Multiple-line cross QTL mapping for biomass yield and plant height in triticale (× Triticosecale Wittmack)

[1]  J. Reif,et al.  Precision phenotyping of biomass accumulation in triticale reveals temporal genetic patterns of regulation , 2013, Scientific Reports.

[2]  Arno Ruckelshausen,et al.  BreedVision — A Multi-Sensor Platform for Non-Destructive Field-Based Phenotyping in Plant Breeding , 2013, Sensors.

[3]  J. Reif,et al.  Multiple-line cross quantitative trait locus mapping in sugar beet (Beta vulgaris L.) , 2013, Molecular Breeding.

[4]  J. Reif,et al.  Effect of inter- and intragenic epistasis on the heritability of oil content in rapeseed (Brassica napus L.) , 2013, Theoretical and Applied Genetics.

[5]  J. Reif,et al.  Genetic architecture of complex agronomic traits examined in two testcross populations of rye (Secale cereale L.) , 2012, BMC Genomics.

[6]  Matthew R. Tucker,et al.  Optimum design of family structure and allocation of resources in association mapping with lines from multiple crosses , 2012, Heredity.

[7]  J. Reif,et al.  Improved efficiency of doubled haploid generation in hexaploid triticale by in vitro chromosome doubling , 2012, BMC Plant Biology.

[8]  G. Porta,et al.  Detection of QTL for flowering time in multiple families of elite maize , 2012, Theoretical and Applied Genetics.

[9]  J. Reif,et al.  Exploitation of Elite Maize ( Zea mays L.) Germplasm across Maturity Zones , 2012 .

[10]  G. Porta,et al.  Comparison of biometrical approaches for QTL detection in multiple segregating families , 2012, Theoretical and Applied Genetics.

[11]  T. Würschum Mapping QTL for agronomic traits in breeding populations , 2012, Theoretical and Applied Genetics.

[12]  B. S. Dhillon,et al.  Breeding maize as biogas substrate in Central Europe: I. Quantitative-genetic parameters for testcross performance , 2012, Theoretical and Applied Genetics.

[13]  B. S. Dhillon,et al.  Breeding maize as biogas substrate in Central Europe: II. Quantitative-genetic parameters for inbred lines and correlations with testcross performance , 2012, Theoretical and Applied Genetics.

[14]  T. Miedaner,et al.  Quantitative genetic parameters for selection of biomass yield in hybrid rye. , 2012 .

[15]  J. Reif,et al.  Multiple‐Line Cross Quantitative Trait Locus Mapping in European Elite Maize , 2011 .

[16]  J. Reif,et al.  Comparison of biometrical models for joint linkage association mapping , 2011, Heredity.

[17]  J. Reif,et al.  Detection of segregation distortion loci in triticale (x Triticosecale Wittmack) based on a high-density DArT marker consensus genetic linkage map , 2011, BMC Genomics.

[18]  J. Reif,et al.  Mapping QTLs with main and epistatic effects underlying grain yield and heading time in soft winter wheat , 2011, Theoretical and Applied Genetics.

[19]  H. Piepho,et al.  Genetic architecture of plant height in winter rye introgression libraries , 2011 .

[20]  Manje Gowda,et al.  Potential for simultaneous improvement of grain and biomass yield in Central European winter triticale germplasm , 2011 .

[21]  Hans-Peter Piepho,et al.  Augmented p‐rep designs , 2011, Biometrical journal. Biometrische Zeitschrift.

[22]  Genlou Sun,et al.  Inheritance and identification of molecular markers associated with a novel dwarfing gene in barley , 2010, BMC Genetics.

[23]  T. Miedaner,et al.  Biomass yield of self-incompatible germplasm resources and their testcrosses in winter rye. , 2010 .

[24]  T. Miedaner,et al.  Genetic variation of winter rye cultivars for their ergot (Claviceps purpurea) reaction tested in a field design with minimized interplot interference , 2010 .

[25]  H. Piepho,et al.  Comparison of Weighting in Two‐Stage Analysis of Plant Breeding Trials , 2009 .

[26]  Steven J. M. Jones,et al.  Circos: an information aesthetic for comparative genomics. , 2009, Genome research.

[27]  Peter J. Bradbury,et al.  The Genetic Architecture of Maize Flowering Time , 2009, Science.

[28]  Zhiwu Zhang,et al.  Association Mapping: Critical Considerations Shift from Genotyping to Experimental Design , 2009, The Plant Cell Online.

[29]  M. Herrmann A diallel analysis of various traits in winter triticale , 2007 .

