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6. PATRIC: The VBI PathoSystems Resource Integration Center

Author

Snyder, E. E., Kampanya, N., Lu, J., Nordberg, E. K., Karur, H. R., Shukla, M., Soneja, J., Tian, Y., Xue, T., Yoo, H., Zhang, F., Dharmanolla, C., Dongre, N. V., Gillespie, J. J., Hamelius, J., Hance, M., Huntington, K. I., Jukneliene, D., Koziski, J., Mackasmiel, L., Mane, S. P., Nguyen, V., Purkayastha, A., Shallom, J., Yu, G., Guo, Y., Gabbard, J., Hix, D., Azad, A. F., Baker, S. C., Boyle, S. M., Khudyakov, Y., Meng, X. J., Rupprecht, C., Vinje, J., Crasta, O. R., Czar, M. J., Dickerman, A., Eckart, J. D., Kenyon, R., Will, R., Setubal, J. C., and Sobral, B. W. S.

Published
2007

8. Host-Interactive Genes in Amerindian Helicobacter pylori Diverge from Their Old World Homologs and Mediate Inflammatory Responses

Author

Mane, S. P., primary, Dominguez-Bello, M. G., additional, Blaser, M. J., additional, Sobral, B. W., additional, Hontecillas, R., additional, Skoneczka, J., additional, Mohapatra, S. K., additional, Crasta, O. R., additional, Evans, C., additional, Modise, T., additional, Shallom, S., additional, Shukla, M., additional, Varon, C., additional, Mégraud, F., additional, Maldonado-Contreras, A. L., additional, Williams, K. P., additional, and Bassaganya-Riera, J., additional

Published
2010
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9. Analysis of Ten Brucella Genomes Reveals Evidence for Horizontal Gene Transfer Despite a Preferred Intracellular Lifestyle

Author

Wattam, Alice R., primary, Williams, Kelly P., additional, Snyder, Eric E., additional, Almeida, Nalvo F., additional, Shukla, Maulik, additional, Dickerman, A. W., additional, Crasta, O. R., additional, Kenyon, R., additional, Lu, J., additional, Shallom, J. M., additional, Yoo, H., additional, Ficht, T. A., additional, Tsolis, R. M., additional, Munk, C., additional, Tapia, R., additional, Han, C. S., additional, Detter, J. C., additional, Bruce, D., additional, Brettin, T. S., additional, Sobral, Bruno W., additional, Boyle, Stephen M., additional, and Setubal, João C., additional

Published
2009
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10. An emerging cyberinfrastructure for biodefense pathogen and pathogen–host data

Author

Zhang, C., primary, Crasta, O., primary, Cammer, S., primary, Will, R., primary, Kenyon, R., primary, Sullivan, D., primary, Yu, Q., primary, Sun, W., primary, Jha, R., primary, Liu, D., primary, Xue, T., primary, Zhang, Y., primary, Moore, M., primary, McGarvey, P., primary, Huang, H., primary, Chen, Y., primary, Zhang, J., primary, Mazumder, R., primary, Wu, C., primary, and Sobral, B., primary

Published
2007
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11. Cytological and molecular characterization of wheat lines with Thinopyrum intermedium chromosome additions, substitutions and translocations resistant to barley yellow dwarf virus

Author

Sharma, H., Francki, M.G., Crasta, O., Gyulai, G., Sharma, H., Francki, M.G., Crasta, O., and Gyulai, G.

Abstract

Barley yellow dwarf virus (BYDV) is the most serious viral disease affecting wheat and genes for BYDV resistance have not been found in wheat. BYDV-resistant alien addition and alien substitution lines produced from a wheat × Thinopyrum intermedium (species of Agropyron complex) cross were characterized. Chromosome pairing in the hybrids between two substitution lines showed that they had the same Th. intermedium chromosome. Likewise, two addition lines involved the same alien chromosome. In situ hybridization of chromosomes, confirmed that line P29 is a disomic substitution line. Double monosomic seeds and self-pollinated seeds from monosomic addition plants were irradiated to induce translocations between wheat and Th. intermedium chromosomes. Putative translocations were selected on the basis of BYDV resistance and studied by chromosome analysis, Southern hybridization using Thinopyrum specific probe and RFLP markers. A BYDV-resistant translocation was identified.

Published
1999

19. Transcriptome sequencing and comparative analysis of cucumber flowers with different sex types

Author

Sobral Bruno W, Crasta Oswald R, Zhang Zhonghua, Joung Je-Gun, Liu Shiqiang, Zheng Yi, Guo Shaogui, Xu Yong, Huang Sanwen, and Fei Zhangjun

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Cucumber, Cucumis sativus L., is an economically and nutritionally important crop of the Cucurbitaceae family and has long served as a primary model system for sex determination studies. Recently, the sequencing of its whole genome has been completed. However, transcriptome information of this species is still scarce, with a total of around 8,000 Expressed Sequence Tag (EST) and mRNA sequences currently available in GenBank. In order to gain more insights into molecular mechanisms of plant sex determination and provide the community a functional genomics resource that will facilitate cucurbit research and breeding, we performed transcriptome sequencing of cucumber flower buds of two near-isogenic lines, WI1983G, a gynoecious plant which bears only pistillate flowers, and WI1983H, a hermaphroditic plant which bears only bisexual flowers. Result Using Roche-454 massive parallel pyrosequencing technology, we generated a total of 353,941 high quality EST sequences with an average length of 175bp, among which 188,255 were from gynoecious flowers and 165,686 from hermaphroditic flowers. These EST sequences, together with ~5,600 high quality cucumber EST and mRNA sequences available in GenBank, were clustered and assembled into 81,401 unigenes, of which 28,452 were contigs and 52,949 were singletons. The unigenes and ESTs were further mapped to the cucumber genome and more than 500 alternative splicing events were identified in 443 cucumber genes. The unigenes were further functionally annotated by comparing their sequences to different protein and functional domain databases and assigned with Gene Ontology (GO) terms. A biochemical pathway database containing 343 predicted pathways was also created based on the annotations of the unigenes. Digital expression analysis identified ~200 differentially expressed genes between flowers of WI1983G and WI1983H and provided novel insights into molecular mechanisms of plant sex determination process. Furthermore, a set of SSR motifs and high confidence SNPs between WI1983G and WI1983H were identified from the ESTs, which provided the material basis for future genetic linkage and QTL analysis. Conclusion A large set of EST sequences were generated from cucumber flower buds of two different sex types. Differentially expressed genes between these two different sex-type flowers, as well as putative SSR and SNP markers, were identified. These EST sequences provide valuable information to further understand molecular mechanisms of plant sex determination process and forms a rich resource for future functional genomics analysis, marker development and cucumber breeding.

