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1. Comparison of ddRADseq and EUChip60K SNP genotyping systems for population genetics and genomic selection in Eucalyptus dunnii (Maiden)

Author

Aguirre, Natalia Cristina, primary, Villalba, Pamela Victoria, additional, García, Martín Nahuel, additional, Filippi, Carla Valeria, additional, Rivas, Juan Gabriel, additional, Martínez, María Carolina, additional, Acuña, Cintia Vanesa, additional, López, Augusto J., additional, López, Juan Adolfo, additional, Pathauer, Pablo, additional, Palazzini, Dino, additional, Harrand, Leonel, additional, Oberschelp, Javier, additional, Marcó, Martín Alberto, additional, Cisneros, Esteban Felipe, additional, Carreras, Rocío, additional, Martins Alves, Ana Maria, additional, Rodrigues, José Carlos, additional, Hopp, H. Esteban, additional, Grattapaglia, Dario, additional, Cappa, Eduardo Pablo, additional, Paniego, Norma Beatriz, additional, and Marcucci Poltri, Susana Noemí, additional

Published
2024
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9. New validated Eucalyptus SSR markers located in candidate genes involved in growth and plant development

Author

Acuña, Cintia V., Rivas, Juan Gabriel, Aguirre, Natalia Cristina, Villalba, Pamela, Martínez, María Carolina, García, Martín Nahuel, Hopp, H. Esteban, Marcucci Poltri, Susana N., Acuña, Cintia V., Rivas, Juan Gabriel, Aguirre, Natalia Cristina, Villalba, Pamela, Martínez, María Carolina, García, Martín Nahuel, Hopp, H. Esteban, and Marcucci Poltri, Susana N.

Abstract

Aim of study: To validate and characterize new microsatellites or Simple Sequence Repeats (SSR) markers, located within genomic transcribed sequences related to growth and plant developmental traits, in Eucalyptus species. Area of study: Eucalyptus species from different Australian origins planted in Argentina. Materials and methods: In total, 134 SSR in 129 candidate genes (CG-SSR) involved in plant development were selected and physically mapped to the E. grandis reference genome by bioinformatic tools. Experimental validation and polymorphism analysis were performed on 48 individuals from E. grandis and interspecific hybrids (E. grandis x E. camaldulensis; E. grandis x E. tereticornis), E. globulus, E. maidenii, E. dunnii and E. benthamii. Main results: 131 out of 134 CG-SSR were mapped on the 11 chromosomes of E. grandis reference genome. Most of the 134 analyzed SSR (> 75%) were positively amplified and 39 were polymorphic in at least one species. A search of annotated genes within a 25 kbp up and downstream region of each SSR location retrieved 773 genes of interest. Research highlights: The new validated and characterized CG-SSR are potentially suitable for comparative QTL mapping, molecular marker-assisted breeding (MAB) and population genetic studies across different species within Symphyomyrtus subgenus.

Published
2020

11. De novo transcriptome sequencing and SSR markers development for Cedrela balansae C.DC., a native tree species of northwest Argentina

Author

Torales, Susana L., primary, Rivarola, Máximo, additional, Gonzalez, Sergio, additional, Inza, María Virginia, additional, Pomponio, María F., additional, Fernández, Paula, additional, Acuña, Cintia V., additional, Zelener, Noga, additional, Fornés, Luis, additional, Hopp, H. Esteban, additional, Paniego, Norma B., additional, and Marcucci Poltri, Susana N., additional

Published
2018
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12. Virus infection elevates transcriptional activity of miR164a promoter in plants

Author

Rodriguez María C, Maroniche Guillermo A, Conti Gabriela, Mongelli Vanesa C, Manacorda Carlos A, Almasia Natalia I, Bazzini Ariel A, Distéfano Ana J, Hopp H Esteban, del Vas Mariana, and Asurmendi Sebastian

Subjects
Botany, QK1-989
Abstract

Abstract Background Micro RNAs (miRs) constitute a large group of endogenous small RNAs that have crucial roles in many important plant functions. Virus infection and transgenic expression of viral proteins alter accumulation and activity of miRs and so far, most of the published evidence involves post-transcriptional regulations. Results Using transgenic plants expressing a reporter gene under the promoter region of a characterized miR (P-miR164a), we monitored the reporter gene expression in different tissues and during Arabidopsis development. Strong expression was detected in both vascular tissues and hydathodes. P-miR164a activity was developmentally regulated in plants with a maximum expression at stages 1.12 to 5.1 (according to Boyes, 2001) along the transition from vegetative to reproductive growth. Upon quantification of P-miR164a-derived GUS activity after Tobacco mosaic virus Cg or Oilseed rape mosaic virus (ORMV) infection and after hormone treatments, we demonstrated that ORMV and gibberellic acid elevated P-miR164a activity. Accordingly, total mature miR164, precursor of miR164a and CUC1 mRNA (a miR164 target) levels increased after virus infection and interestingly the most severe virus (ORMV) produced the strongest promoter induction. Conclusion This work shows for the first time that the alteration of miR pathways produced by viral infections possesses a transcriptional component. In addition, the degree of miR alteration correlates with virus severity since a more severe virus produces a stronger P-miR164a induction.

