Your search keyword '"BACTERIAL artificial chromosomes"' showing total 198 results

1. Complete Genome Sequence and Construction of an Infectious Bacterial Artificial Chromosome Clone of a Virulent Duck Enteritis Virus Strain XJ.

Author

Huo, Su-xin, Zhu, Yin-chu, Chen, Liu, Yun, Tao, Ye, Wei-cheng, Hua, Jiong-gang, Ni, Zheng, Xiang, Sheng-rui, Ding, Fang-zhou, Gao, Xu, Liu, Han-bin, Bao, En-dong, and Zhang, Cun

Subjects

*BACTERIAL artificial chromosomes, *WHOLE genome sequencing, *MOLECULAR cloning, *AMINO acid analysis, *ENTERITIS, *GENOMES

Abstract

In 2021, a highly virulent strain of duck enteritis virus (DEV), designated as DEV XJ, was isolated from Zhejiang, China, and its complete genome, spanning 162,234 bp with 78 predicted open reading frames (ORFs), was sequenced. While showing relative homology to the DEV CV strain, DEV XJ exhibited distinctions in 38 ORFs, including various immunogenic and virulence-related genes. Amino acid variation analysis, focusing on UL6 and LORF3, indicated a high degree of homology between DEV XJ and the 2085 strain from Europe, as well as the DEV DP-AS-Km-19 strain from India. Subsequently, a full-length infectious bacterial artificial chromosome clone (BAC) of DEV XJ was successfully constructed to delve into the pathogenic mechanisms of this virulent strain. XJ BAC demonstrated substantial similarity to the parental DEV XJ in both in vitro growth properties and the induction of typical pathogenic symptoms in sheldrakes. Furthermore, the US3, LORF3, UL21, and UL36 genes were individually deleted using a two-step RED recombination approach based on the infectious BAC clone. Our findings revealed that the UL21 and UL36 genes play crucial roles in viral proliferation. Although the US3 and LORF3 genes were dispensable for viral replication and cell-to-cell transmission in vitro, they attenuated the replication and transmission efficiency of DEV compared to the WT. In summary, this study accomplished the whole-genome sequencing of a clinically virulent DEV strain and the successful construction of an infectious DEV XJ clone. Moreover, the functional roles of the above-mentioned mutant genes were preliminarily explored through the analysis of their in vitro biological characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

2. Bacterial-Artificial-Chromosome-Based Genome Editing Methods and the Applications in Herpesvirus Research.

Author

Hao, Mengling, Tang, Jiabao, Ge, Shengxiang, Li, Tingdong, and Xia, Ningshao

Subjects

GENOME editing, BACTERIAL artificial chromosomes, VIRAL genomes, REVERSE genetics, VIRUS cloning, GENOMES

Abstract

Herpesviruses are major pathogens that infect humans and animals. Manipulating the large genome is critical for exploring the function of specific genes and studying the pathogenesis of herpesviruses and developing novel anti-viral vaccines and therapeutics. Bacterial artificial chromosome (BAC) technology significantly advanced the capacity of herpesviruses researchers to manipulate the virus genomes. In the past years, advancements in BAC-based genome manipulating and screening strategies of recombinant BACs have been achieved, which has promoted the study of the herpes virus. This review summarizes the advances in BAC-based gene editing technology and selection strategies. The merits and drawbacks of BAC-based herpesvirus genome editing methods and the application of BAC-based genome manipulation in viral research are also discussed. This review provides references relevant for researchers in selecting gene editing methods in herpes virus research. Despite the achievements in the genome manipulation of the herpes viruses, the efficiency of BAC-based genome manipulation is still not satisfactory. This review also highlights the need for developing more efficient genome-manipulating methods for herpes viruses. [ABSTRACT FROM AUTHOR]

Published

2023

3. Direct cloning of a herpesvirus genome for rapid generation of infectious BAC clones.

Author

Yuan, Hengxing, Zheng, Yaoyao, Yan, Xiaoling, Wang, Hailong, Zhang, Youming, Ma, Jingyun, and Fu, Jun

Subjects

*VIRUS cloning, *REVERSE genetics, *MOLECULAR cloning, *GENETIC vectors, *BACTERIAL artificial chromosomes, *GENOMES, *HERPESVIRUSES, *VIRAL genomes

Abstract

[Display omitted] • Direct cloning of the isolated herpesvirus genome by ExoCET without the multiple rounds of plaque purification. • Cloning method avoiding the potential for attenuating mutations to occur during serial passage of the virus in cells. • Rapid reconstitution of genetically indistinguishable virus upon acquiring the intact viral genome by restriction endonuclease digestion. • Viral BAC being stable for genetic manipulation in E. coli. • A streamlined approach to develop vector vaccines based on the attenuated recombinant PRV. The herpesviridae are DNA viruses with large and complicated genomes. The herpesvirus bacterial artificial chromosomes (BACs) have been useful for generating recombinant viruses to study the biology and pathogenesis. However, the conventional method using homologous recombination is not only time consuming but also prone to accumulate attenuating mutations during serial passage of the virus in cells. Elimination of the BAC vector from the recombinant viral genome requires additional step for phenotypically consistence with the original strain. To generate a streamlined approach for generating infectious BAC clones of herpesvirus. The 142-kb pseudorabies virus genome was directly cloned into a bacterial artificial chromosome (BAC) in Escherichia coli by Exonuclease Combined with RecET recombination (ExoCET). Placement of the BAC vector at the terminus of the linear virus genome enabled excision of the BAC backbone from the viral genome by restriction endonuclease for delivery into mammalian cells, with the subsequent rapid rescue of virus that was genetically identical to the original strain. This new approach for molecular cloning of the genome from a large DNA virus and isolation of pure virus lacking the BAC vector from transfected mammalian cells bypass the tedious and time-consuming method of multiple rounds of plaque purification. The viral BAC was stable in E. coli, allowing further mutagenesis mediated by the Red system or various site-specific recombination methods. An efficient method for construction of infectious clones of herpesvirus was established. It is expected to be potentially useful for other viruses with large double-stranded DNA genomes. [ABSTRACT FROM AUTHOR]

Published

2023

4. Microchromosome BAC-FISH Reveals Different Patterns of Genome Organization in Three Charadriiformes Species.

Author

de Souza, Marcelo Santos, Barcellos, Suziane Alves, dos Santos, Michelly da Silva, Gunski, Ricardo José, Garnero, Analía del Valle, de Oliveira, Edivaldo Herculano Corrêa, O'Connor, Rebecca E., Griffin, Darren K., and Kretschmer, Rafael

Subjects

*KARYOTYPES, *CHARADRIIFORMES, *BACTERIAL artificial chromosomes, *FLUORESCENCE in situ hybridization, *CYTOGENETICS, *SPECIES, *GENOMES

Abstract

Simple Summary: Numerous tiny (micro)chromosomes are a characteristic feature associated with birds, being found in smaller numbers in other organisms and absent in many, such as mammals. Although microchromosomes constitute a large portion of the genome in birds, data on them pertaining to comparative studies between birds are still scarce. This is the case in shorebirds (Charadriiformes), a group with a great variety of species. The aim of this study was to provide insight regarding the evolution of the microchromosomes of three species of shorebirds—the red knot (Calidris canutus), the wattled jacana (Jacana jacana), and the southern lapwing (Vanellus chilensis). The experiments are referred to as cross-species fluorescence in situ hybridization (FISH) mapping using probes called bacterial artificial chromosomes (or BACs), two (one labelled in red and one labelled in green) for every microchromosome. The results thus appear as the microchrochromosome with one green and one red end, revealing different patterns of organization over evolutionary time. In the red knot, they fuse together, but in the southern lapwing, they hardly change. We also described a new chromosome number for the red knot (92 in total). In conclusion, this study contributed to the understanding of microchromosomes organization and evolution of three shorebird species. Microchromosomes, once considered unimportant elements of the genome, represent fundamental building blocks of bird karyotypes. Shorebirds (Charadriiformes) comprise a wide variety of approximately 390 species and are considered a valuable model group for biological studies. Despite this variety, cytogenetic analysis is still very scarce in this bird order. Thus, the aim of this study was to provide insight into the Charadriiformes karyotype, with emphasis on microchromosome evolution in three species of shorebirds—Calidris canutus, Jacana jacana, and Vanellus chilensis—combining classical and molecular approaches. Cross-species FISH mapping applied two BAC probes for each microchromosome, GGA10–28 (except GGA16). The experiments revealed different patterns of microchromosome organization in the species investigated. Hence, while in C. canutus, we found two microchromosomes involved in chromosome fusions, they were present as single pairs in V. chilensis. We also described a new chromosome number for C. canutus (2n = 92). Hence, this study contributed to the understanding of genome organization and evolution of three shorebird species. [ABSTRACT FROM AUTHOR]

Published

2022

5. Insertion of foreign genes into the simian varicella virus genome by Tn7-mediated site-specific transposition.

Author

Gray, Wayne L.

Subjects

*SIMIAN viruses, *SARS-CoV-2, *CORONAVIRUSES, *VARICELLA-zoster virus, *BACTERIAL artificial chromosomes, *GENOMES, *BACTERIAL genomes

Abstract

A Tn7-transposition approach was utilized for site-specific insertion of foreign genes into the genome of simian varicella virus (SVV), the causative agent of simian varicella in nonhuman primates. The severe acute respiratory syndrome coronavirus (SARS-CoV-2) nucleocapsid (N) gene and receptor binding domain (RBD) of the spike gene were inserted into the ORF 14 region of the SVV genome cloned into a bacterial artificial chromosome and then transfected into Vero cells to generate the infectious recombinant SVV (rSVV). The rSVV replicated efficiently in infected Vero cells and expressed the N and RBD antigens as indicated by immunoblot and immunofluorescence assays. Tn7-mediated transposition provides a rapid and efficient method for constructing rSVVs which may be evaluated as live-attenuated vaccines. • A TN7-mediated transposon method was used to insert foreign genes into the simian varicella virus (SVV) genome. • The SARS-CoV-2 nucleocapsid (N) and receptor binding domain (RBD) DNA sequences were inserted into the ORF 14 the SVV genome. • Recombinant SVV expressed the SARS-CoV-2 N and RBD antigens in infected Vero cells. • Recombinant SVV expressing the SARS-CoV-2 N and RBD replicated as efficiently as wild-type SVV. [ABSTRACT FROM AUTHOR]

Published

2024

6. Hi‐C scaffolded short‐ and long‐read genome assemblies of the California sea lion are broadly consistent for syntenic inference across 45 million years of evolution.

