challenges and promise of herpes simplex virus vaccine therapy.

DESIGN

Perspective.

METHODS

Literature review.

RESULTS

An epidemic increase in genital herpes simplex type 2 infection is reflected in a 30% increase in HSV-2 antibodies in the United States since 1976. Approximately one in four people in the United States over age 30 is infected with HSV-2. Primary acquisition of herpes simplex type 1 is becoming progressively delayed in many industrialized countries, in contrast to developing nations where the virus is acquired early in life and is ubiquitous. Changes in sexual behavior among young adults have been associated with a recent increase in genital HSV-1 infection, resulting from oral-genital rather than genital-genital contact. Clinical trials of HSV vaccines using selected herpes simplex virus type 2 proteins mixed in adjuvant have shown limited efficacy in seronegative women, but not in men.

CONCLUSIONS

The recent epidemic of genital herpes simplex type 2 infection is likely to result in an increase in neonatal ocular herpes and in delayed cases of acute retinal necrosis syndrome. The increase in genital HSV-1 may lead to industry production of vaccines that contain components of both HSV-1 and HSV-2 targeted toward limiting genital disease and transmission. As newer herpes simplex vaccines become available, ophthalmologists must be vigilant that a boost in immunity against HSV does not have a paradoxical effect in exacerbating break-through cases that develop immune-mediated herpes simplex stromal keratitis.

Genotyping of herpes simplex virus type 1 strains isolated from ocular materials of patients with herpetic keratitis

Herpes simplex virus type 1 (HSV-1) is the etiological agent of herpetic keratitis. The epithelial form ("epithelial keratitis") is attributed mainly to destruction of the epithelium through active viral replication within the epithelium. The stromal form ("stromal keratitis") is associated with immune reactions within the stroma and is the common cause of human blindness. In the present study, 29 HSV-1 strains isolated from human ocular materials of herpetic keratitis were classified into 14 genotypes on the basis of DNA polymorphisms. Twenty-one of 29 (72%) strains from eyes examined in the present study were of genotypes that were shown previously to be present in strains from non-ocular lesions (including genital herpes). Five of nine (56%) strains from eyes related to stromal keratitis were of the F1 genotype, while four of twenty (20%) strains from eyes not related to stromal keratitis were of the F1 genotype. Thus, the proportion of F1 genotype was assumed to be larger in the group of strains related to stromal keratitis than in that not so related, suggesting an association of the F1 genotype with stromal keratitis. A connection of F1 genotype with recurrence was proposed previously; hence, F1 genotype seems to be associated to both stromal keratitis and the recurrence, thereby supporting the relationship between stromal keratitis and recurrence.

Role of viruses in human evolution

The study of viral molecular genetics has produced a considerable body of research into the sequences and phylogenetic relationships of human and animal viruses. A review of this literature suggests that humans have been afflicted by viruses throughout their evolutionary history, although the number and types have changed. Some viruses show evidence of long-standing intimate relationship and cospeciation with hominids, while others are more recently acquired from other species, including African monkeys and apes while our line was evolving in that continent, and domesticated animals and rodents since the Neolithic. Viral selection for specific resistance polymorphisms is unlikely, but in conjunction with other parasites, viruses have probably contributed to selection pressure maintaining major histocompatibility complex (MHC) diversity and a strong immune response. They may also have played a role in the loss in our lineage of N-glycolylneuraminic acid (Neu5Gc), a cell-surface receptor for many infectious agents. Shared viruses could have affected hominid species diversity both by promoting divergence and by weeding out less resistant host populations, while viruses carried by humans and other animals migrating out of Africa may have contributed to declines in other populations. Endogenous retroviral insertions since the divergence between humans and chimpanzees were capable of directly affecting hominid evolution through changes in gene expression and development.

Origins of human virus diversity

The diverse consequences of different viral infections on the human population reflect both the history of their origins and the nature of their ongoing evolution. Advances in the ease of finding and characterizing viral genome sequences are having a major impact on our understanding of the diversity of human viruses and of their relatives infecting other species.

The ecology and pathology of Epstein-Barr virus

Epstein-Barr virus achieves its ubiquitous and uniform epidemiological distribution by a dual strategy of latency to guarantee lifelong persistence and intermittent replication to guarantee transmission. These two functions appear to dictate residence in different cell types: latency in B lymphocytes and replication in epithelial cells. Both of these cell compartments are potential sites for EBV-associated malignancies.

