Your search keyword '"BACTERIAL artificial chromosomes"' showing total 140 results

1. Double and quadruple deletion mutant of EHV-1 is highly attenuated and induces optimal immune response.

Author

Balena, Venkataramireddy, Pradhan, Stephanie S., Bera, B.C., Anand, Taruna, Sansanwal, Rekha, Khetmalis, Rhushikesh, Madhwal, Aashwina, Bernela, Manju, Supriya, K., Pavulraj, S., Tripathi, B.N., and Virmani, Nitin

Subjects

*WEIGHT loss, *IMMUNE response, *BACTERIAL artificial chromosomes, *DELETION mutation, *VACCINE development, *CELL populations

Abstract

Equid alphaherpesvirus 1 (EHV-1) infection causes significant health problems in equines. The EHV-1 infection leads to abortion storm in mares, respiratory disease and myeloencephalopathy. Despite the wide use of vaccines, the outbreaks of EHV-1 infections keep occurring globally, suggesting the need for the development of improved vaccines. Gene deletion attenuated mutant viruses could be a good candidate for the development of modified live vaccines. Here, we report the generation of mutant EHV-1 by deleting virulence (glycoprotein E & internal repeat 6; IR6) and immune evasive (pUL43 & pUL56) associated genes either individually or in combinations; and comprehensive evaluation of mutants through in vitro characterization followed by in vivo study in murine model to adjudge the attenuation of the virus and immune responses generated by mutants vis-à-vis wild type (wt) virus. The EHV-1 mutants with deletion of IR6 and gE genes (vToH-DMV) and four genes (i.e., gE, IR6, pUL43 and pUL56) (vToH-QMV) revealed a significant reduction in plaque size with minimal loss in replication efficiency in comparison to the wt virus. Further, in vivo studies showed virus attenuation adjudged through significant reduction in clinical signs, weight loss, gross and histopathological lesions in comparison to wt virus also revealed improved immune responses estimated through serum neutralization and flow cytometric analysis of CD4 + and CD8 + cell populations. Thus it can be concluded that EHV-1 mutants viz. vToH-DMV and vToH-QMV (novel combination) are promising vaccine candidates and qualify to be studied for adjudging the protective efficacy with wt virus challenge. [ABSTRACT FROM AUTHOR]

Published

2023

2. Bacterial Artificial Chromosome-based Protein Expression Platform Using the Tol2 Transposon System.

Author

Kuk, Myeong Uk, Park, Ji Yun, Song, Eun Seon, Lee, Haneur, Lee, Yun Haeng, Joo, Junghyun, Kwon, Hyung Wook, and Park, Joon Tae

Subjects

*TRANSPOSONS, *SYNTHETIC proteins, *BACTERIAL artificial chromosomes, *PROTEIN expression, *CLONE cells, *GENE expression, *TRANSGENE expression

Abstract

Conventional vector systems, including plasmid-based vectors, are mainly used in mammalian cells for the production of biopharmaceuticals. Plasmid-based vectors express transgene by the random integration of recombinant transgenes into the genome. Transgene expression is greatly influenced by the surrounding chromatin, and in most cases, expression is weak and tends to be suppressed over time. Therefore, a novel strategy is required to create clones that maintain increased transgene expression. In this study, we used a bacterial artificial chromosome (BAC) containing the Rosa26 locus, which allows constitutive and ubiquitous gene expression. Moreover, we improved the Rosa26 BAC-mediated expression system by incorporating the Tol2 transposon system with helper vector, resulting in improved efficiency of protein production and maintained productivity even in single-cell clones. Furthermore, the recombinant Rosa26 BAC was improved in terms of protein productivity by using helper mRNA instead of helper vector. Finally, establishment of an optimal molar ratio between the recombinant Rosa26 BAC and helper mRNA helped to achieve maximal protein productivity. Taken together, our results provide an effective strategy for improving BAC-based expression systems for biopharmaceutical production. [ABSTRACT FROM AUTHOR]

Published

2022

3. Common and divergent pathways in early stages of glutamate and tau-mediated toxicities in neurodegeneration.

Author

Chongtham, Anjalika, Sharma, Abhijeet, Nath, Banshi, Murtha, Kaitlin, Gorbachev, Kirill, Ramakrishnan, Aarthi, Schmidt, Eric F., Shen, Li, and Pereira, Ana C.

Subjects

*EXCITATORY amino acids, *BACTERIAL artificial chromosomes, *NEUROFIBRILLARY tangles, *ALZHEIMER'S disease, *TAU proteins

Abstract

It has been shown that excitotoxicity and tau-mediated toxicities are major contributing factors to neuronal death in Alzheimer's disease (AD). The excitatory amino acid transporter 2 (EAAT2 or GLT-1), the major glutamate transporter in the brain that regulates glutamate levels synaptically and extrasynaptically, has been shown to be deficient in AD brains, leading to excitotoxicity and subsequent cell death. Similarly, buildup of neurofibrillary tangles, which consist of hyperphosphorylated tau protein, correlates with cognitive decline and neuronal atrophy in AD. However, common genes and pathways that are critical in the aforementioned toxicities have not been well elucidated. To investigate the impact of glutamate dyshomeostasis and tau accumulation on translational profiles of affected hippocampal neurons, we used mouse models of excitotoxicity and tau–mediated toxicities (GLT-1 −/− and P301S, respectively) in conjunction with BAC-TRAP technology. Our data show that GLT-1 deficiency in CA3 pyramidal neurons leads to translational signatures characterized by dysregulation of pathways associated with synaptic plasticity and neuronal survival, while the P301S mutation induces changes in endocytic pathways and mitochondrial dysfunction. Finally, the commonly dysregulated pathways include impaired ion homeostasis and metabolic pathways. These common pathways may shed light on potential therapeutic targets for ameliorating glutamate and tau-mediated toxicities in AD. [Display omitted] • In CA3 , GLT-1 −/− mice exhibit transcriptional changes in synaptic plasticity and neuronal survival. • In CA3 , P301S mice exhibit transcriptional changes in mitochondrial function and endocytosis. • Common dysregulated pathways between GLT-1 −/− and P301S mice are ion homeostasis and metabolism. [ABSTRACT FROM AUTHOR]

Published

2024

4. Development of Robust Varicella Zoster Virus Luciferase Reporter Viruses for In Vivo Monitoring of Virus Growth and Its Antiviral Inhibition in Culture, Skin, and Humanized Mice.

Author

Lloyd, Megan G., Yee, Michael B., Flot, Joseph S., Liu, Dongmei, Geiler, Brittany W., Kinchington, Paul R., and Moffat, Jennifer F.

Subjects

*BACTERIAL artificial chromosomes, *VARICELLA-zoster virus, *THYMIDYLATE synthase, *BACTERIOPHAGES, *VIRAL genes

Abstract

There is a continued need to understand varicella-zoster virus (VZV) pathogenesis and to develop more effective antivirals, as it causes chickenpox and zoster. As a human-restricted alphaherpesvirus, the use of human skin in culture and mice is critical in order to reveal the important VZV genes that are required for pathogenesis but that are not necessarily observed in the cell culture. We previously used VZV-expressing firefly luciferase (fLuc), under the control of the constitutively active SV40 promoter (VZV-BAC-Luc), to measure the VZV spread in the same sample. However, the fLuc expression was independent of viral gene expression and viral DNA replication programs. Here, we developed robust reporter VZV viruses by using bacterial artificial chromosome (BAC) technology, expressing luciferase from VZV-specific promoters. We also identified two spurious mutations in VZV-BAC that were corrected for maximum pathogenesis. VZV with fLuc driven by ORF57 showed superior growth in cells, human skin explants, and skin xenografts in mice. The ORF57-driven luciferase activity had a short half-life in the presence of foscarnet. This background was then used to investigate the roles for ORF36 (thymidine kinase (TK)) and ORF13 (thymidylate synthase (TS)) in skin. The studies reveal that VZV-∆TS had increased sensitivity to brivudine and was highly impaired for skin replication. This is the first report of a phenotype that is associated with the loss of TS. [ABSTRACT FROM AUTHOR]

Published

2022

5. Diversity of Sodium Transporter HKT1;5 in Genus Oryza.

Author

Pulipati, Shalini, Somasundaram, Suji, Rana, Nitika, Kumaresan, Kavitha, Shafi, Mohamed, Civáň, Peter, Sellamuthu, Gothandapani, Jaganathan, Deepa, Ramaravi, Prasanna Venkatesan, Punitha, S., Raju, Kalaimani, Mantri, Shrikant S., Sowdhamini, R., Parida, Ajay, and Venkataraman, Gayatri

Subjects

AMINO acid residues, RICE, SODIUM, ORYZA, WILD rice, BACTERIAL artificial chromosomes, HAPLOTYPES

Abstract

Asian cultivated rice shows allelic variation in sodium transporter, OsHKT1;5, correlating with shoot sodium exclusion (salinity tolerance). These changes map to intra/extracellularly-oriented loops that occur between four transmembrane-P loop-transmembrane (MPM) motifs in OsHKT1;5. HKT1;5 sequences from more recently evolved Oryza species (O. sativa / O. officinalis complex species) contain two expansions that involve two intracellularly oriented loops/helical regions between MPM domains, potentially governing transport characteristics, while more ancestral HKT1;5 sequences have shorter intracellular loops. We compared homology models for homoeologous OcHKT1;5-K and OcHKT1;5 - L from halophytic O. coarctata to identify complementary amino acid residues in OcHKT1;5-L that potentially enhance affinity for Na+. Using haplotyping, we showed that Asian cultivated rice accessions only have a fraction of HKT1;5 diversity available in progenitor wild rice species (O. nivara and O. rufipogon). Progenitor HKT1;5 haplotypes can thus be used as novel potential donors for enhancing cultivated rice salinity tolerance. Within Asian rice accessions, 10 non-synonymous HKT1;5 haplotypic groups occur. More HKT1;5 haplotypic diversities occur in cultivated indica gene pool compared to japonica. Predominant Haplotypes 2 and 10 occur in mutually exclusive japonica and indica groups, corresponding to haplotypes in O. sativa salt-sensitive and salt-tolerant landraces, respectively. This distinct haplotype partitioning may have originated in separate ancestral gene pools of indica and japonica , or from different haplotypes selected during domestication. Predominance of specific HKT1 ; 5 haplotypes within the 3 000 rice dataset may relate to eco-physiological fitness in specific geo-climatic and/or edaphic contexts. [ABSTRACT FROM AUTHOR]

Published

2022

6. Identification of the transgene insertion site for an adipocyte-specific adiponectin-cre model and characterization of the functional consequences.

Author

Farrar, Jared S., Lownik, Joseph C., Way, Grayson W., Rodriguez, Matthew C., Celi, Francesco S., and Martin, Rebecca K.

Subjects

*ADIPOGENESIS, *TRANSGENIC mice, *BACTERIAL artificial chromosomes, *TYPE 2 diabetes, *GENE expression, *NUCLEOTIDE sequencing

Abstract

The Adipoq-Cre transgenic mouse is widely used in the development of adipocyte-specific genetic manipulations for the study of obesity and type 2 diabetes. In the process of developing a new mouse model utilizing the adipocyte selective Adipoq-Cre transgenic mouse, strong genetic linkage between a gene of interest, Adam10, and the Adipoq-Cre transgene was discovered. Whole-genome sequencing of the Adipoq-Cre transgenic mouse model identified the genomic insertion site within the Tbx18 gene locus on chromosome 9 and this insertion causes a significant decrease in Tbx18 gene expression in adipose tissue. Insertion of genes Kng2, Kng1, Eif4a2 and Rfc4 also occurred in the Adipoq-Cre transgenic mouse, and these passenger genes may have functional consequences in various tissues. [ABSTRACT FROM AUTHOR]

Published

2021

7. New Biotechnology Data Have Been Reported by Researchers at Shandong University (Seamless Site-directed Mutagenesis In Complex Cloned Dna Sequences Using the Redex Method).