Author

Peart, Claire R., Williams, Christina, Pophaly, Saurabh D., Neely, Benjamin A., Gulland, Frances M. D., Adams, David J., Ng, Bee Ling, Cheng, William, Goebel, Michael E., Fedrigo, Olivier, Haase, Bettina, Mountcastle, Jacquelyn, Fungtammasan, Arkarachai, Formenti, Giulio, Collins, Joanna, Wood, Jonathan, Sims, Ying, Torrance, James, Tracey, Alan, and Howe, Kerstin

Subjects

*SEA lions, *CENTROMERE, *BACTERIAL artificial chromosomes, *GENOMICS, *GENOMES, *DOGS

Abstract

With the advent of chromatin‐interaction maps, chromosome‐level genome assemblies have become a reality for a wide range of organisms. Scaffolding quality is, however, difficult to judge. To explore this gap, we generated multiple chromosome‐scale genome assemblies of an emerging wild animal model for carcinogenesis, the California sea lion (Zalophus californianus). Short‐read assemblies were scaffolded with two independent chromatin interaction mapping data sets (Hi‐C and Chicago), and long‐read assemblies with three data types (Hi‐C, optical maps and 10X linked reads) following the "Vertebrate Genomes Project (VGP)" pipeline. In both approaches, 18 major scaffolds recovered the karyotype (2n = 36), with scaffold N50s of 138 and 147 Mb, respectively. Synteny relationships at the chromosome level with other pinniped genomes (2n = 32–36), ferret (2n = 34), red panda (2n = 36) and domestic dog (2n = 78) were consistent across approaches and recovered known fissions and fusions. Comparative chromosome painting and multicolour chromosome tiling with a panel of 264 genome‐integrated single‐locus canine bacterial artificial chromosome probes provided independent evaluation of genome organization. Broad‐scale discrepancies between the approaches were observed within chromosomes, most commonly in translocations centred around centromeres and telomeres, which were better resolved in the VGP assembly. Genomic and cytological approaches agreed on near‐perfect synteny of the X chromosome, and in combination allowed detailed investigation of autosomal rearrangements between dog and sea lion. This study presents high‐quality genomes of an emerging cancer model and highlights that even highly fragmented short‐read assemblies scaffolded with Hi‐C can yield reliable chromosome‐level scaffolds suitable for comparative genomic analyses. [ABSTRACT FROM AUTHOR]

Published

2021

7. The ninth life of the cat reference genome, Felis_catus.

Author

Zhang, Wengang and Schoenebeck, Jeffrey J.

Subjects

*FELIDAE, *CATS, *VETERINARY medicine, *CAT breeds, *GENOMES, *BACTERIAL artificial chromosomes, *PRACTICE of veterinary medicine

Published

2020

8. The Pivotal Roles of US3 Protein in Cell-to-Cell Spread and Virion Nuclear Egress of Duck Plague Virus.

Author

Deng, Liyao, Wang, Mingshu, Cheng, Anchun, Yang, Qiao, Wu, Ying, Jia, Renyong, Chen, Shun, Zhu, Dekang, Liu, Mafeng, Zhao, Xinxin, Zhang, Shaqiu, Huang, Juan, Ou, Xumin, Mao, Sai, Zhang, Ling, Liu, Yunya, Yu, Yanling, Tian, Bin, Pan, Leichang, and Rehman, Mujeeb Ur

Subjects

*DUCK plague virus, *HUMAN herpesvirus 1, *PROTEINS, *GENOMES, *BACTERIAL artificial chromosomes

Abstract

The duck plague virus (DPV) US3 protein, a homolog of the herpes simplex virus-1 (HSV-1) US3 protein that is reported to be critical for viral replication, has been minimally studied. Therefore, to investigate the function of the DPV US3 protein, we used scarless Red recombination technology based on an infectious bacterial artificial chromosome (BAC) containing the DPV Chinese virulent strain (CHv) genome and successfully constructed and rescued a US3-deleted mutant and the corresponding revertant virus (BAC-CHv-ΔUS3 and BAC-CHv-ΔUS3R, respectively). For viral growth characteristics, compared to the parental and revertant viruses, the US3-deleted mutant showed an approximately 100-fold reduction in viral titers but no significant reduction in genome copies, indicating that the US3-deleted mutant exhibited decreased viral replication but not decreased viral DNA generation. In addition, the US3-deleted mutant formed viral plaques that were 33% smaller on average than those formed by the parental and revertant viruses, demonstrating that US3 protein affected the viral cell-to-cell spread of DPV. Finally, the results of electron microscopy showed that the deletion of US3 resulted in a large number of virions accumulating in the nucleus and perinuclear space, thus blocking virion nuclear egress. In this study, we found that the DPV US3 protein played pivotal roles in viral replication by promoting viral cell-to-cell spread and virion nuclear egress, which may provide some references for research on the function of the DPV US3 protein. [ABSTRACT FROM AUTHOR]

Published

2020

9. Whole Genome Assembly of the Snout Otter Clam, Lutraria rhynchaena , Using Nanopore and Illumina Data, Benchmarked Against Bivalve Genome Assemblies.

Author

Thai, Binh Thanh, Lee, Yin Peng, Gan, Han Ming, Austin, Christopher M., Croft, Laurence J., Trieu, Tuan Anh, and Tan, Mun Hua

Subjects

BIVALVES, GENOMES, CLAMS, CRASSOSTREA, HETEROZYGOSITY, BREEDING, OTTERS, BACTERIAL artificial chromosomes

Abstract

Whole Genome Assembly of the Snout Otter Clam, Lutraria rhynchaena, Using Nanopore and Illumina Data, Benchmarked Against Bivalve Genome Assemblies BUSCO-predicted protein-coding genes were used to construct a multi-gene supermatrix in order to infer the phylogenetic position of I L. rhynchaena i in relation to bivalve species for which published genomes are available ( B Data Sheet 2 b ), with the exception of I M. galloprovincialis. i This was excluded from this analysis since its assembly reported substantially lower BUSCO completeness. The snout otter genome assembly has used the largest volume of ONT data generated for a bivalve species to date and joins the blood clam ( I S. broughtonii i ) ([2]) as the only other bivalve genome assembly to incorporate the use of long Nanopore reads and has generated the largest volume of Nanopore data for a bivalve species to date. This hybrid assembly approach has generated one of the best bivalve draft genomes currently available consisting of only 1,502 scaffolds (N SB 50 sb length: 1.84 Mbp) and a total assembly size of 586.5 Mbp ( B Table 1 b ), slightly exceeding the kmer-based genome size estimates. [Extracted from the article]

Published

2019

10. The Draft Genome of Kochia scoparia and the Mechanism of Glyphosate Resistance via Transposon-Mediated EPSPS Tandem Gene Duplication.

Author

Patterson, Eric L, Saski, Christopher A, Sloan, Daniel B, Tranel, Patrick J, Westra, Philip, and Gaines, Todd A

Subjects

*CHROMOSOME duplication, *MOBILE genetic elements, *BACTERIAL artificial chromosomes, *GLYPHOSATE, *HERBICIDE resistance, *GENOMES, *NUCLEOSYNTHESIS

Abstract

Increased copy number of the 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) gene confers resistance to glyphosate, the world's most-used herbicide. There are typically three to eight EPSPS copies arranged in tandem in glyphosate-resistant populations of the weed kochia (Kochia scoparia). Here, we report a draft genome assembly from a glyphosate-susceptible kochia individual. Additionally, we assembled the EPSPS locus from a glyphosate-resistant kochia plant by sequencing select bacterial artificial chromosomes from a kochia bacterial artificial chromosome library. Comparing the resistant and susceptible EPSPS locus allowed us to reconstruct the history of duplication in the structurally complex EPSPS locus and uncover the genes that are coduplicated with EPSPS , several of which have a corresponding change in transcription. The comparison between the susceptible and resistant assemblies revealed two dominant repeat types. Additionally, we discovered a mobile genetic element with a FHY3/FAR1-like gene predicted in its sequence that is associated with the duplicated EPSPS gene copies in the resistant line. We present a hypothetical model based on unequal crossing over that implicates this mobile element as responsible for the origin of the EPSPS gene duplication event and the evolution of herbicide resistance in this system. These findings add to our understanding of stress resistance evolution and provide an example of rapid resistance evolution to high levels of environmental stress. [ABSTRACT FROM AUTHOR]

Published

2019

11. 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

12. Harvard Medical School Researcher Adds New Data to Research in Engineering (Strategies to identify and edit improvements in synthetic genome segments episomally).

Subjects

MEDICAL research personnel, MEDICAL schools, GENOMES, BACTERIAL artificial chromosomes, GENOME editing

Abstract

Keywords: Engineering; Genetics EN Engineering Genetics 198 198 1 09/11/23 20230914 NES 230914 2023 SEP 14 (NewsRx) -- By a News Reporter-Staff News Editor at Blood Weekly -- New study results on engineering have been published. According to news reporting originating from Boston, Massachusetts, by NewsRx correspondents, research stated, "Genome engineering projects often utilize bacterial artificial chromosomes (BACs) to carry multi-kilobase DNA segments at low copy number.". [Extracted from the article]

Published

2023

13. 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

14. A genome-wide BAC-end sequence survey provides first insights into sweetpotato (Ipomoea batatas (L.) Lam.) genome composition.