Published
2010
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20. Modulation of hepatic PPAR expression during Ft LVS LPS-induced protection from Francisella tularensis LVS infection

Author

Hontecillas Raquel, Bassaganya-Riera Josep, Sobral Bruno W, Evans Clive, Cole Leah E, Mohapatra Saroj K, Vogel Stefanie N, and Crasta Oswald R

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background It has been shown previously that administration of Francisella tularensis (Ft) Live Vaccine Strain (LVS) lipopolysaccharide (LPS) protects mice against subsequent challenge with Ft LVS and blunts the pro-inflammatory cytokine response. Methods To further investigate the molecular mechanisms that underlie Ft LVS LPS-mediated protection, we profiled global hepatic gene expression following Ft LVS LPS or saline pre-treatment and subsequent Ft LVS challenge using Affymetrix arrays. Results A large number of genes (> 3,000) were differentially expressed at 48 hours post-infection. The degree of modulation of inflammatory genes by infection was clearly attenuated by pre-treatment with Ft LVS LPS in the surviving mice. However, Ft LVS LPS alone had a subtle effect on the gene expression profile of the uninfected mice. By employing gene set enrichment analysis, we discovered significant up-regulation of the fatty acid metabolism pathway, which is regulated by peroxisome proliferator activated receptors (PPARs). Conclusions We hypothesize that the LPS-induced blunting of pro-inflammatory response in mouse is, in part, mediated by PPARs (α and γ).

Published
2010
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21. Transcriptome sequencing of the Microarray Quality Control (MAQC) RNA reference samples using next generation sequencing

Author

Thierry-Mieg Danielle, Harkins Timothy T, Folkerts Otto, Hutchison Stephen K, Crasta Oswald R, Cooper Kristal L, Evans Clive, Mane Shrinivasrao P, Thierry-Mieg Jean, and Jensen Roderick V

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Transcriptome sequencing using next-generation sequencing platforms will soon be competing with DNA microarray technologies for global gene expression analysis. As a preliminary evaluation of these promising technologies, we performed deep sequencing of cDNA synthesized from the Microarray Quality Control (MAQC) reference RNA samples using Roche's 454 Genome Sequencer FLX. Results We generated more that 3.6 million sequence reads of average length 250 bp for the MAQC A and B samples and introduced a data analysis pipeline for translating cDNA read counts into gene expression levels. Using BLAST, 90% of the reads mapped to the human genome and 64% of the reads mapped to the RefSeq database of well annotated genes with e-values ≤ 10-20. We measured gene expression levels in the A and B samples by counting the numbers of reads that mapped to individual RefSeq genes in multiple sequencing runs to evaluate the MAQC quality metrics for reproducibility, sensitivity, specificity, and accuracy and compared the results with DNA microarrays and Quantitative RT-PCR (QRTPCR) from the MAQC studies. In addition, 88% of the reads were successfully aligned directly to the human genome using the AceView alignment programs with an average 90% sequence similarity to identify 137,899 unique exon junctions, including 22,193 new exon junctions not yet contained in the RefSeq database. Conclusion Using the MAQC metrics for evaluating the performance of gene expression platforms, the ExpressSeq results for gene expression levels showed excellent reproducibility, sensitivity, and specificity that improved systematically with increasing shotgun sequencing depth, and quantitative accuracy that was comparable to DNA microarrays and QRTPCR. In addition, a careful mapping of the reads to the genome using the AceView alignment programs shed new light on the complexity of the human transcriptome including the discovery of thousands of new splice variants.

Published
2009
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22. Gene expression in primate liver during viral hemorrhagic fever

Author

Bryant Joseph, Lechner Melissa G, Sobral Bruno, Zapata Juan, Zhang Yan, Crasta Oswald R, Djavani Mahmoud, Davis Harry, and Salvato Maria S

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Rhesus macaques infected with lymphocytic choriomeningitis virus (LCMV) provide a model for human Lassa fever. Disease begins with flu-like symptoms and progresses rapidly with fatal consequences. Previously, we profiled the blood transcriptome of LCMV-infected monkeys (M. Djavani et al J. Virol. 2007) showing distinct pre-viremic and viremic stages that discriminated virulent from benign infections. In the present study, changes in liver gene expression from macaques infected with virulent LCMV-WE were compared to gene expression in uninfected monkeys as well as to monkeys that were infected but not diseased. Results Based on a functional pathway analysis of differentially expressed genes, virulent LCMV-WE had a broader effect on liver cell function than did infection with non-virulent LCMV-Armstrong. During the first few days after infection, LCMV altered expression of genes associated with energy production, including fatty acid and glucose metabolism. The transcriptome profile resembled that of an organism in starvation: mRNA for acetyl-CoA carboxylase, a key enzyme of fatty acid synthesis was reduced while genes for enzymes in gluconeogenesis were up-regulated. Expression was also altered for genes associated with complement and coagulation cascades, and with signaling pathways involving STAT1 and TGF-β. Conclusion Most of the 4500 differentially expressed transcripts represented a general response to both virulent and mild infections. However, approximately 250 of these transcripts had significantly different expression in virulent infections as compared to mild infections, with approximately 30 of these being differentially regulated during the pre-viremic stage of infection. The genes that are expressed early and differently in mild and virulent disease are potential biomarkers for prognosis and triage of acute viral disease.

Published
2009
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23. A giant NLR gene confers broad-spectrum resistance to Phytophthora sojae in soybean.

Author

Wang W, Chen L, Fengler K, Bolar J, Llaca V, Wang X, Clark CB, Fleury TJ, Myrvold J, Oneal D, van Dyk MM, Hudson A, Munkvold J, Baumgarten A, Thompson J, Cai G, Crasta O, Aggarwal R, and Ma J

Subjects
Chromosome Mapping methods, DNA Copy Number Variations, Disease Resistance, NLR Proteins genetics, Phytophthora isolation & purification, Plant Diseases genetics, Plant Diseases parasitology, Glycine max metabolism, Genes, Plant, NLR Proteins metabolism, Phytophthora pathogenicity, Plant Diseases immunology, Glycine max growth & development, Glycine max immunology
Abstract

Phytophthora root and stem rot caused by P. sojae is a destructive soybean soil-borne disease found worldwide. Discovery of genes conferring broad-spectrum resistance to the pathogen is a need to prevent the outbreak of the disease. Here, we show that soybean Rps11 is a 27.7-kb nucleotide-binding site-leucine-rich repeat (NBS-LRR or NLR) gene conferring broad-spectrum resistance to the pathogen. Rps11 is located in a genomic region harboring a cluster of large NLR genes of a single origin in soybean, and is derived from rounds of unequal recombination. Such events result in promoter fusion and LRR expansion that may contribute to the broad resistance spectrum. The NLR gene cluster exhibits drastic structural diversification among phylogenetically representative varieties, including gene copy number variation ranging from five to 23 copies, and absence of allelic copies of Rps11 in any of the non-Rps11-donor varieties examined, exemplifying innovative evolution of NLR genes and NLR gene clusters., (© 2021. The Author(s).)

Published
2021
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24. Identification and molecular mapping of Rps11, a novel gene conferring resistance to Phytophthora sojae in soybean.

