Congressi SIGA
- Book of abstract
- Scientific Programme
- Session I - Biodiversity and Genetic Resources
- Lecture Monsanto "Maria Rita Mogno"
- Session II – Integrating genomics and phenomics
- Session III – Plant reproductive systems
- Session IV – Plant-environment interactions
- Session V – From model plants to crops
- Session VI – Genomics and breeding of cereals
- Session VII - Genetics and Breeding
- Symposium on "DNA coding or not coding: that is the question!"
- Authors Index
- Keywords Index
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CNR - Istituto di Genetica
Vegetale - Bari |
Ministero delle Politiche Agricole, Alimentari e Forestali |
Ministero dell'Istruzione Università e Ricerca |
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PROVINCIA DI MATERA |
COMUNE DI MATERA |
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Session VI – Genomics and breeding of cereals
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INVITED LECTURE |
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6.01 | Paux E., Choulet F., Leroy P., Sourdille P., Rustenhoz C., Saintenac C., Appels R., Spielmeyer W., Keller B., Cattonaro F., Dolezel J., Feuillet C. - A physical map of chromosome 3B as a foundation for sequencing and marker development in hexaploid wheat (Triticum aestivum L.) |
ORAL COMMUNICATIONS |
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6.02 |
Vitulo N., Albiero A., Forcato C., Campagna D., Dal Pero F., Cattivelli L., Bagnaresi P., Colaiacovo M., Faccioli P., Lamontanara A., Simkova H., Dolezel J., Perrotta G., Facella P., Lopez L., Pietrella M., Gianese G., Giuliano G., Valle G., Stanca M. - A first survey of the wheat chromosome 5A composition through a next-generation sequencing approach |
6.03 |
Gadaleta A., Nigro D., Blanco A. - Candidate gene approach for the study of grain protein content in durum wheat and isolation of glutamine synthetase gene sequences |
6.04 | Graziani M., Maccaferri M., Sanguineti M.C., Paux E., Salse J., Choulet F., Feuillet C., Stefanelli S., Demontis A., Tuberosa R. - Towards the fine mapping of a major QTL on chromosome 3BS for yield and plant vigour in durum wheat |
6.05 | Trono D., De Vita V., Mastrangelo A.M., Verlotta A., De Simone V., Di Gesù A.M., De Santis G., Cattivelli L., Blanco A. - Genetic variability of carotenoid content and lipoxygenase among durum wheat genotypes |
POSTERS |
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Vendramin V., Radovic S., Scalabrin S., Jurman I., Del Fabbro C., Cattonaro F., Steuernagel B., Stein N., Morgante M. - The analysis of 400 Mbp BAC-ends sequences (BES) data exposes the barley genome repetitive fraction composition |
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6.07 | Gennaro A., Kuzmanovic L., Forte P., Lattanzi G., Grossi R., Bitti A., Giorgi D., Quarrie S.A., Ceoloni C. - Genetic and cytogenetic maps of durum wheat-Thinopyrum ponticum recombinant chromosomes: a tool to finely describe Triticeae 7L arms and to target alien traits |
6.08 | Lacrima K., Barabaschi D., Orrù L., Martini A., Volante A., Desiderio F., Faccioli P., Bagnaresi P., Colaiacovo M., Francia E., Fricano A., Dolezel J., Kilian A., Blanco A., Valè G., Cattivelli L., Stanca A.M. - Development of bread wheat chromosome 5A-specific molecular markers |
6.09 | Giancaspro A., Giove S.L., Gadaleta A., Barabaschi D., Cattivelli L., Stanca M., Blanco A. - Development of a deletion map of wheat chromosomes 5A and 5B |
6.10 | Taranto F., Mangini G., Laidò G., De Vita P., Mastrangelo A.M., Cattivelli L., Papa R., Blanco A. - Structure and genetic diversity in a collection of tetraploid wheats |
6.11 | Panio G., Marone D., Del Olmo A.I., Sillero J.C., Russo M.A., Ferragonio P., Giovanniello V., De Vita P., Cattivelli L., Rubiales D., Mastrangelo A.M. - Comparison of genetic maps of durum wheat using SSR and DArT markers |
6.12 | Incerti O., Giorgi D., Gadaleta A., Blanco A., Lucretti S. - EST-SSR markers mapping using flow sorted wheat 5A chromosome arms |
6.13 | Colaiacovo M., Spini M., Alberici R., Subacchi A., Crosatti C., Cattivelli L., Faccioli P. - MicroRNA-based gene regulation in barley (Hordeum vulgare L.): identification of functional polymorphisms at target sites |
6.14 | Altana A., Tononi P., Ferrarini A., Rossi V. - Microarray platform for the analysis of Zea mays mRNA and small RNA transcriptome |
6.15 | Gombaud G., Masci S., Lafiandra D. - Identification of wheat chromosome 5A encoded polypeptides by a proteomic approach |