Author

Zengzhi Si, Bing Du, Jinxi Huo, Shaozhen He, Qingchang Liu, and Hong Zhai

Subjects

*GENOMES, *CROPS, *BACTERIAL artificial chromosomes, *GENE libraries, SWEET potato genetics

Abstract

Background: Sweetpotato, Ipomoea batatas (L.) Lam., is an important food crop widely grown in the world. However, little is known about the genome of this species because it is a highly heterozygous hexaploid. Gaining a more in-depth knowledge of sweetpotato genome is therefore necessary and imperative. In this study, the first bacterial artificial chromosome (BAC) library of sweetpotato was constructed. Clones from the BAC library were end-sequenced and analyzed to provide genome-wide information about this species. Results: The BAC library contained 240,384 clones with an average insert size of 101 kb and had a 7.93-10.82 × coverage of the genome, and the probability of isolating any single-copy DNA sequence from the library was more than 99%. Both ends of 8310 BAC clones randomly selected from the library were sequenced to generate 11,542 high-quality BAC-end sequences (BESs), with an accumulative length of 7,595,261 bp and an average length of 658 bp. Analysis of the BESs revealed that 12.17% of the sweetpotato genome were known repetitive DNA, including 7.37% long terminal repeat (LTR) retrotransposons, 1.15% Non-LTR retrotransposons and 1.42% Class II DNA transposons etc., 18.31% of the genome were identified as sweetpotato-unique repetitive DNA and 10.00% of the genome were predicted to be coding regions. In total, 3,846 simple sequences repeats (SSRs) were identified, with a density of one SSR per 1.93 kb, from which 288 SSRs primers were designed and tested for length polymorphism using 20 sweetpotato accessions, 173 (60.07%) of them produced polymorphic bands. Sweetpotato BESs had significant hits to the genome sequences of I. trifida and more matches to the whole-genome sequences of Solanum lycopersicum than those of Vitis vinifera, Theobroma cacao and Arabidopsis thaliana. Conclusions: The first BAC library for sweetpotato has been successfully constructed. The high quality BESs provide first insights into sweetpotato genome composition, and have significant hits to the genome sequences of I. trifida and more matches to the whole-genome sequences of Solanum lycopersicum. These resources as a robust platform will be used in high-resolution mapping, gene cloning, assembly of genome sequences, comparative genomics and evolution for sweetpotato. [ABSTRACT FROM AUTHOR]

Published

2016

15. 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

16. Construction and characterization of a bacterial artificial chromosome library of the maize inbred line Qi319.

Author

Chun Hua Mu, Yu Yang, Fa Jun Zhang, Wen Cai Li, Shou Ping Lu, Zhao Dong Meng, Xia Liu, and Guang Cun Li

Subjects

*BACTERIAL artificial chromosomes, *CORN breeding, *CORN yields, *GENOMES, *POLYMERASE chain reaction

Abstract

Zea mays L. has been the most cultivated crop and the crop with the largest yield in China since 2012. We constructed a bacterial artificial chromosome (BAC) library for the maize inbred line Qi319, which may be used as a key source for disease-resistant maize breeding in China. The BAC contains 270,720 clones, with an average insert size of 90 kb. The coverage of the library is about 10.43 genome equivalents when considering a haploid genome size of 2300 Mb, providing a 99.99% likelihood of isolating any maize gene or sequence in the library. An average of 12 clones were obtained by polymerase chain reaction screening by using primer pairs linked to the genes for resistance to maize southern rust and rough dwarf. The results indicate that the library can satisfy the requirements for recovering specific sequences. The library is available to researchers to whom it may be of interest. [ABSTRACT FROM AUTHOR]

Published

2016

17. NIG_MoG: a mouse genome navigator for exploring intersubspecific genetic polymorphisms.

Author

Takada, Toyoyuki, Yoshiki, Atsushi, Obata, Yuichi, Yamazaki, Yukiko, and Shiroishi, Toshihiko

Subjects

*GENOMES, *LABORATORY mice, *GENETIC polymorphisms, *GENETIC databases, *BIOINFORMATICS, *BACTERIAL artificial chromosomes

Abstract

The National Institute of Genetics Mouse Genome database (NIG_MoG; ) primarily comprises the whole-genome sequence data of two inbred mouse strains, MSM/Ms and JF1/Ms. These strains were established at NIG and originated from the Japanese subspecies Mus musculus molossinus. NIG_MoG provides visualized genome polymorphism information, browsing single-nucleotide polymorphisms and short insertions and deletions in the genomes of MSM/Ms and JF1/Ms with respect to C57BL/6J (whose genome is predominantly derived from the West European subspecies M. m. domesticus). This allows users, especially wet-lab biologists, to intuitively recognize intersubspecific genome divergence in these mouse strains using visual data. The database also supports the in silico screening of bacterial artificial chromosome (BAC) clones that contain genomic DNA from MSM/Ms and the standard classical laboratory strain C57BL/6N. NIG_MoG is thus a valuable navigator for exploring mouse genome polymorphisms and BAC clones that are useful for studies of gene function and regulation based on intersubspecific genome divergence. [ABSTRACT FROM AUTHOR]

Published

2015

18. De novo meta-assembly of ultra-deep sequencing data.

Author

Mirebrahim, Hamid, Close, Timothy J., and Lonardi, Stefano

Subjects

*NUCLEOTIDE sequencing, *GENOMES, *ERROR rates, *BACTERIAL artificial chromosomes, *CANCER risk factors, *POLYMERASE chain reaction methodology, *COMPUTER network resources

Abstract

We introduce a new divide and conquer approach to deal with the problem of de novo genome assembly in the presence of ultra-deep sequencing data (i.e. coverage of 1000x or higher). Our proposed meta-assembler SLICEMBLER partitions the input data into optimal-sized 'slices' and uses a standard assembly tool (e.g. Velvet, SPAdes, IDBA_UD and Ray) to assemble each slice individually. SLICEMBLER uses majority voting among the individual assemblies to identify long contigs that can be merged to the consensus assembly. To improve its efficiency, SLICEMBLER uses a generalized suffix tree to identify these frequent contigs (or fraction thereof). Extensive experimental results on real ultra-deep sequencing data (8000x coverage) and simulated data show that SLICEMBLER significantly improves the quality of the assembly compared with the performance of the base assembler. In fact, most of the times, SLICEMBLER generates error-free assemblies. We also show that SLICEMBLER is much more resistant against high sequencing error rate than the base assembler. [ABSTRACT FROM AUTHOR]

Published

2015

19. 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

20. Expanding duplication of the testis PHD Finger Protein 7 (PHF7) gene in the chicken genome.

Author

Fouchécourt, Sophie, Fillon, Valérie, Marrauld, Christelle, Callot, Caroline, Ronsin, Sarah, Picolo, Floriane, Douet, Cécile, Piégu, Benoit, and Monget, Philippe

Subjects

*SPERMATOGENESIS, *BACTERIAL artificial chromosomes, *TESTIS, *GENOMES, *GENE families, *GENETIC variation

Abstract

Gene duplications increase genetic and phenotypic diversity and occur in complex genomic regions that are still difficult to sequence and assemble. PHD Finger Protein 7 (PHF7) acts during spermiogenesis for histone-to-histone protamine exchange and is a determinant of male fertility in Drosophila and the mouse. We aimed to explore and characterise in the chicken genome the expanding family of the numerous orthologues of the unique mouse Phf7 gene (highly expressed in the testis), observing the fact that this information is unclear and/or variable according to the versions of databases. We validated nine primer pairs by in silico PCR for their use in screening the chicken bacterial artificial chromosome (BAC) library to produce BAC-derived probes to detect and localise PHF7 -like loci by fluorescence in situ hybridisation (FISH). We selected nine BAC that highlighted nine chromosomal regions for a total of 10 distinct PHF7 -like loci on five Gallus gallus chromosomes: Chr1 (three loci), Chr2 (two loci), Chr12 (one locus), Chr19 (one locus) and ChrZ (three loci). We sequenced the corresponding BAC by using high-performance PacBio technology. After assembly, we performed annotation with the FGENESH program: there were a total of 116 peptides, including 39 PHF7-like proteins identified by BLASTP. These proteins share a common exon-intron core structure of 8–11 exons. Phylogeny revealed that the duplications occurred first between chromosomal regions and then inside each region. There are other duplicated genes in the identified BAC sequences, suggesting that these genomic regions exhibit a high rate of tandem duplication. We showed that the PHF7 gene, which is highly expressed in the rooster testis, is a highly duplicated gene family in the chicken genome, and this phenomenon probably concerns other bird species. • Demonstration of the existence of an expanding family containing at least 39 PHF7 -like testis specific genes in the chicken genome • Their localisation in 10 loci in the chicken genome by FISH and in silico PCR • Their sequences in 9 BAC containing this PHF7 gene family with PacBio methodology [ABSTRACT FROM AUTHOR]

Published

2022

21. Targeted Sequencing of Large Genomic Regions with CATCH-Seq.

Author

Day, Kenneth, Song, Jun, and Absher, Devin

Subjects

*GENOMES, *GENETICS, *CLONING, *OLIGONUCLEOTIDES

Abstract

Current target enrichment systems for large-scale next-generation sequencing typically require synthetic oligonucleotides used as capture reagents to isolate sequences of interest. The majority of target enrichment reagents are focused on gene coding regions or promoters en masse. Here we introduce development of a customizable targeted capture system using biotinylated RNA probe baits transcribed from sheared bacterial artificial chromosome clone templates that enables capture of large, contiguous blocks of the genome for sequencing applications. This clone adapted template capture hybridization sequencing (CATCH-Seq) procedure can be used to capture both coding and non-coding regions of a gene, and resolve the boundaries of copy number variations within a genomic target site. Furthermore, libraries constructed with methylated adapters prior to solution hybridization also enable targeted bisulfite sequencing. We applied CATCH-Seq to diverse targets ranging in size from 125 kb to 3.5 Mb. Our approach provides a simple and cost effective alternative to other capture platforms because of template-based, enzymatic probe synthesis and the lack of oligonucleotide design costs. Given its similarity in procedure, CATCH-Seq can also be performed in parallel with commercial systems. [ABSTRACT FROM AUTHOR]

Published

2014

22. 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

23. Characterization of masson pine ( Pinus massoniana Lamb.) microsatellite DNA by 454 genome shotgun sequencing.

Author

Bai, Tian-Dao, Xu, Li-An, Xu, Meng, and Wang, Zhang-Rong

Subjects

PINE, MICROSATELLITE repeats, DNA, GENOMES, NUCLEOTIDE sequence, BACTERIAL artificial chromosomes, GENETIC markers, GENETIC polymorphisms

Abstract

Microsatellites (simple sequence repeats, SSRs) are important genetic markers in tree breeding and conservation. Here we utilized high-throughput 454 sequencing technology to mine microsatellites from masson pine (MP) genomic DNA. First, we analyzed the characteristics of SSRs in all nonredundant MP reads (genome survey sequences, GSSs) and compared them with loblolly pine (LP) GSSs and BACs (bacterial artificial chromosome clone sequences), and three other nonconiferous species GSSs. Second, a set of MP GSS-SSR primer pairs were designed. There were extremely low overall GSS-SSR densities (28 SSR/Mb) in MP when compared with LP (48 SSR/Mb) and the other species. AT, AAT, AAAT, and AAAAAT were the richest motifs in di-, tri-, tetra-, and hexanucleotides, respectively. Two hundred forty GSS-SSR primer pairs were designed in total, and 20 novel polymorphic markers were identified using three populations (two natural and one clonal seed orchard) as evaluating samples. These markers should be useful for future MP population genetics studies. [ABSTRACT FROM AUTHOR]

Published

2014

24. A hitchhiker's guide to foreign genomes.

Author

Verhage, Leonie

Subjects

*HORIZONTAL gene transfer, *GENOMES, *RIBOSOMAL DNA, *DNA helicases, *BIOLOGICAL evolution, *BACTERIAL artificial chromosomes, *GENES

Abstract

The fragment contains protein-coding genes, ribosomal DNA genes (rDNA) and transposable elements (TEs). Whereas the lineages of pooid and panicoid grasses split about 50 million years ago, the Panicum-like DNA fragment in Hordeum was obtained by horizontal gene transfer between 2.9 and 1.7 million years ago. Recently, they established that the foreign DNA is indeed present in wild barley species, and was transferred by horizontal gene transfer (Mahelka I et al i ., 2017). [Extracted from the article]

Published

2021

25. Design and validation of a pericentromeric BAC clone set aimed at improving diagnosis and phenotype prediction of supernumerary marker chromosomes.