Author

Ping J, Fitzgerald JC, Zhang C, Lin F, Bai Y, Wang D, Aggarwal R, Rehman M, Crasta O, and Ma J

Subjects
Chromosome Mapping, DNA, Plant genetics, Genes, Dominant, Genes, Plant, Genotyping Techniques, Inheritance Patterns, Microsatellite Repeats, Plant Diseases microbiology, Polymorphism, Single Nucleotide, Glycine max microbiology, Disease Resistance genetics, Phytophthora, Plant Diseases genetics, Plant Proteins genetics, Glycine max genetics
Abstract

Key Message: Rps11 confers excellent resistance to predominant Phytophthora sojae isolates capable of defeating major Rps genes deployed into soybean production, representing a novel source of resistance for soybean cultivar enhancement., Abstract: Phytophthora root and stem rot (PRSR), caused by the soil-borne pathogen Phytophthora sojae, is a devastating disease of soybean [Glycine max (L.) Merr.] throughout the world. Deploying resistant soybean cultivars is the most effective and environmentally friendly approach to managing this disease. The soybean landrace PI 594527 was found to carry excellent resistance to all P. sojae isolates examined, some of which were capable of overcoming the major Rps genesp, such as Rps1-k, Rps1-c, and Rps3-a, predominantly used for soybean protection in the past decades. A mapping population consisting of 58 F2 individuals and 209 F2:3 families derived from a cross between PI 594527 and the susceptible cultivar 'Williams' was used to characterize the inheritance pattern of the resistance to P. soja (Rps) in PI 594527. It was found that the resistance was conferred by a single Rps gene, designated Rps11, which was initially defined as an ~5 Mb genomic region at the beginning of chromosome 7 by bulked segregant analysis (BSA) with a nucleotide polymorphism (SNP) chip comprising 7039 SNP markers. Subsequently, simple sequence repeat (SSR) markers in the defined region were used to genotype the F2:3 mapping population to map Rps11 to a 225.3 kb genomic region flanked by SSR markers BARCSOYSSR_07_0286 and BARCSOYSSR_07_0300, according to the soybean reference genome sequence. Particularly, an SSR marker (i.e., BARCSOYSSR_07_0295) was found to tightly co-segregate with Rps11 in the mapping population and can be effectively used for marker-assisted selection of this gene for development of resistant soybean cultivars.

Published
2016
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25. A Sorghum bicolor expression atlas reveals dynamic genotype-specific expression profiles for vegetative tissues of grain, sweet and bioenergy sorghums.

Author

Shakoor N, Nair R, Crasta O, Morris G, Feltus A, and Kresovich S

Subjects
Gene Expression Regulation, Plant, Genome, Plant genetics, Genotype, Oligonucleotide Array Sequence Analysis, Transcriptome genetics, Sorghum genetics, Sorghum metabolism
Abstract

Background: Effective improvement in sorghum crop development necessitates a genomics-based approach to identify functional genes and QTLs. Sequenced in 2009, a comprehensive annotation of the sorghum genome and the development of functional genomics resources is key to enable the discovery and deployment of regulatory and metabolic genes and gene networks for crop improvement., Results: This study utilizes the first commercially available whole-transcriptome sorghum microarray (Sorgh-WTa520972F) to identify tissue and genotype-specific expression patterns for all identified Sorghum bicolor exons and UTRs. The genechip contains 1,026,373 probes covering 149,182 exons (27,577 genes) across the Sorghum bicolor nuclear, chloroplast, and mitochondrial genomes. Specific probesets were also included for putative non-coding RNAs that may play a role in gene regulation (e.g., microRNAs), and confirmed functional small RNAs in related species (maize and sugarcane) were also included in our array design. We generated expression data for 78 samples with a combination of four different tissue types (shoot, root, leaf and stem), two dissected stem tissues (pith and rind) and six diverse genotypes, which included 6 public sorghum lines (R159, Atlas, Fremont, PI152611, AR2400 and PI455230) representing grain, sweet, forage, and high biomass ideotypes., Conclusions: Here we present a summary of the microarray dataset, including analysis of tissue-specific gene expression profiles and associated expression profiles of relevant metabolic pathways. With an aim to enable identification and functional characterization of genes in sorghum, this expression atlas presents a new and valuable resource to the research community.

Published
2014
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26. Transcriptome analysis of human peripheral blood mononuclear cells exposed to Lassa virus and to the attenuated Mopeia/Lassa reassortant 29 (ML29), a vaccine candidate.

Author

Zapata JC, Carrion R Jr, Patterson JL, Crasta O, Zhang Y, Mani S, Jett M, Poonia B, Djavani M, White DM, Lukashevich IS, and Salvato MS

Subjects
Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Humans, Microarray Analysis, Reverse Transcriptase Polymerase Chain Reaction, Viral Vaccines immunology, Gene Expression Profiling, Lassa virus growth & development, Lassa virus immunology, Leukocytes, Mononuclear immunology, Leukocytes, Mononuclear virology, Reassortant Viruses growth & development, Reassortant Viruses immunology
Abstract

Lassa virus (LASV) is the causative agent of Lassa Fever and is responsible for several hundred thousand infections and thousands of deaths annually in West Africa. LASV and the non-pathogenic Mopeia virus (MOPV) are both rodent-borne African arenaviruses. A live attenuated reassortant of MOPV and LASV, designated ML29, protects rodents and primates from LASV challenge and appears to be more attenuated than MOPV. To gain better insight into LASV-induced pathology and mechanism of attenuation we performed gene expression profiling in human peripheral blood mononuclear cells (PBMC) exposed to LASV and the vaccine candidate ML29. PBMC from healthy human subjects were exposed to either LASV or ML29. Although most PBMC are non-permissive for virus replication, they remain susceptible to signal transduction by virus particles. Total RNA was extracted and global gene expression was evaluated during the first 24 hours using high-density microarrays. Results were validated using RT-PCR, flow cytometry and ELISA. LASV and ML29 elicited differential expression of interferon-stimulated genes (ISG), as well as genes involved in apoptosis, NF-kB signaling and the coagulation pathways. These genes could eventually serve as biomarkers to predict disease outcomes. The remarkable differential expression of thrombomodulin, a key regulator of inflammation and coagulation, suggests its involvement with vascular abnormalities and mortality in Lassa fever disease.

Published
2013
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27. An attenuated Lassa vaccine in SIV-infected rhesus macaques does not persist or cause arenavirus disease but does elicit Lassa virus-specific immunity.