[30]  B. Mangin,et al.  Connected populations for detecting quantitative trait loci and testing for epistasis: an application in maize , 2006, Theoretical and Applied Genetics.

[31]  J. Jannink,et al.  Using mating designs to uncover QTL and the genetic architecture of complex traits , 2006, Heredity.

[32]  G. Oettler The fortune of a botanical curiosity – Triticale: past, present and future , 2005, The Journal of Agricultural Science.

[33]  A. Melchinger,et al.  Prospects for Hybrid Breeding in Winter Triticale: I. Heterosis and Combining Ability for Agronomic Traits in European Elite Germplasm , 2005 .

[34]  Chris S. Haley,et al.  Epistasis: too often neglected in complex trait studies? , 2004, Nature Reviews Genetics.

[35]  A. Melchinger,et al.  Quantitative Trait Locus Mapping Based on Resampling in a Vast Maize Testcross Experiment and Its Relevance to Quantitative Genetics for Complex Traits , 2004, Genetics.

[36]  P. S. Baenziger,et al.  Transferability of SSR markers among wheat, rye, and triticale , 2004, Theoretical and Applied Genetics.

[37]  M. Lee,et al.  Genomic regions controlling vernalization and photoperiod responses in oat , 2002, Theoretical and Applied Genetics.

[38]  A. Rebaï,et al.  More about quantitative trait locus mapping with diallel designs. , 2000, Genetical research.

[39]  C. Schön,et al.  Bias and Sampling Error of the Estimated Proportion of Genotypic Variance Explained by Quantitative Trait Loci Determined From Experimental Data in Maize Using Cross Validation and Validation With Independent Samples. , 2000, Genetics.

[40]  A. Graner,et al.  Molecular mapping of two dwarfing genes differing in their GA response on chromosome 2H of barley , 1999, Theoretical and Applied Genetics.

[41]  V. Korzun,et al.  Detection of quantitative trait loci on chromosome 5R of rye (Secale cereale L.) , 1999, Theoretical and Applied Genetics.

[42]  A. Graner,et al.  Comparative mapping of a gibberellic acid-insensitive dwarfing gene (Dwf2) on chromosome 4HS in barley , 1999, Theoretical and Applied Genetics.

[43]  A. Börner,et al.  Optimizing wheat grain yield: effects of Rht (gibberellin-insensitive) dwarfing genes , 1997, The Journal of Agricultural Science.

[44]  V. Korzun,et al.  RFLP mapping of the dwarfing (Ddw1) and hairy peduncle (Hp) genes on chromosome 5 of rye (Secale cereale L.) , 1996, Theoretical and Applied Genetics.

[45]  Claude Lebreton,et al.  Identification of QTL for drought responses in maize and their use in testing causal relationships between traits , 1995 .

[46]  Ahmed Rebai,et al.  Power of tests for QTL detection using replicated progenies derived from a diallel cross , 1993, Theoretical and Applied Genetics.

[47]  P. Lancashire,et al.  A uniform decimal code for growth stages of crops and weeds , 1991 .

[48]  A. Teich Heritability of grain yield, plant height and test weight of a population of winter wheat adapted to Southwestern Ontario , 1984, Theoretical and Applied Genetics.

[49]  W. M. Ross,et al.  Exact Confidence Intervals for Heritability on a Progeny Mean Basis1 , 1983 .

[50]  J. Reif,et al.  Dissecting the genetic architecture of agronomic traits in multiple segregating populations in rapeseed (Brassica napus L.) , 2011, Theoretical and Applied Genetics.

[51]  G. Mazza,et al.  Optimization of processing conditions for the fractionation of triticale straw using pressurized low polarity water. , 2011, Bioresource technology.

[52]  A. Brandstetter,et al.  Breeding of triticale in DANKO. , 2011 .

[53]  V. Korzun,et al.  The relationships between the dwarfing genes of wheat and rye , 2004, Euphytica.

[54]  Robin Thompson,et al.  ASREML user guide release 1.0 , 2002 .

[55]  R. Doerge,et al.  Permutation tests for multiple loci affecting a quantitative character. , 1996, Genetics.

[56]  E. Lander,et al.  Mapping mendelian factors underlying quantitative traits using RFLP linkage maps. , 1989, Genetics.

[57]  M. Gale,et al.  Chapter 1 – Dwarfing genes in wheat , 1985 .

[58]  G. E. Russell Progress in plant breeding , 1985 .

[59]  William G. Cochran,et al.  Experimental Designs, 2nd Edition , 1950 .