Your search keyword '"Borevitz, Justin O."' showing total 21 results

1. A methyl transferase links the circadian clock to the regulation of alternative splicing

Author

Sanchez, Sabrina E., Petrillo, Ezequiel, Beckwith, Esteban J., Zhang, Xu, Rugnone, Matias L., Hernando, C. Esteban, Cuevas, Juan C., Herz, Micaela A. Godoy, Depetris-Chauvin, Ana, Simpson, Craig G., Brown, John W.S., Cerdan, Pablo D., Borevitz, Justin O., Mas, Paloma, Ceriani, M. Fernanda, Kornblihtt, Alberto R., and Yanovsky, Marcelo J.

Subjects

RNA splicing -- Research -- Physiological aspects -- Genetic aspects, Arabidopsis thaliana -- Physiological aspects -- Genetic aspects -- Research, Circadian rhythms -- Genetic aspects -- Physiological aspects -- Research, Methyltransferases -- Physiological aspects -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Circadian rhythms allow organisms to time biological processes to the most appropriate phases of the day-night cycle (1). Posttranscriptional regulation is emerging as an important component of circadian networks (2-6), but the molecular mechanisms linking the circadian clock to the control of RNA processing are largely unknown. Here we show that PROTEIN ARGININE METHYL TRANSFERASE 5 (PRMT5), which transfers methyl groups to arginine residues present in histones (7) and Sm spliceosomal proteins (8,9), links the circadian clock to the control of alternative splicing in plants. Mutations in PRMT5 impair several circadian rhythms in Arabidopsis thaliana and this phenotype is caused, at least in part, by a strong alteration in alternative splicing of the core-clock gene PSEUDO RESPONSE REGULATOR 9 (PRR9). Furthermore, genome-wide studies show that PRMT5 contributes to the regulation of many pre-messenger-RNA splicing events, probably by modulating 5'-splice-site recognition. PRMT5 expression shows daily and circadian oscillations, and this contributes to the mediation of the circadian regulation of expression and alternative splicing of a subset of genes. Circadian rhythms in locomotor activity are also disrupted in dart5-1, a mutant affected in the DrosophilamelanogasterPRMT5homologue, and this is associated with alterations in splicing of the core-clock gene period and several clock-associated genes. Our results demonstrate a key role for PRMT5 in the regulation of alternative splicing and indicate that the interplay between the circadian clock and the regulation of alternative splicing by PRMT5 constitutes a common mechanism that helps organisms to synchronize physiological processes with daily changes in environmental conditions., The circadian clock interacts with light to inhibit stem elongation in plants (10), so we used tall plants under conditions of a light-dark cycle to identify novel clock mutants. This [...]

Published

2010

2. Natural allelic variation underlying a major fitness trade-off in Arabidopsis thaliana

Author

Todesco, Marco, Balasubramanian, Sureshkumar, Hu, Tina T., Traw, M. Brian, Horton, Matthew, Epple, Petra, Kuhns, Christine, Sureshkumar, Sridevi, Schwartz, Christopher, Lanz, Christa, Laitinen, Roosa A.E., Huang, Yu, Chory, Joanne, Lipka, Volker, Borevitz, Justin O., Dangl, Jeffery L., Bergelson, Joy, Nordborg, Magnus, and Weigel, Detlef

Subjects

Arabidopsis thaliana -- Genetic aspects -- Research, Genetic variation -- Identification and classification -- Genetic aspects -- Research, Fitness (Genetics) -- Research -- Genetic aspects, Allelomorphism -- Identification and classification -- Research -- Genetic aspects

Abstract

Plants can defend themselves against a wide array of enemies, from microbes to large animals, yet there is great variability in the effectiveness of such defences, both within and between species. Some of this variation can be explained by conflicting pressures from pathogens with different modes of attack (1). A second explanation comes from an evolutionary 'tug of war', in which pathogens adapt to evade detection, until the plant has evolved new recognition capabilities for pathogen invasion (2-5). If selection is, however, sufficiently strong, susceptible hosts should remain rare. That this is not the case is best explained by costs incurred from constitutive defences in a pest-free environment (6-11). Using a combination of forward genetics and genome-wide association analyses, we demonstrate that allelic diversity at a single locus, ACCELERATED CELL DEATH 6 (ACD6) (12,13), underpins marked pleiotropic differences in both vegetative growth and resistance to microbial infection and herbivory among natural Arabidopsis thaliana strains. A hyperactive ACD6 allele, compared to the reference allele, strongly enhances resistance to a broad range of pathogens from different phyla, but at the same time slows the production of new leaves and greatly reduces the biomass of mature leaves. This allele segregates at intermediate frequency both throughout the worldwide range of A. thaliana and within local populations, consistent with this allele providing substantial fitness benefits despite its marked impact on growth., A survey of A. thaliana accessions collected from the wild revealed extensive environment-dependent variation for leaf initiation rate (Supplementary Table 1). One of the strains, Est-1, which produced leaves more [...]

