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2. Molecular evidence for reticulate evolution in the Tasmanian eucalypts

Author

McKinnon, GE

Subjects
Genetics not elsewhere classified
Abstract

In 1971, eucalypt biologists Pryor and Johnson proposed that natural hybridisation had played a significant role in the evolutionary history of the Australian eucalypts. Their proposal was based on the fact that interspecific F rhybrids and regions of intergradation between species are quite common in Eucalyptus today, and contribute to difficulties in species delimitation. The past movements of hybridising eucalypt taxa through areas of contact, in response to climatic and environmental changes, may therefore have enabled the interspecific exchange of genes and possibly adaptations. This work uses a variety of phylogeographic markers to investigate evolutionary processes, including interspecific gene flow, among species of Eucalyptus subgenus Symphyomyrtus from the Australian island of Tasmania. Since much of the evidence presented in this thesis relies on the rp12-trnHpsbA marker region of chloroplast (cp) DNA, heritability of this region was checked in 425 progeny of Eucalyptus, comprising 194 progeny of 25 different intraspecific crosses of Eucalyptus globulus, and 231 interspecific hybrids (Fi , F2and backcrosses) between E. globulus and E. nitens. The results supported the use of this marker to trace the maternal lineage. An overview of cpDNA variability in Tasmanian species of section Maidenaria was obtained by sequencing the rp12-trnH region for multiple samples of all 17 species across their natural geographic ranges in Tasmania. The results showed that in Tasmanian Maidenaria, cpDNA correlates with geography, far more than with taxonomy. Many widespread species demonstrate intraspecific cpDNA variability, and this is coupled with extensive haplotype sharing between species within regions. A history of gene flow between species, in addition to shared ancestry, is the most likely explanation. Overall haplotype diversity across all species is lowest in central areas of Tasmania formerly occupied by alpine vegetation during glacial intervals, and in northern regions that were periodically linked to continental Australia by land bridges. The eastern region of Tasmania is significantly richer in haplotype diversity, consistent with the former existence of one or more glacial refugia. This finding is in agreement with both climate modelling and patterns of endemism. To further investigate the hypothesis of gene flow among species, a detailed phylogeographic analysis of two species was undertaken using cpDNA, nuclear ribosomal DNA, and introns of the cinnamoyl coA reductase (CCR) gene. The widespread forest tree, Eucalyptus globulus, and its rare congener, Eucalyptus cordata, share a cpDNA lineage in their region of sympatry in southern Tasmania. To clarify the reasons for cpDNA sharing, mixed and allopatric populations of the two species were sampled across their full geographic ranges. To distinguish between hybridisation and lineage sorting, the analysis considered both the geographic distribution of shared cpDNA haplotypes and their positions in the haplotype network for each species. The results supported at least five occurrences of cpDNA introgression from E. cord ata to E. globulus. Introgression appeared not to be mediated by the co-occurring species Eucalyptus vimirtalis/dalrympleana/rubida. Unlike cpDNA haplotypes, nuclear ribosomal DNA sequences showed local differentiation between species. Data from the CCR gene were consistent with cpDNA data, although some differences were noted. Southern Tasmanian populations of E. globulus were differentiated from adjacent northern populations and had high levels of a CCR haplotype that grouped with the dominant haplotype in E. cord ata. Within southern Tasmania, levels of this haplotype were highest in individuals with the same cpDNA lineage as E. cordata. However, this result could not be unambiguously attributed to introgression, as opposed to lineage sorting. This is the first use of a single copy nuclear gene to investigate evolutionary processes in Eucalyptus, and highlights some advantages and problems inherent in the use of nuclear genes for phylogenetic and phylogeographic research. The overall picture emerging from this research is that a complex combination of historical factors has contributed to geographically structured genetic variation in Tasmanian Eucalyptus. Despite the complexity of the pattern, it has been possible to partially resolve it, and to show that hybridisation is one of the contributing factors.

Published
2023
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5. Microsatellite and cpDNA variation in island and mainland populations of a regionally rare eucalypt, Eucalyptus perriniana (Myrtaceae)

Author

Rathbone, DA, McKinnon, GE, Potts, BM, Steane, DA, Vaillancourt, RE, Rathbone, DA, McKinnon, GE, Potts, BM, Steane, DA, and Vaillancourt, RE

Abstract

Eucalyptus perriniana F.Muell. ex Rodway is distributed over a wide geographic range in south-eastern Australia as a series of small and isolated populations. In Tasmania, there are only three known populations that are separated by 511 km from the closest population on mainland Australia, which is one of the largest disjunctions observed for any eucalypt species. This project utilised eight nuclear microsatellites and one chloroplast DNA marker to study the genetic diversity in E. perriniana and determine the affinities between the populations. In all, 302 individuals in nine populations across thewhole range of the specieswere sampled. The overall nuclear microsatellite diversity in E. perriniana (Ht =0.85), as well as the diversity in each population (He =0.73), was comparable to that found in widespread eucalypt species that have much larger population sizes. The microsatellites revealed that the isolated Tasmanian populations were significantly differentiated from mainland populations (FST between regions=0.08), although the mainland Baw Baw population was the most differentiated. Most populations harboured different chloroplast DNA haplotypes, but in general, there were more mutational differences among haplotypes found in Tasmania than between Tasmanian and mainland populations. The Tasmanian populations often shared chloroplast DNA haplotypes with other eucalypts from south-eastern Tasmania. In conclusion, the populations of E. perriniana are genetically variable and significantly differentiated, with geographic separation being a poor predictor of the amount of genetic divergence. The most divergent populations are those in Tasmania and on Mt Baw Baw and their conservation is important to capture the genetic diversity in the species.

6. Glacial refugia and reticulate evolution: the case of the Tasmanian eucalypts

Author

McKinnon, GE, Jordan, GJ, Vaillancourt, RE, Steane, DA, Potts, BM, McKinnon, GE, Jordan, GJ, Vaillancourt, RE, Steane, DA, and Potts, BM

Abstract

Tasmania is a natural laboratory for investigating the evolutionary processes of the Quaternary. It is a large island lying 40-44 degrees S, which was repeatedly glaciated and linked to southeastern continental Australia during the Quaternary. Climate change promoted both the isolation of species in glacial refugia, and an exchange between Tasmanian and mainland floras. Eucalyptus is a complex and diverse genus, which has increased in abundance in Australia over the past 100 kyr, probably in response to higher fire frequency. Morphological evidence suggests that gene flow may have occurred between many eucalypt species after changes in their distribution during the Quaternary. This paper summarizes recent genetic evidence for migration and introgressive hybridization in Tasmanian Eucalyptus. Maternally inherited chloroplast DNA reveals a long-term persistence of eucalypts in southeastern Tasmanian refugia, coupled with introgressive hybridization involving many species. Detailed analysis of the widespread species Eucalyptus globulus suggests that migration from mainland Australia was followed by introgression involving a rare Tasmanian endemic. The data support the hypothesis that changes in distribution of interfertile species during the Quaternary have promoted reticulate evolution in Eucalyptus.