Subjects

BACTERIAL artificial chromosomes, ARTIFICIAL chromosomes, NUCLEOTIDE sequence, DNA, SITE-specific mutagenesis, GENE clusters, GENE targeting

Abstract

Researchers at Shandong University in China have developed a new method called RedEx for seamless site-directed mutagenesis in large plasmids and bacterial artificial chromosomes (BACs) with repetitive sequences. This technique allows for the insertion, deletion, or substitution of nucleotides, DNA segments, or entire genes at the target site without introducing any unwanted changes. The RedEx method achieves high accuracy in seamless DNA modification, particularly in large multimodular polyketide synthase gene clusters. It combines recombineering, counterselection, and exonuclease-mediated in vitro annealing to enable efficient editing of highly repetitive gene clusters and has the potential to modify biosynthesis pathways and generate new natural products. [Extracted from the article]

Published

2024

8. Identification of four insertion sites for foreign genes in a pseudorabies virus vector.

Author

Zhang, Chuanjian, Guo, Shiqi, Guo, Rongli, Chen, Saisai, Zheng, Yating, Xu, Mengwei, Wang, Zhisheng, Liu, Yamei, and Wang, Jichun

Subjects

*AUJESZKY'S disease virus, *BACTERIAL artificial chromosomes, *PORCINE epidemic diarrhea virus, *RECOMBINANT viruses, *GENE expression, *PORCINE reproductive & respiratory syndrome, *PIGLETS

Abstract

Background: Pseudorabies virus (PRV) is a preferred vector for recombinant vaccine construction. Previously, we generated a TK&gE-deleted PRV (PRVΔTK&gE−AH02) based on a virulent PRV AH02LA strain. It was shown to be safe for 1-day-old piglets with maternal PRV antibodies and 4 ~ 5 week-old PRV antibody negative piglets and provide rapid and 100 % protection in weaned pigs against lethal challenge with the PRV variant strain. It suggests that PRVTK&gE−AH02 may be a promising live vaccine vector for construction of recombinant vaccine in pigs. However, insertion site, as a main factor, may affect foreign gene expression. Results: In this study, we constructed four recombinant PRV-S bacterial artificial chromosomes (BACs) carrying the same spike (S) expression cassette of a variant porcine epidemic diarrhea virus strain in different noncoding regions (UL11-10, UL35-36, UL46-27 or US2-1) from AH02LA BAC with TK, gE and gI deletion. The successful expression of S gene (UL11-10, UL35-36 and UL46-27) in recombinant viruses was confirmed by virus rescue, PCR, real-time PCR and indirect immunofluorescence. We observed higher S gene mRNA expression level in swine testicular cells infected with PRV-S(UL11-10)ΔTK/gE and PRV-S(UL35-36)ΔTK/gE compared to that of PRV-S(UL46-27)ΔTK/gE at 6 h post infection (P < 0.05). Moreover, at 12 h post infection, cells infected with PRV-S(UL11-10)ΔTK/gE exhibited higher S gene mRNA expression than those infected with PRV-S(UL35-36)ΔTK/gE (P = 0.097) and PRV-S(UL46-27)ΔTK/gE (P < 0.05). Recovered vectored mutant PRV-S (UL11-10, UL35-36 and UL46-27) exhibited similar growth kinetics to the parental virus (PRVΔTK&gE−AH02). Conclusions: This study focuses on identification of suitable sites for insertion of foreign genes in PRV genome, which laids a foundation for future development of recombinant PRV vaccines. [ABSTRACT FROM AUTHOR]

Published

2021

9. Human herpesvirus 6A U27 plays an essential role for the virus propagation.

Author

Poetranto, Anna Lystia, Wakata, Aika, Tjan, Lidya Handayani, Nishimura, Mitsuhiro, Arii, Jun, and Mori, Yasuko

Subjects

BACTERIAL artificial chromosomes, DNA synthesis, AMINO acid sequence, DNA replication, HERPESVIRUSES, DNA polymerases, HUMAN cytomegalovirus

Abstract

Human herpesvirus 6A (HHV‐6A) is a member of the genus Roseolovirus and the subfamily Betaherpesvirinae. It is similar to and human cytomegalovirus (HCMV). HHV‐6A encodes a 41 kDa nuclear phosphoprotein, U27, which acts as a processivity factor in the replication of the viral DNA. HHV‐6A U27 has 43% amino acid sequence homology with HCMV UL44, which is important for DNA replication. A previous study on HHV‐6A U27 revealed that it greatly increases the in vitro DNA synthesis activity of HHV‐6A DNA polymerase. However, the role of U27 during the HHV‐6A virus replication process remains unclear. In this study, we constructed a U27‐deficient HHV‐6A mutant (HHV‐6ABACU27mut) with a frameshift insertion at the U27 gene using an HHV‐6A bacterial artificial chromosome (BAC) system. Viral reconstitution from the mutant BAC DNA was not detected, in contrast to the wild type and the revertant from the U27 mutant. This suggests that U27 plays a critical role in the life cycle of HHV‐6A. [ABSTRACT FROM AUTHOR]

Published

2020

10. Histamine and histidine decarboxylase: Immunomodulatory functions and regulatory mechanisms.

Author

Moriguchi, Takashi and Takai, Jun

Subjects

*HISTAMINE, *INFLAMMATION, *GASTRIC acid, *BACTERIAL artificial chromosomes, *MAST cells

Abstract

Histamine is a bioactive monoamine that is synthesized by the enzymatic activity of histidine decarboxylase (HDC) in basophils, mast cells, gastric enterochromaffin‐like (ECL) cells and histaminergic neuronal cells. Upon a series of cellular stimuli, these cells release stored histamine, which elicits allergies, inflammation, and gastric acid secretion and regulates neuronal activity. Recent studies have shown that certain other types of myeloid lineage cells also produce histamine with HDC induction under various pathogenic stimuli. Histamine has been shown to play a series of pathophysiological roles by modulating immune and inflammatory responses in a number of disease conditions, whereas the mechanistic aspects underlying induced HDC expression remain elusive. In the present review, we summarize the current understanding of the regulatory mechanism of Hdc gene expression and the roles played by histamine in physiological contexts as well as pathogenic processes. We also introduce a newly developed histaminergic cell‐monitoring transgenic mouse line (Hdc‐BAC‐GFP) that serves as a valuable experimental tool to identify the source of histamine and dissect upstream regulatory signals. [ABSTRACT FROM AUTHOR]

Published

2020

11. Metabolic engineering applications of the Escherichia coli bacterial artificial chromosome.

Author

Sjöberg, Gustav, Guevara-Martínez, Mónica, van Maris, Antonius J.A., and Gustavsson, Martin

Subjects

*BACTERIAL artificial chromosomes, *BACTERIAL metabolism, *SYNTHETIC biology, *ESCHERICHIA coli, *BACTERIAL chromosomes, *BIOENGINEERING, *GENE expression

Abstract

• The bacterial artificial chromosome (BAC) was investigated for metabolic engineering. • BAC increased 3HB productivity by 18% compared to multi-copy expression. • BAC expression of a native pathway closely mimicked chromosomal expression. • BAC allows pathway optimization compatible with subsequent chromosomal integration. In metabolic engineering and synthetic biology, the number of genes expressed to achieve better production and pathway regulation in each strain is steadily increasing. The method of choice for expression in Escherichia coli is usually one or several multi-copy plasmids. Meanwhile, the industry standard for long-term, robust production is chromosomal integration of the desired genes. Despite recent advances, genetic manipulation of the bacterial chromosome remains more time consuming than plasmid construction. To allow screening of different metabolic engineering strategies at a level closer to industry while maintaining the molecular-biology advantages of plasmid-based expression, we have investigated the single-copy bacterial artificial chromosome (BAC) as a development tool for metabolic engineering. Using (R)-3-hydroxybutyrate as a model product, we show that BAC can outperform multi-copy plasmids in terms of yield, productivity and specific growth rate, with respective increases of 12%, 18%, and 5%. We both show that gene expression by the BAC simplifies pathway optimization and that the phenotype of pathway expression from BAC is very close to that of chromosomal expression. From these results, we conclude that the BAC can provide a simple platform for performing pathway design and optimization. [ABSTRACT FROM AUTHOR]

Published

2019

12. Genome and Phylogenetic Analysis of Genes Involved in the Immune System of Solea senegalensis – Potential Applications in Aquaculture.

Author

García-Angulo, Aglaya, Merlo, Manuel A., Rodríguez, María E., Portela-Bens, Silvia, Liehr, Thomas, and Rebordinos, Laureana

Subjects

SOLEA senegalensis, BACTERIAL artificial chromosomes, IMMUNE system, FLUORESCENCE in situ hybridization, GENOMES, MOLECULAR cloning, FISH phylogeny, SEQUENCE analysis

Abstract

Global aquaculture production continues to increase rapidly. One of the most important species of marine fish currently cultivated in Southern Europe is Solea senegalensis , reaching more than 300 Tn in 2017. In the present work, 14 Bacterial Artificial Chromosome (BAC) clones containing candidate genes involved in the immune system (b2m , il10 , tlr3 , tap1 , tnf α, tlr8 , trim25 , lysg , irf5 , hmgb2 , calr , trim16 , and mx), were examined and compared with other species using multicolor Fluorescence in situ Hybridization (mFISH), massive sequencing and bioinformatic analysis to determine the genomic surroundings and syntenic chromosomal conservation of the genomic region contained in each BAC clone. The mFISH showed that the groups of genes hmgb2-trim25-irf5-b2m ; tlr3-lysg ; tnfα-tap1 , and il10-mx-trim16 were co-localized on the same chromosomes. Synteny results suggested that the studied BACs are placed in a smaller number of chromosomes in S. senegalensis that in other species. Phylogenetic analyses suggested that the evolutionary rate of immune system genes studied is similar among the taxa studied, given that the clustering obtained was in accordance with the accepted phylogenetic relationships among these species. This study contributes to a better understanding of the structure and function of the immune system of the Senegalese sole, which is essential for the development of new technologies and products to improve fish health and productivity. [ABSTRACT FROM AUTHOR]

Published

2019

13. Development of a Sequence-Based Reference Physical Map of Pea (Pisum sativum L.).

Author

Gali, Krishna Kishore, Tar'an, Bunyamin, Madoui, Mohammed-Amin, van der Vossen, Edwin, van Oeveren, Jan, Labadie, Karine, Berges, Helene, Bendahmane, Abdelhafid, Lachagari, Reddy V. B., Burstin, Judith, and Warkentin, Tom

Subjects

PEAS, BACTERIAL artificial chromosomes

Abstract

Whole genome profiling (WGP) is a sequence-based physical mapping technology and uses sequence tags generated by next generation sequencing for construction of bacterial artificial chromosome (BAC) contigs of complex genomes. The physical map provides a framework for assembly of genome sequence and information for localization of genes that are difficult to find through positional cloning. To address the challenges of accurate assembly of the pea genome (∼4.2 GB of which approximately 85% is repetitive sequences), we have adopted the WGP technology for assembly of a pea BAC library. Multi-dimensional pooling of 295,680 BAC clones and sequencing the ends of restriction fragments of pooled DNA generated 1,814 million high quality reads, of which 825 million were deconvolutable to 1.11 million unique WGP sequence tags. These WGP tags were used to assemble 220,013 BACs into contigs. Assembly of the BAC clones using the modified Fingerprinted Contigs (FPC) program has resulted in 13,040 contigs, consisting of 213,719 BACs, and 6,294 singleton BACs. The average contig size is 0.33 Mbp and the N50 contig size is 0.62 Mbp. WGPTM technology has proved to provide a robust physical map of the pea genome, which would have been difficult to assemble using traditional restriction digestion based methods. This sequence-based physical map will be useful to assemble the genome sequence of pea. Additionally, the 1.1 million WGP tags will support efficient assignment of sequence scaffolds to the BAC clones, and thus an efficient sequencing of BAC pools with targeted genome regions of interest. [ABSTRACT FROM AUTHOR]

Published

2019

14. Construction of an infectious bacterial artificial chromosome clone of a pseudorabies virus variant: Reconstituted virus exhibited wild-type properties in vitro and in vivo.

