Your search keyword '"BpMADS4"' showing total 4 results

1. No Evidence of Unexpected Transgenic Insertions in T1190 – A Transgenic Apple Used in Rapid Cycle Breeding – Following Whole Genome Sequencing

Author

Andrea Patocchi, Jens Keilwagen, Stefanie Wenzel, Magda-Viola Hanke, Henryk Flachowsky, Giovanni A. L. Broggini, Lothar Altschmied, and Thomas Berner

Subjects

Genetics, Whole genome sequencing, whole genome sequencing, null segregant, Contig, Malus×domestica (Borkh), fast breeding, BpMADS4, juvenility, new plant breeding techniques, Plant transformation vector, Plant culture, food and beverages, Malus× domestica (Borkh), Plant Science, Biology, Genome, Deep sequencing, SB1-1110, Transformation (genetics), Chromosome 4, Gene, Original Research

Abstract

Rapid cycle breeding uses transgenic early flowering plants as crossbreed parents to facilitate the shortening of breeding programs for perennial crops with long-lasting juvenility. Rapid cycle breeding in apple was established using the transgenic genotype T1190 expressing the BpMADS4 gene of silver birch. In this study, the genomes of T1190 and its non-transgenic wild-type PinS (F1-offspring of ‘Pinova’ and ‘Idared’) were sequenced by Illumina short-read sequencing in two separate experiments resulting in a mean sequencing depth of 182× for T1190 and 167× for PinS. The sequencing revealed 8,450 reads, which contain sequences of ≥20 bp identical to the plant transformation vector. These reads were assembled into 125 contigs, which were examined to see whether they contained transgenic insertions or if they are not using a five-step procedure. The sequence of one contig represents the known T-DNA insertion on chromosome 4 of T1190. The sequences of the remaining contigs were either equally present in T1190 and PinS, their part with sequence identity to the vector was equally present in apple reference genomes, or they seem to result from endophytic contaminations rather than from additional transgenic insertions. Therefore, we conclude that the transgenic apple plant T1190 contains only one transgenic insertion, located on chromosome 4, and shows no further partial insertions of the transformation vector., Frontiers in Plant Science, 12, ISSN:1664-462X

Published

2021

2. Generation of advanced fire blight-resistant apple (Malus × domestica) selections of the fifth generation within 7 years of applying the early flowering approach

Author

Magda-Viola Hanke, Melanie Jänsch, Ina Schlathölter, Andrea Patocchi, Giovanni A. L. Broggini, and Henryk Flachowsky

Subjects

0106 biological sciences, 0301 basic medicine, Malus, Genotype, Genetic Linkage, Flowers, Plant Science, Breeding, Quantitative trait locus, Plant disease resistance, 01 natural sciences, 03 medical and health sciences, Erwinia amylovora, Genetics, Rapid crop cycle breeding, Null segregant, Transgenes, Cultivar, Plant breeding, Betula, Disease Resistance, Plant Diseases, 2. Zero hunger, biology, fungi, food and beverages, Juvenility, biology.organism_classification, Horticulture, Phenotype, 030104 developmental biology, Seedlings, Apple scab, Fire blight, Original Article, Gene pool, BpMADS4, Transcription Factors, 010606 plant biology & botany

Abstract

Main conclusion The approach presented here can be applied to reduce the time needed to introduce traits from wild apples into null segregant advanced selections by one-fourth. Interesting traits like resistances to pathogens are often found within the wild apple gene pool. However, the long juvenile phase of apple seedlings hampers the rapid introduction of these traits into new cultivars. The rapid crop cycle breeding approach used in this paper is based on the overexpression of the birch (Betula pendula) MADS4 transcription factor in apple. Using the early flowering line T1190 and ‘Evereste’ as source of the fire blight resistance (Fb_E locus), we successfully established 18 advanced selections of the fifth generation in the greenhouse within 7 years. Fifteen individuals showed the habitus expected of a regular apple seedling, while three showed very short internodes. The null segregants possessing a regular habitus maintained the high level of fire blight resistance typical for ‘Evereste’. Using SSR markers, we estimated the percentage of genetic drag from ‘Evereste’ still associated with Fb_E on linkage group 12 (LG12). Eight out of the 18 selections had only 4% of ‘Evereste’ genome left. Since genotypes carrying the apple scab resistance gene Rvi6 and the fire blight resistance QTL Fb_F7 were used as parents in the course of the experiments, these resistances were also identified in some of the null segregants. One seedling is particularly interesting as, beside Fb_E, it also carries Fb_F7 heterozygously and Rvi6 homozygously. If null segregants obtained using this method will be considered as not genetically modified in Europe, as is already the case in the USA, this genotype could be a very promising parent for breeding new fire blight and scab-resistant apple cultivars in European apple breeding programs. Electronic supplementary material The online version of this article (10.1007/s00425-018-2876-z) contains supplementary material, which is available to authorized users.