7. Higher-level relationships among the eucalypts are resolved by ITS-sequence data

Author

Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

This expanded survey of ITS sequences represents the largest analysis of molecular data ever attempted on Eucalyptus. Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were included in an analysis of 90 species of Eucalyptus s.s. and 28 species representing eight other genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, Eucalyptopsis, Stockwellia, Lophostemon and Metrosideros). The results of the study indicate that Angophora and Corymbia form a well-supported clade that is highly differentiated from Eucalyptus s.s. Corymbia species are divided between two clades, one of which may be the sister to Angophora. Allosyncarpia, Arillastrum, Eucalyptopsis and 'Stockwellia' are also highly differentiated from Eucalyptus s.s. If the genus Eucalyptus is to be expanded to include Angophora and Corymbia (sensu Brooker 2000), ITS data suggest that Allosyncarpia, Eucalyptopsis, 'Stockwellia' and potentially Arillastrum should also be included in Eucalyptus s.l. The ITS data suggest that subg. Symphyomyrtus is paraphyletic and that subg. Minutifructus should be included within it. Within subg. Symphyomyrtus, only sect. Maidenaria appears to be monophyletic. Sections Adnataria and Dumaria are probably monophyletic; sections Exsertaria and Latoangulatae are very close and probably should be combined in a single section. Section Bisectae is polyphyletic and is divided into two distinct lineages. The phylogenetic groups depicted by ITS data are consistent with the frequency of natural inter-specific hybridisations as well as data from controlled crosses within subgenus Symphyomyrtus. The ITS data illustrate that subg. Idiogenes and western Australian monocalypts are early evolutionary lines relative to E. diverstfolia, E. rubiginosa (monotypic subg. Primitiva) and the eastern monocalypts and that subg. Primitiva should be sunk into subg. Eucalyptus. Subgenus Eudesmia may be monophyletic, grouping with subgenera Idiogenes and Eucalyptus. Furth

8. Genetic diversity and mating system of an endangered tree Eucalyptus morrisbyi

Author

Jones, RC, McKinnon, GE, Potts, BM, Vaillancourt, RE, Jones, RC, McKinnon, GE, Potts, BM, and Vaillancourt, RE

Abstract

Eucalyptus morrisbyi is an endangered eucalypt, restricted to four populations on the island of Tasmania. The two main populations are separated by 20 km, occurring in the Risdon Hills and on Calverts Hill, and differ markedly in size and health. Although they are both in reserves, the small population at Risdon Hills has experienced a marked decline in the last two decades. The other two populations (Lumeah Point and Honeywood Drive) are very small and under threat because of urbanisation. They are close to the large Calverts Hill population and may be remnants of a once larger population in this area prior to clearing for agriculture in the 19th century. A hypervariable chloroplast marker and six nuclear microsatellites, used to quantify genetic diversity among and within populations, indicated marked genetic differences between the two main populations (Risdon and Calverts Hills), with virtually no sharing of chloroplast haplotypes and little sharing of microsatellite alleles among populations. Both of the main populations are clearly required to adequately conserve the genetic diversity in this species, whereas the Lumeah Point and Honeywood Drive populations are similar to the proximal Calverts Hill population. The two main populations showed equally high levels of genetic diversity (average HE = 0.69) in the adult trees, using microsatellites, and little difference in inbreeding levels despite the large difference in population size. Analyses of 366 offspring from 9-11 trees from each main population revealed high outcrossing rates, little biparental inbreeding and high genetic diversity (average HE = 0.65) in both seedling populations. This indicates that open-pollinated seed collections from these populations capture sufficient genetic diversity for ex situ conservation plantings. It is argued that the high genetic diversity maintained in the small Risdon Hills population is due to a combination of the longevity of its genotypes (possibly up to 1155-1523 yea

9. ITS sequence data resolve higher level relationships among the eucalypts

Author

Steane, DA, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were obtained for 35 species of Eucalyptus s.s. and seven taxa representing five outgroup genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, and Stockwellia). The sequences were analyzed cladistically. The data distinguished clearly between the two major subgenera of Eucalyptus s.s. (Symphyomyrtus and Monocalyptus) but indicated that subgenus Eudesmia may be paraphyletic. ITS sequence data demonstrated the potential to resolve relationships between sections within subgenus Symphyomyrtus. Within sections, however, taxa were poorly differentiated. At the generic level, Corymbia appeared to be paraphyletic due to the exclusion of Angophora. The positions of Allosyncarpia and Arillastrum relative to the ingroup remain unresolved. ITS sequence data may prove valuable for resolving other phylogenetic relationships at higher taxonomic levels within Eucalyptus.

10. Genetic diversity and mating system of an endangered tree Eucalyptus morrisbyi

Author

Jones, RC, McKinnon, GE, Potts, BM, Vaillancourt, RE, Jones, RC, McKinnon, GE, Potts, BM, and Vaillancourt, RE

Abstract

Eucalyptus morrisbyi is an endangered eucalypt, restricted to four populations on the island of Tasmania. The two main populations are separated by 20 km, occurring in the Risdon Hills and on Calverts Hill, and differ markedly in size and health. Although they are both in reserves, the small population at Risdon Hills has experienced a marked decline in the last two decades. The other two populations (Lumeah Point and Honeywood Drive) are very small and under threat because of urbanisation. They are close to the large Calverts Hill population and may be remnants of a once larger population in this area prior to clearing for agriculture in the 19th century. A hypervariable chloroplast marker and six nuclear microsatellites, used to quantify genetic diversity among and within populations, indicated marked genetic differences between the two main populations (Risdon and Calverts Hills), with virtually no sharing of chloroplast haplotypes and little sharing of microsatellite alleles among populations. Both of the main populations are clearly required to adequately conserve the genetic diversity in this species, whereas the Lumeah Point and Honeywood Drive populations are similar to the proximal Calverts Hill population. The two main populations showed equally high levels of genetic diversity (average HE = 0.69) in the adult trees, using microsatellites, and little difference in inbreeding levels despite the large difference in population size. Analyses of 366 offspring from 9-11 trees from each main population revealed high outcrossing rates, little biparental inbreeding and high genetic diversity (average HE = 0.65) in both seedling populations. This indicates that open-pollinated seed collections from these populations capture sufficient genetic diversity for ex situ conservation plantings. It is argued that the high genetic diversity maintained in the small Risdon Hills population is due to a combination of the longevity of its genotypes (possibly up to 1155-1523 yea

11. Higher-level relationships among the eucalypts are resolved by ITS-sequence data

Author

Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

This expanded survey of ITS sequences represents the largest analysis of molecular data ever attempted on Eucalyptus. Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were included in an analysis of 90 species of Eucalyptus s.s. and 28 species representing eight other genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, Eucalyptopsis, Stockwellia, Lophostemon and Metrosideros). The results of the study indicate that Angophora and Corymbia form a well-supported clade that is highly differentiated from Eucalyptus s.s. Corymbia species are divided between two clades, one of which may be the sister to Angophora. Allosyncarpia, Arillastrum, Eucalyptopsis and 'Stockwellia' are also highly differentiated from Eucalyptus s.s. If the genus Eucalyptus is to be expanded to include Angophora and Corymbia (sensu Brooker 2000), ITS data suggest that Allosyncarpia, Eucalyptopsis, 'Stockwellia' and potentially Arillastrum should also be included in Eucalyptus s.l. The ITS data suggest that subg. Symphyomyrtus is paraphyletic and that subg. Minutifructus should be included within it. Within subg. Symphyomyrtus, only sect. Maidenaria appears to be monophyletic. Sections Adnataria and Dumaria are probably monophyletic; sections Exsertaria and Latoangulatae are very close and probably should be combined in a single section. Section Bisectae is polyphyletic and is divided into two distinct lineages. The phylogenetic groups depicted by ITS data are consistent with the frequency of natural inter-specific hybridisations as well as data from controlled crosses within subgenus Symphyomyrtus. The ITS data illustrate that subg. Idiogenes and western Australian monocalypts are early evolutionary lines relative to E. diverstfolia, E. rubiginosa (monotypic subg. Primitiva) and the eastern monocalypts and that subg. Primitiva should be sunk into subg. Eucalyptus. Subgenus Eudesmia may be monophyletic, grouping with subgenera Idiogenes and Eucalyptus. Furth

12. ITS sequence data resolve higher level relationships among the eucalypts

Author

Steane, DA, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were obtained for 35 species of Eucalyptus s.s. and seven taxa representing five outgroup genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, and Stockwellia). The sequences were analyzed cladistically. The data distinguished clearly between the two major subgenera of Eucalyptus s.s. (Symphyomyrtus and Monocalyptus) but indicated that subgenus Eudesmia may be paraphyletic. ITS sequence data demonstrated the potential to resolve relationships between sections within subgenus Symphyomyrtus. Within sections, however, taxa were poorly differentiated. At the generic level, Corymbia appeared to be paraphyletic due to the exclusion of Angophora. The positions of Allosyncarpia and Arillastrum relative to the ingroup remain unresolved. ITS sequence data may prove valuable for resolving other phylogenetic relationships at higher taxonomic levels within Eucalyptus.