Author

Zapata JC, Poonia B, Bryant J, Davis H, Ateh E, George L, Crasta O, Zhang Y, Slezak T, Jaing C, Pauza CD, Goicochea M, Moshkoff D, Lukashevich IS, and Salvato MS

Subjects
Animals, Antibodies, Viral immunology, Coinfection prevention & control, Coinfection virology, HIV Infections complications, HIV Infections virology, Humans, Lassa Fever complications, Lassa Fever immunology, Lassa Fever virology, Macaca mulatta, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated immunology, Viral Vaccines administration & dosage, Coinfection immunology, HIV Infections immunology, Lassa Fever prevention & control, Lassa virus immunology, Viral Vaccines immunology
Abstract

Background: Lassa hemorrhagic fever (LHF) is a rodent-borne viral disease that can be fatal for human beings. In this study, an attenuated Lassa vaccine candidate, ML29, was tested in SIV-infected rhesus macaques for its ability to elicit immune responses without instigating signs pathognomonic for arenavirus disease. ML29 is a reassortant between Lassa and Mopeia viruses that causes a transient infection in non-human primates and confers sterilizing protection from lethal Lassa viral challenge. However, since the LHF endemic area of West Africa also has high HIV seroprevalence, it is important to determine whether vaccination could be safe in the context of HIV infection., Results: SIV-infected and uninfected rhesus macaques were vaccinated with the ML29 virus and monitored for specific humoral and cellular immune responses, as well as for classical and non-classical signs of arenavirus disease. Classical disease signs included viremia, rash, respiratory distress, malaise, high liver enzyme levels, and virus invasion of the central nervous system. Non-classical signs, derived from profiling the blood transcriptome of virulent and non-virulent arenavirus infections, included increased expression of interferon-stimulated genes (ISG) and decreased expression of COX2, IL-1β, coagulation intermediates and nuclear receptors needed for stress signaling. All vaccinated monkeys showed ML29-specific antibody responses and ML29-specific cell-mediated immunity., Conclusion: SIV-infected and uninfected rhesus macaques responded similarly to ML29 vaccination, and none developed chronic arenavirus infection. Importantly, none of the macaques developed signs, classical or non-classical, of arenavirus disease.

Published
2013
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28. Identification of a common lupus disease-associated microRNA expression pattern in three different murine models of lupus.

Author

Dai R, Zhang Y, Khan D, Heid B, Caudell D, Crasta O, and Ahmed SA

Subjects
Animals, Autoimmune Diseases genetics, B-Lymphocytes immunology, Disease Models, Animal, Female, Mice, Mice, Transgenic, Oligonucleotide Array Sequence Analysis, Spleen metabolism, T-Lymphocytes immunology, Gene Expression Profiling, Gene Expression Regulation, Lupus Erythematosus, Systemic genetics, MicroRNAs genetics
Abstract

Background: Recent reports have shown that microRNAs (miRNAs) regulate vital immunological processes and have emerged as key regulators of immune system development and function. Therefore, it is important to determine miRNA dysregulation and its pathogenic contribution in autoimmune diseases, an aspect not adequately addressed thus far., Methodology/principal Findings: In this study, we profiled miRNA expressions in splenic lymphocytes from three murine lupus models (MRL-lpr, B6-lpr and NZB/W(F₁)) with different genetic background by miRNA microarray assays and Real-time RT-PCR. Despite the genetic differences among these three lupus stains, a common set of dysregulated miRNAs (miR-182-96-183 cluster, miR-31, and miR-155) was identified in splenocytes when compared with age-matched control mice. The association of these miRNAs with the disease was highlighted by our observation that this miRNA expression pattern was evident in NZB/W mice only at an age when lupus disease is manifested. Further, we have shown that the miRNA dysregulation in MRL-lpr mice was not simply due to the activation of splenocytes. By Real-time RT-PCR, we confirmed that these miRNAs were upregulated in both purified splenic B and T cells from MRL-lpr mice. miR-127 and miR-379, which were greatly upregulated in splenocytes from lpr mice, were moderately increased in diseased NZB/W mice. In addition, Real-time RT-PCR revealed that miR-146a, miR-101a, and miR-17-92 were also markedly upregulated in splenic T, but not B cells from MRL-lpr mice., Conclusions/significance: The identification of common lupus disease-associated miRNAs now forms the basis for the further investigation of the pathogenic contribution of these miRNAs in autoimmune lupus, which will advance our knowledge of the role of miRNAs in autoimmunity. Given that miRNAs are conserved, with regard to both evolution and function, our observation of a common lupus disease-associated miRNA expression pattern in murine lupus models is likely to have significant pathogenic, diagnostic, and/or therapeutic implications in human lupus.

Published
2010
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29. Multi-platform next-generation sequencing of the domestic turkey (Meleagris gallopavo): genome assembly and analysis.

Author

Dalloul RA, Long JA, Zimin AV, Aslam L, Beal K, Blomberg Le Ann, Bouffard P, Burt DW, Crasta O, Crooijmans RP, Cooper K, Coulombe RA, De S, Delany ME, Dodgson JB, Dong JJ, Evans C, Frederickson KM, Flicek P, Florea L, Folkerts O, Groenen MA, Harkins TT, Herrero J, Hoffmann S, Megens HJ, Jiang A, de Jong P, Kaiser P, Kim H, Kim KW, Kim S, Langenberger D, Lee MK, Lee T, Mane S, Marcais G, Marz M, McElroy AP, Modise T, Nefedov M, Notredame C, Paton IR, Payne WS, Pertea G, Prickett D, Puiu D, Qioa D, Raineri E, Ruffier M, Salzberg SL, Schatz MC, Scheuring C, Schmidt CJ, Schroeder S, Searle SM, Smith EJ, Smith J, Sonstegard TS, Stadler PF, Tafer H, Tu ZJ, Van Tassell CP, Vilella AJ, Williams KP, Yorke JA, Zhang L, Zhang HB, Zhang X, Zhang Y, and Reed KM

Subjects
Animals, Base Sequence, Chromosome Mapping, DNA genetics, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Species Specificity, Genome, Turkeys genetics
Abstract

A synergistic combination of two next-generation sequencing platforms with a detailed comparative BAC physical contig map provided a cost-effective assembly of the genome sequence of the domestic turkey (Meleagris gallopavo). Heterozygosity of the sequenced source genome allowed discovery of more than 600,000 high quality single nucleotide variants. Despite this heterozygosity, the current genome assembly (∼1.1 Gb) includes 917 Mb of sequence assigned to specific turkey chromosomes. Annotation identified nearly 16,000 genes, with 15,093 recognized as protein coding and 611 as non-coding RNA genes. Comparative analysis of the turkey, chicken, and zebra finch genomes, and comparing avian to mammalian species, supports the characteristic stability of avian genomes and identifies genes unique to the avian lineage. Clear differences are seen in number and variety of genes of the avian immune system where expansions and novel genes are less frequent than examples of gene loss. The turkey genome sequence provides resources to further understand the evolution of vertebrate genomes and genetic variation underlying economically important quantitative traits in poultry. This integrated approach may be a model for providing both gene and chromosome level assemblies of other species with agricultural, ecological, and evolutionary interest., Competing Interests: The authors have declared that no competing interests exist.

Published
2010
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30. Suppression of LPS-induced Interferon-gamma and nitric oxide in splenic lymphocytes by select estrogen-regulated microRNAs: a novel mechanism of immune modulation.

