Changes in mRNA populations during loblolly pine (Pinus taeda) seed stratification, germination and post-germinative growth

Changes in the patterns of gene expression were examined during loblolly pine ( Pinus taeda L.) seed stratification, germination, and post-germinative growth. In both the megagametophyte and the embryo, DNA contents remained relatively constant at all stages examined. RNA contents, however, increased in both tissues following seed germination, particularly in the embryo where a 7-fold increase in the RNA content was observed 5 days after germination. Poly(A)⁺ RNA, extracted from megagametophytes and embryos, was translated in vitro in a rabbit reticulocyte lysate cell-free system. Analysis of [³⁵S]-methionine-labelled translation products by two-dimensional electrophoresis/fluorography indicated that there were changes in the populations of mRNAs during all developmental stages examined. In both the megagametophyte and the embryo several distinct mRNA populations, including one constitutively present at all stages examined, were identified. One mRNA population, present in the mature seed, decreased during seed stratification. Another population, not present in the mature seed, rose during the period of stratification that coincided with an increase in seed germinability. A third population, which appeared during seed germination, increased steadily during post-germinative growth. Besides these similarities, specific differences between megagametophyte and embryo were noted. For example, one mRNA population, which was present in the megagametophyte of the mature seed and remained constant during the stratification period, disappeared immediately following seed germination. In the embryo, one set of messages was germination specific. In total, these results show that mRNA populations change in a temporal fashion that is consistent with the patterns of de novo protein synthesis known to occur in loblolly pine during the same developmental periods.     

Polyethylene glycol-promoted development of somatic embryos in loblolly pine (Pinus taeda L.)

Summary The effect of polyethylene glycol (PEG) combined with abscisic acid (ABA) and KCl on somatic embryo development in loblolly pine was investigated. Two embryogenic cell lines, which had not produced cotyledonary stage embryos using previously published methods, were employed in this study. As a maturation medium, basal medium was supplemented with 0 to 10% PEG (MW 3350), 10 to 40 mg/l (37.8 to 151.3 μM) ABA, 0 or 10 mM KCl, 1.5 g/l activated charcoal, 30 g/l sucrose, and 6 g/l agar. Without PEG in the maturation medium, most somatic embryos at stage 1 could not mature further. Embryogenic tissues on the maturation medium with 5 to 7.5% PEG consistently produced stage 2 and stage 3 somatic embryos. PEG at 10% significantly decreased the number of stage 2 and 3 embryos compared to PEG at 5 to 7.5% ABA at 40 mg/l (151.3 μM), combined with 7.5% PEG and 10 mM KCl, gave the maximum number of stage 3 embryos in both cell lines. ABA at 10 mg/l (37.8 μM) induced an over-proliferation of embryogenic tissues and generally failed to produce mature embryos. KCl also significantly enhanced initial stage embryo formation and subsequent embryo maturation.     

Water status and growth of loblolly pine (Pinus taeda L.) callus

Water status of Pinus taeda L. callus supported on Murashige and Skoog (MS) liquid medium was characterized over an 8 week period using thermocouple psychrometry. Medium with 30 gl⁻¹ sucrose was used to produce a high water potential (Ψ_w) of −0.4 MPa (H), and the same medium was used to create a moderate Ψ_w of −0.7 MPa (M) by the addition of 10% polyethylene glycol (PEG, w/v, MW=8000). Calli were produced from cotyledon explants on H medium for 2 weeks and then transferred to either M or H medium. Callus absorption of PEG accounted for 40% of the callus dry weight and less than 7% of the callus fresh weight. Callus dry weight (without the PEG fraction) on M medium was 40% of that observed on H medium. Fresh weight on M medium was only 15% of that observed on H medium. The Ψ_w of both H and M media remained constant throughout the culture period. On H medium, callus Ψ_w and osmotic potential (Ψ_s) both increased 0.05 MPa/week with the callus Ψ_w approaching that of the external medium. On M medium, callus Ψ_w and Ψ_s both decreased more than 0.1 MPa/week with the callus Ψ_w decreasing greatly below that of the external medium. The latter was attributed to a rapidly produced osmotic shock induced upon callus transfer and/or PEG which caused less callus hydration and resulted in reduced growth. Callus turgor potential (Ψ_p) was estimated to be +0.02 to +0.09 MPa and turgor was maintained as callus Ψ_w increased or decreased. After 8 weeks, cell volumes from callus on M medium were 50 to 60% less than on H medium, suggesting that reduced cell volumes were related to turgor maintenance.     