Author

Wang, Tao, Ye, Chao, Yu, Zhiqing, Chen, Jing, Gao, Fei, Shan, Tongling, Yu, Hai, Li, Liwei, Li, Guoxin, Tong, Guangzhi, Tong, Wu, and Zheng, Hao

Subjects

*BACTERIAL artificial chromosomes, *CLONING, *AUJESZKY'S disease virus, *MICROBIAL virulence, *VIRUS diseases in swine, *GENETIC mutation, *GENETIC recombination

Abstract

Since late 2011, a pseudorabies virus (PRV) variant with increased virulence in old pigs had caused major disease outbreaks and great economic losses to the pig industry in China. The gene mutations that contributed to the increased virulence were unclear. To study the basis of the enhanced pathogenicity, an infectious bacterial artificial chromosome (BAC) clone consisting of the complete genome of the PRV variant was developed. Using homologous recombination and Cre/LoxP recombination, the recombinant virus rJS-2012-BAC carrying a BAC insertion downstream of the open reading frame (ORF) of gG was constructed. The circular genome of rJS-2012-BAC was extracted from infected Vero cells and transformed into Escherichia coli DH10B, generating the BAC clone pBAC-JS2012. The loxP sites flanking the BAC vector were used to excise the BAC sequences using Cre recombinase. The reconstituted BAC-excision virus, vJS2012 L, from pBAC-JS2012 exhibited similar biological properties to the wild-type virulent strain JS-2012. To manipulate the BAC clone pBAC-JS2012, the galK selection system was adopted to delete the gI/gE gene from pBAC-JS2012 in E. coli and to generate the gI/gE-deleted virus vJS2012-ΔgE/gI. The BAC clone, pBAC-JS2012, retained the same level of virulence as its parent strain and was easily manipulated using a galK system which would facilitate the study of the enhanced pathogenicity of the PRV variant as well as other studies on PRV. [ABSTRACT FROM AUTHOR]

Published

2018

15. Exploring the loblolly pine (Pinus taeda L.) genome by BAC sequencing and Cot analysis.

Author

Perera, Dinum, Magbanua, Zenaida V., Thummasuwan, Supaphan, Mukherjee, Dipaloke, IIArick, Mark, Chouvarine, Philippe, Nairn, Campbell J., Schmutz, Jeremy, Grimwood, Jane, Dean, Jeffrey F.D., and Peterson, Daniel G.

Subjects

*LOBLOLLY pine, *YELLOW pines, *NUCLEOTIDE sequencing, *BACTERIAL artificial chromosomes, *ARTIFICIAL chromosomes

Abstract

Loblolly pine (LP; Pinus taeda L.) is an economically and ecologically important tree in the southeastern U.S. To advance understanding of the loblolly pine (LP; Pinus taeda L.) genome, we sequenced and analyzed 100 BAC clones and performed a Cot analysis. The Cot analysis indicates that the genome is composed of 57, 24, and 10% highly-repetitive, moderately-repetitive, and single/low-copy sequences, respectively (the remaining 9% of the genome is a combination of fold back and damaged DNA). Although single/low-copy DNA only accounts for 10% of the LP genome, the amount of single/low-copy DNA in LP is still 14 times the size of the Arabidopsis genome. Since gene numbers in LP are similar to those in Arabidopsis , much of the single/low-copy DNA of LP would appear to be composed of DNA that is both gene- and repeat-poor. Macroarrays prepared from a LP bacterial artificial chromosome (BAC) library were hybridized with probes designed from cell wall synthesis/wood development cDNAs, and 50 of the “targeted” clones were selected for further analysis. An additional 25 clones were selected because they contained few repeats, while 25 more clones were selected at random. The 100 BAC clones were Sanger sequenced and assembled. Of the targeted BACs, 80% contained all or part of the cDNA used to target them. One targeted BAC was found to contain fungal DNA and was eliminated from further analysis. Combinations of similarity-based and ab initio gene prediction approaches were utilized to identify and characterize potential coding regions in the 99 BACs containing LP DNA. From this analysis, we identified 154 gene models (GMs) representing both putative protein-coding genes and likely pseudogenes. Ten of the GMs (all of which were specifically targeted) had enough support to be classified as intact genes. Interestingly, the 154 GMs had statistically indistinguishable (α = 0.05) distributions in the targeted and random BAC clones (15.18 and 12.61 GM/Mb, respectively), whereas the low-repeat BACs contained significantly fewer GMs (7.08 GM/Mb). However, when GM length was considered, the targeted BACs had a significantly greater percentage of their length in GMs (3.26%) when compared to random (1.63%) and low-repeat (0.62%) BACs. The results of our study provide insight into LP evolution and inform ongoing efforts to produce a reference genome sequence for LP, while characterization of genes involved in cell wall production highlights carbon metabolism pathways that can be leveraged for increasing wood production. [ABSTRACT FROM AUTHOR]

Published

2018

16. Kaposi's Sarcoma-Associated Herpesvirus ORF67.5 Functions as a Component of the Terminase Complex.

Author

Yuki Iwaisako, Tadashi Watanabe, Youichi Suzuki, Takashi Nakano, and Masahiro Fujimuro

Subjects

*KAPOSI'S sarcoma-associated herpesvirus, *PLANT viruses, *VIRAL genomes, *LYTIC cycle, *BACTERIAL artificial chromosomes

Abstract

Kaposi's sarcoma-associated herpesvirus (KSHV) is a double-stranded DNA (dsDNA) gammaherpesvirus with a poorly characterized lytic replication cycle. However, the lytic replication cycle of the alpha- and betaherpesviruses are well characterized. During lytic infection of alpha- and betaherpesviruses, the viral genome is replicated as a precursor form, which contains tandem genomes linked via terminal repeats (TRs). One genomic unit of the precursor form is packaged into a capsid and is cleaved at the TR by the terminase complex. While the alpha- and betaherpesvirus terminases are well characterized, the KSHV terminase remains poorly understood. KSHV open reading frame 7 (ORF7), ORF29, and ORF67.5 are presumed to be components of the terminase complex based on their homology to other terminase proteins. We previously reported that ORF7-deficient KSHV formed numerous immature soccer ball-like capsids and failed to cleave the TRs. ORF7 interacted with ORF29 and ORF67.5; however, ORF29 and ORF67.5 did not interact with each other. While these results suggested that ORF7 is important for KSHV terminase function and capsid formation, the function of ORF67.5 was completely unknown. Therefore, to analyze the function of ORF67.5, we constructed ORF67.5-deficient BAC16. ORF67.5-deficient KSHV failed to produce infectious virus and cleave the TRs, and numerous soccer ball-like capsids were observed in ORF67.5-deficient KSHV-harboring cells. Furthermore, ORF67.5 promoted the interaction between ORF7 and ORF29, and ORF29 increased the interaction between ORF67.5 and ORF7. Thus, our data indicated that ORF67.5 functions as a component of the KSHV terminase complex by contributing to TR cleavage, terminase complex formation, capsid formation, and virus production. IMPORTANCE Although the formation and function of the alpha- and betaherpesvirus terminase complexes are well understood, the Kaposi's sarcoma-associated herpesvirus (KSHV) terminase complex is still largely uncharacterized. This complex presumably contains KSHV open reading frame 7 (ORF7), ORF29, and ORF67.5. We were the first to report the presence of soccer ball-like capsids in ORF7-deficient KSHV-harboring lytic-induced cells. Here, we demonstrated that ORF67.5-deficient KSHV also formed soccer ball-like capsids in lytic-induced cells. Moreover, ORF67.5 was required for terminal repeat (TR) cleavage, infectious virus production, and enhancement of the interaction between ORF7 and ORF29. ORF67.5 has several highly conserved regions among its human herpesviral homologs. These regions were necessary for virus production and for the interaction of ORF67.5 with ORF7, which was supported by the artificial intelligence (AI)-predicted structure model. Importantly, our results provide the first evidence showing that ORF67.5 is essential for terminase complex formation and TR cleavage. [ABSTRACT FROM AUTHOR]

Published

2023

17. Generation of a novel human cytomegalovirus bacterial artificial chromosome tailored for transduction of exogenous sequences.

Author

Close, William L., Bhandari, Amit, Hojeij, Marwa, and Pellett, Philip E.

Subjects

*CYTOMEGALOVIRUSES, *BACTERIAL artificial chromosomes, *VIRAL genomes, *TISSUE culture, *REVERSE genetics

Abstract

The study of herpesviruses, including human cytomegalovirus (HCMV), is complicated by viral genome complexity and inefficient methods for genetic manipulation in tissue culture. Reverse genetics of herpesviruses has been facilitated by propagating their genomes in E. coli as bacterial artificial chromosomes (BACs), which enables complex and precise genetic manipulation using bacterial recombinational systems. Internal capsid volume imposes a strict limit on the length of genome that can be packaged efficiently. This necessitates deletion of presumably nonessential segments of the viral genome to allow for incorporation of the E. coli mini-F plasmid propagation sequence. To avoid deleting viral genes, several BACs utilize a Cre/LoxP system to self-excise the mini-F sequence upon reconstitution of virus in tissue culture. Here, we describe the adaptation of Cre/LoxP to modify the mini-F sequence of the HCMV TB40/E BAC, thus generating a new self-excisable BAC, TB40/E/Cre. After excision of the E. coli propagation sequence, a 2.7 kbp genome length deficit is created due to a preexisting deletion within the US2-US6 coding region. We exploited this deficit and an FKBP12 protein destabilization domain (ddFKBP) to create a novel gene transduction system for studying exogenous proteins during HCMV infection. Using TB40/E/Cre, we: i) found genome length-associated differences in growth and ii) demonstrated its utility as a system capable of efficient transduction of exogenous proteins and regulation of their accumulation over periods as short as 2 h. TB40/E/Cre is a powerful tool of broad applicability that can be adapted to study HCMV replication and cell biology in a variety of contexts. [ABSTRACT FROM AUTHOR]

Published

2017

18. Estimation of long terminal repeat element content in the Helicoverpa zea genome from high-throughput sequencing of bacterial artificial chromosome pools.

Author

Coates, Brad S., Abel, Craig A., Perera, Omaththage P., and Crease, T.

Subjects

*HELIOTHIS zea, *BACTERIAL artificial chromosomes, *GENOMES, *FLOW cytometry, *GENOME size, *HAPLOIDY

Abstract

The lepidopteran pest insect Helicoverpa zea feeds on cultivated corn and cotton across the Americas where control remains challenging owing to the evolution of resistance to chemical and transgenic insecticidal toxins, yet genomic resources remain scarce for this species. A bacterial artificial chromosome (BAC) library having a mean genomic insert size of 145 ± 20 kbp was created from a laboratory strain of H. zea, which provides ∼12.9-fold coverage of a 362.8 ± 8.8 Mbp (0.37 ± 0.09 pg) flow cytometry estimated haploid genome size. Assembly of Illumina HiSeq 2000 reads generated from 14 pools that encompassed all BAC clones resulted in 165 485 genomic contigs ( N50 = 3262 bp; 324.6 Mbp total). Long terminal repeat (LTR) protein coding regions annotated from 181 contigs included 30 Ty1/ copia, 78 Ty3/ gypsy, and 73 BEL/ Pao elements, of which 60 (33.1%) encoded all five functional polyprotein ( pol) domains. Approximately 14% of LTR elements are distributed non-randomly across pools of BAC clones. [ABSTRACT FROM AUTHOR]

Published

2017

19. A bacterial artificial chromosome ( BAC) genomic approach reveals partial clustering of the furanocoumarin pathway genes in parsnip.

