Congressi SIGA
- Book of abstract
- Scientific Programme
- Session 1 - New breeding objectives and strategies
- Session 2 - Plant phenotyping
- Session 3 - Gene regulation in higher plants
- Session 4 - Plant metabolomics and crop improvement
- Session 5 - Biodiversity and Breeding
- Session 6 - Genome evolution and domestication
- Session 7 - Towards EXPO 2015: Genetics and physiology of biotic stresses
- Session 8 - Towards EXPO 2015: Climate change, abiotic stresses and crop yield
- Session 9 - Genetics and Biotechnology
- Special Communications
- Authors Index
- Keywords Index
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 Centro di Ricerca per la Cerealicoltura (CRA-CER) | Under the patronage of: |
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 Provincia di Foggia |
With the support of: |
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 Comune di Foggia |
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Session 8 - Towards EXPO 2015: Climate change, abiotic stresses and crop yield
INVITED LECTURES |
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| Sulpice R., Pyl E.-T., Piques M., Ivakov A., Schulze W.X., Ishihara H., Stitt M. Cold stress does not necessarily inhibit plant growth: it depends on when it occurs during the day |
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| 8.02 |
Sreenivasulu N. Systems biology perspectives to unravel global abiotic stress response |
ORAL COMMUNICATIONS |
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| 8.03 | Longo C., Lupini A., Mercati F., Princi M.P., Miller A.J., Abenavoli M.R., Sunseri F. Nitrogen use efficiency in tomato involves a high affinity long-distance nitrate trasporter |
| 8.04 | Verrillo F., Rocco M., Occhipinti A., Maffei M.E., Marra M. Plasmodesmata are involved in abiotic stress signalling |
| 8.05 | Trono D., Laus M.N., Soccio M., Pastore D. How plant mitochondria may contribute to cell resistance to abiotic stresses. The case study of durum wheat |
| 8.06 | Faã M., Biggiogera M., SabatiniM.E., Donà M., Balestrazzi A., Carbonera D. Understanding the dynamics of stress sensing within the plant nucleolus: investigation of the role played by the MtTdp gene family encoding Tyrosyl DNA phosphodiesterase enzyme |
| 8.07 | Lunardon A., Del Fabbro C., De Paoli E.,
Hardcastle T., Forestan C., Farinati S., Varotto S. Analysis of small RNA populations of maize leaves following abiotic stress treatments |
| 8.08 | Marconi G., Pace R., Raggi L., Traini A., Lutts S., Guiducci M., Falcinelli M., Benincasa P., Chiusano M.L., Albertini E. DNA methylation influence rapeseed (Brassica napus var. oleifera Del.) gene expression in response to salt stress conditions |
POSTERS |
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| 8.09 | Verna M., Farinati S., Varotto S., Lucchin M. Contribution of chromatin to the regulation of genome activity in response to environmental stress in grapevine rootstocks |
| 8.10 | Baldoni E., Bagnaresi P., Locatelli F.,
Mattana M., Genga A. RNA-Seq analysis of differential response to osmotic stress in Italian rice cultivars |
| 8.11 | Frascaroli E., Landi P. Direct and correlated responses to divergent selection for germination at low temperature in maize |
| 8.12 | Tatino F., Fasano C., Villano C.,
Frusciante L., Aversano R. Trascriptional profiling of the cold tolerant species Solanum commersonii Dun. |
| 8.13 | Visioni A., Tondelli A., Francia E.,
Pswarayi A., Malosetti M., Russell J., Thomas W., Waugh R.,
Pecchioni N., Romagosa I., Comadran J. Genome-wide association mapping of frost tolerance in barley (Hordeum vulgare L.) |
| 8.14 | Pignone D., Marmiroli N., Rapanà
N., Morgese A., Carella G., Janni M. Exploit the natural biodiversity of durum wheat as a tool to face climate change’s effects |
| 8.15 | Forestan C., Del Fabbro C., Farinati S.,
Lunardon A., Varotto S. Monitoring stress-induced genetic and epigenetic changes in the transcriptome of Zea mays |
| 8.16 | Lo Cicero L., Madesis P., Lo Piero A.R. Fluorodifen herbicide tolerance in transgenic tobacco plants overexpressing CsGSTUs |
| 8.17 | De Pascali M., Galati C., Leucci F., Rampino P., Perrotta C. Identification of a durum wheat gene coding for a putative member of the AGC protein kinase family |
| 8.18 | Canè M.A., Maccaferri M., Colalongo C., Francia R., Nazemi G., Graziani M., Frascaroli E., Salvi S., Talamè V., Tuberosa R. Evaluation of root architectural traits at the seedling stage in durum wheat as related to grain yield across a broad range of water regimes |
| 8.19 | Caruso P., Locatelli F., Tononi P.,
Reforgiato Recupero G., Delledonne M., Licciardello C. Expression analysis of anoxic regulated genes in Carrizo citrange rootstock |
| 8.20 | D'Orso F., De Leonardis A.M., Salvi S.,
Ruberti I., Papa R., Cattivelli L., Morelli G., Mastrangelo A.M. Tandem zinc-finger proteins are involved in seed germination and abiotic stress response in Arabidopsis and durum wheat |
| 8.21 | Iovieno P., Batelli G., Mistretta C.,
Punzo P., Guida G., Colantuono C., Bostan H., Chiusano M., Nurcato R.,
Oliva M., Albrizio R., Giorio P., Grillo S. An integrated view of gene expression, physiological and metabolic changes triggered in tomato by drought and rehydration |
| 8.22 | Sellitto S., Chiaiese P., Rigano M.M.,
Barone A., Frusciante L., Di Matteo A. Dissecting drought tolerance in a tomato introgression line |
| 8.23 | Ambrosone A., Punzo P., Costa A.,
Bangarusamy D.K., Leone A., Batelli G., Grillo S. An Arabidopsis RNA binding protein is involved in tolerance to drought and salt stress |