Association genetics of the loblolly pine (Pinus taeda, Pinaceae) metabolome

The metabolome of a plant comprises all small molecule metabolites, which are produced during cellular processes. The genetic basis for metabolites in nonmodel plants is unknown, despite frequently observed correlations between metabolite concentrations and stress responses. A quantitative genetic analysis of metabolites in a nonmodel plant species is thus warranted. Here, we use standard association genetic methods to correlate 3563 single nucleotide polymorphisms (SNPs) to concentrations of 292 metabolites measured in a single loblolly pine (Pinus taeda) association population. A total of 28 single locus associations were detected, representing 24 and 20 unique SNPs and metabolites, respectively. Multilocus Bayesian mixed linear models identified 2998 additional associations for a total of 1617 unique SNPs associated to 255 metabolites. These SNPs explained sizeable fractions of metabolite heritabilities when considered jointly (56.6% on average) and had lower minor allele frequencies and magnitudes of population structure as compared with random SNPs. Modest sets of SNPs (n = 1-23) explained sizeable portions of genetic effects for many metabolites, thus highlighting the importance of multi-SNP models to association mapping, and exhibited patterns of polymorphism consistent with being linked to targets of natural selection. The implications for association mapping in forest trees are discussed.     

Monoterpene synthases of loblolly pine (Pinus taeda) produce pinene isomers and enantiomers

The turpentine fraction of conifer oleoresin is a complex mixture of monoterpene olefins and plays important roles in defense and in the mediation of chemical communication between conifer hosts and insect predators. The stereochemistry of the turpentine monoterpenes is critical in these interactions, influencing host recognition, toxicity, and potency of derived pheromones, and the stereochemical composition of these compounds lends insight into their biogenetic origin, with implications for the numbers and types of enzymes responsible and their corresponding genes. Analysis of the oleoresin from several tissues of loblolly pine (Pinus taeda) showed the derived turpentine to consist mainly of (+)-(3R:5R)-alpha-pinene and (-)-(3S:5S)-beta-pinene. Cell-free extracts from xylem tissue yielded three monoterpene synthases which together account for the monoterpene isomer and enantiomer content of the turpentine of this tissue. The major products of these enzymes, produced from the universal precursor of monoterpenes, geranyl diphosphate, were shown to be (+)-alpha-pinene, (-)-alpha-pinene, and (-)-beta-pinene, respectively. In most properties (molecular mass of approximately 60 kDa, K(m) for geranyl diphosphate of 3 microM, requirement for monovalent and divalent cations), these enzymes resemble other monoterpene synthases from conifer species.     

Comparative mapping in Pinus: sugar pine (Pinus lambertiana Dougl.) and loblolly pine (Pinus taeda L.)

The majority of genomic research in conifers has been conducted in the Pinus subgenus Pinus mostly due to the high economic importance of the species within this taxon. Genetic maps have been constructed for several of these pines and comparative mapping analyses have consistently revealed notable synteny. In contrast, little genomic research has been conducted on the Pinus subgenus Strobus, even though these pines have strong ecological relevance. We report a consensus genetic linkage map for sugar pine (Pinus lambertiana Dougl.) constructed with 399 single nucleotide polymorphisms markers derived from annotated genes. The map is 1,231 cM in length and organized into 19 linkage groups. Two of the mapping populations were derived from trees that were segregating for the major gene of resistance (Cr1) to Cronartium ribicola, the fungal pathogen responsible for white pine blister rust. The third mapping population was derived from a full-sib cross segregating for partial resistance to white pine blister rust. In addition, we report the first comparative mapping study between subgenera Strobus and Pinus. Sixty mapped markers were found in common between sugar pine and the loblolly pine reference map with 56 of them (93%) showing collinearity. All 19 linkage groups of the sugar pine consensus map coaligned to the 12 linkage groups of the loblolly pine reference map. The syntenic relationship observed between these two clades of pines provides a foundation for advancing genomic research and genetic resources in subgenus Strobus.     