Published
2009
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13. Transcriptomic identification of candidate genes involved in sunflower responses to chilling and salt stresses based on cDNA microarray analysis

Author

Paniego Norma, Hopp H Esteban, Fernandez Luis, Di Rienzo Julio, Fernandez Paula, and Heinz Ruth A

Subjects
Botany, QK1-989
Abstract

Abstract Background Considering that sunflower production is expanding to arid regions, tolerance to abiotic stresses as drought, low temperatures and salinity arises as one of the main constrains nowadays. Differential organ-specific sunflower ESTs (expressed sequence tags) were previously generated by a subtractive hybridization method that included a considerable number of putative abiotic stress associated sequences. The objective of this work is to analyze concerted gene expression profiles of organ-specific ESTs by fluorescence microarray assay, in response to high sodium chloride concentration and chilling treatments with the aim to identify and follow up candidate genes for early responses to abiotic stress in sunflower. Results Abiotic-related expressed genes were the target of this characterization through a gene expression analysis using an organ-specific cDNA fluorescence microarray approach in response to high salinity and low temperatures. The experiment included three independent replicates from leaf samples. We analyzed 317 unigenes previously isolated from differential organ-specific cDNA libraries from leaf, stem and flower at R1 and R4 developmental stage. A statistical analysis based on mean comparison by ANOVA and ordination by Principal Component Analysis allowed the detection of 80 candidate genes for either salinity and/or chilling stresses. Out of them, 50 genes were up or down regulated under both stresses, supporting common regulatory mechanisms and general responses to chilling and salinity. Interestingly 15 and 12 sequences were up regulated or down regulated specifically in one stress but not in the other, respectively. These genes are potentially involved in different regulatory mechanisms including transcription/translation/protein degradation/protein folding/ROS production or ROS-scavenging. Differential gene expression patterns were confirmed by qRT-PCR for 12.5% of the microarray candidate sequences. Conclusion Eighty genes isolated from organ-specific cDNA libraries were identified as candidate genes for sunflower early response to low temperatures and salinity. Microarray profiling of chilling and NaCl-treated sunflower leaves revealed dynamic changes in transcript abundance, including transcription factors, defense/stress related proteins, and effectors of homeostasis, all of which highlight the complexity of both stress responses. This study not only allowed the identification of common transcriptional changes to both stress conditions but also lead to the detection of stress-specific genes not previously reported in sunflower. This is the first organ-specific cDNA fluorescence microarray study addressing a simultaneous evaluation of concerted transcriptional changes in response to chilling and salinity stress in cultivated sunflower.

Published
2008
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14. Identification of Single Nucleotide Polymorphisms and analysis of Linkage Disequilibrium in sunflower elite inbred lines using the candidate gene approach

Author

Heinz Ruth A, Hopp H Esteban, Lia Verónica V, Fusari Corina M, and Paniego Norma B

Subjects
Botany, QK1-989
Abstract

Abstract Background Association analysis is a powerful tool to identify gene loci that may contribute to phenotypic variation. This includes the estimation of nucleotide diversity, the assessment of linkage disequilibrium structure (LD) and the evaluation of selection processes. Trait mapping by allele association requires a high-density map, which could be obtained by the addition of Single Nucleotide Polymorphisms (SNPs) and short insertion and/or deletions (indels) to SSR and AFLP genetic maps. Nucleotide diversity analysis of randomly selected candidate regions is a promising approach for the success of association analysis and fine mapping in the sunflower genome. Moreover, knowledge of the distance over which LD persists, in agronomically meaningful sunflower accessions, is important to establish the density of markers and the experimental design for association analysis. Results A set of 28 candidate genes related to biotic and abiotic stresses were studied in 19 sunflower inbred lines. A total of 14,348 bp of sequence alignment was analyzed per individual. In average, 1 SNP was found per 69 nucleotides and 38 indels were identified in the complete data set. The mean nucleotide polymorphism was moderate (θ = 0.0056), as expected for inbred materials. The number of haplotypes per region ranged from 1 to 9 (mean = 3.54 ± 1.88). Model-based population structure analysis allowed detection of admixed individuals within the set of accessions examined. Two putative gene pools were identified (G1 and G2), with a large proportion of the inbred lines being assigned to one of them (G1). Consistent with the absence of population sub-structuring, LD for G1 decayed more rapidly (r2 = 0.48 at 643 bp; trend line, pooled data) than the LD trend line for the entire set of 19 individuals (r2 = 0.64 for the same distance). Conclusion Knowledge about the patterns of diversity and the genetic relationships between breeding materials could be an invaluable aid in crop improvement strategies. The relatively high frequency of SNPs within the elite inbred lines studied here, along with the predicted extent of LD over distances of 100 kbp (r2~0.1) suggest that high resolution association mapping in sunflower could be achieved with marker densities lower than those usually reported in the literature.

Published
2008
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15. Microsatellite markers in candidate genes for wood properties and its application in functional diversity assessment in Eucalyptus globulus

Author

Acuña, Cintia V, Villalba, Pamela V, García, Martín, Pathauer, Pablo, Hopp, H. Esteban, and Marcucci Poltri, Susana N

Subjects
lignin pathway, genetic diversity, wood density, SSR, functional markers
Abstract

Background: Functional genetic markers have important implications for genetic analysis by providing direct estimation of functional diversity. Although high throughput sequencing techniques for functional diversity analysis are being developed nowadays, the use of already well established variable markers present in candidate genes is still an interesting alternative for mapping purposes and functional diversity studies. SSR markers are routinely used in most plant and animal breeding programs for many species including Eucalyptus. SSR markers derived from candidate genes (SSR-CG) can be used effectively in co-segregation studies and marker-assisted diversity management. Results: In the present study, eight new non reported SSRs were identified in seven candidate genes for wood properties in Eucalyptus globulus: cinnamoyl CoA reductase (CCR), homocysteine S-methyltransferase (HMT), shikimate kinase (SK), xyloglucan endotransglycosylase 2 (XTH2), cellulose synthase 3 (CesA3), glutathione S-transferase (GST) and the transcription factor LIM1. Microsatellites were located in promoters, introns and exons, being most of them CT dinucleotide repeats. Genetic diversity of these eight CG-derived SSR-markers was explored in 54 unrelated genotypes. Except for XTH2, high levels of polymorphism were detected: 93 alleles (mean of 13.1 sd 1.6 alleles per locus), a mean effective number of alleles (Ne) of 5.4 (sd 1.6), polymorphic information content values (PIC) from 0.617 to 0.855 and probability of Identity (PI) ranging from 0.030 to 0.151. Conclusions: This is the first report on the identification, characterization and diversity analysis of microsatellite markers located inside wood quality candidate genes (CG) from Eucalyptus globulus. This set of markers is then appropriate for characterizing genetic variation, with potential usefulness for quantitative trait loci (QTL) mapping in different eucalypts genetic pedigrees and other applications such as fingerprinting and marker assisted diversity management.

