Frequency of somaclonal variation in plants of black spruce (Picea mariana, Pinaceae) and white spruce (P. glauca, Pinaceae) derived from somatic embryogenesis and identification of some factors involved in genetic instability
Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca, N = 3995 individuals) were regenerated from a total of 87 clones over a 5-yr period by somatic embryogenesis to study factors that might be associated with the appearance of variant phenotypes. Morphological ev...
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| Published in | American journal of botany Vol. 86; no. 10; pp. 1373 - 1381 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Botanical Soc America
01.10.1999
Botanical Society of America |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca, N = 3995 individuals) were regenerated from a total of 87 clones over a 5-yr period by somatic embryogenesis to study factors that might be associated with the appearance of variant phenotypes. Morphological evaluation of the plants showed several types of variation. These variations were grouped into nine types: dwarfism (type A), reduced height with various form anomalies (types B, C, and D), needle fasciation (type E), abnormality in tree architecture (type F), variegata phenotype (type G), and plants with an overall regular morphology but smaller than normal plants (type H). Plagiotropic plants were also observed (type I). Each plant from types A to H (except type C where no plants survived more than 6 mo) had retained its phenotype over 4-5 yr of growth. Some of the variant types could be related to chromosomic instability: chromosome counts showed aneuploid cells for type-A and type-D plants. The type I (plagiotropism) was not related to genetic instability but rather to physiological disorders. In total, spruce variants of types A-H were obtained at relatively low frequencies, i.e., 1.0% (39/3995) for white spruce and 1.6% (110/7047) for black spruce. Statistical analyses, conducted with family, clone, and time in maintenance as variables, showed that clone was the most important source of genetic instability followed by time in maintenance. |
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| AbstractList | Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca N = 3995 individuals) were regenerated from a total of 87 clones over a 5-yr period by somatic embryogenesis to study factors that might be associated with the appearance of variant phenotypes. Morphological evaluation of the plants showed several types of variation. These variations were grouped into nine types: dwarfism (type A), reduced height with various form anomalies (types B, C, and D), needle fasciation (type E), abnormality in tree architecture (type F), variegata phenotype (type G), and plants with an overall regular morphology but smaller than normal plants (type H). Plagiotropic plants were also observed (type I). Each plant from types A to H (except type C where no plants survived more than 6 mo) had retained its phenotype over 4-5 yr of growth. Some of the variant types could be related to chromosomic instability: chromosome counts showed aneuploid cells for type-A and type-D plants. The type I (plagiotropism) was not related to genetic instability but rather to physiological disorders. In total, spruce variants of types A-H were obtained at relatively low frequencies, i.e., 1.0% (39/3995) for white spruce and 1.6% (110/7047) for black spruce. Statistical analyses, conducted with family, clone, and time in maintenance as variables, showed that clone was the most important source of genetic instability followed by time in maintenance. Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca, N = 3995 individuals) were regenerated from a total of 87 clones over a 5-yr period by somatic embryogenesis to study factors that might be associated with the appearance of variant phenotypes. Morphological evaluation of the plants showed several types of variation. These variations were grouped into nine types: dwarfism (type A), reduced height with various form anomalies (types B, C, and D), needle fasciation (type E), abnormality in tree architecture (type F), variegata phenotype (type G), and plants with an overall regular morphology but smaller than normal plants (type H). Plagiotropic plants were also observed (type I). Each plant from types A to H (except type C where no plants survived more than 6 mo) had retained its phenotype over 4-5 yr of growth. Some of the variant types could be related to chromosomic instability: chromosome counts showed aneuploid cells for type-A and type-D plants. The type I (plagiotropism) was not related to genetic instability but rather to physiological disorders. In total, spruce variants of types A-H were obtained at relatively low frequencies, i.e., 1.0% (39/3995) for white spruce and 1.6% (110/7047) for black spruce. Statistical analyses, conducted with family, clone, and time in maintenance as variables, showed that clone was the most important source of genetic instability followed by time in maintenance.Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca, N = 3995 individuals) were regenerated from a total of 87 clones over a 5-yr period by somatic embryogenesis to study factors that might be associated with the appearance of variant phenotypes. Morphological evaluation of the plants showed several types of variation. These variations were grouped into nine types: dwarfism (type A), reduced height with various form anomalies (types B, C, and D), needle fasciation (type E), abnormality in tree architecture (type F), variegata phenotype (type G), and plants with an overall regular morphology but smaller than normal plants (type H). Plagiotropic plants were also observed (type I). Each plant from types A to H (except type C where no plants survived more than 6 mo) had retained its phenotype over 4-5 yr of growth. Some of the variant types could be related to chromosomic instability: chromosome counts showed aneuploid cells for type-A and type-D plants. The type I (plagiotropism) was not related to genetic instability but rather to physiological disorders. In total, spruce variants of types A-H were obtained at relatively low frequencies, i.e., 1.0% (39/3995) for white spruce and 1.6% (110/7047) for black spruce. Statistical analyses, conducted with family, clone, and time in maintenance as variables, showed that clone was the most important source of genetic instability followed by time in maintenance. Plants of black spruce ( Picea mariana , N = 7047 individuals) and white spruce ( P. glauca , N = 3995 individuals) were regenerated from a total of 87 clones over a 5‐yr period by somatic embryogenesis to study factors that might be associated with the appearance of variant phenotypes. Morphological evaluation of the plants showed several types of variation. These variations were grouped into nine types: dwarfism (type A), reduced height with various form anomalies (types B, C, and D), needle fasciation (type E), abnormality in tree architecture (type F), variegata phenotype (type G), and plants with an overall regular morphology but smaller than normal plants (type H). Plagiotropic plants were also observed (type I). Each plant from types A to H (except type C where no plants survived more than 6 mo) had retained its phenotype over 4–5 yr of growth. Some of the variant types could be related to chromosomic instability: chromosome counts showed aneuploid cells for type‐A and type‐D plants. The type I (plagiotropism) was not related to genetic instability but rather to physiological disorders. In total, spruce variants of types A–H were obtained at relatively low frequencies, i.e., 1.0% (39/3995) for white spruce and 1.6% (110/7047) for black spruce. Statistical analyses, conducted with family, clone, and time in maintenance as variables, showed that clone was the most important source of genetic instability followed by time in maintenance. |
| Author | Levasseur, Caroline Tremblay, Francine M. Tremblay, Laurence |
| Author_xml | – sequence: 1 givenname: Laurence surname: Tremblay fullname: Tremblay, Laurence – sequence: 2 givenname: Caroline surname: Levasseur fullname: Levasseur, Caroline – sequence: 3 givenname: Francine M. surname: Tremblay fullname: Tremblay, Francine M. |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/10523279$$D View this record in MEDLINE/PubMed |
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| Notes | francine.tremblay@sbf.ulaval.ca Author for correspondence (e‐mail The authors thank the Ministry of Natural Resources—Quebec (Service de la Recherche) and Canada (Laurentian Center, Quebec, and Petawawa Research Forest, Ontario) for providing control pollinated seeds, the Ministry of Natural Resources—Quebec, Pampev Inc., Bechedor Inc., and CPPFQ Inc. for growing plants in the field, Mr. A. Goulet for light microscopy; Mr. S. Plante for chromosome determinations; and Dr. A. Desrochers for his help with the statistical treatment of the data. This work was financially supported by the Ministry of Natural Resources—Quebec (grants 0890‐142S and 0896‐269S to F.M.T.) and by the Ministe`re de l'Industrie, du Commerce, de la Science et de la Technologie in association with Pampev Inc., Bechedor Inc., and CPPFQ Inc. (Synergie grant) to F.M.T. . ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| Snippet | Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca, N = 3995 individuals) were regenerated from a total of 87 clones over... Plants of black spruce (Picea mariana, N = 7047 individuals) and white spruce (P. glauca N = 3995 individuals) were regenerated from a total of 87 clones over... Plants of black spruce ( Picea mariana , N = 7047 individuals) and white spruce ( P. glauca , N = 3995 individuals) were regenerated from a total of 87 clones... |
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| SubjectTerms | Aneuploidy chromosome counts chromosome number Chromosomes clones color conifer needles conifers duration dwarfing frequency Genetic variation height micropropagation morphological variations mortality phenotype Phenotypes Physiology and Development Picea Picea glauca Picea mariana Pinaceae plagiotropism plant characteristics Plant genetics Plant growth Plant morphology plant physiology Plants Somaclonal variation Somatic embryogenesis stability stem form |
| Title | Frequency of somaclonal variation in plants of black spruce (Picea mariana, Pinaceae) and white spruce (P. glauca, Pinaceae) derived from somatic embryogenesis and identification of some factors involved in genetic instability |
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