13. Exploration of the Eucalyptus globulus gene pool

Author

Potts, BM, Vaillancourt, RE, Jordan, GJ, Dutkowski, GW, da Costa e Silva, J, McKinnon, GE, Steane, DA, Volker, PW, Lopez, GA, Apiolaza, L, Li, J, Marques, CMP, Borralho, NMG, Potts, BM, Vaillancourt, RE, Jordan, GJ, Dutkowski, GW, da Costa e Silva, J, McKinnon, GE, Steane, DA, Volker, PW, Lopez, GA, Apiolaza, L, Li, J, Marques, CMP, and Borralho, NMG

Abstract

The first Europeans to discover Eucalyptus globulus were French explorers in 1792. Its seed was rapidly spread throughout the world in the 19th century and this was the species by which much of the world first knew the genus. However, it was in the industrial forests of the 20th century that this species, once considered the ‘Prince of Eucalypts’, achieved greatest prominence due to its fast growth and superior pulp qualities. Formal breeding first commenced in 1966 in Portugal and in the late 1980’s large base population trials from open-pollinated seed collections from native stands were established in many countries. These trials have provided unprecedented insights into the quantitative genetic control of numerous traits of economic and ecological importance and how this variation is spatially distributed in the native range of the species. However with large, fully pedigreed breeding populations becoming available for quantitative analysis and the rapidly expanding knowledge of DNA sequence variation, we are now at the threshold of a new understanding of this important eucalypt gene pool. Indications of the significance of non-additive genetic effects are becoming available. The E. globulus chloroplast genome has now been sequenced and several genome maps have been published. Studies of the variation in nuclear microsatellites and the lignin biosynthesis gene CCR confirm the complex, spatially structured nature of the native gene pool. Strong spatial structuring of the chloroplast genome has provided a tool for tracking seed migration and the geographic origin of exotic landraces. Highly divergent lineages of chloroplast DNA have been discovered and studies of the hypervariable JLA+ region argue that some components of the E. globulus gene pool have been assimilated from other species following hybridisation.

15. Parallel evolution of dwarf ecotypes in the forest tree Eucalyptus globulus

Author

Foster, SA, McKinnon, GE, Steane, DA, Potts, BM, Vaillancourt, RE, Foster, SA, McKinnon, GE, Steane, DA, Potts, BM, and Vaillancourt, RE

Abstract

Three small populations of a dwarf ecotype of the forest tree Eucalyptus globulus are found on exposed granite headlands in south-eastern Australia. These populations are separated by at least 100 km. Here, we used 12 nuclear microsatellites and a chloroplast DNA marker to investigate the genetic affinities of the dwarf populations to one another and to their nearest populations of tall E. globulus Cape Tourville was studied in greater detail to assess the processes enabling the maintenance of distinct ecotypes in close geographical proximity. The three dwarf populations were not related to one another and were more closely related to adjacent tall trees than to one another. At Cape Tourville the dwarf and tall ecotypes were significantly differentiated in microsatellites and in chloroplast DNA. The dwarf and tall populations differed in flowering time and no evidence of pollen dispersal from the more extensive tall to the dwarf population was found. The three dwarf populations have evolved in parallel from the local tall ecotypes. This study shows that small marginal populations of eucalypts are capable of developing reproductive isolation from nearby larger populations through differences in flowering time and/or minor spatial separation, making parapatric speciation possible.

16. Microsatellite and cpDNA variation in island and mainland populations of a regionally rare eucalypt, Eucalyptus perriniana (Myrtaceae)

Author

Rathbone, DA, McKinnon, GE, Potts, BM, Steane, DA, Vaillancourt, RE, Rathbone, DA, McKinnon, GE, Potts, BM, Steane, DA, and Vaillancourt, RE

Abstract

Eucalyptus perriniana F.Muell. ex Rodway is distributed over a wide geographic range in south-eastern Australia as a series of small and isolated populations. In Tasmania, there are only three known populations that are separated by 511 km from the closest population on mainland Australia, which is one of the largest disjunctions observed for any eucalypt species. This project utilised eight nuclear microsatellites and one chloroplast DNA marker to study the genetic diversity in E. perriniana and determine the affinities between the populations. In all, 302 individuals in nine populations across thewhole range of the specieswere sampled. The overall nuclear microsatellite diversity in E. perriniana (Ht =0.85), as well as the diversity in each population (He =0.73), was comparable to that found in widespread eucalypt species that have much larger population sizes. The microsatellites revealed that the isolated Tasmanian populations were significantly differentiated from mainland populations (FST between regions=0.08), although the mainland Baw Baw population was the most differentiated. Most populations harboured different chloroplast DNA haplotypes, but in general, there were more mutational differences among haplotypes found in Tasmania than between Tasmanian and mainland populations. The Tasmanian populations often shared chloroplast DNA haplotypes with other eucalypts from south-eastern Tasmania. In conclusion, the populations of E. perriniana are genetically variable and significantly differentiated, with geographic separation being a poor predictor of the amount of genetic divergence. The most divergent populations are those in Tasmania and on Mt Baw Baw and their conservation is important to capture the genetic diversity in the species.

18. Glacial refugia and reticulate evolution: the case of the Tasmanian eucalypts

Author

McKinnon, GE, Jordan, GJ, Vaillancourt, RE, Steane, DA, Potts, BM, McKinnon, GE, Jordan, GJ, Vaillancourt, RE, Steane, DA, and Potts, BM

Abstract

Tasmania is a natural laboratory for investigating the evolutionary processes of the Quaternary. It is a large island lying 40-44 degrees S, which was repeatedly glaciated and linked to southeastern continental Australia during the Quaternary. Climate change promoted both the isolation of species in glacial refugia, and an exchange between Tasmanian and mainland floras. Eucalyptus is a complex and diverse genus, which has increased in abundance in Australia over the past 100 kyr, probably in response to higher fire frequency. Morphological evidence suggests that gene flow may have occurred between many eucalypt species after changes in their distribution during the Quaternary. This paper summarizes recent genetic evidence for migration and introgressive hybridization in Tasmanian Eucalyptus. Maternally inherited chloroplast DNA reveals a long-term persistence of eucalypts in southeastern Tasmanian refugia, coupled with introgressive hybridization involving many species. Detailed analysis of the widespread species Eucalyptus globulus suggests that migration from mainland Australia was followed by introgression involving a rare Tasmanian endemic. The data support the hypothesis that changes in distribution of interfertile species during the Quaternary have promoted reticulate evolution in Eucalyptus.