Demonstration of either endogenous recurrence or exogenous reinfection by restriction endonuclease cleavage analysis of herpes simplex virus from patients with recrudescent genital herpes

By using restriction endonuclease (RE) cleavage analysis, either endogenous recurrence or exogenous reinfection of herpes simplex virus (HSV) was clarified in 45 male and 20 female subjects with recrudescent genital herpes. All of the plural (two to ten) isolates from 63 (205 isolates) out of 65 subjects (97%) were HSV-2. Two isolates from only one of 65 subjects (1.5%) were HSV-1, and they showed the same RE profile. In addition, an HSV-1 and five HSV-2 isolates were obtained from the remaining one female patient (1.5%), indicating that an exogenous HSV-1 strain has been reinfected during HSV-2 recrudescences. HSV-2 isolates were furthermore classified into genotypes of HSV-2 using 16 different RE markers with five REs. Two hundred and ten HSV-2 isolates from 64 subjects were classified into 27 distinct genotypes, in which some predominant genotypes and seven new genotypes were found. Plural HSV-2 isolates obtained from 63 out of 64 subjects, including one subject from whom an HSV-1 and five HSV-2 strains were isolated, were classified into the same genotypes, indicating that they may be regarded as recrudescent genital herpes by the reactivation of the same endogenous strain. However, the RE profiles of two HSV-2 strains from the remaining one subject were different. Thus, it was finally found that only two out of 65 subjects (3%) were reinfected with exogenous strains. These results lead to the conclusion that almost all recrudescent genital herpes are due to the reactivation of an initially infected HSV-2 strain, and are occasionally due to reinfection with distinct HSV strains of either the same or a different type.

Retrotransposition and herpesvirus evolution

One of the more interesting developments in herpesvirus evolution concerns the acquisition of novel, non-ubiquitous herpesvirus genes. A number of these are related to known cellular genes. How did herpesviruses acquire such genes? Our recent demonstration of retrovirus integration into herpesviruses suggests a potentially important role for retrotransposition in herpesvirus evolution and in the acquisition of novel genes, cellular in origin. Herpesvirus genome development has been characterized by a number of structural and evolutionary properties that support this proposal. We first discuss the evidence for retroviral integration into herpesviruses. The functional significance of this phenomenon is presently unclear. However, in the broader context of retrotransposition, a number of attractive features serve to explain the capture of structural and regulatory elements throughout herpesvirus evolution. These possibilities are discussed in detail.

Analysis of genomic polymorphism among herpes simplex virus type 2 isolates from four areas of Japan and three other countries

Genomic polymorphism of 307 epidemiologically unrelated strains of herpes simplex virus type 2 (HSV-2) from four areas of Japan and three other countries (Korea, Sweden and the U.S.A.) was analysed by using 16 variable markers selected from 97 restriction endonuclease (RE) sites with five REs. In addition to the 16 markers, 26 rare variable RE sites were found in 307 isolates. Five and four of 16 markers (RE sites) were found to differ in the frequency of isolates with the markers between isolates from Japan and Sweden and between those from Japan and the U.S.A., respectively, suggesting that they are genomically different from each other. In this manner, 307 HSV-2 isolates from four countries could be classified into 68 different genotypes (no. of isolates/no. of genotypes = 4.5). Some isolates from one country or more than two countries at times were classified into the same genotypes, which were referred to as predominant genotypes. The most predominant genotypes for isolates from Japan, Sweden and the U.S.A. were genotypes 30, 26 (32) and 3, respectively, indicating that they are different by the country. In genotypes 1 and 6, the frequency of isolates was found to be significantly different between Japan and Sweden and between Japan and the U.S.A., respectively. Nine out of 16 markers differed in the most genomically distant isolates, each of which was obtained in Sweden and Japan. In addition, high correlation coefficients (r) in the Japanese isolates were detected in different pairs of markers from those in the Swedish isolates, suggesting that isolates from these two countries are evolutionarily distant.