Published
2012

16. Transferability of microsatellite markers located in candidate genes for wood properties between Eucalyptus species

Author

Acuña, Cintia V., Villalba, Pamela, Hopp, H. Esteban, Marcucci Poltri, Susana N., Acuña, Cintia V., Villalba, Pamela, Hopp, H. Esteban, and Marcucci Poltri, Susana N.

Abstract

Aim of study: To analyze the feasibility of extrapolating conclusions on wood quality genetic control between different Eucalyptus species, particularly from species with better genomic information, to those less characterized. For this purpose, the first step is to analyze the conservation and cross-transferability of microsatellites markers (SSRs) located in candidate genes.Area of study: Eucalyptus species implanted in Argentina coming from different Australian origins.Materials and methods: Twelve validated and polymorphic SSRs in candidate genes (SSR-CGs) for wood quality in E. globulus were selected for cross species amplification in six species: E. grandis, E. saligna, E. dunnii, E. viminalis, E. camaldulensis and E. tereticornis.Main results: High cross-species transferability (92% to 100%) was found for the 12 polymorphic SSRs detected in E. globulus. These markers revealed allelic diversity in nine important candidate genes: cinnamoyl CoA reductase (CCR), cellulose synthase 3 (CesA3), the transcription factor LIM1, homocysteine S-methyltransferase (HMT), shikimate kinase (SK), xyloglucan endotransglycosylase 2 (XTH2), glutathione S-transferase (GST), glutamate decarboxylase (GAD) and peroxidase (PER).Research highlights: The markers described are potentially suitable for comparative QTL mapping, molecular marker assisted breeding (MAB) and for population genetic studies across different species within the subgenus Symphyomyrtus.Keywords: validation; cross-transferability; SSR; functional markers; eucalypts; Symphyomyrtus.

Published
2014

20. Virus infection elevates transcriptional activity of miR164a promoter in plants

Author

Bazzini, Ariel A, primary, Almasia, Natalia I, additional, Manacorda, Carlos A, additional, Mongelli, Vanesa C, additional, Conti, Gabriela, additional, Maroniche, Guillermo A, additional, Rodriguez, María C, additional, Distéfano, Ana J, additional, Hopp, H Esteban, additional, del Vas, Mariana, additional, and Asurmendi, Sebastian, additional

Published
2009
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27. Identification of Candidate Genes Associated with Leaf Senescence in Cultivated Sunflower (Helianthus annuus L.).

Author

Moschen, Sebastian, Bengoa Luoni, Sofia, Paniego, Norma B., Hopp, H. Esteban, Dosio, Guillermo A. A., Fernandez, Paula, and Heinz, Ruth A.

Subjects
LEAF aging, CULTIVATED plants, SUNFLOWER genetics, VEGETABLE oils, PHOTOSYNTHESIS, TRANSCRIPTION factors, AGRONOMY
Abstract

Cultivated sunflower (Helianthus annuus L.), an important source of edible vegetable oil, shows rapid onset of senescence, which limits production by reducing photosynthetic capacity under specific growing conditions. Carbon for grain filling depends strongly on light interception by green leaf area, which diminishes during grain filling due to leaf senescence. Transcription factors (TFs) regulate the progression of leaf senescence in plants and have been well explored in model systems, but information for many agronomic crops remains limited. Here, we characterize the expression profiles of a set of putative senescence associated genes (SAGs) identified by a candidate gene approach and sunflower microarray expression studies. We examined a time course of sunflower leaves undergoing natural senescence and used quantitative PCR (qPCR) to measure the expression of 11 candidate genes representing the NAC, WRKY, MYB and NF-Y TF families. In addition, we measured physiological parameters such as chlorophyll, total soluble sugars and nitrogen content. The expression of Ha-NAC01, Ha-NAC03, Ha-NAC04, Ha-NAC05 and Ha-MYB01 TFs increased before the remobilization rate increased and therefore, before the appearance of the first physiological symptoms of senescence, whereas Ha-NAC02 expression decreased. In addition, we also examined the trifurcate feed-forward pathway (involving ORE1, miR164, and ETHYLENE INSENSITIVE 2) previously reported for Arabidopsis. We measured transcription of Ha-NAC01 (the sunflower homolog of ORE1) and Ha-EIN2, along with the levels of miR164, in two leaves from different stem positions, and identified differences in transcription between basal and upper leaves. Interestingly, Ha-NAC01 and Ha-EIN2 transcription profiles showed an earlier up-regulation in upper leaves of plants close to maturity, compared with basal leaves of plants at pre-anthesis stages. These results suggest that the H. annuus TFs characterized in this work could play important roles as potential triggers of leaf senescence and thus can be considered putative candidate genes for senescence in sunflower. [ABSTRACT FROM AUTHOR]

Published
2014
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28. De novo assembly and characterization of leaf transcriptome for the development of functional molecular markers of the extremophile multipurpose tree species Prosopis alba.

Author

Torales, Susana L., Rivarola, Máximo, Pomponio, María F., Gonzalez, Sergio, Acuña, Cintia V., Fernández, Paula, Lauenstein, Diego L., Verga, Aníbal R., Hopp, H. Esteban, Paniego, Norma B., and Poltri, Susana N.