Published

2010

3. Genome-wide association study of 107 phenotypes in Arabidopsis thaliana inbred lines

Author

Atwell, Susanna, Huang, Yu S., Vilhjalmsson, Bjarni J., Willems, Glenda, Horton, Matthew, Li, Yan, Meng, Dazhe, Platt, Alexander, Tarone, Aaron M., Hu, Tina T., Jiang, Rong, Muliyati, N. Wayan, Zhang, Xu, Amer, Muhammad Ali, Baxter, Ivan, Brachi, Benjamin, Chory, Joanne, Dean, Caroline, Debieu, Marilyne, de Meaux, Juliette, Ecker, Joseph R., Faure, Nathalie, Kniskern, Joel M., Jones, Jonathan D.G., Todd, Michael, Nemri, Adnane, Roux, Fabrice, Salt, David E., Tang, Chunlao, Todesco, Marco, Traw, M. Brian, Weigel, Detlef, Marjoram, Paul, Borevitz, Justin O., Bergelson, Joy, and Nordborg, Magnus

Subjects

Genomics -- Research -- Genetic aspects, Arabidopsis thaliana -- Genetic aspects -- Research, Inbreeding -- Genetic aspects -- Research, Phenotype -- Identification and classification -- Genetic aspects -- Research

Abstract

Although pioneered by human geneticists as a potential solution to the challenging problem of finding the genetic basis of common human diseases (1,2), genome-wide association (GWA) studies have, owing to advances in genotyping and sequencing technology, become an obvious general approach for studying the genetics of natural variation and traits of agricultural importance. They are particularly useful when inbred lines are available, because once these lines have been genotyped they can be phenotyped multiple times, making it possible (as well as extremely cost effective) to study many different traits in many different environments, while replicating the phenotypic measurements to reduce environmental noise. Here we demonstrate the power of this approach by carrying out a GWA study of (107 phenotypes in Arabidopsis thaliana, a widely distributed, predominantly self-fertilizing model plant known to harbour considerable genetic variation for many adaptively important traits (3). Our results are dramatically different from those of human GWA studies, in that we identify many common alleles of major effect, but they are also, in many cases, harder to interpret because confounding by complex genetics and population structure make it difficult to distinguish true associations from false. However, a-priori candidates are significantly over-represented among these associations as well, making many of them excellent candidates for follow-up experiments. Our study demonstrates the feasibility of GWA studies in A. thaliana and suggests that the approach will be appropriate for many other organisms., The genotyped sample (Supplementary Table 1) includes a core set of 95 lines (4) for which a wide variety of phenotypes were available, plus a second set of 96 lines [...]

Published

2010

4. Cis-regulatory changes at FLOWERING LOCUS T mediate natural variation in flowering responses of Arabidopsis thaliana

Author

Schwartz, Christopher, Balasubramanian, Sureshkumar, Warthmann, Norman, Michael, Todd P., Lempe, Janne, Sureshkumar, Sridevi, Kobayashi, Yasushi, Maloof, Julin N., Borevitz, Justin O., Chory, Joanne, and Weigel, Detlef

Subjects

Arabidopsis thaliana -- Genetic aspects, Gene expression -- Research, Genetic variation -- Research, Plants, Flowering of -- Research, Quantitative trait loci -- Research, Biological sciences

Published

2009

5. Global analysis of allele-specific expression in Arabidopsis thaliana

Author

Xu Zhang and Borevitz, Justin O.