Author

Castronovo, Chiara, Valtorta, Emanuele, Crippa, Milena, Tedoldi, Sara, Romitti, Lorenza, Amione, Maria Cristina, Guerneri, Silvana, Rusconi, Daniela, Ballarati, Lucia, Milani, Donatella, Grosso, Enrico, Cavalli, Pietro, Giardino, Daniela, Bonati, Maria Teresa, Larizza, Lidia, and Finelli, Palma

Subjects

*PHENOTYPES, *CHROMOSOMES, *FLUORESCENCE in situ hybridization, *BACTERIAL artificial chromosomes, *GENOMES

Abstract

Background Small supernumerary marker chromosomes (sSMCs) are additional, structurally abnormal chromosomes, generally smaller than chromosome 20 of the same metaphase spread. Due to their small size, they are difficult to characterize by conventional cytogenetics alone. In regard to their clinical effects, sSMCs are a heterogeneous group: in particular, sSMCs containing pericentromeric euchromatin are likely to be associated with abnormal outcomes, although exceptions have been reported. To improve characterization of the genetic content of sSMCs, several approaches might be applied based on different molecular and molecularcytogenetic assays, e.g., fluorescent in situ hybridization (FISH), array-based comparative genomic hybridization (array CGH), and multiplex ligation-dependent probe amplification (MLPA). To provide a complementary tool for the characterization of sSMCs, we constructed and validated a new, FISH-based, pericentromeric Bacterial Artificial Chromosome (BAC) clone set that with a high resolution spans the most proximal euchromatic sequences of all human chromosome arms, excluding the acrocentric short arms. Results By FISH analysis, we assayed 561 pericentromeric BAC probes and excluded 75 that showed a wrong chromosomal localization. The remaining 486 probes were used to establish 43 BAC-based pericentromeric panels. Each panel consists of a core, which with a high resolution covers the most proximal euchromatic ∼0.7 Mb (on average) of each chromosome arm and generally bridges the heterochromatin/euchromatin junction, as well as clones located proximally and distally to the core. The pericentromeric clone set was subsequently validated by the characterization of 19 sSMCs. Using the core probes, we could rapidly distinguish between heterochromatic (1/19) and euchromatic (11/19) sSMCs, and estimate the euchromatic DNA content, which ranged from approximately 0.13 to more than 10 Mb. The characterization was not completed for seven sSMCs due to a lack of information about the covered region in the reference sequence (1/19) or sample insufficiency (6/19). Conclusions Our results demonstrate that this pericentromeric clone set is useful as an alternative tool for sSMC characterization, primarily in cases of very small SMCs that contain either heterochromatin exclusively or a tiny amount of euchromatic sequence, and also in cases of low-level or cryptic mosaicism. The resulting data will foster knowledge of human proximal euchromatic regions involved in chromosomal imbalances, thereby improving genotype- phenotype correlations. [ABSTRACT FROM AUTHOR]

Published

2013

26. Expression of Human CAR Splicing Variants in BAC-Transgenic Mice.

Author

Zhang, Yu-Kun Jennifer, Lu, Hong, and Klaassen, Curtis D.

Subjects

*BACTERIAL artificial chromosomes, *ANDROSTANE receptors, *GENETIC engineering, *TRANSGENIC mice, *DNA, *GENOMES

Abstract

The nuclear receptor constitutive androstane receptor (CAR) is a key regulator for drug metabolism in liver. Human CAR (hCAR) transcripts are subjected to alternative splicing. Some hCAR splicing variants (SVs) have been shown to encode functional proteins by reporter assays. However, in vivo research on the activity of these hCAR SVs has been impeded by the absence of a valid model. This study engineered an hCAR-BAC-transgenic (hCAR-TG) mouse model by integrating the 8.5-kbp hCAR gene as well as 73-kbp upstream and 91-kbp downstream human genomic DNA into the genome of CAR-null mice. A series of experiments demonstrate that (1) the expression of major hCAR mRNA SVs, SV0-4, in livers of hCAR-TG mice is comparable to that in human livers; (2) the hCAR SVs are predominantly expressed in liver, which resembles the tissue distribution of CAR in humans, but diverges from that in mice; and (3) major hCAR mRNA SVs increase markedly in postnatal livers of hCAR-TG mice, which mimics the ontogeny of CAR mRNA in humans. Thus, the transgene likely contains all the functional regulatory elements controlling proper spatial and temporal expression of the hCAR gene. Moreover, hCAR-TG mice respond to the hCAR-specific agonist 6-(4-chlorophenyl)imidazo[2,1-b] [1,3]thiazole-5-carbaldehyde O-(3,4-dichlorobenzyl)oxime instead of the mouse CAR agonist 1,4-bis[2-(3,5-dichloropyridyloxy)]benzene, as well as the common CAR activator, phenobarbital, suggesting that hCAR is fully functional in livers of transgenic mice. In summary, the hCAR-TG mice developed by this study represent a valid model for studying in vivo function and regulation of hCAR and its splicing variants. [ABSTRACT FROM AUTHOR]

Published

2013

27. Analyses of pig genomes provide insight into porcine demography and evolution.

Author

Groenen, Martien A. M., Archibald, Alan L., Uenishi, Hirohide, Tuggle, Christopher K., Takeuchi, Yasuhiro, Rothschild, Max F., Rogel-Gaillard, Claire, Park, Chankyu, Milan, Denis, Megens, Hendrik-Jan, Li, Shengting, Larkin, Denis M., Kim, Heebal, Frantz, Laurent A. F., Caccamo, Mario, Ahn, Hyeonju, Aken, Bronwen L., Anselmo, Anna, Anthon, Christian, and Auvil, Loretta

Subjects

*GENOMES, *BACTERIAL artificial chromosomes, *SWINE genetics, *IMMUNE response, *WILD boar

Abstract

For 10,000?years pigs and humans have shared a close and complex relationship. From domestication to modern breeding practices, humans have shaped the genomes of domestic pigs. Here we present the assembly and analysis of the genome sequence of a female domestic Duroc pig (Sus scrofa) and a comparison with the genomes of wild and domestic pigs from Europe and Asia. Wild pigs emerged in South East Asia and subsequently spread across Eurasia. Our results reveal a deep phylogenetic split between European and Asian wild boars ?1 million years ago, and a selective sweep analysis indicates selection on genes involved in RNA processing and regulation. Genes associated with immune response and olfaction exhibit fast evolution. Pigs have the largest repertoire of functional olfactory receptor genes, reflecting the importance of smell in this scavenging animal. The pig genome sequence provides an important resource for further improvements of this important livestock species, and our identification of many putative disease-causing variants extends the potential of the pig as a biomedical model. [ABSTRACT FROM AUTHOR]

Published

2012

28. Detection of kinase amplifications in gastric cancer archives using fluorescence in situ hybridization.

Author

Kiyose, Shin-ichiro, Nagura, Kiyoko, Tao, Hong, Igarashi, Hisaki, Yamada, Hidetaka, Goto, Masanori, Maeda, Matsuyoshi, Kurabe, Nobuya, Suzuki, Masaya, Tsuboi, Masaru, Kahyo, Tomoaki, Shinmura, Kazuya, Hattori, Naohiko, and Sugimura, Haruhiko

Subjects

*STOMACH cancer treatment, *FLUORESCENCE, *IN situ hybridization, *BACTERIAL artificial chromosomes, *COHORT analysis, *GENOMES, *KINASE inhibitors

Abstract

To test the feasibility of using bacterial artificial chromosomes (BAC) containing kinases for pathological diagnosis using fluorescence in situ hybridization (FISH), 10 BAC probes containing a gene amplified in 5% or more of a pilot cohort were selected from a previous survey using arbitrarily selected BAC clones harboring 100 kinases. In this report, we describe the prevalence and association with the clinico-pathological profile of these selected 10 BAC probes in 365 gastric cancer tissues. FISH analyses using these 10 BAC probes containing loci encoding EGFR, ERBB2(HER2), EPHB3, PIK3CA, MET, PTK7, ACK1, STK15, SRC, and HCK showed detectable amplifications in paraffin-embedded tissue in 2.83% to 13.6% of the gastric cancer tissues. Considerable numbers of the cases showed the co-amplification of two or more of the probes that were tested. BAC probes located within a genome neighborhood, such as PIK3CA, EPHB3, and ACK1 at 3q26-29 or HCK, SRC, and STK15 at 20q11-13.1, were often co-amplified in the same cases, but non-random co-amplifications of genes at distant genomic loci were also observed. These findings provide basic information regarding the creation of a strategy for personalizing gastric cancer therapy, especially when using multiple kinase inhibitors. [ABSTRACT FROM AUTHOR]

Published

2012

29. Single nucleotide polymorphism discovery in common bean.

Author

Souza, Thiago, Barros, Everaldo, Bellato, Claudia, Hwang, Eun-Young, Cregan, Perry, and Pastor-Corrales, Marcial

Subjects

*SINGLE nucleotide polymorphisms, *COMMON bean, *POLYMERASE chain reaction, *SOYBEAN, *BACTERIAL artificial chromosomes, *MICROSATELLITE repeats in plants, *GENETIC polymorphisms, *GENOMES

Abstract

Single nucleotide polymorphisms (SNPs) were discovered in common bean ( Phaseolus vulgaris L.) via resequencing of sequence-tagged sites (STSs) developed by PCR primers previously designed to soybean shotgun and bacterial artificial chromosome (BAC) end sequences, and by primers designed to common bean genes and microsatellite flanking regions. DNA fragments harboring SNPs were identified in single amplicons from six contrasting P. vulgaris genotypes of the Andean (Jalo EEP 558, G 19833, and AND 277) and Mesoamerican (BAT 93, DOR 364, and Rudá) gene pools. These genotypes are the parents of three common bean recombinant inbred line mapping populations. From an initial set of 1,880 PCR primer pairs tested, 265 robust STSs were obtained, which could be sequenced in each one of the six common bean genotypes. In the resulting 131,120 bp of aligned sequence, a total of 677 SNPs were identified, including 555 single-base changes (295 transitions and 260 transversions) and 122 small nucleotide insertions/deletions (indels). The frequency of SNPs was 5.16 SNPs/kb and the mean nucleotide diversity, expressed as Halushka's theta, was 0.00226. This work represents one of the first efforts aimed at detecting SNPs in P. vulgaris. The SNPs identified should be an important resource for common bean geneticists and breeders for quantitative trait locus discovery, marker-assisted selection, and map-based cloning. These SNPS will be also useful for diversity analysis and microsynteny studies among legume species. [ABSTRACT FROM AUTHOR]

Published

2012

30. Genome change in wheat observed through the structure and expression of α/β-gliadin genes.

Author

Kawaura, K., Wu, J., Matsumoto, T., Kanamori, H., Katagiri, S., and Ogihara, Y.