Author

Roselli, Sandro, Olry, Alexandre, Vautrin, Sonia, Coriton, Olivier, Ritchie, Dave, Galati, Gianni, Navrot, Nicolas, Krieger, Célia, Vialart, Guilhem, Bergès, Hélène, Bourgaud, Frédéric, and Hehn, Alain

Subjects

*PLANT genetics, *BACTERIAL artificial chromosomes, *FURANOCOUMARINS, *PARSNIP, *FLUORESCENCE in situ hybridization

Abstract

Furanocoumarins are specialized metabolites that are involved in the defense of plants against phytophagous insects. The molecular and functional characterization of the genes involved in their biosynthetic pathway is only partially complete. Many recent reports have described gene clusters responsible for the biosynthesis of specialized metabolites in plants. To investigate possible co-localization of the genes involved in the furanocoumarin pathway, we sequenced parsnip BAC clones spanning two different gene loci. We found that two genes previously identified in this pathway, CYP71 AJ3 and CYP71 AJ4, were located on the same BAC, whereas a third gene, Ps PT1, belonged to a different BAC clone. Chromosome mapping using fluorescence in situ hybridization ( FISH) indicated that Ps PT1 and the CYP71 AJ3- CYP71 AJ4 clusters are located on two different chromosomes. Sequencing the BAC clone harboring Ps PT1 led to the identification of a gene encoding an Fe( II) α-ketoglutarate-dependent dioxygenase (Ps DIOX) situated in the neighborhood of Ps PT1 and confirmed the occurrence of a second gene cluster involved in the furanocoumarin pathway. This enzyme metabolizes p-coumaroyl CoA, leading exclusively to the synthesis of umbelliferone, an important intermediate compound in furanocoumarin synthesis. This work provides an insight into the genomic organization of genes from the furanocoumarin biosynthesis pathway organized in more than one gene cluster. It also confirms that the screening of a genomic library and the sequencing of BAC clones represent a valuable tool to identify genes involved in biosynthetic pathways dedicated to specialized metabolite synthesis. [ABSTRACT FROM AUTHOR]

Published

2017

20. A Bacterial Artificial Chromosome Reporter System for Expression of the Human FOXP3 Gene in Mouse Regulatory T-Cells.

Author

Tsuda, Masato, Tone, Yukiko, Ogawa, Chihiro, Nagaoka, Yoshiko, Katsumata, Makoto, Necula, Andra, Howie, Duncan, Masuda, Esteban, Waldmann, Herman, and Tone, Masahide

Subjects

BACTERIAL artificial chromosomes, GENE expression, T cells

Abstract

The transcription factor FOXP3 plays key roles in the development and function of regulatory T cells (Treg) capable of preventing and correcting immunopathology. There has been much interest in exploiting Treg as adoptive cell therapy in man, but issues of lack of nominal antigen-specificity and stability of FoxP3 expression in the face of proinflammatory cytokines have been a concern. In order to enable fundamental studies of human FOXP3 (hFOXP3) gene regulation and to provide preclinical tools to guide the selection of drugs that might modulate hFOXP3 expression for therapeutic purposes, we generated hFOXP3/AmCyan bacterial artificial chromosome (BAC) transgenic mice and transfectants, wherein hFOXP3 expression was read out as AmCyan expression. Using the transgenic mice, one can now investigate hFOXP3 gene expression under defined experimental conditions used for mouse Foxp3 (mFoxp3) studies. Here, we demonstrate that hFOXP3 gene expression in BAC transgenic mice is solely restricted to CD4+ T-cells, as for mFoxp3 gene expression, showing that hFOXP3 expression in Treg cells depends on fundamentally similar processes to mFoxp3 expression in these cells. Similarly, hFOXP3 expression could be observed in mouse T-cells through TCR stimulation in the presence of TGF-β. These data suggest that, at least in part, cell typespecific human and mouse foxp3 gene expression is regulated by common regulatory regions which for the human, are located within the 110-kb human FOXP3 BAC DNA. To investigate hFOXP3 gene expression further and to screen potential therapeutics in modulating hFOXP3 gene expression in vitro, we also generated hFOXP3/AmCyan expression reporter cell lines. Using the reporter cells and transcription factor inhibitors, we showed that, just as for mFoxp3 expression, inhibitors of NF-κB, AP1, STAT5, Smad3, and NFAT also block hFOXP3 expression. hFOXP3 induction in the reporter cells was also TGF-β dependent, and substantially enhanced by an mTOR inhibitor, Torin1. In both the reporter transgenic mice and cell lines, histone H4 molecules in the hFOXP3 promoter and enhancers located in human CNS1 and CNS2 regions were highly acetylated in natural Treg and TCR/TGF-β-induced Treg, indicating hFOXP3 gene expression is regulated by mechanisms similar to those previously identified for the mFoxp3 gene. [ABSTRACT FROM AUTHOR]

Published

2017

21. Highly Efficient CRISPR/Cas9-Mediated Homologous Recombination Promotes the Rapid Generation of Bacterial Artificial Chromosomes of Pseudorabies Virus.

Author

Jin-Chao Guo, Yan-Dong Tang, Kuan Zhao, Tong-Yun Wang, Ji-Ting Liu, Jia-Cong Gao, Xiao-Bo Chang, Hong-Yu Cui, Zhi-Jun Tian, Xue-Hui Cai, and Tong-Qing An

Subjects

BACTERIAL artificial chromosomes, AUJESZKY'S disease virus, CHROMOSOMES

Abstract

Bacterial artificial chromosomes (BACs) are powerful tools for the manipulation of the large genomes of DNA viruses, such as herpesviruses. However, the methods currently used to construct the recombinant viruses, an important intermediate link in the generation of BACs, involve the laborious process of multiple plaque purifications. Moreover, some fastidious viruses may be lost or damaged during these processes, making it impossible to generate BACs from these large-genome DNA viruses. Here, we introduce the CRISPR/Cas9 as a site-specific gene knock-in instrument that promotes the homologs recombination of a linearized transfer vector and the Pseudorabies virus genome through double incisions. The efficiency of recombination is as high as 86%. To our knowledge, this is the highest efficiency ever reported for Pseudorabies virus recombination. We also demonstrate that the positions and distances of the CRISPR/Cas9 single guide RNAs from the homology arms correlate with the efficiency of homologous recombination. Our work show a simple and fast cloning method of BACs with large genome inserted by greatly enhancing the HR efficiencies through CRISPR/Cas9-mediated homology-directed repair mechanism, and this method could be of helpful for manipulating large DNA viruses, and will provide a successful model for insertion of large DNA fragments into other viruses. [ABSTRACT FROM AUTHOR]

Published

2016

22. An inactivated gE-deleted pseudorabies vaccine provides complete clinical protection and reduces virus shedding against challenge by a Chinese pseudorabies variant.

Author

Jichun Wang, Rongli Guo, Yongfeng Qiao, Mengwei Xu, Zhisheng Wang, Yamei Liu, Yiqi Gu, Chang Liu, and Jibo Hou

Subjects

*AUJESZKY'S disease vaccines, *BACTERIAL artificial chromosomes, *ARTIFICIAL chromosomes, *VACCINES, *SWINE industry

Abstract

Background: Since the end of 2011 an outbreak of pseudorabies affected Chinese pig herds that had been vaccinated with the commercial vaccine made of Bartha K61 strain. It is now clear that the outbreak was caused by an emergent PRV variant. Even though vaccines made of PRV Bartha K61 strain can confer certain cross protection against PRV variants based on experimental data, less than optimal clinical protection and virus shedding reduction were observed, making the control or eradication of this disease difficult. Results: An infectious clone of PRV AH02LA strain was constructed to generate a gE deletion mutant PRV(LA-AB) strain. PRV(LA-AB ) strain can reach a titer of 108.43 TCID50 /mL (50% tissue culture infectious dose) on BHK-21 cells. To evaluate the efficiency of the inactivated vaccine made of PRV(LA-AB) strain, thirty 3-week-old PRV-negative piglets were divided randomly into six groups for vaccination and challenge test. All five piglets in the challenge control showed typical clinical symptoms of pseudorabies post challenge. Sneezing and nasal discharge were observed in four and three piglets in groups C(vaccinated with inactivated PRV Bartha K61 strain vaccine) and D(vaccinated with live PRV Bartha K61 strain vaccine) respectively. In contrast, piglets in both groups A(vaccinated with inactivated PRV LA-AB strain vaccine) and B(vaccinated with inactivated PRV LA-AB strain vaccine with adjuvant) presented mild or no clinical symptoms. Moreover, viral titers detected via nasal swabs were approximately 100 times lower in group B than in the challenge control, and the duration of virus shedding (3-4 days) was shorter than in either the challenge control (5-10 days) or groups C and D (5-6 days). Conclusions: The infectious clone constructed in this study harbors the whole genome of the PRV variant AH02LA strain. The gE deletion mutant PRV(LA-AB)strain generated from PRV AH02LA strain can reach a high titer on BHK-21 cells. An inactivated vaccine of PRV LA-AB provides clinical protection and significantly reduces virus shedding post challenge, especially if accompanied by the adjuvant CVC1302. While Inactivated or live vaccines made of PRV Barth K61 strain can provide only partial protection in this test. [ABSTRACT FROM AUTHOR]

Published

2016

23. Protective efficacy of a recombinant bacterial artificial chromosome clone of a very virulent Marek’s disease virus containing a reticuloendotheliosis virus long terminal repeat.

Author

Mays, Jody K., Black-Pyrkosz, Alexis, Spatz, Stephen, Fadly, Aly M., and Dunn, John R.

Subjects

*BACTERIAL artificial chromosomes, *MAREK'S disease virus, *RETROVIRUSES, *RECOMBINANT microorganisms, *MORTALITY

Abstract

Marek’s disease virus (MDV), an alphaherpesvirus, causes Marek’s disease (MD), a lymphoproliferative disease in poultry characterized by T-cell lymphomas, nerve lesions, and mortality. Vaccination is used worldwide to control MD, but increasingly virulent field strains can overcome this protection, driving a need to create new vaccines. Previous studies revealed that insertion of reticuloendotheliosis virus (REV) long terminal repeat (LTR) into a bacterial artificial chromosome (BAC) clone of a very virulent strain of MDV, Md5, rendered the resultant recombinant virus, rMd5 REV-LTR BAC, fully attenuated in maternal antibody positive (Mab+) chickens at passage 40. In the current study, the protective efficacy of rMd5 REV-LTR BAC was evaluated. First, passage 70 was identified as being fully attenuated in maternal antibody negative chickens and chosen as the optimal passage level for use in protective efficacy studies. Second, three protective efficacy trials were conducted comparing the rMd5 REV-LTR p70 BAC to the CVI988/Rispens vaccine. Groups of Mab+ and Mab− 15I5 × 71chickens were vaccinatedin ovoat 18 days of embryonation or intra-abdominally at day of hatch, and challenged at 5 days post-hatch with the vv+MDV strain 686. Vaccination at day of hatch andin ovowith rMd5 REV-LTR p70 BAC protected chickens against MDV-induced bursa and thymic atrophy, but did not provide the same level of protection against MD tumours as that afforded by the commercial vaccine, CVI988/Rispens. [ABSTRACT FROM AUTHOR]

Published

2016

24. Generation of a DNA-launched classical swine fever virus infectious clone packaged in bacterial artificial chromosome.