Subjects

Arabidopsis thaliana -- Genetic aspects, Gene expression -- Research, Genetic regulation -- Research, Genetic variation -- Research, Single nucleotide polymorphisms -- Research, Biological sciences

Published

2009

6. Amino acid polymorphisms in Arabidopsis phytochrome B cause differential responses to light

Author

Filiault, Daniele L., Wessinger, Carolyn A., Dinneny, Jose R., Lutes, Jason, Borevitz, Justin O., Weigel, Detlef, Chory, Joanne, and Maloof, Julin N.

Subjects

Arabidopsis -- Physiological aspects, Phytochrome -- Properties, Phototropism -- Research, Linkage (Genetics) -- Evaluation, Genetic variation -- Evaluation, Genetic polymorphisms -- Evaluation, Science and technology

Abstract

Plants have a sophisticated system for sensing and responding to their light environment. The light responses of populations and species native to different habitats show adaptive variation; understanding the mechanisms underlying photomorphogenic variation is therefore of significant interest. In Arabidopsis thaliana, phytochrome B (PHYB) is the dominant photoreceptor for red light and plays a major role in white light. Because PHYB has been proposed as a candidate gene for several quantitative trait loci (QTLs) affecting light response, we have investigated sequence and functional variation in Arabidopsis PHYB. We examined PHYB sequences in 33 A. thaliana individuals and in the close relative Arabidopsis lyrata. From 14 nonsynonymous polymorphisms, we chose 5 for further study based on previous QTL studies. In a larger collection of A. thaliana accessions, one of these five polymorphisms, I143L, was associated with variation in red light response. We used transgenic analysis to test this association and confirmed experimentally that natural PHYB polymorphisms cause differential plant responses to light. Furthermore, our results show that allelic variation of PHYB activity is due to amino acid rather than regulatory changes. Together with earlier studies linking variation in light sensitivity to photoreceptor genes, our work suggests that photoreceptors may be a common target of natural selection. hypocotyl | linkage disequilibrium | natural variation

Published

2008

7. Genome-wide patterns of single-feature polymorphism in Arabidopsis thaliana

Author

Borevitz, Justin O., Hazen, Samuel P.Michael Todd P., Morris, Geoffrey P., Baxter, Ivan R., Hu, Tina T., Chen, Huaming, Werner, Jonathan D., Nordborg, Magnus, Salt, David E., Kay, Steven A., Chory, Joanne, Weigel, Detlef, Jones, Jonathan D.G., and Ecker, Joseph R.

Subjects

Arabidopsis -- Genetic aspects, Single nucleotide polymorphisms -- Physiological aspects, Single nucleotide polymorphisms -- Chemical properties, Biological diversity -- Evaluation, Genomics -- Research, Gene expression -- Chemical properties, Science and technology

Abstract

We used hybridization to the ATH1 gene expression array to interrogate genomic DNA diversity in 23 wild strains (accessions) of Arabidopsis thaliana (arabidopsis), in comparison with the reference strain Columbia (Col). At evolutionary genomics | gene array | nucleotide diversity

Published

2007

8. Inferring population parameters from single-feature polymorphism data

Author

Jiang, Rong, Marjoram, Paul, Borevitz, Justin O., and Tavare, Simon

Subjects

Genetic polymorphisms -- Research, Population genetics -- Research, Biological sciences

Abstract

This article is concerned with a statistical modeling procedure to call single-feature polymorphisms from microarray experiments. We use this new type of polymorphism data to estimate the mutation and recombination parameters in a population. The mutation parameter can be estimated via the number of single-feature polymorphisms called in the sample. For the recombination parameter, a two-feature sampling distribution is derived in a way analogous to that for the two-locus sampling distribution with SNP data. The approximate-likelihood approach using the two-feature sampling distribution is examined and found to work well. A coalescent simulation study is used to investigate the accuracy and robustness of our method. Our approach allows the utilization of single-feature polymorphism data for inference in population genetics.

Published

2006

9. Association mapping with single-feature polymorphisms

Author

Kim, Sung, Zhao, Keyan, Jiang, Rong, Molitor, John, Borevitz, Justin O., Nordborg, Magnus, and Marjoram, Paul

Subjects

Single nucleotide polymorphisms -- Research, Arabidopsis -- Genetic aspects, DNA microarrays -- Usage, Biological sciences

Abstract

We develop methods for exploiting 'single-feature polymorphism' data, generated by hybridizing genomic DNA to oligonucleotide expression arrays. Our methods enable the use of such data, which can be regarded as very high density, but imperfect, polymorphism data, for genomewide association or linkage disequilibrium mapping. We use a simulation-based power study to conclude that our methods should have good power for organisms like Arabidopsis thaliana, in which linkage disequilibrium is extensive, the reason being that the noisiness of single-feature polymorphism data is more than compensated for by their great number. Finally, we show how power depends on the accuracy with which single-feature polymorphisms are called.