Author

Dai R, Phillips RA, Zhang Y, Khan D, Crasta O, and Ahmed SA

Subjects
Animals, Cells, Cultured, Down-Regulation drug effects, Down-Regulation genetics, Down-Regulation immunology, Gene Expression Profiling, Lymphocytes drug effects, Male, Mice, Mice, Inbred C57BL, Nitric Oxide metabolism, Oligonucleotide Array Sequence Analysis, Signal Transduction genetics, Signal Transduction immunology, Spleen drug effects, Spleen immunology, Transfection, Estrogens pharmacology, Immunity, Cellular genetics, Interferon-gamma metabolism, Lipopolysaccharides pharmacology, Lymphocytes metabolism, MicroRNAs genetics, Spleen metabolism
Abstract

MicroRNAs (miRNAs), recently identified noncoding small RNAs, are emerging as key regulators in homeostasis of the immune system. Therefore, aberrant expression of miRNAs may be linked to immune dysfunction, such as in chronic inflammation and autoimmunity. In this study, we investigated the potential role of miRNAs in estrogen-mediated regulation of innate immune responses, as indicated by up-regulation of lipopolysaccharide (LPS)-induced interferon-gamma (IFNgamma), inducible nitric oxide synthase (iNOS), and nitric oxide in splenic lymphocytes from estrogen-treated mice. We found that miR-146a, a negative regulator of Toll-like receptor (TLR) signaling, was decreased in freshly isolated splenic lymphocytes from estrogen-treated mice compared with placebo controls. Increasing the activity of miR-146a significantly inhibited LPS-induced IFNgamma and iNOS expression in mouse splenic lymphocytes. Further, miRNA microarray and real-time reverse transcriptase-polymerase chain reaction (RT-PCR) analysis revealed that estrogen selectively up-regulates/down-regulates the expression of miRNAs in mouse splenic lymphocytes. miR-223, which is markedly enhanced by estrogen, regulates LPS-induced IFNgamma, but not iNOS or nitric oxide in splenic lymphocytes. Inhibition of miR-223 activity decreased LPS-induced IFNgamma in splenic lymphocytes from estrogen-treated mice. Our data are the first to demonstrate the selective regulation of miRNA expression in immune cells by estrogen and are indicative of an important role of miRNAs in estrogen-mediated immune regulation.

Published
2008
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31. Characterization of an Entamoeba histolytica high-mobility-group box protein induced during intestinal infection.

Author

Abhyankar MM, Hochreiter AE, Hershey J, Evans C, Zhang Y, Crasta O, Sobral BW, Mann BJ, Petri WA Jr, and Gilchrist CA

Subjects
Amino Acid Sequence, Animals, Cell Nucleus chemistry, Cell Nucleus genetics, Cell Nucleus metabolism, Dysentery, Amebic metabolism, Entamoeba histolytica chemistry, Entamoeba histolytica genetics, Entamoeba histolytica pathogenicity, Gene Expression Profiling, HMGB Proteins chemistry, HMGB Proteins genetics, HeLa Cells, Humans, Intestinal Mucosa metabolism, Molecular Sequence Data, Oligonucleotide Array Sequence Analysis, Protein Binding, Protein Transport, Protozoan Proteins chemistry, Protozoan Proteins genetics, Sequence Alignment, Transcription, Genetic, Tumor Suppressor Protein p53 metabolism, Dysentery, Amebic parasitology, Entamoeba histolytica metabolism, Gene Expression Regulation, HMGB Proteins metabolism, Intestines parasitology, Protozoan Proteins metabolism
Abstract

The unicellular eukaryote Entamoeba histolytica is a human parasite that causes amebic dysentery and liver abscess. A genome-wide analysis of gene expression modulated by intestinal colonization and invasion identified an upregulated transcript that encoded a putative high-mobility-group box (HMGB) protein, EhHMGB1. We tested if EhHMGB1 encoded a functional HMGB protein and determined its role in control of parasite gene expression. Recombinant EhHMGB1 was able to bend DNA in vitro, a characteristic of HMGB proteins. Core conserved residues required for DNA bending activity in other HMGB proteins were demonstrated by mutational analysis to be essential for EhHMGB1 activity. EhHMGB1 was also able to enhance the binding of human p53 to its cognate DNA sequence in vitro, which is expected for an HMGB1 protein. Confocal microscopy, using antibodies against the recombinant protein, confirmed its nuclear localization. Overexpression of EhHMGB1 in HM1:IMSS trophozoites led to modulation of 33 transcripts involved in a variety of cellular functions. Of these, 20 were also modulated at either day 1 or day 29 in the mouse model of intestinal amebiasis. Notably, four transcripts with known roles in virulence, including two encoding Gal/GalNAc lectin light chains, were modulated in response to EhHMGB1 overexpression. We concluded that EhHMGB1 was a bona fide HMGB protein with the capacity to recapitulate part of the modulation of parasite gene expression seen during adaptation to the host intestine.

Published
2008
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32. Targeted development of registries of biological parts.

Author

Peccoud J, Blauvelt MF, Cai Y, Cooper KL, Crasta O, DeLalla EC, Evans C, Folkerts O, Lyons BM, Mane SP, Shelton R, Sweede MA, and Waldon SA

Subjects
Biology, DNA chemistry, Databases, Genetic, Gene Library, Genetic Techniques, Genetic Vectors, Information Systems, Models, Biological, Plasmids metabolism, Polymerase Chain Reaction methods, Temperature, Computational Biology methods, Systems Biology
Abstract

Background: The design and construction of novel biological systems by combining basic building blocks represents a dominant paradigm in synthetic biology. Creating and maintaining a database of these building blocks is a way to streamline the fabrication of complex constructs. The Registry of Standard Biological Parts (Registry) is the most advanced implementation of this idea., Methods/principal Findings: By analyzing inclusion relationships between the sequences of the Registry entries, we build a network that can be related to the Registry abstraction hierarchy. The distribution of entry reuse and complexity was extracted from this network. The collection of clones associated with the database entries was also analyzed. The plasmid inserts were amplified and sequenced. The sequences of 162 inserts could be confirmed experimentally but unexpected discrepancies have also been identified., Conclusions/significance: Organizational guidelines are proposed to help design and manage this new type of scientific resources. In particular, it appears necessary to compare the cost of ensuring the integrity of database entries and associated biological samples with their value to the users. The initial strategy that permits including any combination of parts irrespective of its potential value leads to an exponential and economically unsustainable growth that may be detrimental to the quality and long-term value of the resource to its users.

Published
2008
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33. Rickettsia phylogenomics: unwinding the intricacies of obligate intracellular life.