Subjects

*GENOMES, *GENE expression, *BACTERIAL artificial chromosomes, *GLIADINS, *RETROTRANSPOSONS, WHEAT genetics

Abstract

To better understand genome structure and the expression of α/β-gliadin multigenes in hexaploid wheat, bacterial artificial chromosome (BAC) clones containing α/β-gliadin genes from the three loci, Gli-A2, Gli-B2, and Gli-D2, were screened. Based on their restriction fragment patterns, we selected five BAC clones, namely, two clones for Gli-A2, two clones for Gli-B2, and one clone for Gli-D2, to fully sequence. Approximately 200 kb was sequenced for each locus. In total, twelve α/β-gliadin intact genes and four pseudogenes were found, and retrotransposons or other transposons existed in each BAC clone. Dot-plot analysis revealed the pattern of genome segmental duplication within each BAC. We calculated time since duplication of each set of α/β-gliadin genes and insertion of retrotransposons. Duplication of all adjacent genes within the same BAC clone took place before or after allotetrapolyploidization, but duplication of certain genes occurred before diploid differentiation of wheat species. Retrotransposons were also inserted before and after the segmental duplication events. Furthermore, translocation of α/β-gliadin genes from chromosomes 1 to 6 apparently occurred before the diversification of various wheat genomes. Duplication of genome segments containing α/β-gliadin genes and retrotransposons were brought about through unequal crossing-over or saltatory replication and α/β-gliadin genes per se were duplicated without any recombination events. Out of twelve intact α/β-gliadin genes detected from their sequences, nine were expressed, although their patterns of expression were distinct. Since they have similar cis-elements and promoter structures, the mechanisms underlying their distinct gene expression and possible applications are discussed. [ABSTRACT FROM AUTHOR]

Published

2012

31. Whole Genome Profiling provides a robust framework for physical mapping and sequencing in the highly complex and repetitive wheat genome.

Subjects

*GENE mapping, *BACTERIAL artificial chromosomes, *NUCLEOTIDE sequence, *WHEAT farming, *GENOMES

Abstract

The article focuses on a study conducted to analyze physical mapping and sequencing in the highly complex and repetitive wheat genome using Whole Genome Profiling (WGP), which found that more robust physical maps are created with a suitable assembly methodology through WGP. To establish a WGP physical map and to compare it to a map obtained with the SNaPshot technology, a subset of the wheat 3B chromosome BAC library covering 230 Mb was used.

Published

2012

32. Clinical Laboratory Implementation of Cytogenomic Microarrays.

Author

South, S.T. and Brothman, A.R.

Subjects

*GENOMES, *CYTOGENETICS, *COMPARATIVE genomic hybridization, *NUCLEOTIDE sequence, *IN situ hybridization, *MOLECULAR cloning, *BACTERIAL artificial chromosomes

Abstract

Examination of the whole genome for copy number alterations by microarray is now routinely done in many laboratories. The field of cytogenetics has evolved to adapt this technology, and the current phase of transition has resulted in the need for standardization in methodologies and interpretation of data. This review will outline some of the changes addressed in the field over the last several years and briefly discuss some of the trends in data processing, analysis and interpretation. Copyright © 2011 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2011

33. Genomic Sequence around Butterfly Wing Development Genes: Annotation and Comparative Analysis.

Author

Conceição, Inê s C., Long, Anthony D., Gruber, Jonathan D., and Beldade, Patrícia

Subjects

*COMPARATIVE studies, *GENETICS, *HEREDITY, *GENOMES, *NUCLEOTIDE sequence, *BACTERIAL artificial chromosomes, *PATTERN formation (Biology), *BIOLOGICAL divergence, *ALCOHOL dehydrogenase genetics, *DEHYDROGENASES

Abstract

Background: Analysis of genomic sequence allows characterization of genome content and organization, and access beyond gene-coding regions for identification of functional elements. BAC libraries, where relatively large genomic regions are made readily available, are especially useful for species without a fully sequenced genome and can increase genomic coverage of phylogenetic and biological diversity. For example, no butterfly genome is yet available despite the unique genetic and biological properties of this group, such as diversified wing color patterns. The evolution and development of these patterns is being studied in a few target species, including Bicyclus anynana, where a whole-genome BAC library allows targeted access to large genomic regions Methodology/Principal Findings: We characterize ∼1.3 Mb of genomic sequence around 11 selected genes expressed in B. anynana developing wings. Extensive manual curation of in silico predictions, also making use of a large dataset of expressed genes for this species, identified repetitive elements and protein coding sequence, and highlighted an expansion of Alcohol dehydrogenase genes. Comparative analysis with orthologous regions of the lepidopteran reference genome allowed assessment of conservation of fine-scale synteny (with detection of new inversions and translocations) and of DNA sequence (with detection of high levels of conservation of non-coding regions around some, but not all, developmental genes Conclusions: The general properties and organization of the available B. anynana genomic sequence are similar to the lepidopteran reference, despite the more than 140 MY divergence. Our results lay the groundwork for further studies of new interesting findings in relation to both coding and non-coding sequence: 1) the Alcohol dehydrogenase expansion with higher similarity between the five tandemly-repeated B. anynana paralogs than with the corresponding B. mori orthologs, and 2) the high conservation of non-coding sequence around the genes wingless and Ecdysone receptor, both involved in multiple developmental processes including wing pattern formation [ABSTRACT FROM AUTHOR]

Published

2011

34. Introduction of large DNA inserts into the barley pathogenic fungus, Ustilago hordei, via recombined binary BAC vectors and Agrobacterium-mediated transformation.

Author

Ali, Shawkat and Bakkeren, Guus

Subjects

*PATHOGENIC microorganisms, *SMUT fungi, *DNA, *GENETIC recombination, *USTILAGO hordei, *AGROBACTERIUM, *GENETIC transformation, *GENOMES, *BACTERIAL artificial chromosomes, *PROTOPLASTS, *GENOMICS

Abstract

Genetic transformation of organisms with large genome fragments containing complete genes, with regulatory elements or clusters of genes, can contribute to the functional analysis of such genes. However, large inserts, such as those found on bacterial artificial chromosome (BAC) clones, are often not easy to transfer. We exploited an existing technique to convert BAC clones, containing genomic DNA fragments from the barley-covered smut fungus Ustilago hordei to binary BACs (BIBACs) to make them transferable by the Agrobacterium tumefaciens T-DNA transfer machinery. Genetic transformation of U. hordei with BAC clones using polyethylene glycol or electroporation is difficult. As a proof of concept, two BAC clones were successfully converted into BIBAC vectors and transferred by A. tumefaciens into U. hordei and U. maydis, the related corn smut fungi. Molecular analysis of the transformants showed that the T-DNA containing the BAC clones with their inserts was stably integrated into the U. hordei genome. A transformation frequency of approximately 10 was achieved both for U. hordei sporidia and protoplasts; the efficiencies were 25-30 times higher for U. maydis. The combination of in vivo recombineering technology for BAC clones and A. tumefaciens-mediated transformation of Ustilago species should pave the way for functional genomics studies. [ABSTRACT FROM AUTHOR]

Published

2011

35. Generation of the first BAC-based physical map of the common carp genome.

Subjects

*CARP, *GENOMES, *BACTERIAL artificial chromosomes, *CYPRINUS, *GENETICS

Abstract

Background: Common carp (Cyprinus carpio), a member of Cyprinidae, is the third most important aquaculture species in the world with an annual global production of 3.4 million metric tons, accounting for nearly 14% of the all freshwater aquaculture production in the world. Apparently genomic resources are needed for this species in order to study its performance and production traits. In spite of much progress, no physical maps have been available for common carp. The objective of this project was to generate a BAC-based physical map using fluorescent restriction fingerprinting. Result: The first generation of common carp physical map was constructed using four- color High Information Content Fingerprinting (HICF). A total of 72,158 BAC clones were analyzed that generated 67,493 valid fingerprints (5.5 × genome coverage). These BAC clones were assembled into 3,696 contigs with the average length of 476 kb and a N50 length of 688 kb, representing approximately 1.76 Gb of the common carp genome. The largest contig contained 171 BAC clones with the physical length of 3.12 Mb. There are 761 contigs longer than the N50, and these contigs should be the most useful resource for future integrations with linkage map and whole genome sequence assembly. The common carp physical map is available at http://genomics.cafs.ac.cn/fpc/WebAGCoL/Carp/ WebFPC/. Conclusion: The reported common carp physical map is the first physical map of the common carp genome. It should be a valuable genome resource facilitating whole genome sequence assembly and characterization of position-based genes important for aquaculture traits. [ABSTRACT FROM AUTHOR]

Published

2011

36. A comparative physical map reveals the pattern of chromosomal evolution between the turkey (Meleagris gallopavo) and chicken (Gallus gallus) genomes.