Subjects
LEGUMES, MESQUITE, ARID regions, SEEDLINGS, GENE ontology, SINGLE nucleotide polymorphisms, MICROBIOLOGY of extreme environments
Abstract

Background Prosopis alba (Fabaceae) is an important native tree adapted to arid and semiarid regions of north-western Argentina which is of great value as multipurpose species. Despite its importance, the genomic resources currently available for the entire Prosopis genus are still limited. Here we describe the development of a leaf transcriptome and the identification of new molecular markers that could support functional genetic studies in natural and domesticated populations of this genus. Results Next generation DNA pyrosequencing technology applied to P. alba transcripts produced a total of 1,103,231 raw reads with an average length of 421 bp. De novo assembling generated a set of 15,814 isotigs and 71,101 non-assembled sequences (singletons) with an average of 991 bp and 288 bp respectively. A total of 39,000 unique singletons were identified after clustering natural and artificial duplicates from pyrosequencing reads. Regarding the non-redundant sequences or unigenes, 22,095 out of 54,814 were successfully annotated with Gene Ontology terms. Moreover, simple sequence repeats (SSRs) and single nucleotide polymorphisms (SNPs) were searched, resulting in 5,992 and 6,236 markers, respectively, throughout the genome. For the validation of the the predicted SSR markers, a subset of 87 SSRs selected through functional annotation evidence was successfully amplified from six DNA samples of seedlings. From this analysis, 11 of these 87 SSRs were identified as polymorphic. Additionally, another set of 123 nuclear polymorphic SSRs were determined in silico, of which 50% have the probability of being effectively polymorphic. Conclusions This study generated a successful global analysis of the P. alba leaf transcriptome after bioinformatic and wet laboratory validations of RNA-Seq data. The limited set of molecular markers currently available will be significantly increased with the thousands of new markers that were identified in this study. This information will strongly contribute to genomics resources for P. alba functional analysis and genetics. Finally, it will also potentially contribute to the development of population-based genome studies in the genera. [ABSTRACT FROM AUTHOR]

Published
2013
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29. Organization and transcription of B1 hordein genes in high lysine mutants of barley

Author

Hopp, H. Esteban, Rasmussen, Søren K., Brandt, Anders, Hopp, H. Esteban, Rasmussen, Søren K., and Brandt, Anders

Abstract

A library of double stranded cDNA clones was constructed using mRNA isolated from developing barley endosperms as template. The cDNA clones were classified by restriction endonuclease mapping and by hybridization to single stranded cDNA prepared from mRNA of two hordein deficient mutants of barley. This classification and nucleotide sequence analysis identified cDNAs coding for B1 hordein polypeptides. Hybridization of selected cDNA sequences to a B1 hordein cDNA probe at different conditions of stringency demonstrated the presence of a group of related but not identical sequences. Hybridization of the B1 hordein cDNA probe to restriction endonuclease fragments of barley nuclear DNA suggests that the B1 hordein polypeptides are encoded by a multigene family. Abundant mRNA sequences ranging in size from 1,200 to 1,400 nucleotides were detected by hybridization to the B1 hordein cDNA probe. This size is sufficient to code for the B1 hordein polypeptide precursor, which is estimated to have a molecular weight in the range of 29,000 to 35,000. Mutant Risø 56 (hor2ca), which is defective in the synthesis of B hordein polypeptides, lacked B1 hordein mRNAs, thus strongly indicating that the mutation prevents the transcription of these genes. Mutant Risø 1508 (lys3a), which is deficient in the synthesis of all hordein polypeptides, contained detectable amounts of RNA sequences homologous to the B1 hordein cDNA, although the hybridization level was reduced in comparison to the wild type. Failure of these RNA sequences to be translated into B1 hordein polypeptides in a cell free protein synthesizing system hints that the lys3a gene is involved in the post-transcriptional modification of the messenger RNA. Major deletions were not detected in the gene cluster coding for B hordein polypeptides by hybridization of the B1 hordein cDNA to restriction endonuclease fragments of the nuclear DNA from the two mutants Risø 56 and Risø 1508.

Published
1983

30. A cDNA clone for protein Z, a major barley endosperm albumin

Author

Rasmussen, Søren K., Hopp, H. Esteban, Brandt, Anders, Svendsen, I. B., Hejgaard, Jørn, Rasmussen, Søren K., Hopp, H. Esteban, Brandt, Anders, Svendsen, I. B., and Hejgaard, Jørn

Abstract

An 18 residue amino terminal sequence of the barley endosperm protein Z polypeptide is presented. In vitro translation of barley endosperm mRNA and subsequent immunoaffinity isolation using protein Z antibodies identified two major protein Z precursor polypeptides of M.W.44,000 and 46,000 among the translation products. Partial nucleotide sequence analysis identified a cDNA clone to encode the amino terminal portion of protein Z. Messenger RNA sequences 1,800 nucleotides in length, sufficient to code for the protein Z precursor polypeptides, were detected by hybridization to the protein Z cDNA probe. Hybridization of the probe to restriction endonuclease fragments of barley nuclear DNA suggests, that protein Z is encoded by a small multigene family.

Published
1984

31. Nucleotide sequences of cDNA clones for B1 hordein polypeptides

Author

Rasmussen, Søren K., Hopp, H. Esteban, Brandt, Anders, Rasmussen, Søren K., Hopp, H. Esteban, and Brandt, Anders

Abstract

Nucleotide sequences of four cDNA clones coding for the carboxy-terminal portion of at least two different B1 hordein polypeptides are presented. The open reading frame in the nucleotide sequence of the the largest clone (pc hor2-4, 720 nucleotides) translates into the 181 carboxy-terminal amino acids of a polypeptide chain showing close homology to the previously determined primary structure of B1 hordein peptides. Of the 74 amino acid residues which can be compared 61 proved to be identical. The second cDNA clone (pc hor2-3, 257 nucleotides) encodes the 54 carboxy-terminal amino acids of a different B1 hordein polypeptide, which is revealed by 21 nucleotide substitutions resulting in 9 amino acid changes. The two other analysed cDNA clones contained sequences of 54 and 41 nucleotides respectively for the carboxy-terminal end of the same B1 hordein polypeptide as that coded for by pc hor2-3. The latter two clones (pc hor2-1, 254 nucleotides and pc hor2-2, 153 nucleotides) comparised the entire 3′ noncoding region of the B1 hordein messenger RNA including a poly(A) tail. Clone pc hor2-2 measures 99 nucleotides between between the stop codon and the poly(A) tail. A putative polyadenylation signal AATAAA is located 15 residues upstream from the poly(A) site. These 99 nucleotides of the 3′ noncoding region are extended by a sequence of 63 nucleotides in clone pc hor2-1. This additional sequence contains two AATAAA sequences located 13 and 24 nucleotides respectively from its poly(A) tail.