Author

Gillespie JJ, Williams K, Shukla M, Snyder EE, Nordberg EK, Ceraul SM, Dharmanolla C, Rainey D, Soneja J, Shallom JM, Vishnubhat ND, Wattam R, Purkayastha A, Czar M, Crasta O, Setubal JC, Azad AF, and Sobral BS

Subjects
Animals, Computational Biology methods, Genes, Bacterial, Open Reading Frames, Phylogeny, Plasmids metabolism, Ticks genetics, Genome, Bacterial, Genomics methods, Rickettsia metabolism, Rickettsia physiology
Abstract

Background: Completed genome sequences are rapidly increasing for Rickettsia, obligate intracellular alpha-proteobacteria responsible for various human diseases, including epidemic typhus and Rocky Mountain spotted fever. In light of phylogeny, the establishment of orthologous groups (OGs) of open reading frames (ORFs) will distinguish the core rickettsial genes and other group specific genes (class 1 OGs or C1OGs) from those distributed indiscriminately throughout the rickettsial tree (class 2 OG or C2OGs)., Methodology/principal Findings: We present 1823 representative (no gene duplications) and 259 non-representative (at least one gene duplication) rickettsial OGs. While the highly reductive (approximately 1.2 MB) Rickettsia genomes range in predicted ORFs from 872 to 1512, a core of 752 OGs was identified, depicting the essential Rickettsia genes. Unsurprisingly, this core lacks many metabolic genes, reflecting the dependence on host resources for growth and survival. Additionally, we bolster our recent reclassification of Rickettsia by identifying OGs that define the AG (ancestral group), TG (typhus group), TRG (transitional group), and SFG (spotted fever group) rickettsiae. OGs for insect-associated species, tick-associated species and species that harbor plasmids were also predicted. Through superimposition of all OGs over robust phylogeny estimation, we discern between C1OGs and C2OGs, the latter depicting genes either decaying from the conserved C1OGs or acquired laterally. Finally, scrutiny of non-representative OGs revealed high levels of split genes versus gene duplications, with both phenomena confounding gene orthology assignment. Interestingly, non-representative OGs, as well as OGs comprised of several gene families typically involved in microbial pathogenicity and/or the acquisition of virulence factors, fall predominantly within C2OG distributions., Conclusion/significance: Collectively, we determined the relative conservation and distribution of 14354 predicted ORFs from 10 rickettsial genomes across robust phylogeny estimation. The data, available at PATRIC (PathoSystems Resource Integration Center), provide novel information for unwinding the intricacies associated with Rickettsia pathogenesis, expanding the range of potential diagnostic, vaccine and therapeutic targets.

Published
2008
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34. Targets of the Entamoeba histolytica transcription factor URE3-BP.

Author

Gilchrist CA, Baba DJ, Zhang Y, Crasta O, Evans C, Caler E, Sobral BW, Bousquet CB, Leo M, Hochreiter A, Connell SK, Mann BJ, and Petri WA

Subjects
Animals, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Electrophoretic Mobility Shift Assay, Entamoeba histolytica genetics, Oligonucleotide Array Sequence Analysis, Promoter Regions, Genetic, Protein Binding, Regulatory Sequences, Nucleic Acid genetics, Reverse Transcriptase Polymerase Chain Reaction, Two-Hybrid System Techniques, DNA-Binding Proteins physiology, Entamoeba histolytica metabolism
Abstract

The Entamoeba histolytica transcription factor Upstream Regulatory Element 3-Binding Protein (URE3-BP) is a calcium-responsive regulator of two E. histolytica virulence genes, hgl5 and fdx1. URE3-BP was previously identified by a yeast one-hybrid screen of E. histolytica proteins capable of binding to the sequence TATTCTATT (Upstream Regulatory Element 3 (URE3)) in the promoter regions of hgl5 and fdx1. In this work, precise definition of the consensus URE3 element was performed by electrophoretic mobility shift assays (EMSA) using base-substituted oligonucleotides, and the consensus motif validated using episomal reporter constructs. Transcriptome profiling of a strain induced to produce a dominant-positive URE3-BP was then used to identify additional genes regulated by URE3-BP. Fifty modulated transcripts were identified, and of these the EMSA defined motif T[atg]T[tc][cg]T[at][tgc][tg] was found in over half of the promoters (54% p<0.0001). Fifteen of the URE3-BP regulated genes were potential membrane proteins, suggesting that one function of URE3-BP is to remodel the surface of E. histolytica in response to a calcium signal. Induction of URE3-BP leads to an increase in tranwell migration, suggesting a possible role in the regulation of cellular motility.

Published
2008
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35. Gene expression profiling of nonhuman primates exposed to aerosolized Venezuelan equine encephalitis virus.

Author

Koterski J, Twenhafel N, Porter A, Reed DS, Martino-Catt S, Sobral B, Crasta O, Downey T, and DaSilva L

Subjects
Aerosols, Animals, Brain immunology, Brain virology, Caspases biosynthesis, GTP-Binding Proteins biosynthesis, Histocompatibility Antigens Class I biosynthesis, Interferon Regulatory Factor-7 biosynthesis, Lung immunology, Lung virology, Macaca fascicularis, Myelin Proteins, Myelin-Associated Glycoprotein biosynthesis, Myelin-Oligodendrocyte Glycoprotein, Myxovirus Resistance Proteins, Nerve Growth Factors biosynthesis, S100 Calcium Binding Protein beta Subunit, S100 Proteins biosynthesis, STAT1 Transcription Factor biosynthesis, Spleen immunology, Spleen virology, Encephalitis Virus, Venezuelan Equine immunology, Encephalomyelitis, Venezuelan Equine genetics, Encephalomyelitis, Venezuelan Equine immunology, Gene Expression Profiling, Gene Expression Regulation, Oligonucleotide Array Sequence Analysis
Abstract

Host responses to Venezuelan equine encephalitis viruses (VEEV) were studied in cynomolgus macaques after aerosol exposure to the epizootic virus. Changes in global gene expression were assessed for the brain, lungs, and spleen. In the brain, major histocompatibility complex (MHC) class I transcripts were induced, while the expression of S100b, a factor associated with brain injury, was inhibited, as was expression of the encephalitogenic gene MOG. Cytokine-mediated signals were affected by infection, including those involving IFN-mediated antiviral activity (IRF-7, OAS, and Mx transcripts), and the increased transcription of caspases. Induction of a few immunologically relevant genes (e.g. IFITM1 and STAT1) was common to all tested tissues. Herein, both tissue-specific and nontissue specific transcriptional changes in response to VEEV are described, including induction of IFN-regulated transcripts and cytokine-induced apoptotic factors, in addition to cellular factors in the brain that may be descriptive of the health status of the brain during the infectious process. Altogether, this work provides novel information on common and tissue-specific host responses against VEEV in a nonhuman primate model of aerosol exposure.

Published
2007
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36. Genome-wide transcript analysis of maize hybrids: allelic additive gene expression and yield heterosis.

Author

Guo M, Rupe MA, Yang X, Crasta O, Zinselmeier C, Smith OS, and Bowen B

Subjects
DNA, Plant genetics, DNA, Plant metabolism, Gene Expression Regulation, Plant, Genomic Imprinting, Transcription, Genetic, Zea mays metabolism, Alleles, Chimera, Gene Expression Profiling, Genome, Plant, Hybrid Vigor, Zea mays genetics
Abstract

Heterosis, or hybrid vigor, has been widely exploited in plant breeding for many decades, but the molecular mechanisms underlying the phenomenon remain unknown. In this study, we applied genome-wide transcript profiling to gain a global picture of the ways in which a large proportion of genes are expressed in the immature ear tissues of a series of 16 maize hybrids that vary in their degree of heterosis. Key observations include: (1) the proportion of allelic additively expressed genes is positively associated with hybrid yield and heterosis; (2) the proportion of genes that exhibit a bias towards the expression level of the paternal parent is negatively correlated with hybrid yield and heterosis; and (3) there is no correlation between the over- or under-expression of specific genes in maize hybrids with either yield or heterosis. The relationship of the expression patterns with hybrid performance is substantiated by analysis of a genetically improved modern hybrid (Pioneer hybrid 3394) versus a less improved older hybrid (Pioneer hybrid 3306) grown at different levels of plant density stress. The proportion of allelic additively expressed genes is positively associated with the modern high yielding hybrid, heterosis and high yielding environments, whereas the converse is true for the paternally biased gene expression. The dynamic changes of gene expression in hybrids responding to genotype and environment may result from differential regulation of the two parental alleles. Our findings suggest that differential allele regulation may play an important role in hybrid yield or heterosis, and provide a new insight to the molecular understanding of the underlying mechanisms of heterosis.