Author

Fan, Dinglin, Hu, Congxia, Yang, Xidan, Yang, Xuetao, Chen, Yanhua, and Lin, Jihui

Subjects

*BACTERIAL artificial chromosomes, *CLASSICAL swine fever virus, *VIRUS cloning, *REVERSE genetics, *HEPATITIS D virus, *PLANT viruses

Abstract

• The CMV promoter launched CSFV Shimen strain infectious cDNA was assembled in a bacterial artificial chromosome. • The progeny viruses were rescued efficiently and was identical to the wild type parent virus. • A recombinant virus CSFV-mCherry expressing the mCherry reporter gene was established. • The CSFV-mCherry reporter virus possessed high stability. Reverse genetics system offers powerful tool for the research of RNA viruses. The infectious clones of classical swine fever virus (CSFV) were commonly constructed either in high- or low-copy number plasmids and transcribed to infectious RNA using phage RNA-polymerases. Herein, the full-length genome of CSFV Shimen strain, flanked by cytomegalovirus immediate-early (CMV) promoter (a eukaryotic RNA polymerase II promoter) sequence at the 5′-end and the hepatitis delta virus ribozyme along with the bovine growth hormone termination and polyadenylation signal sequences at the 3′-end, was packaged in bacterial artificial chromosome vector to establish a CSFV infectious clone pBAC-smCSFV. This infectious cDNA clone maintained stability after passaged 20 times in bacteria. Transfection of PK15 cells with this cDNA clone facilitated recovery of infectious progeny virus which was identical to parent virus as characterized by RT-qPCR, western blotting, indirect immunofluorescence assay, one-step growth kinetics analysis and nucleotide sequencing. Based on this CSFV infectious cDNA clone, the mCherry was inserted between viral Npro and C protein to develop reporter virus CSFV-mCherry. The mCherry was stably expressed after CSFV-mCherry was passaged 10 times in PK15 cells. Taken together, this present study develops a concise and efficient CSFV infectious cDNA clone and a reporter virus CSFV-mCherry. To the best of our knowledge, this is the first combination of CMV promoter and BAC system in construction of CSFV reverse genetics system. The CSFV infectious cDNA clone and the reporter virus will be useful in the study of CSFV virus biology, virulence determinants, molecular pathogenesis, vaccine development and virus-host interaction. [ABSTRACT FROM AUTHOR]

Published

2023

25. Multiplex sequencing of bacterial artificial chromosomes for assembling complex plant genomes.

Author

Beier, Sebastian, Himmelbach, Axel, Schmutzer, Thomas, Felder, Marius, Taudien, Stefan, Mayer, Klaus F. X., Platzer, Matthias, Stein, Nils, Scholz, Uwe, and Mascher, Martin

Subjects

*BACTERIAL artificial chromosomes, *ARTIFICIAL chromosomes, *NUCLEOTIDE sequence, *GENOMES, *PLANT genomes

Abstract

Hierarchical shotgun sequencing remains the method of choice for assembling high-quality reference sequences of complex plant genomes. The efficient exploitation of current high-throughput technologies and powerful computational facilities for large-insert clone sequencing necessitates the sequencing and assembly of a large number of clones in parallel. We developed a multiplexed pipeline for shotgun sequencing and assembling individual bacterial artificial chromosomes ( BACs) using the Illumina sequencing platform. We illustrate our approach by sequencing 668 barley BACs ( Hordeum vulgare L.) in a single Illumina HiSeq 2000 lane. Using a newly designed parallelized computational pipeline, we obtained sequence assemblies of individual BACs that consist, on average, of eight sequence scaffolds and represent >98% of the genomic inserts. Our BAC assemblies are clearly superior to a whole-genome shotgun assembly regarding contiguity, completeness and the representation of the gene space. Our methods may be employed to rapidly obtain high-quality assemblies of a large number of clones to assemble map-based reference sequences of plant and animal species with complex genomes by sequencing along a minimum tiling path. [ABSTRACT FROM AUTHOR]

Published

2016

26. Structural organization of fatty acid desaturase loci in linseed lines with contrasting linolenic acid contents.

Author

Thambugala, Dinushika, Ragupathy, Raja, and Cloutier, Sylvie

Subjects

*FATTY acid desaturase, *FLAXSEED, *LINOLENIC acids, *DIPLOIDY, *AGRONOMY, *BACTERIAL artificial chromosomes, *PLANT chromosomes

Abstract

Flax ( Linum usitatissimum L.), the richest crop source of omega-3 fatty acids (FAs), is a diploid plant with an estimated genome size of ~370 Mb and is well suited for studying genomic organization of agronomically important traits. In this study, 12 bacterial artificial chromosome clones harbouring the six FA desaturase loci sad1, sad2, fad2a, fad2b, fad3a and fad3b from the conventional variety CDC Bethune and the high linolenic acid line M5791 were sequenced, analysed and compared to determine the structural organization of these loci and to gain insights into the genetic mechanisms underlying FA composition in flax. With one gene every 3.2-4.6 kb, the desaturase loci have a higher gene density than the genome's average of one gene per 7.8-8.2 kb. The gene order and orientation across the two genotypes were generally conserved with the exception of the sad1 locus that was predicted to have additional genes in CDC Bethune. High sequence conservation in both genic and intergenic regions of the sad and fad2b loci contrasted with the significant level of variation of the fad2a and fad3 loci, with SNPs being the most frequently observed mutation type. The fad2a locus had 297 SNPs and 36 indels over ~95 kb contrasting with the fad2b locus that had a mere seven SNPs and four indels in ~110 kb. Annotation of the gene-rich loci revealed other genes of known role in lipid or carbohydrate metabolic/catabolic pathways. The organization of the fad2b locus was particularly complex with seven copies of the fad2b gene in both genotypes. The presence of Gypsy, Copia, MITE, Mutator, hAT and other novel repeat elements at the desaturase loci was similar to that of the whole genome. This structural genomic analysis provided some insights into the genomic organization and composition of the main desaturase loci of linseed and of their complex evolution through both tandem and whole genome duplications. [ABSTRACT FROM AUTHOR]

Published

2016

27. Removal of Inserted BAC after linearizatiON (RIBON)--a novel strategy to excise the mini-F sequences from viral BAC vectors.

Author

Yukari ISHIHARA, Motoyuki ESAKI, and Atsushi YASUDA

Subjects

BACTERIAL artificial chromosomes, ARTIFICIAL chromosomes, GREEN fluorescent protein

Abstract

The bacterial artificial chromosome (BAC) technology has been a mainstay approach for generating recombinant viruses, and several methods for excision of the mini-F sequences from the viral BAC vectors have been developed. However, these strategies either require complicated procedures or leave scars of inserted sequences. To overcome these problems, a new method to excise the mini-F sequences from viral BAC vectors based on the Removal of Inserted BAC after linearizatiON (RIBON) strategy was developed in this study for herpesvirus of turkeys (HVT). Enhanced green fluorescent protein (eGFP) DNA and the mini-F sequences were inserted into the gene encoding HVT thymidine kinase (TK) by homologous recombination in chicken embryo fibroblasts (CEFs), and the constructed HVT-BAC vector was used to transform Escherichia coli (pHVT-BAC). To remove the inserted eGFP and mini-F sequences, pHVT-BAC was linearized using a homing endonuclease I-SceI and used to cotransfect CEFs together with a plasmid containing the TK gene of HVT. The obtained viruses (44%) did not express eGFP, and DNA sequencing of isolated clones revealed that they were completely free of the inserted BAC sequences. Moreover, growth kinetics and plaque morphology of reconstituted viruses were comparable with those of the parental HVT. The results of this study demonstrate that the novel RIBON approach to remove mini-F sequences from the viral genome is simple and effective. [ABSTRACT FROM AUTHOR]

Published

2016

28. Integrative bacterial artificial chromosomes for DNA integration into the Bacillus subtilis chromosome.

Author

Juhas, Mario and Ajioka, James W.

Subjects

*BACILLUS subtilis, *BACTERIAL artificial chromosomes, *SYNTHETIC biology, *BIOTECHNOLOGY, *BACTERIAL DNA, *GENE targeting

Abstract

Bacillus subtilis is a well-characterized model bacterium frequently used for a number of biotechnology and synthetic biology applications. Novel strategies combining the advantages of B. subtilis with the DNA assembly and editing tools of Escherichia coli are crucial for B. subtilis engineering efforts. We combined Gibson Assembly and λ red recombineering in E. coli with RecA-mediated homologous recombination in B. subtilis for bacterial artificial chromosome-mediated DNA integration into the well-characterized amyE target locus of the B. subtilis chromosome. The engineered integrative bacterial artificial chromosome iBAC(cav) can accept any DNA fragment for integration into B. subtilis chromosome and allows rapid selection of transformants by B. subtilis -specific antibiotic resistance and the yellow fluorescent protein ( mVenus ) expression. We used the developed iBAC(cav)-mediated system to integrate 10 kb DNA fragment from E. coli K12 MG1655 into B. subtilis chromosome. iBAC(cav)-mediated chromosomal integration approach will facilitate rational design of synthetic biology applications in B. subtilis . [ABSTRACT FROM AUTHOR]

Published

2016

29. Identification of an antibacterial protein by functional screening of a human oral metagenomic library.

Author

PreetiArivaradarajan, Paramasamy, Gunasekaran, Nair, Sean P., Allan, Elaine, and Mullany, Peter

Subjects

*ANTIBACTERIAL agents, *BACTERIAL artificial chromosomes, *SALIVA, *CHEMICAL synthesis, *PSEUDOMONAS aeruginosa, *FUSOBACTERIUM

Abstract

Screening of a bacterial artificial chromosome (BAC) library containing metagenomic DNA from human plaque and saliva allowed the isolation of four clones producing antimicrobial activity. Three of these were pigmented and encoded homologues of glutamyl-tRNA reductase (GluTR), an enzyme involved in the C5 pathway leading to tetrapyrole synthesis, and one clone had antibacterial activity with no pigmentation. The latter contained a BAC with an insert of 15.6 kb. Initial attempts to localize the gene(s) responsible for antimicrobial activity by subcloning into pUC-based vectors failed. A new plasmid for toxic gene expression (pTGEX) was designed enabling localization of the antibacterial activity to a 4.7-kb HindIII fragment. Transposon mutagenesis localized the gene to an open reading frame of 483 bp designated antibacterial protein1 (abp1). Abp1 was 94% identical to a hypothetical protein of Neisseria subflava (accession number WP 004519448.1). An Escherichia coli clone expressing Abp1 exhibited antibacterial activity against Bacillus subtilis BS78H, Staphylococcus epidermidis NCTC 11964 and B4268, and S. aureus NCTC 12493,ATCC 35696 and NCTC 11561. However, no antibacterial activity was observed against Pseudomonas aeruginosa ATCC 9027, N. subflava ATCC A1078, E. coli K12 JM109 and BL21(DE3) Fusobacterium nucleatum ATCC 25586 and NCTC 11326, Prevotella intermedia ATCC 25611, Veillonella parvula ATCC 10790 or Lactobacillus casei NCTC 6375. [ABSTRACT FROM AUTHOR]

Published

2015

30. A novel inactivated gE/gI deleted pseudorabies virus (PRV) vaccine completely protects pigs from an emerged variant PRV challenge.

