A sexual hybrid and autopolyploids detected in seed from crosses between Neslia paniculata and Camelina sativa (Brassicaceae)
It is important to understand the probability of hybridization and potential for introgression of transgenic crop alleles into wild populations as part of pre-release risk assessment. Here we completed bidirectional crosses between the emerging crop, camelina [Camelina sativa (L.) Crantz] and its we...
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| Published in | Botany Vol. 98; no. 7; pp. 393 - 399 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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NRC Research Press
01.07.2020
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| Abstract | It is important to understand the probability of hybridization and potential for introgression of transgenic crop alleles into wild populations as part of pre-release risk assessment. Here we completed bidirectional crosses between the emerging crop, camelina [Camelina sativa (L.) Crantz] and its weedy relative, ball mustard [Neslia paniculata (L.) Desv.]. Ball mustard is a self-compatible annual that produces hard ball-like seeds similar to canola or mustard seed in size and shape. A total of 1593 crosses were completed and collected with camelina as the maternal parent, while 3253 crosses were successfully collected in the reverse direction. Putatively hybrid seedlings were screened with flow cytometry and species-specific nuclear ribosomal internal transcribed spacer (ITS) markers. Three plants had DNA contents close to expectations for hybrids, but only one of these, formed on camelina, had the expected ITS markers. This hybrid exhibited low fertility, and neither self-pollination nor backcrossing produced viable progeny. The other two plants, formed on ball mustard, had high pollen and seed fertility and were identified as ball mustard neoautotetraploids. Therefore, the hybridization rate between camelina and ball mustard is relatively low at one in 20 000 ovules pollinated when camelina is the maternal parent. However, autotetraploids may form frequently in ball mustard, and tetraploid populations may exist in nature. |
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| AbstractList | It is important to understand the probability of hybridization and potential for introgression of transgenic crop alleles into wild populations as part of pre-release risk assessment. Here we completed bidirectional crosses between the emerging crop, camelina [Camelina sativa (L.) Crantz] and its weedy relative, ball mustard [Neslia paniculata (L.) Desv.]. Ball mustard is a self-compatible annual that produces hard ball-like seeds similar to canola or mustard seed in size and shape. A total of 1593 crosses were completed and collected with camelina as the maternal parent, while 3253 crosses were successfully collected in the reverse direction. Putatively hybrid seedlings were screened with flow cytometry and species-specific nuclear ribosomal internal transcribed spacer (ITS) markers. Three plants had DNA contents close to expectations for hybrids, but only one of these, formed on camelina, had the expected ITS markers. This hybrid exhibited low fertility, and neither self-pollination nor backcrossing produced viable progeny. The other two plants, formed on ball mustard, had high pollen and seed fertility and were identified as ball mustard neoautotetraploids. Therefore, the hybridization rate between camelina and ball mustard is relatively low at one in 20 000 ovules pollinated when camelina is the maternal parent. However, autotetraploids may form frequently in ball mustard, and tetraploid populations may exist in nature. It is important to understand the probability of hybridization and potential for introgression of transgenic crop alleles into wild populations as part of pre-release risk assessment. Here we completed bidirectional crosses between the emerging crop, camelina [Camelina sativa (L.) Crantz] and its weedy relative, ball mustard [Neslia paniculata (L.) Desv.]. Ball mustard is a self-compatible annual that produces hard ball-like seeds similar to canola or mustard seed in size and shape. A total of 1593 crosses were completed and collected with camelina as the maternal parent, while 3253 crosses were successfully collected in the reverse direction. Putatively hybrid seedlings were screened with flow cytometry and species-specific nuclear ribosomal internal transcribed spacer (ITS) markers. Three plants had DNA contents close to expectations for hybrids, but only one of these, formed on camelina, had the expected ITS markers. This hybrid exhibited low fertility, and neither self-pollination nor backcrossing produced viable progeny. The other two plants, formed on ball mustard, had