19. Genetic diversity and mating system of an endangered tree Eucalyptus morrisbyi

Author

Jones, RC, McKinnon, GE, Potts, BM, Vaillancourt, RE, Jones, RC, McKinnon, GE, Potts, BM, and Vaillancourt, RE

Abstract

Eucalyptus morrisbyi is an endangered eucalypt, restricted to four populations on the island of Tasmania. The two main populations are separated by 20 km, occurring in the Risdon Hills and on Calverts Hill, and differ markedly in size and health. Although they are both in reserves, the small population at Risdon Hills has experienced a marked decline in the last two decades. The other two populations (Lumeah Point and Honeywood Drive) are very small and under threat because of urbanisation. They are close to the large Calverts Hill population and may be remnants of a once larger population in this area prior to clearing for agriculture in the 19th century. A hypervariable chloroplast marker and six nuclear microsatellites, used to quantify genetic diversity among and within populations, indicated marked genetic differences between the two main populations (Risdon and Calverts Hills), with virtually no sharing of chloroplast haplotypes and little sharing of microsatellite alleles among populations. Both of the main populations are clearly required to adequately conserve the genetic diversity in this species, whereas the Lumeah Point and Honeywood Drive populations are similar to the proximal Calverts Hill population. The two main populations showed equally high levels of genetic diversity (average HE = 0.69) in the adult trees, using microsatellites, and little difference in inbreeding levels despite the large difference in population size. Analyses of 366 offspring from 9-11 trees from each main population revealed high outcrossing rates, little biparental inbreeding and high genetic diversity (average HE = 0.65) in both seedling populations. This indicates that open-pollinated seed collections from these populations capture sufficient genetic diversity for ex situ conservation plantings. It is argued that the high genetic diversity maintained in the small Risdon Hills population is due to a combination of the longevity of its genotypes (possibly up to 1155-1523 yea

20. Higher-level relationships among the eucalypts are resolved by ITS-sequence data

Author

Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

This expanded survey of ITS sequences represents the largest analysis of molecular data ever attempted on Eucalyptus. Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were included in an analysis of 90 species of Eucalyptus s.s. and 28 species representing eight other genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, Eucalyptopsis, Stockwellia, Lophostemon and Metrosideros). The results of the study indicate that Angophora and Corymbia form a well-supported clade that is highly differentiated from Eucalyptus s.s. Corymbia species are divided between two clades, one of which may be the sister to Angophora. Allosyncarpia, Arillastrum, Eucalyptopsis and 'Stockwellia' are also highly differentiated from Eucalyptus s.s. If the genus Eucalyptus is to be expanded to include Angophora and Corymbia (sensu Brooker 2000), ITS data suggest that Allosyncarpia, Eucalyptopsis, 'Stockwellia' and potentially Arillastrum should also be included in Eucalyptus s.l. The ITS data suggest that subg. Symphyomyrtus is paraphyletic and that subg. Minutifructus should be included within it. Within subg. Symphyomyrtus, only sect. Maidenaria appears to be monophyletic. Sections Adnataria and Dumaria are probably monophyletic; sections Exsertaria and Latoangulatae are very close and probably should be combined in a single section. Section Bisectae is polyphyletic and is divided into two distinct lineages. The phylogenetic groups depicted by ITS data are consistent with the frequency of natural inter-specific hybridisations as well as data from controlled crosses within subgenus Symphyomyrtus. The ITS data illustrate that subg. Idiogenes and western Australian monocalypts are early evolutionary lines relative to E. diverstfolia, E. rubiginosa (monotypic subg. Primitiva) and the eastern monocalypts and that subg. Primitiva should be sunk into subg. Eucalyptus. Subgenus Eudesmia may be monophyletic, grouping with subgenera Idiogenes and Eucalyptus. Furth

21. ITS sequence data resolve higher level relationships among the eucalypts

Author

Steane, DA, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were obtained for 35 species of Eucalyptus s.s. and seven taxa representing five outgroup genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, and Stockwellia). The sequences were analyzed cladistically. The data distinguished clearly between the two major subgenera of Eucalyptus s.s. (Symphyomyrtus and Monocalyptus) but indicated that subgenus Eudesmia may be paraphyletic. ITS sequence data demonstrated the potential to resolve relationships between sections within subgenus Symphyomyrtus. Within sections, however, taxa were poorly differentiated. At the generic level, Corymbia appeared to be paraphyletic due to the exclusion of Angophora. The positions of Allosyncarpia and Arillastrum relative to the ingroup remain unresolved. ITS sequence data may prove valuable for resolving other phylogenetic relationships at higher taxonomic levels within Eucalyptus.

22. Genetic diversity and mating system of an endangered tree Eucalyptus morrisbyi

Author

Jones, RC, McKinnon, GE, Potts, BM, Vaillancourt, RE, Jones, RC, McKinnon, GE, Potts, BM, and Vaillancourt, RE

Abstract

Eucalyptus morrisbyi is an endangered eucalypt, restricted to four populations on the island of Tasmania. The two main populations are separated by 20 km, occurring in the Risdon Hills and on Calverts Hill, and differ markedly in size and health. Although they are both in reserves, the small population at Risdon Hills has experienced a marked decline in the last two decades. The other two populations (Lumeah Point and Honeywood Drive) are very small and under threat because of urbanisation. They are close to the large Calverts Hill population and may be remnants of a once larger population in this area prior to clearing for agriculture in the 19th century. A hypervariable chloroplast marker and six nuclear microsatellites, used to quantify genetic diversity among and within populations, indicated marked genetic differences between the two main populations (Risdon and Calverts Hills), with virtually no sharing of chloroplast haplotypes and little sharing of microsatellite alleles among populations. Both of the main populations are clearly required to adequately conserve the genetic diversity in this species, whereas the Lumeah Point and Honeywood Drive populations are similar to the proximal Calverts Hill population. The two main populations showed equally high levels of genetic diversity (average HE = 0.69) in the adult trees, using microsatellites, and little difference in inbreeding levels despite the large difference in population size. Analyses of 366 offspring from 9-11 trees from each main population revealed high outcrossing rates, little biparental inbreeding and high genetic diversity (average HE = 0.65) in both seedling populations. This indicates that open-pollinated seed collections from these populations capture sufficient genetic diversity for ex situ conservation plantings. It is argued that the high genetic diversity maintained in the small Risdon Hills population is due to a combination of the longevity of its genotypes (possibly up to 1155-1523 yea

23. ITS sequence data resolve higher level relationships among the eucalypts

Author

Steane, DA, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were obtained for 35 species of Eucalyptus s.s. and seven taxa representing five outgroup genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, and Stockwellia). The sequences were analyzed cladistically. The data distinguished clearly between the two major subgenera of Eucalyptus s.s. (Symphyomyrtus and Monocalyptus) but indicated that subgenus Eudesmia may be paraphyletic. ITS sequence data demonstrated the potential to resolve relationships between sections within subgenus Symphyomyrtus. Within sections, however, taxa were poorly differentiated. At the generic level, Corymbia appeared to be paraphyletic due to the exclusion of Angophora. The positions of Allosyncarpia and Arillastrum relative to the ingroup remain unresolved. ITS sequence data may prove valuable for resolving other phylogenetic relationships at higher taxonomic levels within Eucalyptus.