Published
1983

33. RNA-mediated virus resistance

Author

Rovere, Cecilia Vazquez, del Vas, Mariana, and Hopp, H. Esteban

Subjects
*GENE silencing, *VIRUSES, *ARABIDOPSIS, *TRANSGENIC plants, *PLANT resistance to viruses
Abstract

Post-transcriptional gene silencing is an RNA degradation mechanism that can be induced by viruses. Recent evidence indicates that silencing may also be involved in virus synergism, tissue limitation of virus spread, non-host resistance, virus transmission through seeds and in more general mechanisms of defense such as that mediated by salicylic acid. The analysis of Arabidopsis mutants, and of viruses carrying silencing suppressors, has led to a greater understanding of post-transcriptional gene silencing pathways. Much still remains to be discovered, however, not least to allow the successful exploitation of gene silencing in conferring pathogen resistance to transgenic plants. [Copyright &y& Elsevier]

Published
2002
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34. Identification of Candidate Genes Associated with Leaf Senescence in Cultivated Sunflower (Helianthus annuus L.).

Author

Moschen, Sebastian, Bengoa Luoni, Sofia, Paniego, Norma B., Hopp, H. Esteban, Dosio, Guillermo A. A., Fernandez, Paula, and Heinz, Ruth A.

Subjects
*LEAF aging, *CULTIVATED plants, *SUNFLOWER genetics, *VEGETABLE oils, *PHOTOSYNTHESIS, *TRANSCRIPTION factors, *AGRONOMY
Abstract

Cultivated sunflower (Helianthus annuus L.), an important source of edible vegetable oil, shows rapid onset of senescence, which limits production by reducing photosynthetic capacity under specific growing conditions. Carbon for grain filling depends strongly on light interception by green leaf area, which diminishes during grain filling due to leaf senescence. Transcription factors (TFs) regulate the progression of leaf senescence in plants and have been well explored in model systems, but information for many agronomic crops remains limited. Here, we characterize the expression profiles of a set of putative senescence associated genes (SAGs) identified by a candidate gene approach and sunflower microarray expression studies. We examined a time course of sunflower leaves undergoing natural senescence and used quantitative PCR (qPCR) to measure the expression of 11 candidate genes representing the NAC, WRKY, MYB and NF-Y TF families. In addition, we measured physiological parameters such as chlorophyll, total soluble sugars and nitrogen content. The expression of Ha-NAC01, Ha-NAC03, Ha-NAC04, Ha-NAC05 and Ha-MYB01 TFs increased before the remobilization rate increased and therefore, before the appearance of the first physiological symptoms of senescence, whereas Ha-NAC02 expression decreased. In addition, we also examined the trifurcate feed-forward pathway (involving ORE1, miR164, and ETHYLENE INSENSITIVE 2) previously reported for Arabidopsis. We measured transcription of Ha-NAC01 (the sunflower homolog of ORE1) and Ha-EIN2, along with the levels of miR164, in two leaves from different stem positions, and identified differences in transcription between basal and upper leaves. Interestingly, Ha-NAC01 and Ha-EIN2 transcription profiles showed an earlier up-regulation in upper leaves of plants close to maturity, compared with basal leaves of plants at pre-anthesis stages. These results suggest that the H. annuus TFs characterized in this work could play important roles as potential triggers of leaf senescence and thus can be considered putative candidate genes for senescence in sunflower. [ABSTRACT FROM AUTHOR]

Published
2014
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35. Microsatellite markers in candidate genes for wood properties and its application in functional diversity assessment in Eucalyptus globulus.

Author

Acuña, Cintia V., Villalba, Pamela V., García, Martín, Pathauer, Pablo, Hopp, H. Esteban, and Poltri, Susana N. Marcucci

Subjects
*EUCALYPTUS globulus, *PLANT genetics, *GENETIC markers in plants, *MICROSATELLITE repeats in plants, *PLANT diversity, *PLANT breeding, *GENETIC polymorphisms in plants
Abstract

Background: Functional genetic markers have important implications for genetic analysis by providing direct estimation of functional diversity. Although high throughput sequencing techniques for functional diversity analysis are being developed nowadays, the use of already well established variable markers present in candidate genes is still an interesting alternative for mapping purposes and functional diversity studies. SSR markers are routinely used in most plant and animal breeding programs for many species including Eucalyptus. SSR markers derived from candidate genes (SSR-CG) can be used effectively in co-segregation studies and marker-assisted diversity management. Results: In the present study, eight new non reported SSRs were identified in seven candidate genes for wood properties in Eucalyptus globulus: cinnamoyl CoA reductase (CCR), homocysteine S-methyltransferase (HMT), shikimate kinase (SK), xyloglucan endotransglycosylase 2 (XTH2), cellulose synthase 3 (CesA3), glutathione S-transferase (GST) and the transcription factor LIM1. Microsatellites were located in promoters, introns and exons, being most of them CT dinucleotide repeats. Genetic diversity of these eight CG-derived SSR-markers was explored in 54 unrelated genotypes. Except for XTH2, high levels of polymorphism were detected: 93 alleles (mean of 13.1 sd 1.6 alleles per locus), a mean effective number of alleles (Ne) of 5.4 (sd 1.6), polymorphic information content values (PIC) from 0.617 to 0.855 and probability of Identity (PI) ranging from 0.030 to 0.151. Conclusions: This is the first report on the identification, characterization and diversity analysis of microsatellite markers located inside wood quality candidate genes (CG) from Eucalyptus globulus. This set of markers is then appropriate for characterizing genetic variation, with potential usefulness for quantitative trait loci (QTL) mapping in different eucalypts genetic pedigrees and other applications such as fingerprinting and marker assisted diversity management. [ABSTRACT FROM AUTHOR]

