Theoretical and Applied Genetics

Journal: Theoretical and Applied Genetics

Abbreviation

Theor Appl Genet

Publisher

Springer

ISSN

0040-5752
1432-2242

Show all metadata

Search Results

Publications1 - 10 of 34

Towards the map-based cloning of Vf: fine and physical mapping of the Vf Region
Patocchi, Andrea; Gianfranceschi, Luca; Gessler, Cesare (1999)
Theoretical and Applied Genetics
Inheritance of field resistance to Stagonospora nodorum leaf and glume blotch and correlations with other morphological traits in hexaploid wheat (Triticum aestivum L.)
Aguilar, V.; Stamp, P.; Winzeler, M.; et al. (2005)
Theoretical and Applied Genetics
Overcoming self-incompatibility in grasses: a pathway to hybrid breeding
Do Canto, Javier; Studer, Bruno; Lübberstedt, Thomas (2016)
Theoretical and Applied Genetics
Genetic mapping of the pear scab resistance gene Vnk of Japanese pear cultivar Kinchaku
Terakami, S.; Shoda, M.; Adachi, Y.; et al. (2006)
Theoretical and Applied Genetics
QTL involved in the partial restoration of male fertility of C-type cytoplasmic male sterility in maize
Kohls, Susanne; Stamp, Peter; Knaak, Carsten; et al. (2011)
Theoretical and Applied Genetics
Identification of functional apple scab resistance gene promoters
Silfverberg-Dilworth, Eve; Besse, S.; Paris, R.; et al. (2005)
Theoretical and Applied Genetics
Fine-mapping of a major QTL controlling angular leaf spot resistance in common bean (Phaseolus vulgaris L.)
Keller, Beat; Manzanares, Chloe; Jara, Carlos; et al. (2015)
Theoretical and Applied Genetics
Common bean (Phaseolus vulgaris L.) is an important grain legume and an essential protein source for human nutrition in developing countries. Angular leaf spot (ALS) caused by the pathogen Pseudocercospora griseola (Sacc.) Crous and U. Braun is responsible for severe yield losses of up to 80 %. Breeding for resistant cultivars is the most ecological and economical means to control ALS and is particularly important for yield stability in low-input agriculture. Here, we report on a fine-mapping approach of a major quantitative trait locus (QTL) ALS4.1GS, UC for ALS resistance in a mapping population derived from the resistant genotype G5686 and the susceptible cultivar Sprite. 180 F3 individuals of the mapping population were evaluated for ALS resistance and genotyped with 22 markers distributed over 11 genome regions colocating with previously reported QTL for ALS resistance. Multiple QTL analysis identified three QTL regions, including one major QTL on chromosome Pv04 at 43.7 Mbp explaining over 75 % of the observed variation for ALS resistance. Additional evaluation of 153 F4, 89 BC1F2 and 139 F4/F5/BC1F3 descendants with markers in the region of the major QTL delimited the region to 418 kbp harboring 36 candidate genes. Among these, 11 serine/threonine protein kinases arranged in a repetitive array constitute promising candidate genes for controlling ALS resistance. Single nucleotide polymorphism markers cosegregating with the major QTL for ALS resistance have been developed and constitute the basis for marker-assisted introgression of ALS resistance into advanced breeding germplasm of common bean.
Creating a saturated reference map for the apple (Malus x domestica Borkh.) genome
Liebhard, Robert; Koller, Bernhard; Gianfranceschi, Luca; et al. (2003)
Theoretical and Applied Genetics
QTLs for the elongation of axile and lateral roots of maize in response to low water potential
Ruta, N.; Liedgens, M.; Fracheboud, Y.; et al. (2010)
Theoretical and Applied Genetics
Mapping of QTLs for lateral and axile root growth of tropical maize
Trachsel, Samuel; Messmer, Rainer; Stamp, Peter; et al. (2009)
Theoretical and Applied Genetics

Publications1 - 10 of 34

Journal: Theoretical and Applied Genetics

Abbreviation

Publisher

Journal Volumes

ISSN

Description

Filters

Search Results