24. Higher-level relationships among the eucalypts are resolved by ITS-sequence data

Author

Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, Potts, BM, Steane, DA, Nicolle, D, McKinnon, GE, Vaillancourt, RE, and Potts, BM

Abstract

This expanded survey of ITS sequences represents the largest analysis of molecular data ever attempted on Eucalyptus. Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were included in an analysis of 90 species of Eucalyptus s.s. and 28 species representing eight other genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, Eucalyptopsis, Stockwellia, Lophostemon and Metrosideros). The results of the study indicate that Angophora and Corymbia form a well-supported clade that is highly differentiated from Eucalyptus s.s. Corymbia species are divided between two clades, one of which may be the sister to Angophora. Allosyncarpia, Arillastrum, Eucalyptopsis and 'Stockwellia' are also highly differentiated from Eucalyptus s.s. If the genus Eucalyptus is to be expanded to include Angophora and Corymbia (sensu Brooker 2000), ITS data suggest that Allosyncarpia, Eucalyptopsis, 'Stockwellia' and potentially Arillastrum should also be included in Eucalyptus s.l. The ITS data suggest that subg. Symphyomyrtus is paraphyletic and that subg. Minutifructus should be included within it. Within subg. Symphyomyrtus, only sect. Maidenaria appears to be monophyletic. Sections Adnataria and Dumaria are probably monophyletic; sections Exsertaria and Latoangulatae are very close and probably should be combined in a single section. Section Bisectae is polyphyletic and is divided into two distinct lineages. The phylogenetic groups depicted by ITS data are consistent with the frequency of natural inter-specific hybridisations as well as data from controlled crosses within subgenus Symphyomyrtus. The ITS data illustrate that subg. Idiogenes and western Australian monocalypts are early evolutionary lines relative to E. diverstfolia, E. rubiginosa (monotypic subg. Primitiva) and the eastern monocalypts and that subg. Primitiva should be sunk into subg. Eucalyptus. Subgenus Eudesmia may be monophyletic, grouping with subgenera Idiogenes and Eucalyptus. Furth

25. Chloroplast evidence for geographic stasis of the Australian bird-dispersed shrub Tasmannia lanceolata (Winteraceae).

Author

Worth JR, Jordan GJ, Marthick JR, McKinnon GE, and Vaillancourt RE

Subjects
Animals, Australia, Birds, DNA, Chloroplast genetics, DNA, Plant genetics, Geography, Haplotypes, Sequence Analysis, DNA, Tasmania, Evolution, Molecular, Phylogeny, Winteraceae genetics
Abstract

Few chloroplast-based genetic studies have been undertaken for plants of mesic temperate forests in the southern hemisphere and fossil-based models have provided evidence of vegetation history only at the broadest scales in this region. This study investigates the chloroplast DNA phylogeography of Tasmannia lanceolata (Winteraceae), a fleshy-fruited, bird-dispersed shrub that is widespread in the mountains of southeastern Australia and Tasmania. Thirty haplotypes were identified after sequencing 3206 bp of chloroplast DNA in each of 244 individuals collected across the species' range. These haplotypes showed unexpectedly strong phylogeographic structuring, including a phylogeographic break within a continuous part of the species' range, with the distribution of four major clades mostly not overlapping, and geographic structuring of haplotypes within these clades. This strong geographic patterning of chloroplast DNA provided evidence for the survival of T. lanceolata in multiple putative wet forest refugia as well as evidence for additional wet forest species refugia in southeastern Australia. In western Tasmania lower haplotype diversity below the LGM tree line compared to above the LGM tree line suggests that glacial refugia at high altitudes may have been important for T. lanceolata. The level of geographic structuring in T. lanceolata is similar to gravity dispersed southern hemisphere plants such as Nothofagus and Eucalyptus. Behavioural traits of the birds transporting seed may have had a strong bearing on the limited transport of T. lanceolata seed, although factors limiting establishment, possibly including selection, may also have been important.

Published
2010
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26. Recurrent nuclear DNA introgression accompanies chloroplast DNA exchange between two eucalypt species.

Author

McKinnon GE, Smith JJ, and Potts BM

Subjects
Amplified Fragment Length Polymorphism Analysis, Australia, DNA, Plant genetics, Evolution, Molecular, Genetics, Population, Models, Genetic, Sequence Analysis, DNA, Species Specificity, Cell Nucleus genetics, DNA, Chloroplast genetics, Eucalyptus genetics, Hybridization, Genetic
Abstract

Numerous studies within plant genera have found geographically structured sharing of chloroplast (cp) DNA among sympatric species, consistent with introgressive hybridization. Current research is aimed at understanding the extent, direction and significance of nuclear (nr) DNA exchange that accompanies putative cpDNA exchange. Eucalyptus is a complex tree genus for which cpDNA sharing has been established between multiple species. Prior phylogeographic analysis has indicated cpDNA introgression into the widespread forest species Eucalyptus globulus from its rare congener E. cordata. In this study, we use AFLP markers to characterize corresponding nrDNA introgression, on both a broad and fine spatial scale. Using 388 samples we examine (i) the fine-scale spatial structure of cp and nrDNA introgression from E. cordata into E. globulus at a site in natural forest and (ii) broad-scale patterns of AFLP marker introgression at six additional mixed populations. We show that while E. globulus and E. cordata retain strongly differentiated nuclear gene pools overall, leakage of nrDNA occurs at mixed populations, with some AFLP markers being transferred to E. globulus recurrently at different sites. On the fine scale, different AFLP fragments show varying distances of introgression into E. globulus, while introgression of cpDNA is extensive. The frequency of E. cordata markers in E. globulus is correlated with spatial proximity to E. cordata, but departs from expectations based on AFLP marker frequency in E. cordata, indicating that selection may be governing the persistence of introgressed fragments in E. globulus.

Published
2010
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27. The major Australian cool temperate rainforest tree Nothofagus cunninghamii withstood Pleistocene glacial aridity within multiple regions: evidence from the chloroplast.

Author

Worth JRP, Jordan GJ, McKinnon GE, and Vaillancourt RE

Subjects
Australia, Geography, Ice Cover, Phylogeny, Polymorphism, Genetic, Sequence Analysis, DNA, Chloroplasts genetics, DNA, Chloroplast, Dehydration genetics, Genes, Plant, Haplotypes genetics, Magnoliopsida genetics, Trees genetics
Abstract

Glacial aridity of the Pleistocene was inhospitable for the cool temperate rainforest tree Nothofagus cunninghamii over most of its current range in southeastern Australia, particularly in eastern Tasmania. A chloroplast DNA phylogeographic study was undertaken to investigate whether this species was likely to have survived in situ or conforms to a dispersal model of postglacial recovery. Twenty-three chloroplast haplotypes were identified by PCR-RFLP and direct sequencing of 2164 base pairs from 213 N. cunninghamii individuals collected in a range-wide survey. Fine-scale haplotype distribution was investigated using PCR-RFLP in eastern Tasmania. Deep chloroplast divergence occurred in N. cunninghamii. The single haplotype of the sister species, N. moorei, was nested among N. cunninghamii haplotypes. The distribution of N. cunninghamii haplotypes supports: multiple glacial refugia in coastal and inland western Tasmania, the centre of haplotype diversity; glacial survival in the central highlands of Victoria, corroborating pollen data; and the long-term occupation of eastern Tasmania because of the presence of a unique deeply diverged chloroplast lineage. Nothofagus cunninghamii withstood glacial aridity within multiple regions in apparently nonequable climates. This finding contributes to a growing understanding of how the resilience of temperate species during glacial periods has shaped modern biota.

Published
2009
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28. An AFLP marker approach to lower-level systematics in Eucalyptus (Myrtaceae).