Published
2012
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36. Búsqueda de genes candidatos que controlen QTLs involucrados en la resistencia al estrés hídrico mediante el análisis de perfiles transcripcionales en especies silvestres de Solanum

Author

Lucca, A. María Florencia and Hopp, H. Esteban

Subjects
MAPMAN, POTATO, GERMOPLAMS, PAPA, SEQUIA, GERMOPLASMA, MICROARRAYS, DROUGHT
Abstract

La papa (Solanum tuberosum ssp. tuberosum) es el tercer cultivo más importante y la dicotiledónea de mayor importancia en la alimentación. El estrés hídrico es la mayor limitante de la producción. En respuesta a la sequía las plantas activan estrategias que involucran adaptaciones morfológicas, fisiológicas y bioquímicas controladas por un número de genes aditivos y en muchas ocasiones sinérgicos. Esta tesis se focalizó en el análisis de los cambios transcripcionales de las especies silvestres de Solanum: S. venturii (VNT) y S. cardiophyllum (CPH) que presentan comportamientos contrastantes frente al estrés hídrico mediante hibridación con micromatrices de ADNc. Se analizaron 1.033.250 datos de expresión de 32 soportes de cristal de papa, que monitorearon 10 días de evolución del estrés. El análisis bioinformático de los datos de expresión de estas especies arrojó diferencias significativas en los perfiles transcripcionales. El análisis comparativo de estos perfiles reveló que en CPH se ven afectados por el tratamiento de sequía un total de 235 genes, mientras que en VNT la diferenciación involucra 4133 genes. Ambas especies presentan una expresión de 151 genes comunes. Los genes expresados diferencialmente no solo variaron en el número sino también en sus perfiles temporales de expresión. Los genes diferencialmente expresados como respuesta al tratamiento tendieron a agruparse mostrando comportamientos particulares en ambas especies. En CPH, los perfiles de expresión permitieron identificar al menos 5 conglomerados que resumen las principales tendencias del comportamiento de los transcriptos frente al estrés, mientras que en VNT la dinámica de expresión mostró expresiones contrastantes y agrupadas, que sugieren una regulación común sincrónica, confirmando la diversidad genética de respuestas en el germoplasma de especies silvestres de papa. Estas diferencias de expresión entre las especies silvestres de papa sugieren nuevas vías para explotar la variabilidad genética del germoplasma silvestre para el mejoramiento del cultivo. La información generada brinda interesantes genes candidatos involucrados en respuesta al estrés hídrico a la vez que permite identificar secuencias para el desarrollo de marcadores funcionales útiles en programas de mejoramiento asistido. The potato is the third most important crop and the most relevance dicot in feeding. Water stress is the greatest limitation of production. In response to drought, plant triggers strategies that involve morphological, physiological and biochemical changes controlled by a number of additive genes and often synergistic. This Thesis focused on the analysis of transcriptional profiling on Solanum wild species: S. venturii (VNT) and S. cardiophyllum (CPH) that present contrasting behavior under water stress using cDNA microarray hybridizations. We analyzed 1,033,250 expression data of 32 potato chips, which monitored 10 days of stress treatment. Bioinformatic analysis of expression data of wild species showed significant differences in transcriptional profiles. The comparative analysis of these profiles revealed that CPH differentially expressed under drought 235 genes, while VNT involves 4133 differentially genes. Both species have a common expression of 151 genes. Differentially expressed genes vary not only in number but also in their temporal expression profiles. The genes differentially expressed in response to stress tended to cluster following a particular behaviors in both species. In CPH, the expression profiles helped to identify at least 5 clusters that summarize the main trends of behavior of the transcripts under stress, while the dynamics of expression in VNT showed contrasting clustered patterns, suggesting a common regulation synchronously, confirming the genetic diversity of wild potato species responses. These differences in expression between wild potato species suggest new ways to exploit the genetic variability of wild germplasm for crop breeding. The information generated provides interesting candidate genes involved in response to water stress as well as to identify sequences for the development of useful functional Marker Aided Selection (MAS) in Plant Breeding programs. Fil: Lucca, A. María Florencia. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2011

37. New strategies for the transformation and expression of genes of interest in sunflower

Author

Radonic, Laura Mabel, Hopp, H. Esteban, Hopp, Horacio Esteban (director), and Lopez Bilbao, Marisa Gisela (co-directora)

Subjects
SELECTION, Expresión Génica, Selección, Vectores, Gene Expression, SELECCION, SUNFLOWER, Vectors, Genética, Helianthus Annuus, TRANSFORMATION, AGROINFILTRATION, PROMOTERS, PROMOTORES, GIRASOL, Genetics, TRANSFORMACION, AGROINFILTRACION, Agroinfiltración
Abstract

