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Journal articles 2007

Documents

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Ability of chromosome 4H to compensate for 4D in response to drought stress in a newly developed and identified wheat-barley 4H(4D) disomic substitution line Ability of chromosome 4H to compensate for 4D in response to drought stress in a newly developed and identified wheat-barley 4H(4D) disomic substitution line

Molnár I, Linc G, Dulai SD Nagy E and Molnár-Láng M (2007). Ability of chromosome 4H to compensate for 4D in response to drought stress in a newly developed and identified wheat-barley 4H(4D) disomic substitution line. Plant Breeding 126(4):369–374. (DOI: 10.1111/j.1439-0523.2007.01300.x).

A spontaneously developed wheat–barley 4H(4D) disomic substitution line was identified cytogenetically using genomic in situ hybridization (GISH), multicolour fluorescent in situ hybridization (FISH) and microsatellite markers. The ability of the barley 4H chromosome to compensate for wheat 4D in response to mild drought stress was also investigated. In the barley cv. ‘Betzes’ and the 4H(4D) substitution line, mild osmotic stress induced intensive stomatal closure, resulting in reduced water loss through transpiration and unchanged relative water content in the leaves.

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A model of sorghum photoperiodism using the concept of threshold-lowering during prolonged appetence A model of sorghum photoperiodism using the concept of threshold-lowering during prolonged appetence

Dingkuhn M, Kouressy M, Vaksmann M, Clerget B and Chantereau J (2007). A model of sorghum photoperiodism using the concept of threshold-lowering during prolonged appetence. European Journal of Agronomy published online 23 July 2007. Also printed in 2008. (DOI: 10.1016/j.eja.2007.05.005). Not open access: view abstract

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Large variation in salinity tolerance is explained by differences in the sensitivity of reproductive stages in chickpea Large variation in salinity tolerance is explained by differences in the sensitivity of reproductive stages in chickpea

Vadez V, Krishnamurthy L, Gaur PM, Upadhyaya HD, Hoisington DA, Varshney RK, Turner NC and Siddique KHM (2007). Large variation in salinity tolerance is explained by differences in the sensitivity of reproductive stages in chickpea. Field Crops Research 104(1–3):123–129. (DOI: 10.1016/j.fcr.2007.05.014). Not open access: view abstract

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Data resolution: a jackknife procedure for determining the consistency of molecular marker datasets Data resolution: a jackknife procedure for determining the consistency of molecular marker datasets

van Hintum T  (2007). Data resolution: a jackknife procedure for determining the consistency of molecular marker datasets. Theoretical and Applied Genetics 115 (3):343–349. (DOI: 10.1007/s00122-007-0566-5).

The results of genetic diversity studies using molecular markers not only depend on the biology of the studied objects but also on the quality of the marker data. Poor data quality may hamper the correct answering of biological questions. A new statistic is proposed to estimate the quality of a marker data set with regard to its ability to describe the structure of the biological material under study. This statistic is called data resolution (DR). It is calculated by splitting a marker data set at random into two sets each with half the number of markers. In each set, similarities between all pairs of objects are calculated.

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Isolation and characterization of the highly repeated fraction of the banana genome Isolation and characterization of the highly repeated fraction of the banana genome

Hřibová E, Doleželová M, Town CD, Macas J, Doležel J (2007). Isolation and characterization of the highly repeated fraction of the banana genome. Cytogenetic and Genome Research 119(3–4):268–274. (DOI: 10.1159/000112073). Not open access: view abstract

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Extensive simple sequence repeat genotyping of potato landraces supports a major reevaluation of their gene pool structure and classification Extensive simple sequence repeat genotyping of potato landraces supports a major reevaluation of their gene pool structure and classification

Spooner DM, Nuñez J, Trujillo G, del Rosario Herrera M, Guzmán F and Ghislain M (2007). Extensive simple sequence repeat genotyping of potato landraces supports a major reevaluation of their gene pool structure and classification. Proceedings of the National Academy of Sciences of the United States of America 104(49):19398–19403 (DOI: 10.1073/pnas.0709796104). View online

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Identification of an AFLP fragment linked to rust resistance in asparagus bean and its conversion to a SCAR marker Identification of an AFLP fragment linked to rust resistance in asparagus bean and its conversion to a SCAR marker

Li G, Liu Y, Ehlers JD, Zhu Z, Wu X, Wang B and Lu Z (2007). Identification of an AFLP fragment linked to rust resistance in asparagus bean and its conversion to a SCAR marker. Horticultural Science 42(5):1153–1156. Not open access: view abstract

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A gene in the multidrug and toxic compound extrusion (MATE) family confers aluminium tolerance in sorghum A gene in the multidrug and toxic compound extrusion (MATE) family confers aluminium tolerance in sorghum

Magalhães JV, Liu J, Guimarães CT, Lana UGP, Alves VMC, Wang YH, Schaffert RE, Hoekenga OA, Piñeros MA, Shaff JE, Klein PE, Carneiro NP, Coelho CM, Trick HN and Kochian LV (2007). A gene in the multidrug and toxic compound extrusion (MATE) family confers aluminium tolerance in sorghum. Nature Genetics 39(9):1156–1161 (DOI: 10.1038/ng2074). Not open access: view abstract

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Domestication, genomics and the future for banana Domestication, genomics and the future for banana

Heslop-Harrison JS and Schwarzacher T (2007). Domestication, genomics and the future for banana. Annals of Botany 100(5):1073–1084. (DOI: 10.1093/aob/mcm191).

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Marker-assisted introgression of resistance to cassava mosaic disease into Latin American germplasm for the genetic improvement of cassava in Africa Marker-assisted introgression of resistance to cassava mosaic disease into Latin American germplasm for the genetic improvement of cassava in Africa

Okogbenin E, Porto MCM, Egesi C, Mba C, Espinosa E, Santos LG, Ospina C, Marín J, Barrera E, Gutiérrez J, Ekanayake I, Iglesias C and Fregene MA (2007). Marker-assisted introgression of resistance to cassava mosaic disease into Latin American germplasm for the genetic improvement of cassava in Africa. Crop Science 47(5):1895–1904 (DOI:10.2135/cropsci2006.10.0688). Not open access: view online

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