Author

McKinnon GE, Vaillancourt RE, Steane DA, and Potts BM

Abstract

Genus Eucalyptus, with over 700 species, presents a number of systematic difficulties including taxa that hybridize or intergrade across environmental gradients. To date, no DNA marker has been found capable of resolving phylogeny below the sectional level in the major subgenera. Molecular markers are needed to support taxonomic revision, assess the extent of genetic divergence at lower taxonomic levels, and inform conservation efforts. We examined the utility of 930 amplified fragment length polymorphisms (AFLPs) for analyzing relationships among Tasmanian taxa of subgenus Symphyomyrtus section Maidenaria. Phenetic and cladistic analyses resolved species into clusters demonstrating significant genetic partitioning, largely concordant with series defined in the most recent taxonomic revision of Eucalyptus. Some departures from current taxonomy were noted, indicating possible cases of morphological convergence and character reversion. Although the resolution obtained using AFLP was greatly superior to that of single sequence markers, the data demonstrated high homoplasy and incomplete resolution of closely related species. The results of this study and others are consistent with recent speciation and reticulate evolution in Maidenaria. We conclude that a combination of phylogenetic and population genetic approaches using multiple molecular markers offers the best prospects for understanding taxonomic relationships below the sectional level in Eucalyptus.

Published
2008
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29. Parallel evolution of dwarf ecotypes in the forest tree Eucalyptus globulus.

Author

Foster SA, McKinnon GE, Steane DA, Potts BM, and Vaillancourt RE

Subjects
Adaptation, Physiological genetics, Australia, Gene Flow, Phenotype, Reproduction, Ecosystem, Eucalyptus genetics, Genetic Speciation
Abstract

Three small populations of a dwarf ecotype of the forest tree Eucalyptus globulus are found on exposed granite headlands in south-eastern Australia. These populations are separated by at least 100 km. Here, we used 12 nuclear microsatellites and a chloroplast DNA marker to investigate the genetic affinities of the dwarf populations to one another and to their nearest populations of tall E. globulus. Cape Tourville was studied in greater detail to assess the processes enabling the maintenance of distinct ecotypes in close geographical proximity. The three dwarf populations were not related to one another and were more closely related to adjacent tall trees than to one another. At Cape Tourville the dwarf and tall ecotypes were significantly differentiated in microsatellites and in chloroplast DNA. The dwarf and tall populations differed in flowering time and no evidence of pollen dispersal from the more extensive tall to the dwarf population was found. The three dwarf populations have evolved in parallel from the local tall ecotypes. This study shows that small marginal populations of eucalypts are capable of developing reproductive isolation from nearby larger populations through differences in flowering time and/or minor spatial separation, making parapatric speciation possible.

Published
2007
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30. The rare silver gum, Eucalyptus cordata, is leaving its trace in the organellar gene pool of Eucalyptus globulus.

Author

McKinnon GE, Vaillancourt RE, Steane DA, and Potts BM

Subjects
Base Sequence, DNA, Chloroplast genetics, Geography, Haplotypes genetics, Molecular Sequence Data, Sequence Analysis, DNA, Species Specificity, Tasmania, Victoria, Eucalyptus genetics, Genetics, Population, Hybridization, Genetic, Phylogeny
Abstract

The process of genetic assimilation of rare species by hybridizing congeners has been documented in a number of plant genera. This raises the possibility that some of the genetic diversity found in phylogeographical studies of widespread species has been acquired through hybridization with species that are now rare or extinct. In this fine-scale phylogeographical analysis, we show that a rare eucalypt species is leaving its trace in the chloroplast genome of a more abundant congener. The heart-leafed silver gum, Eucalyptus cordata, is a rare endemic of south-eastern Tasmania. Its populations are scattered amidst populations of more abundant related species, including the Tasmanian blue gum, Eucalyptus globulus. Using 339 samples from across the full range of both species, we compared chloroplast (cp) DNA haplotype phylogeography in E. globulus and E. cordata. The genealogy and distribution of chloroplast haplotypes suggest that E. globulus has acquired cpDNA from E. cordata in at least four different mixed populations. Shared haplotypes are highest in E. globulus sampled within 2 km of known E. cordata populations and drop to zero at a distance of 25 km from the nearest known E. cordata population. Localized haplotype sharing occurs in the absence of obvious hybrid zones or locally shared nuclear ribosomal DNA sequences. Given that the future loss of E. cordata from some mixed populations is likely, these findings indicate that phylogeographical analyses of organellar DNA should consider the possibility of introgression, even from species that have been eliminated from the sites of interest.

Published
2004
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31. Maternal inheritance of mitochondria in Eucalyptus globulus.

Author

Vaillancourt RE, Petty A, and McKinnon GE

Subjects
Electron Transport Complex IV genetics, Introns, NADH Dehydrogenase genetics, Polymorphism, Restriction Fragment Length, Sequence Analysis, DNA, Sex Factors, Eucalyptus genetics, Inheritance Patterns genetics, Mitochondria genetics, Polymorphism, Genetic
Abstract

It is important to verify mitochondrial inheritance in plant species in which mitochondrial DNA (mtDNA) will be used as a source of molecular markers. We used a polymerase chain reaction (PCR)/restriction fragment length polymorphism (RFLP) approach to amplify mitochondrial introns from subunits 1, 4, 5, and 7 of NADH dehydrogenase (nad) and cytochrome oxidase subunit II (cox2) in Eucalyptus globulus. PCR fragments were then either sequenced or cut with restriction enzymes to reveal polymorphism. Sequencing cox2 showed that eucalypts lack the intron between exons 1 and 2. One polymorphism was found in intron 2-3 of nad7 following restriction digests with HphI. Fifty-four F1 progeny from seven families with parents distinguishable in their mitochondrial nad7 were screened to show that mitochondria were maternally inherited in E. globulus. These results constitute the first report of mitochondrial inheritance in the family Myrtaceae.

Published
2004
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32. Glacial refugia and reticulate evolution: the case of the Tasmanian eucalypts.

Author

McKinnon GE, Jordan GJ, Vaillancourt RE, Steane DA, and Potts BM

Subjects
DNA, Chloroplast genetics, Demography, Haplotypes genetics, Tasmania, Climate, Environment, Eucalyptus genetics, Hybridization, Genetic genetics
Abstract

Tasmania is a natural laboratory for investigating the evolutionary processes of the Quaternary. It is a large island lying 40-44 degrees S, which was repeatedly glaciated and linked to southeastern continental Australia during the Quaternary. Climate change promoted both the isolation of species in glacial refugia, and an exchange between Tasmanian and mainland floras. Eucalyptus is a complex and diverse genus, which has increased in abundance in Australia over the past 100 kyr, probably in response to higher fire frequency. Morphological evidence suggests that gene flow may have occurred between many eucalypt species after changes in their distribution during the Quaternary. This paper summarizes recent genetic evidence for migration and introgressive hybridization in Tasmanian Eucalyptus. Maternally inherited chloroplast DNA reveals a long-term persistence of eucalypts in southeastern Tasmanian refugia, coupled with introgressive hybridization involving many species. Detailed analysis of the widespread species Eucalyptus globulus suggests that migration from mainland Australia was followed by introgression involving a rare Tasmanian endemic. The data support the hypothesis that changes in distribution of interfertile species during the Quaternary have promoted reticulate evolution in Eucalyptus.

Published
2004
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33. Chloroplast sharing in the Tasmanian eucalypts.