Published

2006

10. LUX ARRHYTHMO encodes a Myb domain protein essential for circadian rhythms

Author

Hazen, Samuel P., Schultz, Thomas F., Pruneda-Paz, Jose L., Borevitz, Justin O., Ecker, Joseph R., and Kay, Steve A.

Subjects

Proteins -- Research, Plants -- Research, Circadian rhythms -- Research, Science and technology

Abstract

In higher plants, the circadian clock orchestrates fundamental processes such as light signaling and the transition to flowering. We isolated mutants of the circadian clock from an Arabidopsis thaliana mutagenized reporter line by screening for seedlings with long hypocotyl phenotypes and subsequently assaying for abnormal clock-regulated CAB2::LUC expression. This screen identified five mutant alleles of a clock gene, LUX ARRHYTHMO (LUX), that significantly affect amplitude and robustness of rhythms in both constant white light and dark conditions. In addition, the transition from vegetative to floral development is accelerated and hypocotyl elongation is accentuated in these mutants under light:dark cycles. We genetically mapped the mutations by bulk segregant analysis with high-density oligonucleotide array genotyping to a small putative Myb transcription factor related to other clock components and response regulators in Arabidopsis. The negative arm of the Arabidopsis circadian clock, CIRCADIAN CLOCK ASSOCIATED (CCA1) and LATE ELONGATED HYPOCOTYL (LHY), is repressed in the lux mutants, whereas TIMING OF CAB2 EXPRESSION (TOC1) is activated. We demonstrate that CCA1 and LHY bind to the evening element motif in the LUX promoter, which strongly suggests that these proteins repress LUX expression, as they do TOC1. The data are also consistent with LUX being necessary for activation of CCA 1 and LHY expression. Arabidopsis circadian clock | oligonucleotide array mapping

Published

2005

11. FRIGIDA-independent variation in flowering time of natural Arabidopsis thaliana accessions

Author

Werner, Jonathan D., Borevitz, Justin O., Uhlenhaut, N. Henriette, Ecker, Joseph R., Chory, Joanne, and Weigel, Detlef

Subjects

Angiosperms -- Research, Angiosperms -- Genetic aspects, Arabidopsis thaliana -- Research, Arabidopsis thaliana -- Genetic aspects, Arabidopsis thaliana -- Growth, Company growth, Biological sciences

Abstract

FRIGIDA (FRI) and FLOWERING LOCUS C (FLC) are two genes that, unless plants are vernalized, greatly delay flowering time in Arabidopsis thaliana. Natural loss-of-function mutations in FRI cause the early flowering growth habits of many A. thaliana accessions. To quantify the variation among wild accessions due to FRI, and to identify additional genetic loci in wild accessions that influence flowering time, we surveyed the flowering times of 145 accessions in long-day photoperiods, with and without a 30-day vernalization treatment, and genotyped them for two common natural lesions in FRI. FRI is disrupted in at least 84 of the accessions, accounting for only ~40% of the flowering-time variation in long days. During efforts to dissect the causes for variation that are independent of known dysfunctional FRI alleles, we found new loss-of-function alleles in FLC, as well as late-flowering alleles that do not map to FRI or FLC. An FLC nonsense mutation was found in the early flowering Van-0 accession, which has otherwise functional FRI. In contrast, Lz-0 flowers late because of high levels of FLC expression, even though it has a deletion in FRI. Finally, eXtreme array mapping identified genomic regions linked to the vernalization-independent, late-flowering habit of Bur-0, which has an alternatively spliced FLC allele that behaves as a null allele.

Published

2005

12. Rapid array mapping of circadian clock and developmental mutations in Arabidopsis (1)

Author

Hazen, Samuel P., Borevitz, Justin O., Harmon, Frank G., Pruneda-Paz, Jose L., Schultz, Thomas F., Yanovsky, Marcelo J., Liljegren, Sarah J., Ecker, Joseph R., and Kay, Steve A.