6.16 | Crosatti C., Quansah L., Atienza S.G., Marè C., Cattivelli L., Fait A. - Exploitation of diversity in nuclear-cytoplasm interaction using alloplasmic wheat lines |
6.17 | Natoli V., Coraggio I., Corneti S., Mattana M. - The rice Osmyb4 gene improves drought tolerance in transgenic maize |
6.18 | Cassani E., Bucci A., Cerino Badone F., Villa D., Landoni M., Sirizzotti A., Reginelli D., Pilu R. - Study of the interaction between brown midrib3 and brachytic2 mutations in maize |
6.19 | Cifarelli R.A., Mango T., Grillo R., D’Onofrio O., Cellini F. - Isolation of protein disulfide isomerase (PDI) genomic locus by screening of a durum wheat BAC library |
6.20 | Terracciano I., Maccaferri M., Bassi F., Mantovani P., Simkova H., Massi A., Tuberosa R., Sanguineti M.C. - Fine mapping of the Lr14 locus from the Creso resistant source in durum wheat |
6.21 | Piarulli L., Simeone R., Gadaleta A., Mangini G., Pasquini M., Blanco A. - Identification and mapping of a powdery mildew resistance gene derived from Triticum turgidum var. dicoccum |
6.22 | Sangiorgio S., Gabotti D., Consonni G., Gavazzi G. - Evidence of interaction between mutants of different emp
genes |
6.23 | Frascaroli E., Landi P., Canè M.A., Pea G., Morgante M., Pè M.E. - From QTL analysis to evaluation of near isogenic lines for heterotic QTL in maize |
6.24 | Yousefi Javan I., Mondini L., Nachit M.M., Porceddu E., Pagnotta M.A. - Building up a new intra-specific durum wheat genetic map, using SSR markers, to identify QTL for abiotic tolerance |
6.25 | Maccaferri M., Talebi R., Kema G., Francia R., Tuberosa R., Sanguineti M.C. - Mapping Septoria tritici blotch response in durum wheat |
6.26 | Maccaferri M., Letta Dugo T., Badebo A., Ammar K., Sanguineti M.C., Crossa J., Bovina R., Tuberosa R. - Mapping stem rust resistance in durum wheat |
6.27 | Cifarelli R., D’Onofrio O., Ditano P., Mango T., Grillo R., Blanco A., Cellini C., Gadaleta A., Piarulli L., Simeone R. - Expression profile in two durum wheat isogenic lines differing in powdery mildew resistance gene by large-scale analysis of expressed sequence tags |
6.28 | Giancaspro A., Gadaleta A., Rosellini D., Blanco A. - Alternative selectable marker genes for durum wheat genetic transformation |
6.29 | Giusti L., Faccini N., Reggiani F., Alberici R., Pagani D., Biselli C., Valè G., Tacconi G. - Marker assisted selection and gene-pyramiding in barley for disease resistances: toward to genomic selection |
6.30 | Pontieri P., Massardo D.R., Di Maro A., Tamburino R., De Stefano M., Bean S.R., De Vita P., Alifano P., Del Giudice L. - Composition of food-grade sorghum varieties grown under Mediterranean conditions |
6.31 | Massardo D.R., Pontieri P., Di Fiore R., Troisi J., Bean S.R., Okot J., Alifano P., Del Giudice L. - Fatty acid and composition of white food sorghums grown in different environments |
6.32 | Cerino Badone F., Cassani E., Bucci A., Villa D., Sirizzotti A., Zanzi C., Tenni D., Pilu R. - Different combinations of anthocyanin regulatory genes are able to change the composition and the amounts of the anthocyanins in maize kernel |
6.33 | Gazza L., Gazzelloni G., Sgrulletta D., Ianni M., D’Ovidio R., Pogna N.E. - Kernel texture and rheological properties of durum wheat lines containing puroindolines or vromindolines |
6.34 | Sestili F., Botticella E., Proietti G., Lafiandra D. - Overexpression of a WAXY gene doesn’t increase the amylose content in durum wheat |
6.35 | Margiotta B., Colaprico G., Urbano M. - Wheat kernel proteins and evaluation of wheat genetic resources |
6.36 | Montemurro C., Alba V., Mangini G., Blanco A., Pasqualone A. - PDO Altamura bread traceability by DNA microsatellite analysis |
6.37 | Panichi D., Rogniaux H., Penninck S., Popineau Y., Masci S., Lafiandra D. - A proteomic approach to assign disulphide bonds of the wheat high molecular weight glutenin subunit Bx7 |
6.38 | Balconi C., Hartings H., Lauria M., Rossi V., Motto M. - Gene discovery to improve grain quality-related traits in maize |
6.39 | Lupi R., Denery D., Lafiandra D., Masci S., Larré C. - Allergens of the salt-soluble fraction of the grain are not modified in a GM line over-expressing a glutenin low molecular weight subunit |
6.40 | Ciaffi M., Paolacci A.R., D’Aloisio E., Dhanapal A.P., Tanzarella O.A., Porceddu E. - Protein disulfide isomerase gene family in wheat: genomic structure, phylogenetic and expression analyses |
6.41 | Ferrari A., Introzzi F., Mascheroni S., Laganà P., Mazzinelli G., Verderio A. - Research of inbreds lines for the formualtion of hybrids useful for heavy pig |