Author

Gu, Zhenqing, Dong, Jing, Wang, Jichun, Hou, Chengcai, Sun, Haifeng, Yang, Wenping, Bai, Juan, and Jiang, Ping

Subjects

*AUJESZKY'S disease vaccines, *AUJESZKY'S disease virus, *SWINE diseases, *VIRAL disease prevention, *EPITOPES, *SWINE industry, *BACTERIAL artificial chromosomes, *GENOMES

Abstract

A highly virulent and antigenic variant of pseudorabies virus (PRV) broke out in China at the end of 2011 and caused great economic loss in the pig industry. In this study, an infectious bacterial artificial chromosome (BAC) clone containing the full-length genome of the emerged variant PRV ZJ01 strain was generated. The BAC-derived viruses, vZJ01-GFPΔgE/gI (gE/gI deleted strain, and exhibiting green autofluorescence), vZJ01ΔgE/gI (gE/gI deleted strain), and vZJ01gE/gI-R (gE/gI revertant strain), showed similar in vitro growth to their parent strain. In pigs, inactivated vZJ01ΔgE/gI vaccine generated significantly high levels of neutralizing antibodies against ZJ01 compared with Bartha-K61 live vaccine ( p < 0.05). After fatal ZJ01 challenge, all five animals in the inactivated vZJ01ΔgE/gI vaccine group survived without exhibiting any clinical sings, but two of five animals exhibited central nervous signs in the Bartha-K61 group. Meanwhile, all the non-vaccinated control animals died at 7 days post-challenge. This indicates that the inactivated vZJ01ΔgE/gI vaccine is a promising vaccine candidate for controlling the variant strains of PRV now circulating in China. [ABSTRACT FROM AUTHOR]

Published

2015

31. The human herpesvirus 6 U21-U24 gene cluster is dispensable for virus growth.

Author

Jasirwan, Chyntia, Tang, Huamin, Kawabata, Akiko, and Mori, Yasuko

Subjects

HERPESVIRUSES, BACTERIAL artificial chromosomes, VIRAL genes, VIRAL genomes, DNA analysis

Abstract

ABSTRACT Human herpesvirus 6 (HHV-6) is a T-lymphotrophic virus belongs to the genus Roseolovirus within the beta herpesvirus subfamily. The U20-U24 gene cluster is unique to Roseoloviruses; however, both their function and whether they are essential for virus growth is unknown. Recently, bacterial artificial chromosome (BAC) techniques have been used to investigate HHV-6A. This study describes generation of a virus genome lacking U21-U24 (HHV-6ABACΔU21-24) and shows that infectious virus particles can be reconstituted from this BAC DNA. Our data indicate that the HHV-6 U21-U24 gene cluster is dispensable for virus propagation. [ABSTRACT FROM AUTHOR]

Published

2015

32. Construction and Characterization of Three Wheat Bacterial Artificial Chromosome Libraries.

Author

Wenjin Cao, Bisheng Fu, Kun Wu, Na Li, Yan Zhou, Zhongxia Gao, Musen Lin, Guoqiang Li, Xinyi Wu, Zhengqiang Ma, and Haiyan Jia

Subjects

*BACTERIAL artificial chromosomes, *GENE libraries, *PLANT germplasm, *POLYMERASE chain reaction, *HAPLOIDY, WHEAT genetics

Abstract

We have constructed three bacterial artificial chromosome (BAC) libraries of wheat cultivar Triticum aestivum Wangshuibai, germplasms T. monococcum TA2026 and TA2033. A total of 1,233,792,170,880 and 263,040 clones were picked and arrayed in 384-well plates. On the basis of genome sizes of 16.8 Gb for hexaploid wheat and 5.6 Gb for diploid wheat, the three libraries represented 9.05-, 2.60-, and 3.71-fold coverage of the haploid genomes, respectively. An improved descending pooling system for BAC libraries screening was established. This improved strategy can save 80% of the time and 68% of polymerase chain reaction (PCR) with the same successful rate as the universal 6D pooling strategy. [ABSTRACT FROM AUTHOR]

Published

2014

33. Efficient Strategy to Generate a Vectored Duck Enteritis Virus Delivering Envelope of Duck Tembusu Virus.

Author

Zhong Zou, Zhigang Liu, and Meilin Jin

Subjects

*FLAVIVIRUSES, *BACTERIAL artificial chromosomes, *ENTERITIS, *VACCINES, *FIBROBLASTS, *GENOMES

Abstract

Duck Tembusu virus (DTMUV) is a recently emerging pathogenic flavivirus that has resulted in a huge economic loss in the duck industry. However, no vaccine is currently available to control this pathogen. Consequently, a practical strategy to construct a vaccine against this pathogen should be determined. In this study, duck enteritis virus (DEV) was examined as a candidate vaccine vector to deliver the envelope (E) of DTMUV. A modified mini-F vector was inserted into the SORF3 and US2 gene junctions of the attenuated DEV vaccine strain C-KCE genome to generate an infectious bacterial artificial chromosome (BAC) of C-KCE (vBAC-C-KCE). The envelope (E) gene of DTMUV was inserted into the C-KCE genome through the mating-assisted genetically integrated cloning (MAGIC) strategy, resulting in the recombinant vector, pBAC-C-KCE-E. A bivalent vaccine C-KCE-E was generated by eliminating the BAC backbone. Immunofluorescence and western blot analysis results indicated that the E proteins were vigorously expressed in C-KCE-E-infected chicken embryo fibroblasts (CEFs). Duck experiments demonstrated that the insertion of the E gene did not alter the protective efficacy of C-KCE. Moreover, C-KCE-E-immunized ducks induced neutralization antibodies against DTMUV. These results demonstrated, for the first time, that recombinant C-KCE-E can serve as a potential bivalent vaccine against DEV and DTMUV. [ABSTRACT FROM AUTHOR]

Published

2014

34. Detection and correction of assembly errors of rice Nipponbare reference sequence.

Author

Deng, Y., Pan, Y., Luo, M., and Peeters, T.

Subjects

*NUCLEOTIDE sequence, *EVOLUTIONARY theories, *FOOD crops, *GOLD standard, *BACTERIAL artificial chromosomes, *PLANT genetics, RICE genetics

Abstract

A complete and high-quality genome reference sequence of an organism provides a solid foundation for a wide research community and determines the outcomes of relevant genomic, genetic, molecular and evolutionary research. Rice is an important food crop and a model plant for grasses, and therefore was the first chosen crop plant for whole genome sequencing. The genome of the japonica representative rice variety, Nipponbare, was sequenced using a gold standard, map-based clone-by-clone strategy. However, although the Nipponbare reference sequence ( RefSeq) has the best quality for existing crop genome sequences, it still contains many assembly errors and gaps. To improve the Nipponbare RefSeq, first a robust method is required to detect the hidden assembly errors. Through alignments between BAC-end sequences ( BESs) embedded in the Nipponbare bacterial artificial chromosome ( BAC) physical map and the Nipponbare RefSeq, we detected locations on the Nipponbare RefSeq that were inversely matched with BESs and could therefore be candidates for spurious inversions of assembly. We performed further analysis of five potential locations and confirmed assembly errors at those locations; four of them, two on chr4 and two on chr11 of the Nipponbare RefSeq ( IRGSP build 5), were found to be caused by reverse repetitive sequences flanking the locations. Our approach is effective in detecting spurious inversions in the Nipponbare RefSeq and can be applied for improving the sequence qualities of other genomes as well. [ABSTRACT FROM AUTHOR]

Published

2014

35. Development of a novel DNA-launched dengue virus type 2 infectious clone assembled in a bacterial artificial chromosome.

Author

Usme-Ciro, Jose A., Lopera, Jaime A., Enjuanes, Luis, Almazán, Fernando, and Gallego-Gomez, Juan C.

Subjects

*DENGUE viruses, *MOLECULAR cloning, *BACTERIAL artificial chromosomes, *ANTISENSE DNA, *PROMOTERS (Genetics), *RECOMBINANT viruses, *RESPIRATORY syncytial virus

Abstract

Highlights: [•] We cloned a DENV-2 infectious cDNA into a BAC under the control of the CMV promoter. [•] We assessed the production of infectious particles. [•] We rescued infectious viruses after serial passages in C6/36 cells. [•] Parental and recombinant viruses were similar in plaque and syncytia phenotypes. [ABSTRACT FROM AUTHOR]

Published

2014

36. Efficient generation of recombinant RNA viruses using targeted recombination-mediated mutagenesis of bacterial artificial chromosomes containing full-length cDNA.

Author

Rasmussen, Thomas Bruun, Risager, Peter Christian, Fahnøe, Ulrik, Friis, Martin Barfred, Belsham, Graham J., Höper, Dirk, Reimann, Ilona, and Beer, Martin

Subjects

*RNA viruses, *RECOMBINANT viruses, *MUTAGENESIS, *ANTISENSE DNA, *BACTERIAL artificial chromosomes, *PESTIVIRUS diseases, *CLASSICAL swine fever virus

Abstract

Background Infectious cDNA clones are a prerequisite for directed genetic manipulation of RNA viruses. Here, a strategy to facilitate manipulation and rescue of classical swine fever viruses (CSFVs) from full-length cDNAs present within bacterial artificial chromosomes (BACs) is described. This strategy allows manipulation of viral cDNA by targeted recombination-mediated mutagenesis within bacteria. Results A new CSFV-BAC (pBeloR26) derived from the Riems vaccine strain has been constructed and subsequently modified in the E2 coding sequence, using the targeted recombination strategy to enable rescue of chimeric pestiviruses (vR26_E2gif and vR26_TAV) with potential as new marker vaccine candidates. Sequencing of the BACs revealed a high genetic stability during passages within bacteria. The complete genome sequences of rescued viruses, after extensive passages in mammalian cells showed that modifications in the E2 protein coding sequence were stably maintained. A single amino acid substitution (D3431G) in the RNA dependent RNA polymerase was observed in the rescued viruses vR26_E2gif and vR26, which was reversion to the parental Riems sequence. Conclusions These results show that targeted recombination-mediated mutagenesis provides a powerful tool for expediting the construction of novel RNA genomes and should be applicable to the manipulation of other RNA viruses. [ABSTRACT FROM AUTHOR]

Published

2013

37. Bacterial artificial chromosome derived simian varicella virus is pathogenic in vivo.

Author

Meyer, Christine, Dewane, Jesse, Haberthur, Kristen, Engelmann, Flora, Arnold, Nicole, Gray, Wayne, and Messaoudi, Ilhem

Subjects

*HERPESVIRUS diseases, *BACTERIAL artificial chromosomes, *SIMIAN immunodeficiency virus, *CHICKENPOX, *VARICELLA-zoster virus, *POSTVACCINAL encephalitis

Abstract

Background: Varicella zoster virus (VZV) is a neurotropic alphaherpesvirus that infects humans and results in chickenpox and herpes zoster. A number of VZV genes remain functionally uncharacterized and since VZV is an obligate human pathogen, rigorous evaluation of VZV mutants in vivo remains challenging. Simian varicella virus (SVV) is homologous to VZV and SVV infection of rhesus macaques (RM) closely mimics VZV infection of humans. Recently the SVV genome was cloned as a bacterial artificial chromosome (BAC) and BAC-derived SVV displayed similar replication kinetics as wild-type (WT) SVV in vitro. Methods: RMs were infected with BAC-derived SVV or WT SVV at 4x105 PFU intrabronchially (N=8, 4 per group, sex and age matched). We collected whole blood (PBMC) and bronchoalveolar lavage (BAL) at various days postinfection (dpi) and sensory ganglia during latent infection (>84 dpi) at necropsy and compared disease progression, viral replication, immune response and the establishment of latency. Results: Viral replication kinetics and magnitude in bronchoalveolar lavage cells and whole blood as well as rash severity and duration were similar in RMs infected with SVV BAC or WT SVV. Moreover, SVV-specific B and T cell responses were comparable between BAC and WT-infected animals. Lastly, we measured viral DNA in sensory ganglia from both cohorts of infected RMs during latent infection. Conclusions: SVV BAC is as pathogenic and immunogenic as WT SVV in vivo. Thus, the SVV BAC genetic system combined with the rhesus macaque animal model can further our understanding of viral ORFs important for VZV pathogenesis and the development of second-generation vaccines. [ABSTRACT FROM AUTHOR]

Published

2013

38. Cloning of a Very Virulent Plus, 686 Strain of Marek's Disease Virus as a Bacterial Artificial Chromosome.

Author

Reddy, Sanjay M., Sun, Aijun, Khan, Owais A., Lee, Lucy F., and Lupiani, Blanca

Subjects

MAREK'S disease virus, BACTERIAL artificial chromosomes, AVIAN leukosis, MAREK'S disease, CHICKEN embryos, VIRUS diseases in poultry

Abstract

The article offers information on a study that reports on the construction of bacterial artificial chromosome clones of 686, a vv+ strain of Marek's disease virus (MDV). The study reveals recovery of infectious virus from transfection of DNA isolated from two independent clones into duck embryo fibroblasts. Pathogenesis studies were conducted to compare the virulence of BAC-derived 686 and 685 viruses. A two-step red-mediated mutagenesis process was used to delete both copies of viral interleukin from the MDV genome.