Tesis para obtener el grado de Doctora en el área de Ciencias Biológicas, de la Universidad de Buenos Aires, en 2010 El girasol es una especie de la familia Asteraceae (Compositae) de gran importancia económica, considerada hasta hace una década recalcitrante al cultivo in vitro y la transformación genética. En un trabajo previo (Radonic, 2005) se logró establecer el protocolo de selección por enraizamiento en kanamicina con una eficiencia del 0,7 %. En esta tesis se mejoró este protocolo utilizando una construcción portadora de los genes antifúngicos glucanasa y quitinasa, ambos bajo el control del promotor CaMV35S y el enhancer Ω del TMV, obteniéndose una eficiencia de 1,26 %, al aumentar gradualmente la concentración del antibiótico kanamicina en los sucesivos medios de regeneración. También se evaluó la especificidad y estabilidad de dos vectores conteniendo la construcción CaMV35S-secuencia codificante para la β-glucuronidasa (GUS)-interrumpida por un intrón. Las plantas T1 derivadas de los eventos de transformación presentaron un patrón de expresión de tipo no constitutivo, con expresión de GUS localizada exclusivamente en los tricomas de las nervaduras de la cara abaxial de las hojas, siendo necesario la utilización de lupa para su visualización. En las plantas T2 no se pudo detectar la presencia de los transgenes. El nivel bajo de expresión es similar al descripto en crisantemo y la inestabilidad génica obtenida con este mismo promotor fue también descripta en lechuga, ambas de la familia Asteraceae. Estos datos llevaron a la búsqueda de nuevos promotores para la transformación de girasol. Los promotores ensayados fueron CaMV35S-Ω TMV, PPC, nos, 2X35S y rbcS1. Estos promotores fueron incorporados en el vector Gateway pKGWFS7,0, diseñado para el análisis de promotores regulando, en todos los casos, la expresión del gen reportero GUS. Este vector, además posee el gen nptII de resistencia a kanamicina bajo la regulación del promotor nos. Para analizar la funcionalidad de las construcciones obtenidas se realizaron ensayos de agroinfiltración de Nicotiana benthamiana. La actividad de los promotores en girasol fue evaluada mediante ensayos de agroinfiltración en hojas de plantas en invernáculo y la evaluación temprana de los explantos blanco de transformación, por determinación histoquímica de GUS y cuantificación fluorométrica de MUG. Para los ensayos de agroinfiltración de girasol se logró establecer un protocolo, considerado hasta este momento como no factible, determinando el estadio de desarrollo de la planta, la cepa bacteriana a utilizar y el tiempo de análisis. Estos análisis permitieron seleccionar al promotor rbcS1 como el más adecuado, ya que presentó buenos niveles de actividad enzimática y, a diferencia del promotor CaMV35S-Ω TMV, se expresó mayoritariamente en la zona meristemática de los explantos blanco de transformación, región a partir de la cual se regeneran los brotes. Los resultados obtenidos en los ensayos de transformación estable mostraron que el uso del promotor rbcS1, en comparación al CaMV35S-Ω TMV, no solo aumentó los niveles de expresión de GUS (donde grandes regiones del mesófilo mostraron expresión) sino que modificó la expresión del gen nptII, mejorando notoriamente la eficiencia de transformación (aumentando de 1,26 % a 7,06 %). Además, mejoró la respuesta y el aspecto de las plantas obtenidas (T0) al ser transferidas al invernáculo (tanto por pasaje a tierra directo como por injerto), siendo éstas de gran porte y con capítulos florales más grandes, que resultaron en un aumento del número y tamaño de los aquenios obtenidos. Resultados similares fueron publicados en Arabidopsis donde el promotor CaMV35S afectaba y alteraba en trans el patrón de expresión de transgenes y cambiaba el fenotipo de las plantas transgénicas. El análisis de las plantas T1 permitió observar altos niveles de expresión del gen reportero, comparable al de otras especies vegetales. Los resultados expuestos muestran que es posible transformar girasol con buenos niveles de eficiencia y expresión. The sunflower is a species from the Asteraceae family of great economic importance, considered recalcitrant to in vitro culture and genetic transformation until a decade ago. In a previous work (Radonic, 2005) it was possible to establish a selection protocol by rooting in kanamycin with an efficiency of 0,7 %. In this thesis this protocol was improved using a construct carrying glucanase and chitinase antifungal genes, both under the CaMV35S promoter and TMV enhancer Ω, obtaining an efficiency of 1,26 % by gradually increasing kanamycin concentration in the successive regeneration media. The specificity and stability of two vectors containing the construct CaMV35S- β- glucuronidase codifying sequence (GUS)-interrumpted by an intron was also evaluated. The T1 plants derived from the transformation events showed a non-constitutive expression pattern, with GUS expression located only in the trichomes of the leaf veins on the abaxial surface of leaves, for its visualization it was necessary to use a magnifying glass. Detection of transgenes was not possible in T2 plants. This low expression level is similar to that described in chrysanthemum and the genetic instability achieved with the same promoter was also described in lettuce, both of the Asteraceae family. These data led to the search for new promoters for sunflower transformation. CaMV35S-Ω TMV, PPC, nos, rbcS1 and 2X35S promoters were assayed. These promoters were incorporated in pKGWFS7,0 Gateway vector, which is designed for promoter analysis regulating, in all cases, GUS reporter gene expression. This vector, also has the nptII kanamycin resistance gene under the regulation of nos promoter. Agroinfiltration assays in Nicotiana benthamiana in order to analyze de functionality of the obtained constructs were performed. Promoter activity in sunflower was evaluated in leaf agroinfiltration assays in greenhouse plants and early evaluation of the transformation target explants, by GUS histochemical determination and MUG fluorometric cuantification. A sunflower agroinfiltration protocol was established, until this moment considered not feasible, by determining the developmental plant stage, the bacterial strain used and the time of analysis. These analysis allowed to select rbcS1 promoter as the most suitable, as it showed good enzymatic activity levels and, unlike the CaMV35S-Ω TMV promoter, it is mostly expressed in the meristematic zone from the transformation target explants, region from which shoots regenerate. Results obtained in stable transformation assays showed that the use of rbcS1 promoter, compared with CaMV35S-Ω TMV promoter, not only increased GUS expression levels (where large regions of the mesophyll showed expression) but modified nptII gene expression, greatly improving transformation efficiency (which increased from 1,26 % to 7,06 %). Moreover, response and aspect of the obtained plants (T0) was improved when they were transferred to the greenhouse (both by direct passage to earth or grafting), they were large- sized and with larger floral chapters, resulting in an increase in the number and size of the obtained achenes. Similar results were published in Arabidopsis where the CaMV35S promoter affected and altered in trans transgene pattern expression and changed transgenic plants phenotype. T1 plants analysis allowed to observe high levels of reporter gene expression, comparable to that of other plant species. The above results show that it is possible to transform sunflower with good levels of efficiency and expression. Instituto de Biotecnología Fil: Radonic, Laura Mabel. Instituto Nacional de Tecnología Agropecuaria (INTA). Instituto de Biotecnología; Argentina

Published
2010

38. Transformación genética de girasol (Helianthus annuus L.)

Author

Lewi, Dalia Marcela, Hopp, H. Esteban, and Escandón, Alejandro S.