Subjects

Phanerogams -- Physiological aspects, Arabidopsis -- Physiological aspects, Phenotype, Mutation (Biology), Genetics, Biological sciences, Science and technology

Published

2005

13. Quantitative trait locus mapping and DNA array hybridization identify an FLM deletion as a cause for natural flowering-time variation

Author

Werner, Jonathan D., Borevitz, Justin O., Warthmann, Norman, Trainer, Gabriel T., Ecker, Joseph R., Chory, Joanne, and Weigel, Detlef

Subjects

Arabidopsis thaliana -- Research, Arabidopsis thaliana -- Genetic aspects, Science and technology

Abstract

Much of the flowering time variation in wild strains of Arabidopsis thaliana is due to allelic variation at two epistatically acting loci, FRIGIDA (FRI) and FLOWERING LOCUS C (FLC). FLC encodes a MADS (MCM1/AGAMOUS/DEFICIENS/SRF1) domain transcription factor that directly represses a series of flowering-promoting genes. FRI and FLC, however, do not explain all of the observed variation, especially when plants are grown in short days. To identify loci that act in addition to FRI and FLC in controlling flowering of natural accessions, we have analyzed a recombinant inbred line population derived from crosses of accession Niederzenz (Nd) to Columbia, both of which contain natural FRI lesions. Quantitative trait locus mapping and genomic DNA analysis by microarray hybridization were used to identify candidate genes affecting variation in flowering behavior. In both long and short days, the quantitative trait locus of largest effect, termed FLOWERING 1 (FLW1), was found to be associated with a Nd-specific deletion of FLOWERING LOCUS M (FLM), which encodes a floral repressor closely related to FLC. Analysis of near isogenic lines and quantitative transgenic complementation experiments confirmed that the FLM deletion is, in large part, responsible for the early flowering of the Nd accession.

Published

2005

14. Light-response quantitative trait loci identified with composite interval and eXtreme array mapping in Arabidopsis thaliana

Author

Wolyn, David J., Borevitz, Justin O., Loudet, Olivier, Schwartz, Chris, Maloof, Julin, Ecker, Joseph R., Berry, Charles C., and Chory, Joanne

Subjects

Arabidopsis thaliana -- Research, Biological sciences

Abstract

Genetic analysis of natural variation in ecotypes of Arabidopsis thaliana can facilitate the discovery of new genes or of allelic variants of previously identified genes controlling physiological processes in plants. We mapped quantitative trait loci (QTL) for light response in recombinant inbred lines (RILs) derived from the Columbia and Kashmir accessions via two methods: composite interval mapping and extreme array mapping (XAM). After measuring seedling hypocotyl lengths in blue, red, far-red, and white light, and in darkness, eight QTL were identified by composite interval mapping and five localized near photoreceptor loci. Two QTL in blue light were associated with CRY1 and CRY2, two in red light were near PHYB and PHYC, and one in far-red light localized near PHYA. The RED2 and RED5 QTL were verified in segregating lines. XAM was tested for the identification of QTL in red light with pools of RILs selected for extreme phenotypes. Thousands of single feature polymorphisms detected by differential DNA hybridized to high-density oligo-nucleotide arrays were used to estimate allele frequency differences between the pools. The RED2 QTL was identified clearly; differences exceeded a threshold of significance determined by simulations. The sensitivities of XAM to population type and size and genetic models were also determined by simulation analysis.

Published

2004

15. The impact of genomics on the study of natural bariation in Arabidopsis

Author

Borevitz, Justin O. and Nordborg, Magnus

Subjects

Arabidopsis -- Genetic aspects, Phanerogams -- Genetic aspects, Genomics, Biological sciences, Science and technology

Published

2003

16. Quantitative trait loci controlling light and hormone response in two accessions of Arabidopsis thaliana

Author

Borevitz, Justin O., Maloof, Julin, N., Lutes, Jason, Dabi, Tsegaye, Redfern, Joanna L., Trainer, Gabriel T., Werner, Jonathan D., Asami, Tadao, Berry, Charles C., Weigel, Detlef, and Chory, Joanne

Subjects

Genetic research -- Analysis, Arabidopsis thaliana -- Genetic aspects, Biological sciences