Published

2013

39. The Meleagrid herpesvirus 1 Genome Is Partially Resistant to Transposition.

Author

Hall, Robyn N., Meets, Joanne, Mitter, Neena, Fowler, Elizabeth V., and Mahony, Timothy J.

Subjects

HERPESVIRUS diseases in animals, NUCLEOTIDES, CHROMOSOMAL translocation, BACTERIAL artificial chromosomes, MUTAGENESIS, AVIAN leukosis

Abstract

The article offers information on a study that determined the gene repertoire of the Meleagrid herpesvirus (MeHV-1) genome to enhance the utility of this virus as a vaccine vector. The study offers information on the characterization and distribution of these MeHV-1 iBACT transposed mutants at both the nucleotide and genomic level and on the properties of the MeHV-1 genome that could influence transposition frequency. MeHV-1 gene interruption libraries are generated from MeHV-1 iBACT in combination with the Tn5 and MuA transposition systems.

Published

2013

40. A stabilized respiratory syncytial virus reverse genetics system amenable to recombination-mediated mutagenesis

Author

Hotard, Anne L., Shaikh, Fyza Y., Lee, Sujin, Yan, Dan, Teng, Michael N., Plemper, Richard K., Crowe, James E., and Moore, Martin L.

Subjects

*RESPIRATORY syncytial virus, *BACTERIAL artificial chromosomes, *MUTAGENESIS, *ANTISENSE DNA, *RENILLA luciferase, *PLASMIDS, *VIRAL genetics

Abstract

Abstract: We describe the first example of combining bacterial artificial chromosome (BAC) recombination-mediated mutagenesis with reverse genetics for a negative strand RNA virus. A BAC-based respiratory syncytial virus (RSV) rescue system was established. An important advantage of this system is that RSV antigenomic cDNA was stabilized in the BAC vector. The RSV genotype chosen was A2-line19F, a chimeric strain previously shown to recapitulate in mice key features of RSV pathogenesis. We recovered two RSV reporter viruses, one expressing the red fluorescent protein monomeric Katushka 2 (A2-K-line19F) and one expressing Renilla luciferase (A2-RL-line19F). As proof of principle, we efficiently generated a RSV gene deletion mutant (A2-line19FΔNS1/NS2) and a point mutant (A2-K-line19F-I557V) by recombination-mediated BAC mutagenesis. Together with sequence-optimized helper expression plasmids, BAC-RSV is a stable, versatile, and efficient reverse genetics platform for generation of a recombinant Pneumovirus. [Copyright &y& Elsevier]

Published

2012

41. A bacterial artificial chromosome library for the Chinese alligator (Alligator sinensis)

Author

He, Ke, Ye, Qing, Zhu, Ying, Chen, Hui, Wan, Qiu-Hong, and Fang, Sheng-Guo

Subjects

*BACTERIAL artificial chromosomes, *OLFACTORY receptors, *G protein coupled receptors, *CHINESE alligator, *NUCLEOTIDE sequence, *SEQUENCE analysis, *GENE libraries

Abstract

Abstract: Chinese alligator (Alligator sinensis) is a rare and endangered species endemic to China. To better understand genetic details of the Chinese alligator genomic structure, a highly redundant bacterial artificial chromosome (BAC) library was constructed. This library consists of 216,238 clones with an average insert size of about 90kb, indicating that the library contains 6.8-fold genome equivalents. Subsequently, we constructed a 516kb contig map for the Chinese alligator olfactory receptor (OR) genes, which spans nine BAC clones, and subjected the BACs to full sequencing. The sequence analysis revealed that this contig contained 16 OR functional genes and meanwhile demonstrated that the nine BACs, which constituted the contig, overlapped correctly, proving the usability of this genome library. As a result, this BAC library could provide a useful platform for physical mapping, genome sequencing or complex analysis of targeted genomic regions for this rare species. [Copyright &y& Elsevier]

Published

2012

42. Generation and characterization of a Cowpox virus mutant lacking host range factor CP77

Author

Schuenadel, Livia, Tischer, B. Karsten, and Nitsche, Andreas

Subjects

*VACCINIA, *MUTANT proteins, *VIRAL replication, *MOLECULAR virology, *NUCLEOTIDE sequence, *ORTHOPOXVIRUSES, *BACTERIAL artificial chromosomes

Abstract

Abstract: Cowpox virus (CPXV) host range factor CP77 was identified to be required for virus replication in Chinese hamster ovary (CHO) cells, but the underlying molecular mechanism by which CP77 modulates host range has remained unclear. Therefore, a CPXVΔCP77 deletion mutant was constructed by applying bacterial artificial chromosome (BAC) technology. Integrity of BAC-derived viral DNA was confirmed by whole genome sequencing. In vitro growth characteristics of CPXV wild type (WT), BAC-derived vCPXV WT and vCPXVΔCP77 were virtually indistinguishable in HEK293T cells, whereas in CHO-K1 cells replication of virus lacking CP77 was unambiguously attenuated. This block of viral replication was confirmed by lack of late viral protein expression. The replication defect of various Orthopoxviruses lacking CP77 in CHO cells could be restored by recombinant expression of CP77. Thus, for the first time, the described CP77-dependent host range effect in CHO cells was shown in the background of CPXV as well as Camelpox virus. To further characterize the mutant virus, cells of several different species were comparably infected with vCPXV WT and vCPXVΔCP77, respectively. Interestingly, except for CHO-K1 cells, vCPXV WT and vCPXVΔCP77 showed no significant difference in terms of morphology of cytopathic effects, expression of a late transcribed virus-encoded green fluorescent protein and virus reproduction, even in other hamster-derived cells. Additionally, in ovo inoculation with either virus revealed the same red-pock phenotype on chicken egg chorioallantoic membranes. Since the data presented indicate a CP77-dependent host range effect only for CHO cells, we conclude that the protein might mediate additional functions not identified yet. The vCPXVΔCP77 deletion mutant generated can now be applied as a useful tool to investigate the function of the putative host range protein CP77. [Copyright &y& Elsevier]

Published

2012

43. Comprehensive DNA copy number profile and BAC library construction of an Indian individual

Author

Chakrabarty, Sanjiban, D'Souza, Reena R., Bellampalli, Ravishankara, Rotti, Harish, Saadi, Abdul V., Gopinath, Puthiya M., Acharya, Raviraja V., Govindaraj, Periyasamy, Thangaraj, Kumarasamy, and Satyamoorthy, Kapaettu

Subjects

*BACTERIAL artificial chromosomes, *DNA analysis, *OLFACTOMEDIN, *FLUORESCENCE in situ hybridization, *PULSED-field gel electrophoresis, *INDIANS (Asians)

Abstract

Abstract: Bacterial artificial chromosomes (BACs) are used in genomic variation studies due to their capacity to carry a large insert, their high clonal stability, low rate of chimerism and ease of manipulation. In the present study, an attempt was made to create the first genomic BAC library of an anonymous Indian male (IMBL4) consisting of 100,224 clones covering the human genome more than three times. Restriction mapping of 255 BAC clones by pulse field gel electrophoresis confirmed an average insert size of 120kb. The library was screened by PCR using SHANK3 (SH3 and multiple ankyrin repeat domains 3) and OLFM3 (olfactomedin 3) specific primers. A selection of clones was analyzed by fluorescent in situ hybridization (FISH) and sequencing. Fine mapping of copy number variable regions by array based comparative genomic hybridization identified 467 CNVRs in the IMBL4 genome. The IMBL4 BAC library represents the first cataloged Indian genome resource for applications in basic and clinical research. [Copyright &y& Elsevier]

Published

2012

44. From RNAi Screens to Molecular Function in Embryonic Stem Cells.

Author

Ding, Li, Poser, Ina, Paszkowski-Rogacz, Maciej, and Buchholz, Frank

Subjects

*EMBRYONIC stem cells, *RNA interference, *CELL differentiation, *PHENOTYPES, *BACTERIAL artificial chromosomes, *MOLECULAR biology, *SMALL interfering RNA

Abstract

The ability of embryonic stem (ES) cells to generate any of the around 220 cell types of the adult body has fascinated scientists ever since their discovery. The capacity to re-program fully differentiated cells into induced pluripotent stem (iPS) cells has further stimulated the interest in ES cell research. Fueled by this interest, intense research has provided new insights into the biology of ES cells in the recent past. The development of large-scale and high throughput RNAi technologies has made it possible to sample the role of every gene in maintaining ES cell identity. Here, we review the RNAi screens performed in ES cells to date and discuss the challenges associated with these large-scale experiments. Furthermore, we provide a perspective on how to streamline the molecular characterization following the initial phenotypic description utilizing bacterial artificial chromosome (BAC) transgenesis. [ABSTRACT FROM AUTHOR]

Published

2012

45. A precise excision of the complete Epstein-Barr virus genome in a plasmid based on a bacterial artificial chromosome

Author

Yu, Zhengyuan, Lu, Jianhong, Yu, Haibo, Yan, Qijia, Zuo, Lielian, and Li, Guiyuan

Subjects

*EPSTEIN-Barr virus, *VIRAL genetics, *PLASMIDS, *BACTERIAL artificial chromosomes, *GENE expression, *BIOMARKERS, *RECOMBINANT viruses, *DRUG resistance, *BACTERIOPHAGES

Abstract

Abstract: The Maxi-EBV is a bacterial artificial chromosome (BAC)-based plasmid that contains the complete Epstein-Barr virus (EBV) genome of 172kb. This plasmid also carries an additional cassette of 11.5kb in size for the expression of a mini F factor, selection markers and GFP. In the intracellular study of EBV infection based on the Maxi-EBV system, a parallel control that only contains this 11.5kb vector is desirable but unavailable. In order to construct the vector in this approach, a clean deletion of the complete EBV genome from the Maxi-EBV was performed. This was achieved by homologous recombination using the bacteriophage λ Red system. Initially, an FRT-flanked kanamycin-resistance (kan) fragment of 1.4kb with 61bp homologies on the ends was introduced into the Maxi-EBV plasmid, replacing the 172-kb EBV genome. The kan gene was then removed by Flp/FRT excision. The results of identification demonstrated that the mutation was generated precisely. The results highlight the feasibility for a genome as large as 172kb to be replaced by a greatly shorter fragment and for a much smaller vector backbone to be retrieved. Cell lines derived from the transfection of the vector will subsequently be appropriate controls in the related study. [Copyright &y& Elsevier]

Published

2011

46. Analysis of BAC-end sequences in rainbow trout: Content characterization and assessment of synteny between trout and other fish genomes.