high pollen and seed fertility and were identified as ball mustard neoautotetraploids. Therefore, the hybridization rate between camelina and ball mustard is relatively low at one in 20 000 ovules pollinated when camelina is the maternal parent. However, autotetraploids may form frequently in ball mustard, and tetraploid populations may exist in nature. Key words: Brassicaceae, hybridization, autopolyploidization, neopolyploids, weeds, gene flow. Il est important de comprendre la probabilité d'hybridation et le potentiel d'introgression d'allèles de cultures transgéniques dans les populations sauvages dans le cadre de l'évaluation des risques avant la dissémination. Les auteurs ont réalisé ici des croisements bidirectionnels entre une culture émergente, la caméline [Camelina sativa (L.) Crantz] et son parent adventice, la neslie paniculée [Neslia paniculata (L.) Desv.]. La neslie paniculée est une annuelle autocompatible qui produit des graines sphériques dures similaires à celles du canola ou de la moutarde par leur taille et leur forme. Au total, 1593 croisements ont été réalisés et récoltés avec la caméline comme parent maternel, alors que 3253 croisements ont été récoltés avec succès dansle sens inverse. Des semis présumés hybrides ont été criblés par cytométrie en flux et par les marqueurs de l'espaceur interne transcrit (ITS) nucléaire ribosomique spécifiques à l'espèce. Trois plants possédaient des contenus en ADN proches des attentes en ce qui concerne les hybrides, mais l'un d'entre eux seulement, formé sur la caméline, possédait les marqueurs ITS attendus. Cet hybride présentait une faible fertilité et ni l'autopollinisation ni le rétrocroisement ne produisaient une descendance viable. Les deux autres plants, formés sur la neslie paniculée, avaient une fertilité élevée quant au pollen et aux graines et ont été identifiés comme néoautotétraploïdes de la neslie paniculée. Ainsi, le taux d'hybridation entre la caméline et la neslie paniculée est relativement faible, soit one ovule sur 20 000 pollinisé lorsque la caméline est le parent maternel. Cependant, des autotétraploïdes peuvent se former fréquemment sur la neslie paniculée et des populations tétraploïdes peuvent exister dans la nature. [Traduit par la Rédaction] Mots-clés : Brassicaceae, hybridation, autopolyploïdisation, néopolyploïdes, mauvaises herbes, flux génique. |
| Abstract_FL | Il est important de comprendre la probabilité d’hybridation et le potentiel d’introgression d’allèles de cultures transgéniques dans les populations sauvages dans le cadre de l’évaluation des risques avant la dissémination. Les auteurs ont réalisé ici des croisements bidirectionnels entre une culture émergente, la caméline [Camelina sativa (L.) Crantz] et son parent adventice, la neslie paniculée [Neslia paniculata (L.) Desv.]. La neslie paniculée est une annuelle autocompatible qui produit des graines sphériques dures similaires à celles du canola ou de la moutarde par leur taille et leur forme. Au total, 1593 croisements ont été réalisés et récoltés avec la caméline comme parent maternel, alors que 3253 croisements ont été récoltés avec succès dans le sens inverse. Des semis présumés hybrides ont été criblés par cytométrie en flux et par les marqueurs de l’espaceur interne transcrit (ITS) nucléaire ribosomique spécifiques à l’espèce. Trois plants possédaient des contenus en ADN proches des attentes en ce qui concerne les hybrides, mais l’un d’entre eux seulement, formé sur la caméline, possédait les marqueurs ITS attendus. Cet hybride présentait une faible fertilité et ni l’autopollinisation ni le rétrocroisement ne produisaient une descendance viable. Les deux autres plants, formés sur la neslie paniculée, avaient une fertilité élevée quant au pollen et aux graines et ont été identifiés comme néoautotétraploïdes de la neslie paniculée. Ainsi, le taux d’hybridation entre la caméline et la neslie paniculée est relativement faible, soit one ovule sur 20 000 pollinisé lorsque la caméline est le parent maternel. Cependant, des autotétraploïdes peuvent se former fréquemment sur la neslie paniculée et des populations tétraploïdes peuvent exister dans la nature. [Traduit par la Rédaction] |
| Audience | Academic |
| Author | Martin, Sara L James, Tracey LaFlamme, Michelle L Sauder, Connie A |
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| SubjectTerms | autopolyploidization autopolyploïdisation Brassicaceae flux génique gene flow Genetic engineering Genetically modified crops hybridation hybridization mauvaises herbes neopolyploids néopolyploïdes Risk assessment Seeds weeds |
| Title | A sexual hybrid and autopolyploids detected in seed from crosses between Neslia paniculata and Camelina sativa (Brassicaceae) |
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