Subjects

*BACTERIAL artificial chromosomes, *GENE mapping, *GENOMES, *TURKEYS, *CHICKENS

Abstract

Background: A robust bacterial artificial chromosome (BAC)-based physical map is essential for many aspects of genomics research, including an understanding of chromosome evolution, high-resolution genome mapping, marker-assisted breeding, positional cloning of genes, and quantitative trait analysis. To facilitate turkey genetics research and better understand avian genome evolution, a BAC-based integrated physical, genetic, and comparative map was developed for this important agricultural species. Results: The turkey genome physical map was constructed based on 74,013 BAC fingerprints (11.9 × coverage) from two independent libraries, and it was integrated with the turkey genetic map and chicken genome sequence using over 41,400 BAC assignments identified by 3,499 overgo hybridization probes along with > 43,000 BAC end sequences. The physical-comparative map consists of 74 BAC contigs, with an average contig size of 13.6 Mb. All but four of the turkey chromosomes were spanned on this map by three or fewer contigs, with 14 chromosomes spanned by a single contig and nine chromosomes spanned by two contigs. This map predicts 20 to 27 major rearrangements distinguishing turkey and chicken chromosomes, despite up to 40 million years of separate evolution between the two species. These data elucidate the chromosomal evolutionary pattern within the Phasianidae that led to the modern turkey and chicken karyotypes. The predominant rearrangement mode involves intrachromosomal inversions, and there is a clear bias for these to result in centromere locations at or near telomeres in turkey chromosomes, in comparison to interstitial centromeres in the orthologous chicken chromosomes. Conclusion: The BAC-based turkey-chicken comparative map provides novel insights into the evolution of avian genomes, a framework for assembly of turkey whole genome shotgun sequencing data, and tools for enhanced genetic improvement of these important agricultural and model species. [ABSTRACT FROM AUTHOR]

Published

2011

37. An overview of the Phalaenopsis orchid genome through BAC end sequence analysis.

Author

Chia-Chi Hsu, Yu-Lin Chung, Tien-Chih Chen, Yu-Ling Lee, Yi-Tzu Kuo, Wen-Chieh Tsai, Yu-Yun Hsiao, Yun-Wen Chen, Wen-Luan Wu, and Hong-Hwa Chen

Subjects

*GENETICS, *PHALAENOPSIS, *ORCHIDS, *BACTERIAL artificial chromosomes, *PLANT breeding, *GENOMES, *PLANT genetics

Abstract

Background: Phalaenopsis orchids are popular floral crops, and development of new cultivars is economically important to floricultural industries worldwide. Analysis of orchid genes could facilitate orchid improvement. Bacterial artificial chromosome (BAC) end sequences (BESs) can provide the first glimpses into the sequence composition of a novel genome and can yield molecular markers for use in genetic mapping and breeding. Results: We used two BAC libraries (constructed using the BamHI and HindIII restriction enzymes) of Phalaenopsis equestris to generate pair-end sequences from 2,920 BAC clones (71.4% and 28.6% from the BamHI and HindIII libraries, respectively), at a success rate of 95.7%. A total of 5,535 BESs were generated, representing 4.5 Mb, or about 0.3% of the Phalaenopsis genome. The trimmed sequences ranged from 123 to 1,397 base pairs (bp) in size, with an average edited read length of 821 bp. When these BESs were subjected to sequence homology searches, it was found that 641 (11.6%) were predicted to represent protein-encoding regions, whereas 1,272 (23.0%) contained repetitive DNA. Most of the repetitive DNA sequences were gypsy- and copia-like retrotransposons (41.9% and 12.8%, respectively), whereas only 10.8% were DNA transposons. Further, 950 potential simple sequence repeats (SSRs) were discovered. Dinucleotides were the most abundant repeat motifs; AT/TA dimer repeats were the most frequent SSRs, representing 253 (26.6%) of all identified SSRs. Microsynteny analysis revealed that more BESs mapped to the whole-genome sequences of poplar than to those of grape or Arabidopsis, and even fewer mapped to the rice genome. This work will facilitate analysis of the Phalaenopsis genome, and will help clarify similarities and differences in genome composition between orchids and other plant species. Conclusion: Using BES analysis, we obtained an overview of the Phalaenopsis genome in terms of gene abundance, the presence of repetitive DNA and SSR markers, and the extent of microsynteny with other plant species. This work provides a basis for future physical mapping of the Phalaenopsis genome and advances our knowledge thereof. [ABSTRACT FROM AUTHOR]

Published

2011

38. Generating libraries of iTol2-end insertions at BAC ends using loxP and lox511 Tn10 transposons.

Author

Shakes, Leighcraft A., Abe, Gembu, Eltayeb, Mugtaba A., Wolf, Hope M., Kawakami, Koichi, and Chatterjee, Pradeep K.

Subjects

*BACTERIAL artificial chromosomes, *TRANSPOSONS, *TRANSGENES, *GENOMES, *GENETICS

Abstract

Background: Bacterial Artificial Chromosomes (BACs) have been widely used as transgenes in vertebrate model systems such as mice and zebrafish, for a variety of studies. BAC transgenesis has been a powerful tool to study the function of the genome, and gene regulation by distal cis-regulatory elements. Recently, BAC transgenesis in both mice and zebrafish was further facilitated by development of the transposon-mediated method using the Tol2 element. Tol2 ends, in the inverted orientation and flanking a 1 kb spacer DNA (iTol2), were introduced into the BAC DNA within the bacterial host using recombination of homologous sequences. Here we describe experiments designed to determine if a simpler and more flexible system could modify BACs so that they would be suitable for transgenesis into zebrafish or mouse embryos using the Tol2 transposase. Results: A new technique was developed to introduce recognition sequences for the Tol2 transposase into BACs in E. coli using the Tn10 transposon vector system. We constructed pTnloxP-iTol2kan and pTnlox511-iTol2kan to introduce the loxP or lox511 site and iTol2 cassette, containing the Tol2 cis-sequences in the inverted orientation, into BACs that have loxP and lox511 sites flanking genomic DNA inserts by Tn10-mediated transposition. The procedure enables rapid generation of a large collection of BACs ready for transgenesis with the iTol2 cassette at the new end of a progressively truncated genomic insert via lox-Cre recombination. The iTol2 ends are efficiently recognized by the Tol2 transposase, and the BACs readily integrate into zebrafish chromosomes. Conclusion: The new technology described here can rapidly introduce iTol2 ends at a BAC end of choice, and simultaneously generate a large collection of BACs with progressive deletions of the genomic DNA from that end in a single experiment. This procedure should be applicable to a wider variety of BACs containing lox sites flanking the genomic DNA insert, including those with sequence repeats. The libraries of iTol2 inserted BACs with truncations from an end should facilitate studies on the impact of distal cis-regulatory sequences on gene function, as well as standard BAC transgenesis with precisely trimmed genes in zebrafish or mouse embryos using Tol2 transposition. [ABSTRACT FROM AUTHOR]

Published

2011

39. BAC library resources for map-based cloning and physical map construction in barley (Hordeum vulgare L.).

Author

Schulte, Daniela, Ariyadasa, Ruvini, Shi, Bujun, Fleury, Delphine, Saski, Chris, Atkins, Michael, deJong, Pieter, Cheng-Cang Wu, Graner, Andreas, Langridge, Peter, and Stein, Nils

Subjects

*GENOMES, *GENES, *GENETICS, *GENOMICS, *BACTERIAL artificial chromosomes

Abstract

Background: Although second generation sequencing (2GS) technologies allow re-sequencing of previously gold-standard-sequenced genomes, whole genome shotgun sequencing and de novo assembly of large and complex eukaryotic genomes is still difficult. Availability of a genome-wide physical map is therefore still a prerequisite for whole genome sequencing for genomes like barley. To start such an endeavor, large insert genomic libraries, i.e. Bacterial Artificial Chromosome (BAC) libraries, which are unbiased and representing deep haploid genome coverage, need to be ready in place. Result: Five new BAC libraries were constructed for barley (Hordeum vulgare L.) cultivar Morex. These libraries were constructed in different cloning sites (HindIII, EcoRI, MboI and BstXI) of the respective vectors. In order to enhance unbiased genome representation and to minimize the number of gaps between BAC contigs, which are often due to uneven distribution of restriction sites, a mechanically sheared library was also generated. The new BAC libraries were fully characterized in depth by scrutinizing the major quality parameters such as average insert size, degree of contamination (plate wide, neighboring, and chloroplast), empty wells and off-scale clones (clones with <30 or >250 fragments). Additionally a set of gene-based probes were hybridized to high density BAC filters and showed that genome coverage of each library is between 2.4 and 6.6 X. Conclusion: BAC libraries representing >20 haploid genomes are available as a new resource to the barley research community. Systematic utilization of these libraries in high-throughput BAC fingerprinting should allow developing a genome-wide physical map for the barley genome, which will be instrumental for map-based gene isolation and genome sequencing. [ABSTRACT FROM AUTHOR]

Published

2011

40. Assessing pooled BAC and whole genome shotgun strategies for assembly of complex genomes.

Author

Haiminen, Niina, Feltus, F. Alex, and Parida, Laxmi

Subjects

*BACTERIAL artificial chromosomes, *GENOMES, *TITANIUM group, *GENOMICS, *GENETICS

Abstract

Background: We investigate if pooling BAC clones and sequencing the pools can provide for more accurate assembly of genome sequences than the "whole genome shotgun" (WGS) approach. Furthermore, we quantify this accuracy increase. We compare the pooled BAC and WGS approaches using in silico simulations. Standard measures of assembly quality focus on assembly size and fragmentation, which are desirable for large whole genome assemblies. We propose additional measures enabling easy and visual comparison of assembly quality, such as rearrangements and redundant sequence content, relative to the known target sequence. Results: The best assembly quality scores were obtained using 454 coverage of 15× linear and 5× paired (3kb insert size) reads (15L-5P) on Arabidopsis. This regime gave similarly good results on four additional plant genomes of very different GC and repeat contents. BAC pooling improved assembly scores over WGS assembly, coverage and redundancy scores improving the most. Conclusions: BAC pooling works better than WGS, however, both require a physical map to order the scaffolds. Pool sizes up to 12Mbp work well, suggesting this pooling density to be effective in medium-scale re-sequencing applications such as targeted sequencing of QTL intervals for candidate gene discovery. Assuming the current Roche/454 Titanium sequencing limitations, a 12 Mbp region could be re-sequenced with a full plate of linear reads and a half plate of paired-end reads, yielding 15L-5P coverage after read pre-processing. Our simulation suggests that massively over-sequencing may not improve accuracy. Our scoring measures can be used generally to evaluate and compare results of simulated genome assemblies. [ABSTRACT FROM AUTHOR]

Published

2011

41. An Integrated Physical, Genetic and Cytogenetic Map of Brachypodium distachyon, a Model System for Grass Research.

Author

Febrer, Melanie, Goicoechea, Jose Luis, Wright, Jonathan, McKenzie, Neil, Xiang Song, Jinke Lin, Collura, Kristi, Wissotski, Marina, Yeisoo Yu, Ammiraju, Jetty S. S., Wolny, Elzbieta, Idziak, Dominika, Betekhtin, Alexander, Kudrna, Dave, Hasterok, Robert, Wing, Rod A., and Bevan, Michael W.