Published
2006
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37. Impact of intestinal colonization and invasion on the Entamoeba histolytica transcriptome.

Author

Gilchrist CA, Houpt E, Trapaidze N, Fei Z, Crasta O, Asgharpour A, Evans C, Martino-Catt S, Baba DJ, Stroup S, Hamano S, Ehrenkaufer G, Okada M, Singh U, Nozaki T, Mann BJ, and Petri WA Jr

Subjects
Animals, Entamoeba histolytica growth & development, Gene Expression Regulation, Mice, Mice, Inbred CBA, Proteome, Protozoan Proteins genetics, Transcription, Genetic, Virulence, Colon parasitology, Dysentery, Amebic parasitology, Entamoeba histolytica pathogenicity, Gene Expression Profiling, Oligonucleotide Array Sequence Analysis methods, Protozoan Proteins metabolism
Abstract

A genome-wide transcriptional analysis of Entamoeba histolytica was performed on trophozoites isolated from the colon of six infected mice and from in vitro culture. An Affymetrix platform gene expression array was designed for this analysis that included probe sets for 9435 open reading frames (ORFs) and 9066 5' and 3' flanking regions. Transcripts were detected for > 80% of all ORFs. A total of 523 transcripts (5.2% of all E. histolytica genes) were significantly changed in amebae isolated from the intestine on Days 1 and 29 after infection: 326 and 109 solely on Days 1 and 29, and 88 on both days. Quantitative real-time reverse transcriptase PCR confirmed these changes in 11/12 genes tested using mRNA isolated from an additional six mice. Adaptation to the intestinal environment was accompanied by increases in a subset of cell signaling genes including transmembrane kinases, ras and rho family GTPases, and calcium binding proteins. Significant decreases in mRNA abundance for genes involved in glycolysis and concomitant increases in lipases were consistent with a change in energy metabolism. Defense against bacteria present in the intestine (but lacking from in vitro culture) was suggested by alterations in mRNA levels of genes similar to the AIG1 plant antibacterial proteins. Decreases in oxygen detoxification pathways were observed as expected in the anaerobic colonic lumen. Of the known virulence factors the most remarkable changes were a 20-35-fold increase in a cysteine proteinase four-like gene, and a 2-3-fold decrease in two members of the Gal/GalNAc lectin light subunit family. Control of the observed changes in mRNA abundance in the intestine might potentially rest with four related proteins with DNA binding domains that were down-regulated 6-16-fold in the intestinal environment. In conclusion, the first genome-wide analysis of the transcriptome of E. histolytica demonstrated that the vast majority of genes are transcribed in trophozoites, and that in the host intestine trophozoites altered the expression of mRNAs for genes implicated in metabolism, oxygen defense, cell signaling, virulence, antibacterial activity, and DNA binding.

Published
2006
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38. Overexpression of a gene encoding hydrogen peroxide-generating oxalate oxidase evokes defense responses in sunflower.

Author

Hu X, Bidney DL, Yalpani N, Duvick JP, Crasta O, Folkerts O, and Lu G

Subjects
Ascomycota growth & development, Cyclopentanes pharmacology, Defensins genetics, Defensins metabolism, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Plant drug effects, Helianthus metabolism, Helianthus microbiology, Hydrogen Peroxide pharmacology, Immunity, Innate genetics, Oxalic Acid metabolism, Oxidoreductases metabolism, Oxylipins, Plant Diseases genetics, Plant Diseases microbiology, Plant Leaves genetics, Plant Leaves metabolism, Plant Leaves microbiology, Plants, Genetically Modified, RNA, Messenger drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Salicylic Acid pharmacology, Transcriptional Activation, Triticum enzymology, Triticum genetics, Helianthus genetics, Hydrogen Peroxide metabolism, Oxidoreductases genetics
Abstract

Oxalate oxidase (OXO) converts oxalic acid (OA) and O(2) to CO(2) and hydrogen peroxide (H(2)O(2)), and acts as a source of H(2)O(2) in certain plant-pathogen interactions. To determine if the H(2)O(2) produced by OXO can function as a messenger for activation of defense genes and if OXO can confer resistance against an OA-producing pathogen, we analyzed transgenic sunflower (Helianthus annuus cv SMF3) plants constitutively expressing a wheat (Triticum aestivum) OXO gene. The transgenic leaf tissues could degrade exogenous OA and generate H(2)O(2). Hypersensitive response-like lesion mimicry was observed in the transgenic leaves expressing a high level of OXO, and lesion development was closely associated with elevated levels of H(2)O(2), salicylic acid, and defense gene expression. Activation of defense genes was also observed in the transgenic leaves that had a low level of OXO expression and had no visible lesions, indicating that defense gene activation may not be dependent on hypersensitive response-like cell death. To further understand the pathways that were associated with defense activation, we used GeneCalling, an RNA-profiling technology, to analyze the alteration of gene expression in the transgenic plants. Among the differentially expressed genes, full-length cDNAs encoding homologs of a PR5, a sunflower carbohydrate oxidase, and a defensin were isolated. RNA-blot analysis confirmed that expression of these three genes was significantly induced in the OXO transgenic sunflower leaves. Furthermore, treatment of untransformed sunflower leaves with jasmonic acid, salicylic acid, or H(2)O(2) increased the steady-state levels of these mRNAs. Notably, the transgenic sunflower plants exhibited enhanced resistance against the OA-generating fungus Sclerotinia sclerotiorum.

Published
2003
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39. Maize rhm1 resistance to Bipolaris maydis is associated with few differences in pathogenesis-related proteins and global mRNA profiles.