Abstract

We have mapped quantitative trait loci (QTL) responsible for natural variation in light and hormone response between the Cape Verde Islands (Cvi) and Landsberg erecta (Ler) accessions of Arabidopsis thaliana using recombinant inbred lines (RILs). Hypocotyl length was measured in four light environments: white, blue, red, and far-red light and in the dark. In addition, white light plus gibberellin (GA) and dark plus the brassinosteroid biosynthesis inhibitor brassinazole (BRZ) were used to detect hormone effects. Twelve QTL were identified that map to loci not previously known to affect light response, as well as loci where candidate genes have been identified from known mutations. Some QTL act in all environments while others show genotype-by-environment interaction. A global threshold was established to identify a significant epistatic interaction between two loci that have few main effects of their own. LIGHT1, a major QTL, has been confirmed in a near isogenic line (NIL) and maps to a new locus with effects in all light environments. The erecta mutation can explain the effect of the HYP2 QTL in the blue, BRZ, and dark environments, but not in far-red. LIGHT2, also confirmed in an NIL, has effects in white and red light and shows interaction with GA. The phenotype and map position of LIGHT2 suggest the photoreceptor PHYB as a candidate gene. Natural variation in light and hormone response thus defines both new genes and known genes that control light response in wild accessions.

Published

2002

17. Activation tagging identifies a conserved MYB regulator of phenylpropanoid biosynthesis

Author

Borevitz, Justin O., Xia, Yiji, Blount, Jack, Dixon, Richard A., and Lamb, Chris

Subjects

Arabidopsis -- Research, Biosynthesis -- Research, Plants -- Research, Biological sciences, Science and technology

Published

2000

18. Activation tagging in Arabidopsis (1)

Author

Weigel, Detlef, Ahn, Ji Hoon, Blazquez, Miguel A., Borevitz, Justin O., Christensen, Sioux K., Fankhauser, Christian, Ferrandiz, Cristina, Kardailsky, Igor, Malancharuvil, Elizabeth J., Neff, Michael M., Nguyen, Jasmine Thuy, Sato, Shusei, Wang, Zhi-Yong, Xia, Yiji, Dixon, Richard A., Harrison, Maria J., Lamb, Chris J., Yanofsky, Martin F., and Chory, Joanne

Subjects

Arabidopsis -- Genetic aspects, Transduction -- Research, Mutagenesis -- Research, Biological sciences, Science and technology

Published

2000

19. Natural selection shapes genome-wide patterns of copy-number polymorphism in Drosophila melanogaster

Author

Emerson, J.J., Cardoso-Moreira, Margarida, Borevitz, Justin O., and Long, Manyuan

Subjects

Drosophila -- Genetic aspects, Natural selection -- Research, Genetic polymorphisms -- Physiological aspects

Published

2008

20. A large number of novel encoding small open reading frames in the intergenic regions of the Arabidopsis thaliana genome are transcribed and/or under purifying selection

Author

Hanada, Kousuke, Xu Zhang, Borevitz, Justin O., Wen-Hsiung Li, and Shin-Han Shiu

Subjects

Arabidopsis thaliana -- Genetic aspects, Suppression, Genetic -- Research, Protein research, Health

Abstract

Various small open reading frames (sORFs) with a high coding potential by a simple gene finding method is analyzed for the transcription of the intergenic regions of the Arabidopsis thaliana genome and/ or under a purifying section. The method employed gives a complete description of the process of intergenic transcription that can be used for various protein coding genes.

Published

2007

21. Large-scale identification of single-feature polymorphisms in complex genomes

Author

Borevitz, Justin O., Liang, David, Plouffe, David, Chang, Hur-Song, Zhu, Tong, Weigel, Detlef, Berry, Charles C., Winzeler, Elizabeth, and Chory, Joanne

Subjects

Genomes -- Research, Genetic research -- Analysis, Genetic polymorphisms -- Physiological aspects, DNA -- Genetic aspects, RNA -- Genetic aspects, Gene expression -- Physiological aspects, Arabidopsis -- Genetic aspects, Health

Abstract

Research has been conducted on single-feature polymorphisms. The identification of these polymorphisms has been carried out via the use of high-throughput genotyping platform developed by hybridizing genomic DNA from Arabidopsis thaliana accessions to the RNA espression, and the details are reported.

Published

2003