Subjects

*GRASS research, *BOTANY, *GENOMICS, *BACTERIAL artificial chromosomes, *IN situ hybridization, *GENOMES

Abstract

The pooid subfamily of grasses includes some of the most important crop, forage and turf species, such as wheat, barley and Lolium. Developing genomic resources, such as whole-genome physical maps, for analysing the large and complex genomes of these crops and for facilitating biological research in grasses is an important goal in plant biology. We describe a bacterial artificial chromosome (BAC)-based physical map of the wild pooid grass Brachypodium distachyon and integrate this with whole genome shotgun sequence (WGS) assemblies using BAC end sequences (BES). The resulting physical map contains 26 contigs spanning the 272 Mb genome. BES from the physical map were also used to integrate a genetic map. This provides an independent vaildation and confirmation of the published WGS assembly. Mapped BACs were used in Fluorescence In Situ Hybridisation (FISH) experiments to align the integrated physical map and sequence assemblies to chromosomes with high resolution. The physical, genetic and cytogenetic maps, integrated with whole genome shotgun sequence assemblies, enhance the accuracy and durability of this important genome sequence and will directly facilitate gene isolation. [ABSTRACT FROM AUTHOR]

Published

2010

42. BAC-HAPPY Mapping (BAP Mapping): A New and Efficient Protocol for Physical Mapping.

Author

Vu, Giang T. H., Dear, Paul H., Caligari, Peter D. S., and Wilkinson, Mike J.

Subjects

*BACTERIAL artificial chromosomes, *ARABIDOPSIS thaliana, *GENE mapping, *LINKAGE (Genetics), *GENE libraries, *GENOMES, *LOCUS (Genetics), *DNA, *GENETIC recombination

Abstract

Physical and linkage mapping underpin efforts to sequence and characterize the genomes of eukaryotic organisms by providing a skeleton framework for whole genome assembly. Hitherto, linkage and physical ''contig'' maps were generated independently prior to merging. Here, we develop a new and easy method, BAC HAPPY MAPPING (BAP mapping), that utilizes BAC library pools as a HAPPY mapping panel together with an Mbp-sized DNA panel to integrate the linkage and physical mapping efforts into one pipeline. Using Arabidopsis thaliana as an exemplar, a set of 40 Sequence Tagged Site (STS) markers spanning ∼10% of chromosome 4 were simultaneously assembled onto a BAP map compiled using both a series of BAC pools each comprising 0.7x genome coverage and dilute (0.7x genome) samples of sheared genomic DNA. The resultant BAP map overcomes the need for polymorphic loci to separate genetic loci by recombination and allows physical mapping in segments of suppressed recombination that are difficult to analyze using traditional mapping techniques. Even virtual ''BAC-HAPPY-mapping'' to convert BAC landing data into BAC linkage contigs is possible. [ABSTRACT FROM AUTHOR]

Published

2010

43. Microcollinearity between autopolyploid sugarcane and diploid sorghum genomes.

Author

Jianping Wang, Roe, Bruce, Macmil, Simone, Qingyi Yu, Murray, Jan E., Tang, Haibao, Cuixia Chen, Najar, Fares, Wiley, Graham, Bowers, John, Van Sluys, Marie-Anne, Rokhsar, Daniel S., Hudson, Matthew E., Moose, Stephen P., Paterson, Andrew H., and Ming, Ray

Subjects

*SUGARCANE, *BIOMASS energy, *CULTIVARS, *SORGHUM, *BACTERIAL artificial chromosomes, *GENOMES

Abstract

Background: Sugarcane (Saccharum spp.) has become an increasingly important crop for its leading role in biofuel production. The high sugar content species S. officinarum is an octoploid without known diploid or tetraploid progenitors. Commercial sugarcane cultivars are hybrids between S. officinarum and wild species S. spontaneum with ploidy at ~12×. The complex autopolyploid sugarcane genome has not been characterized at the DNA sequence level. Results: The microsynteny between sugarcane and sorghum was assessed by comparing 454 pyrosequences of 20 sugarcane bacterial artificial chromosomes (BACs) with sorghum sequences. These 20 BACs were selected by hybridization of 1961 single copy sorghum overgo probes to the sugarcane BAC library with one sugarcane BAC corresponding to each of the 20 sorghum chromosome arms. The genic regions of the sugarcane BACs shared an average of 95.2% sequence identity with sorghum, and the sorghum genome was used as a template to order sequence contigs covering 78.2% of the 20 BAC sequences. About 53.1% of the sugarcane BAC sequences are aligned with sorghum sequence. The unaligned regions contain non-coding and repetitive sequences. Within the aligned sequences, 209 genes were annotated in sugarcane and 202 in sorghum. Seventeen genes appeared to be sugarcanespecific and all validated by sugarcane ESTs, while 12 appeared sorghum-specific but only one validated by sorghum ESTs. Twelve of the 17 sugarcane-specific genes have no match in the non-redundant protein database in GenBank, perhaps encoding proteins for sugarcane-specific processes. The sorghum orthologous regions appeared to have expanded relative to sugarcane, mostly by the increase of retrotransposons. Conclusions: The sugarcane and sorghum genomes are mostly collinear in the genic regions, and the sorghum genome can be used as a template for assembling much of the genic DNA of the autopolyploid sugarcane genome. The comparable gene density between sugarcane BACs and corresponding sorghum sequences defied the notion that polyploidy species might have faster pace of gene loss due to the redundancy of multiple alleles at each locus. [ABSTRACT FROM AUTHOR]

Published

2010

44. Hyper-expansion of large DNA segments in thegenome of kuruma shrimp, Marsupenaeusjaponicus.

Author

Koyama, Takashi, Asakawa, Shuichi, Katagiri, Takayuki, Shimizu, Atsushi, Fagutao, Fernand F., Mavichak, Rapeepat, Santos, Mudjekeewis D., Fuji, Kanako, Sakamoto, Takashi, Kitakado, Toshihide, Kondo, Hidehiro, Shimizu, Nobuyoshi, Aoki, Takashi, and Hirono, Ikuo

Subjects

*CRUSTACEA, *NUCLEOTIDE sequence, *BACTERIAL artificial chromosomes, *GENES, *GENOMES

Abstract

Background: Higher crustaceans (class Malacostraca) represent the most species-rich and morphologically diverse group of non-insect arthropods and many of its members are commercially important. Although the crustacean DNA sequence information is growing exponentially, little is known about the genome organization of Malacostraca. Here, we constructed a bacterial artificial chromosome (BAC) library and performed BAC-end sequencing to provide genomic information for kuruma shrimp (Marsupenaeus japonicus), one of the most widely cultured species among crustaceans, and found the presence of a redundant sequence in the BAC library. We examined the BAC clone that includes the redundant sequence to further analyze its length, copy number and location in the kuruma shrimp genome. Results: Mj024A04 BAC clone, which includes one redundant sequence, contained 27 putative genes and seemed to display a normal genomic DNA structure. Notably, of the putative genes, 3 genes encode homologous proteins to the inhibitor of apoptosis protein and 7 genes encode homologous proteins to white spot syndrome virus, a virulent pathogen known to affect crustaceans. Colony hybridization and PCR analysis of 381 BAC clones showed that almost half of the BAC clones maintain DNA segments whose sequences are homologous to the representative BAC clone Mj024A04. The Mj024A04 partial sequence was detected multiple times in the kuruma shrimp nuclear genome with a calculated copy number of at least 100. Microsatellites based BAC genotyping clearly showed that Mj024A04 homologous sequences were cloned from at least 48 different chromosomal loci. The absence of micro-syntenic relationships with the available genomic sequences of Daphnia and Drosophila suggests the uniqueness of these fragments in kuruma shrimp from current arthropod genome sequences. Conclusions: Our results demonstrate that hyper-expansion of large DNA segments took place in the kuruma shrimp genome. Although we analyzed only a part of the duplicated DNA segments, our result suggested that it is difficult to analyze the shrimp genome following normal analytical methodology. Hence, it is necessary to avoid repetitive sequence (such as segmental duplications) when studying the other unique structures in the shrimp genome. [ABSTRACT FROM AUTHOR]

Published

2010

45. Feasibility of physical map construction fromfingerprinted bacterial artificial chromosomelibraries of polyploid plant species.

Author

Ming-Cheng Luo, Yaqin Ma, You, Frank M., Anderson, Olin D., Kopecký, David, Šimková, Hana, Šafář, Jan, Doležel, Jaroslav, Gill, Bikram, McGuire, Patrick E., and Dvorak, Jan

Subjects

*BACTERIAL artificial chromosomes, *GENETICS, *GENOMES, *HUMAN fingerprints, *CHROMOSOMES

Abstract

Background: The presence of closely related genomes in polyploid species makes the assembly of total genomic sequence from shotgun sequence reads produced by the current sequencing platforms exceedingly difficult, if not impossible. Genomes of polyploid species could be sequenced following the ordered-clone sequencing approach employing contigs of bacterial artificial chromosome (BAC) clones and BAC-based physical maps. Although BAC contigs can currently be constructed for virtually any diploid organism with the SNaPshot high-informationcontent- fingerprinting (HICF) technology, it is currently unknown if this is also true for polyploid species. It is possible that BAC clones from orthologous regions of homoeologous chromosomes would share numerous restriction fragments and be therefore included into common contigs. Because of this and other concerns, physical mapping utilizing the SNaPshot HICF of BAC libraries of polyploid species has not been pursued and the possibility of doing so has not been assessed. The sole exception has been in common wheat, an allohexaploid in which it is possible to construct single-chromosome or single-chromosome-arm BAC libraries from DNA of flow-sorted chromosomes and bypass the obstacles created by polyploidy. Results: The potential of the SNaPshot HICF technology for physical mapping of polyploid plants utilizing global BAC libraries was evaluated by assembling contigs of fingerprinted clones in an in silico merged BAC library composed of single-chromosome libraries of two wheat homoeologous chromosome arms, 3AS and 3DS, and complete chromosome 3B. Because the chromosome arm origin of each clone was known, it was possible to estimate the fidelity of contig assembly. On average 97.78% or more clones, depending on the library, were from a single chromosome arm. A large portion of the remaining clones was shown to be library contamination from other chromosomes, a feature that is unavoidable during the construction of single-chromosome BAC libraries. Conclusions: The negligibly low level of incorporation of clones from homoeologous chromosome arms into a contig during contig assembly suggested that it is feasible to construct contigs and physical maps using global BAC libraries of wheat and almost certainly also of other plant polyploid species with genome sizes comparable to that of wheat. Because of the high purity of the resulting assembled contigs, they can be directly used for genome sequencing. It is currently unknown but possible that equally good BAC contigs can be also constructed for polyploid species containing smaller, more gene-rich genomes. [ABSTRACT FROM AUTHOR]

Published

2010

46. Quality control of the sheep bacterial artificial chromosome library, CHORI-243.

Author

Ratnakumar, Abhirami, Kirkness, Ewen F., and Dalrymple, Brian P.