Author

Simmons CR, Grant S, Altier DJ, Dowd PF, Crasta O, Folkerts O, and Yalpani N

Subjects
Gene Expression Profiling, Genes, Plant, Hydroxamic Acids metabolism, RNA, Messenger isolation & purification, RNA, Plant isolation & purification, Zea mays genetics, beta-Glucosidase genetics, Ascomycota, Plant Diseases genetics, Plant Proteins genetics, Zea mays microbiology
Abstract

The maize rhm1 mutant resists Bipolaris maydis, the causal agent of Southern corn leaf blight, by producing small necrotic lesions surrounded by chlorotic haloes. The rhm1 and wild-type lesions contain viable fungus in equal frequency, but fungal sporulation was markedly inhibited on rhm1. The levels of the pathogenesis-related (PR) proteins chitinase, PR1, and peroxidase differ little between rhm1 and wild type, with or without B. maydis inoculation. The global mRNA profiles surveyed revealed hundreds of cDNA fragments that were twofold or more induced or suppressed in rhm1 and wild-type plants following B. maydis inoculation. Nonetheless, between rhm1 and wild type, only 0.4 to 0.7% of the cDNA fragments were expressed differentially by twofold or more. Among the up-regulated genes in rhm1 was beta-glucosidase glu1, which prompted a test of whether rhm1 resistance depends upon the antimicrobial compound 2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one or other hydroxamic acids whose glucosyl conjugates are preferred substrates for the Glu1 enzyme. Double mutants of rhm1 and bx1, a hydroxamic acid-deficient mutant, indicate that rhm1 resistance is hydroxamic acid independent. The rhm1 resistance presently appears to operate via a mechanism unlike those of previously described resistance genes.

Published
2001
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40. Molecular mapping of QTLs conferring stay-green in grain sorghum (Sorghum bicolor L. Moench).

Author

Xu W, Subudhi PK, Crasta OR, Rosenow DT, Mullet JE, and Nguyen HT

Subjects
Adaptation, Physiological, Chlorophyll physiology, Disasters, Edible Grain physiology, Photosynthesis, Plant Leaves physiology, Chlorophyll genetics, Chromosome Mapping, Edible Grain genetics, Quantitative Trait, Heritable
Abstract

Drought resistance is of enormous importance in crop production. The identification of genetic factors involved in plant response to drought stress provides a strong foundation for improving drought tolerance. Stay-green is a drought resistance trait in sorghum (Sorghum bicolor L. Moench) that gives plants resistance to premature senescence under severe soil moisture stress during the post-flowering stage. The objective of this study was to map quantitative trait loci (QTLs) that control the stay-green and chlorophyll content in sorghum. By using a restriction fragment length polymorphism (RFLP) map, developed from a recombinant inbred line (RIL) population, we identified four stay-green QTLs, located on three linkage groups. The QTLs (Stg1 and Stg2) are on linkage group A, with the other two, Stg3 and Stg4, on linkage groups D and J, respectively. Two stay-green QTLs, Stg1 and Stg2, explaining 13-20% and 20-30% of the phenotypic variability, respectively, were consistently identified in all trials at different locations in two years. Three QTLs for chlorophyll content (Chl1, Chl2, and Chl3), explaining 25-30% of the phenotypic variability were also identified under post-flowering drought stress. All coincided with the three stay-green QTL regions (Stg1, Stg2, and Stg3) accounting for 46% of the phenotypic variation. The Stg1 and Stg2 regions also contain the genes for key photosynthetic enzymes, heat shock proteins, and an abscisic acid (ABA) responsive gene. Such spatial arrangement shows that linkage group A is important for drought- and heat-stress tolerance and yield production in sorghum. High-resolution mapping and cloning of the consistent stay-green QTLs may help to develop drought-resistant hybrids and to understand the mechanism of drought-induced senescence in plants.

Published
2000

41. Expression profiling of the maize flavonoid pathway genes controlled by estradiol-inducible transcription factors CRC and P.

Author

Bruce W, Folkerts O, Garnaat C, Crasta O, Roth B, and Bowen B

Subjects
Artificial Gene Fusion, Base Sequence, Cell Line, DNA, Complementary genetics, DNA, Plant genetics, Estradiol pharmacology, Gene Expression Regulation, Plant, RNA, Messenger genetics, RNA, Messenger metabolism, RNA, Plant genetics, RNA, Plant metabolism, Flavonoids genetics, Genes, Plant, Transcription Factors metabolism, Zea mays genetics, Zea mays metabolism
Abstract

To determine the scope of gene expression controlled by the maize transcription factors C1/R and P, which are responsible for activating flavonoid synthesis, we used GeneCalling, an open-ended, gel-based, mRNA-profiling technology, to analyze cell suspension lines of the maize inbred Black Mexican Sweet (BMS) that harbored estradiol-inducible versions of these factors. BMS cells were transformed with a continually expressed estrogen receptor/maize C1 activator domain fusion gene (ER-C1) and either a fusion of C1 and R (CRC), P, or luciferase genes regulated by a promoter containing four repeats of an estrogen receptor binding site. Increasing amounts of luciferase activity, anthocyanins, and flavan-4-ols were detected in the respective cell lines after the addition of estradiol. The expression of both known and novel genes was detected simultaneously in these BMS lines by profiling the mRNA isolated from replicate samples at 0, 6, and 24 hr after estradiol treatment. Numerous cDNA fragments were identified that showed a twofold or greater difference in abundance at 6 and 24 hr than at 0 hr. The cDNA fragments from the known flavonoid genes, except chalcone isomerase (chi1), were induced in the CRC-expressing line after hormone induction, whereas only the chalcone synthase (c2) and flavanone/dihydroflavonol reductase (a1) genes were induced in the P-expressing line, as was expected. Many novel cDNA fragments were also induced or repressed by lines expressing CRC alone, P alone, or both transcription factors in unique temporal patterns. The temporal differences and the evidence of repression indicate a more diverse set of regulatory controls by CRC or P than originally expected. GeneCalling analysis was successful in detecting members of complex metabolic pathways and uncovering novel genes that were either coincidentally regulated or directly involved in such pathways.

Published
2000
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42. Structural organization of an alien Thinopyrum intermedium group 7 chromosome in U.S. soft red winter wheat (Triticum aestivum L.).

Author

Francki MG, Crasta OR, Sharma HC, Ohm HW, and Anderson JM

Abstract

Barley yellow dwarf virus (BYDV) resistance in soft red winter wheat (SRWW) cultivars has been achieved by substituting a group 7 chromosome from Thinopyrum intermedium for chromosome 7D. To localize BYDV resistance, a detailed molecular genetic analysis was done on the alien group 7 Th. intermedium chromosome to determine its structural organization. Triticeae group 7 RFLP markers and rye specific repetitive sequences used in the analysis showed that the alien chromosome in the P29 substitution line has distinguishing features. The 350-480 bp rye telomeric sequence family was present on the long arm as determined by Southern and fluorescence in situ hybridization. However, further analysis using a rye dispersed repetitive sequence indicated that this alien chromosome does not contain introgressed segments from the rye genome. The alien chromosome is homoeologous to wheat chromosomes 7A and 7D as determined by RFLP analysis. Presence of the waxy gene on chromosomes 7A, 7B, and 7D but its absence on the alien chromosome in P29 suggests some internal structural differences on the short arm between Th. intermedium and wheat group 7 chromosomes. The identification of rye telomeric sequences on the alien Thinopyrum chromosome and the homoeology to wheat chromosomes 7A and 7D provide the necessary information and tools to analyze smaller segments of the Thinopyrum chromosome and to localize BYDV resistance in SRWW cultivars.

Published
1997
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