Author

Genet, Carine, Dehais, Patrice, Palti, Yniv, Gao, Guangtu, Gavory, Frederick, Wincker, Patrick, Quillet, Edwige, and Boussaha, Mekki

Subjects

*COMPARATIVE genomics, *RAINBOW trout, *TROUT fishing, *MICROSATELLITE repeats, *BACTERIAL artificial chromosomes, *SEQUENCE analysis, *MOLECULAR cloning

Abstract

Background: Rainbow trout (Oncorhynchus mykiss) are cultivated worldwide for aquaculture production and are widely used as a model species to gain knowledge of many aspects of fish biology. The common ancestor of the salmonids experienced a whole genome duplication event, making extant salmonids such as the rainbow trout an excellent model for studying the evolution of tetraploidization and re-diploidization in vertebrates. However, the lack of a reference genome sequence hampers research progress for both academic and applied purposes. In order to enrich the genomic tools already available in this species and provide further insight on the complexity of its genome, we sequenced a large number of rainbow trout BAC-end sequences (BES) and characterized their contents. Results: A total of 176,485 high quality BES, were generated, representing approximately 4% of the trout genome. BES analyses identified 6,848 simple sequence repeats (SSRs), of which 3,854 had high quality flanking sequences for PCR primers design. The first rainbow trout repeat elements database (INRA RT rep1.0) containing 735 putative repeat elements was developed, and identified almost 59.5% of the BES database in base-pairs as repetitive sequence. Approximately 55% of the BES reads (97,846) had more than 100 base pairs of contiguous non-repetitive sequences. The fractions of the 97,846 non-repetitive trout BES reads that had significant BLASTN hits against the zebrafish, medaka and stickleback genome databases were 15%, 16.2% and 17.9%, respectively, while the fractions of the non-repetitive BES reads that had significant BLASTX hits against the zebrafish, medaka, and stickleback protein databases were 10.7%, 9.5% and 9.5%, respectively. Comparative genomics using paired BAC-ends revealed several regions of conserved synteny across all the fish species analyzed in this study. Conclusions: The characterization of BES provided insights on the rainbow trout genome. The discovery of specific repeat elements will facilitate analyses of sequence content (e.g. for SNPs discovery and for transcriptome characterization) and future genome sequence assemblies. The numerous microsatellites will facilitate integration of the linkage and physical maps and serve as valuable resource for fine mapping QTL and positional cloning of genes affecting aquaculture production traits. Furthermore, comparative genomics through BES can be used for identifying positional candidate genes from QTL mapping studies, aid in future assembly of a reference genome sequence and elucidating sequence content and complexity in the rainbow trout genome. [ABSTRACT FROM AUTHOR]

Published

2011

47. Analysis of BAC end sequences in oak, a keystone forest tree species, providing insight into the composition of its genome.

Author

Faivre Rampant, Patricia, Lesur, Isabelle, Boussardon, Clément, Bitton, Frédérique, Martin-Magniette, Marie-Laure, Bodénès, Catherine, Le Provost, Grégoire, Bergès, Hélène, Fluch, Sylvia, Kremer, Antoine, and Plomion, Christophe

Subjects

*COMPARATIVE genomics, *GENE libraries, *OAK, *ENGLISH oak, *SPECIES, *BACTERIAL artificial chromosomes, *FOREST management, *BLACK cottonwood

Abstract

Background: One of the key goals of oak genomics research is to identify genes of adaptive significance. This information may help to improve the conservation of adaptive genetic variation and the management of forests to increase their health and productivity. Deep-coverage large-insert genomic libraries are a crucial tool for attaining this objective. We report herein the construction of a BAC library for Quercus robur, its characterization and an analysis of BAC end sequences. Results: The Eco RI library generated consisted of 92,160 clones, 7% of which had no insert. Levels of chloroplast and mitochondrial contamination were below 3% and 1%, respectively. Mean clone insert size was estimated at 135 kb. The library represents 12 haploid genome equivalents and, the likelihood of finding a particular oak sequence of interest is greater than 99%. Genome coverage was confirmed by PCR screening of the library with 60 unique genetic loci sampled from the genetic linkage map. In total, about 20,000 high-quality BAC end sequences (BESs) were generated by sequencing 15,000 clones. Roughly 5.88% of the combined BAC end sequence length corresponded to known retroelements while ab initio repeat detection methods identified 41 additional repeats. Collectively, characterized and novel repeats account for roughly 8.94% of the genome. Further analysis of the BESs revealed 1,823 putative genes suggesting at least 29,340 genes in the oak genome. BESs were aligned with the genome sequences of Arabidopsis thaliana, Vitis vinifera and Populus trichocarpa. One putative collinear microsyntenic region encoding an alcohol acyl transferase protein was observed between oak and chromosome 2 of V. vinifera. Conclusions: This BAC library provides a new resource for genomic studies, including SSR marker development, physical mapping, comparative genomics and genome sequencing. BES analysis provided insight into the structure of the oak genome. These sequences will be used in the assembly of a future genome sequence for oak. [ABSTRACT FROM AUTHOR]

Published

2011

48. Gram negative shuttle BAC vector for heterologous expression of metagenomic libraries

Author

Kakirde, Kavita S., Wild, Jadwiga, Godiska, Ronald, Mead, David A., Wiggins, Andrew G., Goodman, Robert M., Szybalski, Waclaw, and Liles, Mark R.

Subjects

*BACTERIAL artificial chromosomes, *GENETIC vectors, *GENTAMICIN, *POLYMERASE chain reaction, *DNA, *RESTRICTION fragment length polymorphisms, *GRAM-negative bacteria, *PLASMIDS

Abstract

Abstract: Bacterial artificial chromosome (BAC) vectors enable stable cloning of large DNA fragments from single genomes or microbial assemblages. A novel shuttle BAC vector was constructed that permits replication of BAC clones in diverse Gram-negative species. The “Gram-negative shuttle BAC” vector (pGNS-BAC) uses the F replicon for stable single-copy replication in E. coli and the broad-host-range RK2 mini-replicon for high-copy replication in diverse Gram-negative bacteria. As with other BAC vectors containing the oriV origin, this vector is capable of an arabinose-inducible increase in plasmid copy number. Resistance to both gentamicin and chloramphenicol is encoded on pGNS-BAC, permitting selection for the plasmid in diverse bacterial species. The oriT from an IncP plasmid was cloned into pGNS-BAC to enable conjugal transfer, thereby allowing both electroporation and conjugation of pGNS-BAC DNA into bacterial hosts. A soil metagenomic library was constructed in pGNS-BAC-1 (the first version of the vector, lacking gentamicin resistance and oriT), and recombinant clones were demonstrated to replicate in diverse Gram-negative hosts, including Escherichia coli, Pseudomonas spp., Salmonella enterica, Serratia marcescens, Vibrio vulnificus and Enterobacter nimipressuralis. This shuttle BAC vector can be utilized to clone genomic DNA from diverse sources, and then transfer it into diverse Gram-negative bacterial species to facilitate heterologous expression of recombinant pathways. [Copyright &y& Elsevier]

Published

2011

49. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize.

Author

Xing, Hongyan, Pudake, Ramesh N, Guo, Ganggang, Xing, Guofang, Hu, Zhaorong, Zhang, Yirong, Sun, Qixin, and Ni, Zhongfu

Subjects

*AUXIN, *GENE families, *CORN, *TROPISMS, *SOMATIC embryogenesis, *ROOT formation, *BACTERIAL artificial chromosomes

Abstract

Background: Auxin signaling is vital for plant growth and development, and plays important role in apical dominance, tropic response, lateral root formation, vascular differentiation, embryo patterning and shoot elongation. Auxin Response Factors (ARFs) are the transcription factors that regulate the expression of auxin responsive genes. The ARF genes are represented by a large multigene family in plants. The first draft of full maize genome assembly has recently been released, however, to our knowledge, the ARF gene family from maize (ZmARF genes) has not been characterized in detail. Results: In this study, 31 maize (Zea mays L.) genes that encode ARF proteins were identified in maize genome. It was shown that maize ARF genes fall into related sister pairs and chromosomal mapping revealed that duplication of ZmARFs was associated with the chromosomal block duplications. As expected, duplication of some ZmARFs showed a conserved intron/exon structure, whereas some others were more divergent, suggesting the possibility of functional diversification for these genes. Out of these 31 ZmARF genes, 14 possess auxin-responsive element in their promoter region, among which 7 appear to show small or negligible response to exogenous auxin. The 18 ZmARF genes were predicted to be the potential targets of small RNAs. Transgenic analysis revealed that increased miR167 level could cause degradation of transcripts of six potential targets (ZmARF3, 9, 16, 18, 22 and 30). The expressions of maize ARF genes are responsive to exogenous auxin treatment. Dynamic expression patterns of ZmARF genes were observed in different stages of embryo development. Conclusions: Maize ARF gene family is expanded (31 genes) as compared to Arabidopsis (23 genes) and rice (25 genes). The expression of these genes in maize is regulated by auxin and small RNAs. Dynamic expression patterns of ZmARF genes in embryo at different stages were detected which suggest that maize ARF genes may be involved in seed development and germination. [ABSTRACT FROM AUTHOR]

Published

2011

50. A first generation integrated map of the rainbow trout genome.

Author

Palti, Yniv, Genet, Carine, Luo, Ming-Cheng, Charlet, Aurélie, Gao, Guangtu, Hu, Yuqin, Castaño-Sánchez, Cecilia, Tabet-Canale, Kamila, Krieg, Francine, Yao, Jianbo, Vallejo, Roger L, and Rexroad III, Caird E

Subjects

*RAINBOW trout, *COMPARATIVE genomics, *GENETIC models, *FRESHWATER fishes, *BACTERIAL artificial chromosomes, *GENE mapping

Abstract

Background: Rainbow trout (Oncorhynchus mykiss) are the most-widely cultivated cold freshwater fish in the world and an important model species for many research areas. Coupling great interest in this species as a research model with the need for genetic improvement of aquaculture production efficiency traits justifies the continued development of genomics research resources. Many quantitative trait loci (QTL) have been identified for production and life-history traits in rainbow trout. An integrated physical and genetic map is needed to facilitate fine mapping of QTL and the selection of positional candidate genes for incorporation in marker-assisted selection (MAS) programs for improving rainbow trout aquaculture production. Results: The first generation integrated map of the rainbow trout genome is composed of 238 BAC contigs anchored to chromosomes of the genetic map. It covers more than 10% of the genome across segments from all 29 chromosomes. Anchoring of 203 contigs to chromosomes of the National Center for Cool and Cold Water Aquaculture (NCCCWA) genetic map was achieved through mapping of 288 genetic markers derived from BAC end sequences (BES), screening of the BAC library with previously mapped markers and matching of SNPs with BES reads. In addition, 35 contigs were anchored to linkage groups of the INRA (French National Institute of Agricultural Research) genetic map through markers that were not informative for linkage analysis in the NCCCWA mapping panel. The ratio of physical to genetic linkage distances varied substantially among chromosomes and BAC contigs with an average of 3,033 Kb/cM. Conclusions: The integrated map described here provides a framework for a robust composite genome map for rainbow trout. This resource is needed for genomic analyses in this research model and economically important species and will facilitate comparative genome mapping with other salmonids and with model fish species. This resource will also facilitate efforts to assemble a whole-genome reference sequence for rainbow trout. [ABSTRACT FROM AUTHOR]

Published

2011