Author

McKinnon GE, Vaillancourt RE, Jackson HD, and Potts BM

Subjects
Base Sequence, Chloroplasts genetics, DNA, Chloroplast genetics, Haplotypes, Molecular Sequence Data, Plant Leaves chemistry, Plant Leaves genetics, Polymerase Chain Reaction, Polymorphism, Genetic genetics, Sequence Analysis, DNA, Tasmania, Eucalyptus genetics, Evolution, Molecular, Genetic Variation, Plants, Medicinal
Abstract

The biogeographic pattern of chloroplast DNA (cpDNA) haplotypes in Eucalyptus on the island of Tasmania is consistent with reticulate evolution, involving at least 12 Tasmanian species from the subgenus Symphyomyrtus. Intraspecific cpDNA polymorphism in 14 of 17 species is coupled with extensive sharing of identical haplotypes across populations of different species in the same geographic area. Haplotype diversity is lowest in central regions of Tasmania formerly occupied by alpine vegetation during glacial intervals and in northern regions that were periodically linked to continental Australia by land bridges. The observed distribution of several cpDNA haplotypes unique to Tasmania coincides with modeled locations of glacial refugia in coastal areas of Tasmania and shows the power of cpDNA in unraveling the complex history of past distributions of Eucalyptus. The results suggest that the model of evolution of the eucalypts should be reassessed to allow for the anastomosing effects of interspecific hybridization and introgression.

Published
2001
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34. ITS sequence data resolve higher level relationships among the eucalypts.

Author

Steane DA, McKinnon GE, Vaillancourt RE, and Potts BM

Subjects
Eucalyptus classification, Genes, Plant genetics, Genetic Variation genetics, Molecular Sequence Data, RNA, Ribosomal, 5.8S genetics, Rosales classification, Sensitivity and Specificity, Sequence Alignment, Sequence Analysis, DNA, Sequence Deletion, DNA, Ribosomal genetics, Eucalyptus genetics, Evolution, Molecular, Phylogeny, Plants, Medicinal, Rosales genetics
Abstract

Sequences of the internal transcribed spacer (ITS) region of the nuclear ribosomal DNA were obtained for 35 species of Eucalyptus s.s. and seven taxa representing five outgroup genera (Allosyncarpia, Angophora, Arillastrum, Corymbia, and Stockwellia). The sequences were analyzed cladistically. The data distinguished clearly between the two major subgenera of Eucalyptus s.s. (Symphyomyrtus and Monocalyptus) but indicated that subgenus Eudesmia may be paraphyletic. ITS sequence data demonstrated the potential to resolve relationships between sections within subgenus Symphyomyrtus. Within sections, however, taxa were poorly differentiated. At the generic level, Corymbia appeared to be paraphyletic due to the exclusion of Angophora. The positions of Allosyncarpia and Arillastrum relative to the ingroup remain unresolved. ITS sequence data may prove valuable for resolving other phylogenetic relationships at higher taxonomic levels within Eucalyptus., (Copyright 1999 Academic Press.)

Published
1999
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35. Incongruence between chloroplast and species phylogenies in Eucalyptus subgenus Monocalyptus (Myrtaceae).

Author

McKinnon GE, Steane DA, Potts BM, and Vaillancourt RE

Abstract

Seventy-eight polymorphic cpDNA (chloroplast DNA) characters were found in 13 closely related taxa from Eucalyptus series Amygdalinae (subgenus Monocalyptus) and seven potential outgroup taxa. The strict consensus of six cladograms generated from cpDNA data confirmed monophyly of Monocalyptus. However, cpDNA phylogeny within Monocalyptus was incongruent with taxonomic classification, being more related to geography, even when accessions were from divergent series. Monocalyptus cpDNA formed two major clades. On the island of Tasmania cpDNA was restricted to a single clade, exhibited very little variation, and was phylogenetically related to cpDNA found in central and western Victoria. In contrast, cpDNA of mainland monocalypt taxa was more variable, even within the Amygdalinae. Four out of six Tasmanian Amygdalinae species were polymorphic. The difference between cpDNA of replicates was often greater than differences between species from different series. The low level of cpDNA variation and extensive morphological intergradation between the Tasmanian endemics suggest recent speciation. However, the transfer of cpDNA through hybridization between lineages is the most likely explanation for the observed sharing of cpDNA across series. This study highlights that the geographical pattern to cpDNA variation in Eucalyptus may be an important source of information on past plant distributions in Australia.

Published
1999

36. Gas chromatographic assay of vigabatrin enantiomers in plasma.

Author

Schramm TM, McKinnon GE, and Eadie MJ

Subjects
Chromatography, Gas, Epilepsy blood, Humans, Indicators and Reagents, Reference Standards, Stereoisomerism, Vigabatrin, Aminocaproates blood, Anticonvulsants blood
Abstract

A rapid and specific gas chromatographic method has been developed for the determination of plasma R(-)- and S(+)-vigabatrin concentrations. The method involves a double derivatisation step, chromatography on a megabore Chirasil-Val capillary column and thermionic specific detection. Concentrations in the range 1.0-200 micrograms/ml can be measured for R(-)-vigabatrin, and 0.5-100 micrograms/ml for S(+)-vigabatrin, using 250 microliters of plasma. The assay is suitable for pharmacokinetic studies and routine therapeutic drug monitoring in humans.

Published
1993
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37. The influence of other anticonvulsants on the plasma concentration of E-2-en-valproate.

Author

McLaughlin DB, McKinnon GE, and Eadie MJ

Subjects
Adult, Dose-Response Relationship, Drug, Drug Therapy, Combination, Humans, Middle Aged, Osmolar Concentration, Valproic Acid therapeutic use, Anticonvulsants therapeutic use, Fatty Acids, Monounsaturated blood
Abstract

E-2-en-valproate is a major metabolite present in the blood of humans treated with valproate. In animals it is a potent anticonvulsant. We have measured concentrations of valproate and E-2-en-valproate in 102 plasma samples obtained from 75 adult patients (20 taking valproate only; 55 taking valproate and other anticonvulsants) under steady-state conditions. The two groups' mean ages and weights were comparable. The average valproate daily dose was lower (p < 0.002) in the monotherapy group (1152 +/- S.D. 661 mg/d) than in the polypharmacy group (1902 +/- S.D. 874 mg/d). Despite this, the mean plasma levels of valproate and E-2-en-valproate were significantly higher (p < 0.05, p < 0.0001, respectively) in the monotherapy group (60.0 +/- S.D. 22.6 micrograms/ml; 3.00 +/- S.D. 1.40 micrograms/ml, respectively) than in the polypharmacy group (49.5 +/- S.D. 24.8 micrograms/ml; 1.73 +/- S.D. 0.95 microgram/ml). While the mean plasma valproate level was 17.5% lower in the polypharmacy group, the mean plasma E-2-en-valproate level was 42% lower. The co-administration of other anticonvulsants significantly reduced the concentration of valproate and, more so, of E-2-en-valproate in plasma.

Published
1992

38. Phenytoin metabolism during pregnancy.

Author

Eadie MJ, McKinnon GE, Dickinson RG, Hooper WD, and Lander CM

Subjects
Epilepsy blood, Female, Humans, Phenytoin blood, Pregnancy, Pregnancy Complications blood, Time Factors, Epilepsy urine, Phenytoin analogs & derivatives, Phenytoin urine, Pregnancy Complications urine
Abstract

The steady-state 72 h urinary excretion of various phenytoin metabolites has been measured in 10 epileptic women, whose plasma phenytoin concentrations relative to the phenytoin dose fell during pregnancy and rose again post-partum. In later pregnancy and post partum, a mean of 61.3% and 48.9%, respectively, of the total daily phenytoin dose was eliminated as 5-(4-hydroxyphenyl)-5-phenylhydantoin (p-HPPH). Even though p-HPPH accounts for not much more than half the total daily phenytoin dose, increased excretion of this metabolite sufficed to account for the elimination of the entire increase in the dose of phenytoin required during pregnancy. There was no definite increase in the excretion of any other (minor) metabolite measured. Thus pregnancy seems not to enhance uniformly the capacity of the various metabolic pathways of phenytoin.