Subjects
HELIANTHUS ANNUUS L, TRANSGENIC PLANTS, MERISTEM TRANSFORMATION, SUNFLOWER TRANSFORMATION, TRANSFORMACION DE MERISTEMAS, AGROBACTERIUM TUMEFACIENS, AGROBACTERIUM TUMEFACIENCS, PLANTAS TRANSGENICAS, TRANSFORMACION DE GIRASOL
Abstract

El girasol (Helianthus annuus L.) es una de las especies con mayor dificultad para ser transformada genéticamente debido a que es difícil combinar la transformación y la regeneración en el mismo tipo de células (Potrykus,1990). Se han reportado numerosas variantes en cuanto a la transformación de meristemas derivados de embriones maduros de girasol en función de desarrollar un protocolo de transformación de mayor eficiencia y que pueda ser aplicado de rutina en ensayos con genes de interés. En el presente trabajo se ha estudiado la respuesta de diversos explantos para la transformación y regeneración y se ha logrado obtener plantas transgénicas a partir de diversos genotipos, concentrando la atención en el tratamiento de meristemas divididos del genotipo HA89. Se ajustaron las condiciones de agroinfección en cocultivo líquido para las cepas EHA 105 y C58, obteniendo una eficiencia de transformación (medida como plantas PCR positivas obtenidas en relación al número inicial de explantos tratados) de valores variables entre ensayos con promedios de 3.4% y 1.3% (para EHA105 y C58 respectivamente) y 5.23% para C58 conteniendo el plásmido 2x35SBtk. Se ha demostrado que el sistema propuesto es factible de aplicación con diversas cepas de Agrobacterium y plásmidos conteniendo distintos genes (tanto reporteros como de interés agronómico). También se ha estudiado la factibilidad de realizar ensayos a gran escala con el protocolo propuesto sin detrimento de la eficiencia de transformación. Sunflower (Helianthus annuus L.) is considered one of the recalcitrant species in terms of transformation and regeneration. A routine transformation system of this crop requires cell cultures competent for efficient plant regeneration as well as an effective method for gene delivery. Numerous attempts have been made to introduce foreign genetic material into sunflower. In this work the performance of some explants (cotyledons, hypocotyls, leafs, meristems) under regeneration and transformation conditions are described. A transformation system was developed using Agrobacterium tumefaciens and split embryonic axis explants of Ha89 genotype in liquid culture with the strains EHA105 and C58. Mean transformation efficiency (PCR+ plants/treated explants) varied between experiments: 3.4% and 1.3% , for EHA105 and C58 respectively and 5.23% for C58 containing p2x35SBtk plasmid. The developed system has applicability to several Agrobacterium strains and plasmids with both reporter o agronomic interest genes. Transformation system scaling up was studied too, without loss of transformation efficiency. Fil: Lewi, Dalia Marcela. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2004

39. Detection of single copy sequences using BAC-FISH and C-PRINS techniques in sunflower chromosomes.

Author

Talia P, Greizerstein EJ, Hopp HE, Paniego N, Poggio L, and Heinz RA

Subjects
Base Sequence, Genetic Markers, Quantitative Trait Loci, Chromosomes, Artificial, Bacterial genetics, Chromosomes, Plant, Helianthus genetics, In Situ Hybridization, Fluorescence methods, Sequence Analysis, DNA methods
Abstract

Bacterial artificial chromosome-fluorescence in situ hybridization (BAC-FISH) and cycling-primed in situ labeling (C-PRINS) techniques were evaluated for integration of physical and genetic maps of sunflower (Helianthus annuus L.). Single-site SSR markers were selected from three linkage groups of a high-density sunflower genetic map. This selection was based on previously identified QTL associated to S. sclerotiorum. These markers were used to select BACs contaning single copy sequences for BAC-FISH aplication. Blocking of highly dispersed repetitive sunflower sequences reduced unspecific hybridization, and allowed the detection of specific signals for BACs containing SSR markers HA4222 and HA2600, anchored to LG 16 and LG 10, respectively. Single-site FISH signal detection was optimized by adjusting the relative quantity and quality of unlabelled repetitive sequences present in the blocking DNA. The SSR marker ORS1247 anchored to the LG 17 was detected by C-PRINS, which yielded fluorescence signals that were specific and intense. This progress in localizing single-copy sequences using BAC-FISH and indirect C-PRINS strategies in sunflower will facilitate the integration of genetic and physical maps, allowing the identification of chromosomes containing key genes and/or QTL associated to agronomic important traits in sunflower.

Published
2011

40. RNA-mediated virus resistance.

Author

Vazquez Rovere C, del Vas M, and Hopp HE

Subjects
Gene Silencing, Genetic Engineering methods, Plant Viruses pathogenicity, Plants, Genetically Modified virology, RNA Processing, Post-Transcriptional, Plant Viruses genetics, Plants, Genetically Modified genetics
Abstract

Post-transcriptional gene silencing is an RNA degradation mechanism that can be induced by viruses. Recent evidence indicates that silencing may also be involved in virus synergism, tissue limitation of virus spread, non-host resistance, virus transmission through seeds and in more general mechanisms of defense such as that mediated by salicylic acid. The analysis of Arabidopsis mutants, and of viruses carrying silencing suppressors, has led to a greater understanding of post-transcriptional gene silencing pathways. Much still remains to be discovered, however, not least to allow the successful exploitation of gene silencing in conferring pathogen resistance to transgenic plants.

Published
2002
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