Subjects

*BACTERIAL artificial chromosomes, *CHROMOSOMES, *NUCLEOTIDE sequence, *GENETICS, *GENOMES, *ARTIFICIAL chromosomes, *DNA, *CELL nuclei, *GENOMICS

Abstract

Background: The sheep CHORI-243 bacterial artificial chromosome (BAC) library is being used in the construction of the virtual sheep genome, the sequencing and construction of the actual sheep genome assembly and as a source of DNA for regions of the genome of biological interest. The objective of our study is to assess the integrity of the clones and plates which make up the CHORI-243 library using the virtual sheep genome. Findings: A series of analyses were undertaken based on the mapping the sheep BAC-end sequences (BESs) to the virtual sheep genome. Overall, very few plate specific biases were identified, with only three of the 528 plates in the library significantly affected. The analysis of the number of tail-to-tail (concordant) BACs on the plates identified a number of plates with lower than average numbers of such BACs. For plates 198 and 213 a partial swap of the BESs determined with one of the two primers appear to have occurred. A third plate, 341, also with a significant deficit in tail-to-tail BACs, appeared to contain a substantial number of sequences determined from contaminating eubacterial 16 S rRNA DNA. Additionally a small number of eubacterial 16 S rRNA DNA sequences were present on two other plates, 111 and 338, in the library. Conclusions: The comparative genomic approach can be used to assess BAC library integrity in the absence of fingerprinting. The sequences of the sheep CHORI-243 library BACs have high integrity, especially with the corrections detailed above. The library represents a high quality resource for use by the sheep genomics community. [ABSTRACT FROM AUTHOR]

Published

2010

47. Red-Mediated Transposition and Final Release of the Mini-F Vector of a Cloned Infectious Herpesvirus Genome.

Author

Wussow, Felix, Fickenscher, Helmut, and Karsten Tischer, B.

Subjects

*GENETIC vectors, *HERPESVIRUS disease genetics, *MOLECULAR cloning, *BACTERIAL artificial chromosomes, *MUTAGENESIS, *ESCHERICHIA coli, *VARICELLA-zoster virus, *GENOMES, *GENETIC engineering

Abstract

Bacterial artificial chromosomes (BACs) are well-established cloning vehicles for functional genomics and for constructing targeting vectors and infectious viral DNA clones. Red-recombination-based mutagenesis techniques have enabled the manipulation of BACs in Escherichia coli without any remaining operational sequences. Here, we describe that the F-factorderived vector sequences can be inserted into a novel position and seamlessly removed from the present location of the BAC-cloned DNA via synchronous Red-recombination in E. coli in an en passant mutagenesis-based procedure. Using this technique, the mini-F elements of a cloned infectious varicella zoster virus (VZV) genome were specifically transposed into novel positions distributed over the viral DNA to generate six different BAC variants. In comparison to the other constructs, a BAC variant with mini-F sequences directly inserted into the junction of the genomic termini resulted in highly efficient viral DNA replication-mediated spontaneous vector excision upon virus reconstitution in transfected VZV-permissive eukaryotic cells. Moreover, the derived vector-free recombinant progeny exhibited virtually indistinguishable genome properties and replication kinetics to the wild-type virus. Thus, a sequence-independent, efficient, and easy-to-apply mini-F vector transposition procedure eliminates the last hurdle to perform virtually any kind of imaginable targeted BAC modifications in E. coli. The herpesviral terminal genomic junction was identified as an optimal mini-F vector integration site for the construction of an infectious BAC, which allows the rapid generation of mutant virus without any unwanted secondary genome alterations. The novel mini-F transposition technique can be a valuable tool to optimize, repair or restructure other established BACs as well and may facilitate the development of gene therapy or vaccine vectors. [ABSTRACT FROM AUTHOR]

Published

2009

48. Cloning human herpes virus 6A genome into bacterial artificial chromosomes and study of DNA replication intermediates.

Author

Borenstein, Ronen and Frenkel, Niza

Subjects

*REGULATION of DNA replication, *MOLECULAR cloning, *HUMAN herpesvirus-6, *BACTERIAL artificial chromosomes, *GENE expression, *GENOMES

Abstract

Cloning of large viral genomes into bacterial artificial chromosomes (BACs) facilitates analyses of viral functions and molecular mutagenesis. Previous derivations of viral BACs involved laborious recombinations within infected cells. We describe a single-step production of viral BACs by direct cloning of unit length genomes, derived from circular or head-to-tail concatemeric DNA replication intermediates. The BAC cloning is independent of intracellular recombinations and DNA packaging constraints. We introduced the 160-kb human herpes virus 6A (HHV-6A) genome into BACs by digesting the viral DNA replicative intermediates with the Sfil enzyme that cleaves the viral genome in a single site. The recombinant SACs contained also the puromycin selection gene, GFP, and LoxP sites flanking the BAC sequences. The HHV-6A-BAC vectors were retained stably in puromycin selected 293T cells. In the presence of irradiated helper virus, supplying most likely proteins enhancing gene expression they expressed early and late genes in SupT1 T cells. The method is especially attractive for viruses that replicate inefficiently and for viruses propagated in suspension cells. We have used the fact that the BAC cloning "freezes" the viral DNA replication intermediates to analyze their structure. The results revealed that HHV-6A-BACs contained a single direct repeat (DR) rather than a DR-DR sequence, predicted to arise by circularization of parental genomes with a DR at each terminus. HHV-6A DNA molecules prepared from the infected cells also contained DNA molecules with a single DR. Such forms were not previously described for HHV-6 DNA. [ABSTRACT FROM AUTHOR]

Published

2009

49. The Physical and Genetic Framework of the Maize B73 Genome.

Author

Fusheng Wei, Jianwei Zhang, Shiguo Zhou, Ruifeng He, Schaeffer, Mary, Collura, Kristi, Kudrna, David, Faga, Ben P., Wissotski1, Marina, Golser, Wolfgang, Rock, Susan M., Graves, Tina A., Fulton, Robert S., Coe, Ed, Schnable, Patrick S., Schwartz, David C., Doreen Ware, Sandra W. Clifton, Wilson, Richard K., and Wing, Rod A.

Subjects

*GENOMES, *GENETIC research, *GENETIC markers, *NUCLEOTIDE sequence, *BACTERIAL artificial chromosomes, CORN genetics

Abstract

Maize is a major cereal crop and an important model system for basic biological research. Knowledge gained from maize research can also be used to genetically improve its grass relatives such as sorghum, wheat, and rice. The primary objective of the Maize Genome Sequencing Consortium (MGSC) was to generate a reference genome sequence that was integrated with both the physical and genetic maps. Using a previously published integrated genetic and physical map, combined with in-coming maize genomic sequence, new sequence-based genetic markers, and an optical map, we dynamically picked a minimum tiling path (MTP) of 16,910 bacterial artificial chromosome (BAC) and fosmid clones that were used by the MGSC to sequence the maize genome. The final MTP resulted in a significantly improved physical map that reduced the number of contigs from 721 to 435, incorporated a total of 8,315 mapped markers, and ordered and oriented the majority of FPC contigs. The new integrated physical and genetic map covered 2,120 Mb (93%) of the 2,300-Mb genome, of which 405 contigs were anchored to the genetic map, totaling 2,103.4 Mb (99.2% of the 2,120 Mb physical map). More importantly, 336 contigs, comprising 94.0% of the physical map (~1,993 Mb), were ordered and oriented. Finally we used all available physical, sequence, genetic, and optical data to generate a golden path (AGP) of chromosome-based pseudomolecules, herein referred to as the B73 Reference Genome Sequence version 1 (B73 RefGen_v1). [ABSTRACT FROM AUTHOR]

Published

2009

50. High-Resolution Genomic Profiling of Carboplatin Resistance in Early-Stage Epithelial Ovarian Carcinoma.

Author

Österberg, L., Levan, K., Partheen, K., Staaf, J., Sundfeldt, K., and Horvath, G.

Subjects

*DRUG therapy, *OVARIAN cancer, *BACTERIAL artificial chromosomes, *HUMAN chromosomes, *GENOMES, *GENETICS, *DNA

Abstract

Chemotherapy resistance remains a major obstacle to successful treatment of ovarian cancer patients. Therefore, increased knowledge of underlying mechanisms and identification of predictive factors are of great importance. Standard treatment for ovarian carcinoma is surgery followed by platinum-based chemotherapy. In this study, we aimed to search for genes or genomic regions involved in platinum resistance in ovarian carcinoma. Array-based comparative genomic hybridization (CGH) was used to identify genetic alterations in 32 early-stage epithelial ovarian carcinomas homogeneously treated with single-agent carboplatin. The arrays contain 33,370 bacterial artificial chromosome (BAC) clones and form a contiguous and tiling coverage of the human genome with an average resolution of ∼100 kb. We found certain genetic changes associated with carboplatin response. Gains in 1q25.1–q41 were significantly more frequent in carboplatin-resistant tumours. In this region, we further detected two smallest regions of overlap (SRO) at 1q25.2 and 1q32.2 (∼690 and ∼830 kb in size, respectively). Interestingly, we found some regions that were lost exclusively in the sensitive tumours 17q24.1, Xq21.33–q22.1, and 6 regions in 15q. We also detected genetic differences with regard to histologic subtype. Gain in 8q was found highly associated with serous and clear cell subtypes, and an SRO was identified at 8q24.22–q24.23. The genomic regions found altered in this study confirm some of our previous metaphase CGH results. The alteration found in chromosome arm 1q was verified and specified, and is therefore of great interest as a candidate for predictive markers. Identifying predictive markers of chemosensitive and chemoresistant disease would greatly help in the choice of chemotherapy in the clinic, and thus improve treatment of women with ovarian cancer. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009