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Carsten Külheim Amanda Padovan Charles Hefer Sandra T Krause Tobias G K?llner Alexander A Myburg J?rg Degenhardt William J Foley 《BMC genomics》2015,16(1)
Background
Terpenoids are abundant in the foliage of Eucalyptus, providing the characteristic smell as well as being valuable economically and influencing ecological interactions. Quantitative and qualitative inter- and intra- specific variation of terpenes is common in eucalypts.Results
The genome sequences of Eucalyptus grandis and E. globulus were mined for terpene synthase genes (TPS) and compared to other plant species. We investigated the relative expression of TPS in seven plant tissues and functionally characterized five TPS genes from E. grandis. Compared to other sequenced plant genomes, Eucalyptus grandis has the largest number of putative functional TPS genes of any sequenced plant. We discovered 113 and 106 putative functional TPS genes in E. grandis and E. globulus, respectively. All but one TPS from E. grandis were expressed in at least one of seven plant tissues examined. Genomic clusters of up to 20 genes were identified. Many TPS are expressed in tissues other than leaves which invites a re-evaluation of the function of terpenes in Eucalyptus.Conclusions
Our data indicate that terpenes in Eucalyptus may play a wider role in biotic and abiotic interactions than previously thought. Tissue specific expression is common and the possibility of stress induction needs further investigation. Phylogenetic comparison of the two investigated Eucalyptus species gives insight about recent evolution of different clades within the TPS gene family. While the majority of TPS genes occur in orthologous pairs some clades show evidence of recent gene duplication, as well as loss of function.Electronic supplementary material
The online version of this article (doi:10.1186/s12864-015-1598-x) contains supplementary material, which is available to authorized users. 相似文献3.
De Vos L van der Nest MA van der Merwe NA Myburg AA Wingfield MJ Wingfield BD 《Fungal biology》2011,115(9):902-908
Fusarium circinatum and Fusarium subglutinans are two distinct species in the Gibberella fujikuroi species complex. A genetic linkage map produced from an interspecific cross between these species was used to identify quantitative trait loci (QTLs) associated with variation in mycelial growth and morphology of colony margins (CMs) in the 94 F(1) progeny. Mycelial growth was assessed by measuring culture size at 25°C and 30°C, while CM morphology was characterized in the parents and assessed in their F(1) progeny. In order to test the pathogenicity of the progeny, Pinus patula seedlings were inoculated and lesion lengths were measured after 3weeks. Seven putative QTLs were associated with mycelial growth, three for growth at 25°C and four at 30°C. One highly significant QTL (P<0.001) was present at both growth temperatures. For CM morphology, a QTL was identified at the same position (P<0.001) as the QTL responsible for growth at the two temperatures. The putative QTLs accounted for 45 and 41% of the total mycelial growth variation at 25°C and 30°C, respectively, and for 21% of the variation in CM morphology. Only one of the 94 F(1) progeny was pathogenic on P. patula seedlings. This observation could be explained by the genetic constitution of this F(1) isolate, namely that ~96% of its genome originated from the F. circinatum parent. This F(1) individual also grew significantly faster at 25°C than the F. circinatum parent (P<0.05), as well as more rapidly than the average growth for the remaining 93 F(1) progeny (P<0.05). However, no association was found between mycelial growth and pathogenicity at 25°C. The highly significant QTL associated with growth at two temperatures, suggests that this is a principal genomic region involved in mycelial growth at both temperatures, and that the same region is also responsible for CM morphology. 相似文献
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The genetic architecture of hybrid fitness characters can provide valuable insights into the nature and evolution of postzygotic reproductive barriers in diverged species. We determined the genome-wide distribution of barriers to introgression in an F(1) hybrid of two Eucalyptus tree species, Eucalyptus grandis (W. Hill ex Maiden.) and E. globulus (Labill.). Two interspecific backcross families (N = 186) were used to construct comparative, single-tree, genetic linkage maps of an F(1) hybrid individual and two backcross parents. A total of 1354 testcross AFLP marker loci were evaluated in the three parental maps and a substantial proportion (27.7% average) exhibited transmission ratio distortion (alpha = 0.05). The distorted markers were located in distinct regions of the parental maps and marker alleles within each region were all biased toward either of the two parental species. We used a Bayesian approach to estimate the position and effect of transmission ratio distorting loci (TRDLs) in the distorted regions of each parental linkage map. The relative viability of TRDL alleles ranged from 0.20 to 0.72. Contrary to expectation, heterospecific (donor) alleles of TRDLs were favored as often as recurrent alleles in both backcrosses, suggesting that positive and negative heterospecific interactions affect introgression rates in this wide interspecific pedigree. 相似文献
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Anand Raj Kumar Kullan Maria M. van Dyk Nicoletta Jones Arnulf Kanzler Arlene Bayley Alexander A. Myburg 《Tree Genetics & Genomes》2012,8(1):163-175
Traits that differentiate cross-fertile plant species can be dissected by genetic linkage analysis in interspecific hybrids.
Such studies have been greatly facilitated in Eucalyptus tree species by the recent development of Diversity Arrays Technology (DArT) markers. DArT is an affordable, high-throughput
marker technology for the construction of high-density genetic linkage maps. Eucalyptus grandis and Eucalyptus urophylla are commonly used to produce fast-growing, disease tolerant hybrids for clonal eucalypt plantations in tropical and subtropical
regions. We analysed 7,680 DArT markers in an F2 pseudo-backcross mapping pedigree based on an F1 hybrid clone of E. grandis and E. urophylla. A total of 2,440 markers (31.7%) were polymorphic and could be placed in linkage maps of the F1 hybrid and two pure-species
backcross parents. An integrated genetic linkage map was constructed for the pedigree resulting in 11 linkage groups (n = 11) with 2,290 high-confidence (LOD ≥ 3.0) markers and a total map length of 1,107.6 cM. DNA sequence analysis of the mapped
DArT marker fragments revealed that 43% were located in protein coding regions and 90% could be placed in the recently completed
draft genome assembly of E. grandis. Together with the anchored genomic sequence information, this linkage map will allow detailed genetic dissection of quantitative
traits and hybrid fitness characters segregating in the F2 progeny and will facilitate the development of markers for molecular
breeding in Eucalyptus. 相似文献
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Systems genetics reveals a transcriptional network associated with susceptibility in the maize–grey leaf spot pathosystem 下载免费PDF全文