The RR1 gene of herpes simplex virus type 1 is uniquely trans activated by ICP0 during infection

As has been demonstrated for herpes simplex virus type 2, we show in this report that the herpes simplex virus type 1 ribonucleotide reductase large subunit (RR1) gene is trans activated in transient transfection assays by VP16 and ICP0 but not by ICP4. Deletion analysis demonstrated that responsiveness to induction to VP16 resides in an octamer/TAATGARAT sequence of the RR1 promoter and that the TATA box alone is sufficient to provide induction by ICP0. The induction of the RR1 gene by ICP0 but not by ICP4 suggested that it might be possible to identify the cis-acting element(s) responsive to ICP4 in an ICP4-inducible promoter. To this end, a series of chimeric promoters containing various portions of the regulatory sequences of the RR1 promoter and thymidine kinase (TK) promoter were constructed. The TK promoter is trans activated by both ICP0 and ICP4 in transient transfection assays and by ICP4 in infection. The data show that replacing the RR1 TATA region with the TK TATA region permits ICP4 inducibility even if the rest of the RR1 promoter elements remain intact. To test whether the RR1 gene is induced by ICP0 during infection, four mutant viruses were constructed. (i) TAATGARAT+ has the wild-type RR1 promoter driving chloramphenicol acetyltransferase (CAT) and the RR2 promoter driving the lacZ gene. The RR2 gene codes for the small subunit of the ribonucleotide reductase and is expressed as a beta gene. (ii) TAATGARAT- has a triple-base change in the octamer/TAATGARAT element which renders it unresponsive to VP16 trans activation, eliminating that portion of the activation of the RR1 gene. (iii) TAATGARAT- delta alpha 0 has a deletion of the alpha 0 gene. (iv) TAATGARAT- delta alpha 4 has a deletion of the alpha 4 gene. Infections were carried out in Vero cells at a multiplicity of infection of 10 per cell; cells were assayed for CAT and beta-galactosidase (beta-Gal) activities and for virus yields. The first two infections gave strong CAT and beta-Gal activities and high yields of progeny virus. Infection with the third virus showed no CAT activity but did produce high levels of beta-Gal activity and virus progeny. The fourth infection resulted in strong CAT activity but no beta-Gal activity or progeny virus. The data demonstrated that the RR1 promoter was activated in the absence of ICP4 but not in the absence of ICP0 in these infections.(ABSTRACT TRUNCATED AT 400 WORDS)

Random mutagenesis of the thymidine kinase gene of varicella-zoster virus

To understand the relationship between the primary structure and function of varicella-zoster virus thymidine kinase (VZV TK; EC 2.7.1.21), we established rapid screening and phenotypic selection of mutant VZV TK genes in TK-deficient Escherichia coli C600 by using a constitutive pKK223-3 expression plasmid. In this screening system, mutant TK genes generated by random mutagenesis were identified by the sensitivity of E. coli-expressing VZV TKs to 5-bromo-2'-deoxyuridine and 1-beta-D-arabinofuranosyl-E-5-(2-bromovinyl) uracil. Twenty-four mutant clones with amino acid substitutions were isolated, and their nucleotide sequence and enzymatic activities were determined. Of the 24 clones, 20 had single amino acid substitutions, 2 clones had double amino acid substitutions, and 1 clone had triple amino acid substitutions. In 17 cases of single amino acid substitution, six mutations led to lost enzyme activity, and four of these six mutations centered in the ATP-binding site. The other 11 mutations resulted in reduction of both TK and thymidylate kinase activities or only thymidylate kinase activity and were located in scattered positions in the VZV TK gene, although 5 mutations showed a tendency to cluster in the region between positions 251 and 260.

Short, duplicated sequence indicative of the recombinogenicity of the junction between a unique and an inverted repeat sequence in the S component of the herpes simplex virus type 1 genome

A herpes simplex virus type 1 (HSV-1) strain, B3, was found to have a short duplication on the left junction between the unique sequence (US) and the inverted repeat sequence (RS) in the S component of the genome DNA. A short region of RS contiguous to the left US-RS junction was duplicated in B3. Based on the nucleotide sequences in and around the US-RS junctions of B3 and other HSV-1 strains, a concept of junction stretch was proposed. The organization of junction stretch is RS side 5'-(G or A stretch)AGC-3' US side. Introduction of the concept of junction stretch led to a definition of the structure in and around the US-RS junction, in the form common to HSV-1 strains. The right end of US in the HSV-1 genome was the A of the ATG initiation codon of gene US12, and thus the ATG triplet may act as a buffer to prevent expansion of RS, as is the case with HSV-2. The duplication in B3 was generated by a crossover event between a point on RS and the US side end of the left junction stretch. These observations suggest that the US side end of the junction stretch possesses the property of recombinogenicity, responsible for generation of the duplication in strain B3 and also for the formation of the US-RS junction of HSV.