Published

2018

3. Generation of advanced fire blight-resistant apple (Malus × domestica) selections of the fifth generation within 7 years of applying the early flowering approach

Author

Schlathölter, Ina, Jänsch, Melanie, Flachowsky, Henryk, Broggini, Giovanni A.L., Hanke, Magda-Viola, and Patocchi, Andrea

Subjects

fungi, food and beverages, BpMADS4, Erwinia amylovora, Juvenility, Null segregant, Rapid crop cycle breeding

Abstract

The approach presented here can be applied to reduce the time needed to introduce traits from wild apples into null segregant advanced selections by one-fourth. Interesting traits like resistances to pathogens are often found within the wild apple gene pool. However, the long juvenile phase of apple seedlings hampers the rapid introduction of these traits into new cultivars. The rapid crop cycle breeding approach used in this paper is based on the overexpression of the birch (Betula pendula) MADS4 transcription factor in apple. Using the early flowering line T1190 and ‘Evereste’ as source of the fire blight resistance (Fb_E locus), we successfully established 18 advanced selections of the fifth generation in the greenhouse within 7 years. Fifteen individuals showed the habitus expected of a regular apple seedling, while three showed very short internodes. The null segregants possessing a regular habitus maintained the high level of fire blight resistance typical for ‘Evereste’. Using SSR markers, we estimated the percentage of genetic drag from ‘Evereste’ still associated with Fb_E on linkage group 12 (LG12). Eight out of the 18 selections had only 4% of ‘Evereste’ genome left. Since genotypes carrying the apple scab resistance gene Rvi6 and the fire blight resistance QTL Fb_F7 were used as parents in the course of the experiments, these resistances were also identified in some of the null segregants. One seedling is particularly interesting as, beside Fb_E, it also carries Fb_F7 heterozygously and Rvi6 homozygously. If null segregants obtained using this method will be considered as not genetically modified in Europe, as is already the case in the USA, this genotype could be a very promising parent for breeding new fire blight and scab-resistant apple cultivars in European apple breeding programs. ISSN:0032-0935 ISSN:1432-2048

Published

2018

4. Generation of advanced fire blight-resistant apple (Malus × domestica) selections of the fifth generation within 7 years of applying the early flowering approach

Author

Schlathölter, Ina, Jänsch, Melanie, Flachowsky, Henryk, Broggini, Giovanni A.L., Hanke, Magda-Viola, and Patocchi, Andrea

Subjects

fungi, Erwinia amylovora, food and beverages, Rapid crop cycle breeding, Null segregant, 15. Life on land, Juvenility, BpMADS4

Abstract

The approach presented here can be applied to reduce the time needed to introduce traits from wild apples into null segregant advanced selections by one-fourth. Interesting traits like resistances to pathogens are often found within the wild apple gene pool. However, the long juvenile phase of apple seedlings hampers the rapid introduction of these traits into new cultivars. The rapid crop cycle breeding approach used in this paper is based on the overexpression of the birch (Betula pendula) MADS4 transcription factor in apple. Using the early flowering line T1190 and ‘Evereste’ as source of the fire blight resistance (Fb_E locus), we successfully established 18 advanced selections of the fifth generation in the greenhouse within 7 years. Fifteen individuals showed the habitus expected of a regular apple seedling, while three showed very short internodes. The null segregants possessing a regular habitus maintained the high level of fire blight resistance typical for ‘Evereste’. Using SSR markers, we estimated the percentage of genetic drag from ‘Evereste’ still associated with Fb_E on linkage group 12 (LG12). Eight out of the 18 selections had only 4% of ‘Evereste’ genome left. Since genotypes carrying the apple scab resistance gene Rvi6 and the fire blight resistance QTL Fb_F7 were used as parents in the course of the experiments, these resistances were also identified in some of the null segregants. One seedling is particularly interesting as, beside Fb_E, it also carries Fb_F7 heterozygously and Rvi6 homozygously. If null segregants obtained using this method will be considered as not genetically modified in Europe, as is already the case in the USA, this genotype could be a very promising parent for breeding new fire blight and scab-resistant apple cultivars in European apple breeding programs., Planta, 247 (6), ISSN:0032-0935, ISSN:1432-2048