Snapdragon (Antirrhinum majusL.), a member of the Plantaginaceae family, is an important model for plant genetics and molecular studies on plant growth and development, transposon biology and self-incompatibility. Here we report a near-complete genome assembly ofA. majuscultivar JI7 (A. majuscv...
Genome juggling by transposons: Tam3-induced rearrangements in Antirrhinum majus - Martin, Lister - 1989Martin, C., and C. Lister, 1989 Genome juggling by transposons: Tam3-induced rearrangements in Antirrhinum majus. Dev. Genet. 10: 438-451....
S. A temporal and morphological framework for flower development in Antirrhinum majus. Can. J. Bot. Can. Bot. 82, 681–690 (2004). 49. Renard, A. et al. Application of whole genome amplification and quantitative PCR for detection and quantification of spoilage yeasts in orange juice. Int....
Floral homeotic mutations produced by transposon-mutagenesis in Antirrhinum majus Genes Dev., 4 (1990), pp. 1483-1493 CrossrefView in ScopusGoogle Scholar 4 R Carpenter, C Martin, E.S Coen Comparison of genetic behaviour of the transposable element Tam3 at two unlinked pigment loci in Antirrhin...
majus subspecies are maintained despite recombination in a hybrid zone. I reveal that a known locus that controls the magenta flower colour of the subspecies, ROSEA (ROS), is highly divergent between them, compared with most of the genome. The divergence region extends downstream of ROS, likely...
Antirrhinum majusGenetic transformationShoot organogenesisSilver nitrateSnapdragon regenerationSnapdragon (Antirrhinum majus L.) is a popular ornamental and model plant species, and the recently released reference genome could greatly boost its utilization in fundamental research. However, the lack of an ...
The molecular recombination map further indicates that the itIDLE /itMITE transposons are distributed throughout the genome and are relatively stable. The map proved effective in mapping classical morphological mutations of itA. majus/it./pdoi:10.1186/1471-2229-10-275...
In four Antirrhinum majus populations with different mating systems and one A. graniticum population, diversity within populations is very low. Divergence among Antirrhinum species and between Antirrhinum and Digitalis is also low. For three of these genes we also obtained sequences from a more ...
GenomeSampson, D. R., Hunter, A. W. S., Bradley, E. C. (1961) Triploid x diploid progenies and the primary trisomics of Antirrhinum majus. Can. J. Genet. Cytol. 3: pp. 184-194Sampson D R,HUNTER A S W,BRADBY E C. Triploid × diploid progenies and primary trisomics of ...
GenomeSampson, D. R. and A. W. S. Hunter, 1959 Inheritance of shades of crimson and magenta flowers of Antirrhinum majus. Can. J. Genet. Cytol . 1 : 173–181.Sampson, D. R., Hunter, A. W. S. (1959) Inheritance of shades of crimson and magenta flowers of Antirrhinum majus. ...