Published
1992
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39. Metabolism of diazepam and related benzodiazepines by human liver microsomes.

Author

Hooper WD, Watt JA, McKinnon GE, and Reilly PE

Subjects
Adult, Aged, Chromatography, High Pressure Liquid, Ethylmorphine-N-Demethylase antagonists & inhibitors, Ethylmorphine-N-Demethylase metabolism, Female, Humans, In Vitro Techniques, Male, Middle Aged, Substrate Specificity, Benzodiazepines metabolism, Diazepam metabolism, Microsomes, Liver metabolism
Abstract

The metabolism of diazepam has been studied in vitro using microsomal preparations from five human livers. An HPLC method was developed for the assay of diazepam, its congeners and its metabolites. Various methods for the incorporation of diazepam into the incubation medium were explored. It was shown that the use of organic solvents or small quantities of hydrochloric acid enhanced the solubility of this substrate. However all of the organic solvents tested were associated with substantial (around 50%) inhibition of metabolism of diazepam by both major pathways (N-demethylation and C3-hydroxylation). The use of hydrochloric acid gave satisfactory solubilization of diazepam, but not of pinazepam, prazepam or halazepam. Detailed metabolic studies were conducted only for diazepam, using neither hydrochloric acid nor organic solvents in the incubation medium. Formation of N-desmethyl-diazepam increased approximately linearly with diazepam concentration to 200 microM, and did not show saturation. Formation of temazepam gave a curved profile over the same range of diazepam concentrations, suggestive of a sigmoidal relationship. Michaelis-Menten parameters could not be determined for either reaction, but intrinsic clearances for N-demethylation varied over a 6-fold range. Diazepam N-demethylation was apparently promoted by the inclusion of temazepam in the incubation medium, while C3-hydroxylation of diazepam was enhanced in the presence of N-desmethyldiazepam. Mephenytoin in the incubation mixture had no effect on diazepam metabolism by either pathway. The present studies have defined some of the methodological problems inherent in in vitro metabolic studies with benzodiazepines, and have shed further light on the metabolism of diazepam in vitro by human liver.

Published
1992
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40. Valproate metabolism during hepatotoxicity associated with the drug.

Author

Eadie MJ, McKinnon GE, Dunstan PR, MacLaughlin D, and Dickinson RG

Subjects
Adult, Female, Half-Life, Humans, Liver Diseases metabolism, Male, Middle Aged, Valproic Acid blood, Valproic Acid metabolism, Valproic Acid urine, Chemical and Drug Induced Liver Injury, Valproic Acid adverse effects
Abstract

Plasma concentrations of valproate and certain of its metabolites and their patterns of excretion in urine are described in three adults who developed hepatotoxicity during treatment of epilepsy with sodium valproate. One patient also developed a degree of reversible renal insufficiency, whilst another may have had associated infectious mononucleosis. All three cases showed evidence of impaired mitochondrial beta-oxidation of valproate. In one the impairment was at the stage catalysed by fatty acyl-CoA dehydrogenase, in another at the stage catalysed by 3-hydroxyacyl-CoA dehydrogenase and in the third at the stage catalysed by enoyl-CoA hydratase and possibly also at the next stage catalysed by 3-hydroxyacyl-CoA dehydrogenase. The impaired beta-oxidation meant that valproate metabolism was diverted into various alternative pathways. Plasma concentrations of the suspected hepatotoxic metabolite 4-en-valproate were normal for the valproate-treated population in all cases. By analogy with certain spontaneous and acquired human disorders of branched chain amino acid metabolism, it is suggested that valproate-associated hepatotoxicity may represent the consequences of a valproate overload on a limited mitochondrial beta-oxidation capacity, causing accumulation of a toxic product of endogenous branched chain amino acid metabolism.

Published
1990
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41. Simultaneous quantitation of salivary carbamazepine, carbamazepine-10,11-epoxide, phenytoin and phenobarbitone by high-performance liquid chromatography.

Author

Herkes GK, McKinnon GE, and Eadie MJ

Subjects
Anticonvulsants analysis, Chromatography, High Pressure Liquid, Humans, Spectrophotometry, Ultraviolet, Carbamazepine analogs & derivatives, Carbamazepine analysis, Phenobarbital analysis, Phenytoin analysis, Saliva analysis
Abstract

A rapid, sensitive and accurate high-performance liquid chromatographic method for the simultaneous quantitation of phenobarbitone, phenytoin, carbamazepine and carbamazepine-10,11-epoxide in saliva is described. Only small volumes of saliva (100 microliters) are required. Separation of the drugs is achieved by reversed-phase chromatography on a Nova-Pak C18 column, with a mobile phase of acetonitrile-phosphate buffer at a flow-rate of 2.0 ml/min. Detection is effected by ultra-violet absorption at 215 nm. The total run time is under 12.5 min per assay. A precipitation but no extraction step is involved, simplifying the assay method. Salivary concentrations in the range 0.25-25 micrograms/ml for carbamazepine, 0.5-20 micrograms/ml for phenytoin and phenobarbitone and 0.4-20 micrograms/ml for carbamazepine-10,11-epoxide can be measured. Recovery varies from 94 to 108%. The method has been used for routine measurements of anticonvulsants in saliva collected daily from patients with intractable epilepsy.

Published
1989
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42. Covalent binding of diflunisal and probenecid to plasma protein in humans: persistence of the adducts in the circulation.

Author

McKinnon GE and Dickinson RG

Subjects
Adult, Chromatography, High Pressure Liquid, Diflunisal pharmacokinetics, Half-Life, Humans, Male, Mass Spectrometry, Probenecid pharmacokinetics, Protein Binding, Protein Conformation, Blood Proteins metabolism, Diflunisal blood, Probenecid blood
Abstract

Acyl glucuronide conjugates of carboxylic drugs have been shown over the past decade to be potentially reactive metabolites, undergoing hydrolysis, intramolecular rearrangement and intermolecular transacylation reactions. The present report describes the covalent binding of diflunisal (D) and probenecid (P) to plasma protein of five healthy volunteers who took a 6-day course of oral D with oral P co-administered during the last 2 days. Maximum concentrations of the D- and P-adducts were achieved within one day of cessation of dosing, and were 35 +/- SE 1 and 17 +/- SE 1 ng/mg protein respectively. The D-protein adduct was eliminated from plasma in a biphasic manner, with a terminal half-life of 10.0 +/- SE 0.9 days. In contrast, elimination of the P-protein adduct was monophasic with a half-life of 13.5 +/- SE 0.3 days. The adducts were still measurable in plasma at least one month after the parent reversibly-bound drugs were undetectable. It is not known whether such covalent binding of the drugs, presumably via their acyl glucuronides, could have any biological consequences, such as induction of hypersensitivity reactions.

Published
1989

47. Prenatal vaccinia.

Author

HOOD CK and McKINNON GE

Subjects
Female, Humans, Pregnancy, Abortion, Induced, Fetal Diseases, Smallpox, Vaccination, Vaccinia, Vaccinia virus
Published
1963
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