Regeneration of transgenic loblolly pine (Pinus taeda L.) from zygotic embryos transformed with Agrobacterium tumefaciens

Embryos of 24 open-pollinated families of loblolly pine (Pinus teade L.) were used as explants to conduct in vitro regeneration. Then, Agrobacterium tumefaciens strain GV3101 harboring the plasmid pPCV6NFHygGUSINT was used to transform mature zygotic embryos of seven families of loblolly pine. The frequency of transformation varied among families infected with A. tumefaciens. The highest frequency (100%) of transient beta-glucuronidase (GUS)-expressing embryos was obtained from family 11-1029 with over 300 blue spots per embryo. Expression of the GUS reporter gene was observed in cotyledons, hypocotyls, and radicles of co-cultivated mature zygotic embryos, as well as in callus and shoots derived from co-cultivated mature zygotic embryos. Ninety transgenic plants were regenerated from hygromycin-resistant callus derived from families W03. 8-1082 and 11-1029. and 19 transgenic plantlets were established in soil. The presence of the GUS gene in the plant genome was confirmed by polymerase chain reaction. Southern blot, and plant DNA/T-DNA junction analysis. These results suggest that an efficient A. tumefaciens-mediated transformation protocol for stable integration of foreign genes into loblolly pine has been developed and that this transformation system could be useful for future studies on transferring economically important genes to loblolly pine.     

Development of DNA methylation-based epigenetic age predictors in loblolly pine (Pinus taeda)

Biological ageing is connected to life history variation across ecological scales and informs a basic understanding of age-related declines in organismal function. Altered DNA methylation dynamics are a conserved aspect of biological ageing and have recently been modelled to predict chronological age among vertebrate species. In addition to their utility in estimating individual age, differences between chronological and predicted ages arise due to acceleration or deceleration of epigenetic ageing, and these discrepancies are linked to disease risk and multiple life history traits. Although evidence suggests that patterns of DNA methylation can describe ageing in plants, predictions with epigenetic clocks have yet to be performed. Here, we resolve the DNA methylome across CpG, CHG, and CHH-methylation contexts in the loblolly pine tree (Pinus taeda) and construct epigenetic clocks capable of predicting ages in this species within 6% of its maximum lifespan. Although patterns of CHH-methylation showed little association with age, both CpG and CHG-methylation contexts were strongly associated with ageing, largely becoming hypomethylated with age. Among age-associated loci were those in close proximity to malate dehydrogenase, NADH dehydrogenase, and 18S and 26S ribosomal RNA genes. This study reports one of the first epigenetic clocks in plants and demonstrates the universality of age-associated DNA methylation dynamics which can inform conservation and management practices, as well as our ecological and evolutionary understanding of biological ageing in plants.     

Family 34 glycosyltransferase (GT34) genes and proteins in Pinus radiata (radiata pine) and Pinus taeda (loblolly pine)

Using a functional genomics approach, four candidate genes (PtGT34A, PtGT34B, PtGT34C and PtGT34D) were identified in Pinus taeda. These genes encode CAZy family GT34 glycosyltransferases that are involved in the synthesis of cell‐wall xyloglucans and heteromannans. The full‐length coding sequences of three orthologs (PrGT34A, B and C) were isolated from a xylem‐specific cDNA library from the closely related Pinus radiata. PrGT34B is the ortholog of XXT1 and XXT2, the two main xyloglucan (1→6)‐α‐xylosyltransferases in Arabidopsis thaliana. PrGT34C is the ortholog of XXT5 in A. thaliana, which is also involved in the xylosylation of xyloglucans. PrGT34A is an ortholog of a galactosyltransferase from fenugreek (Trigonella foenum‐graecum) that is involved in galactomannan synthesis. Truncated coding sequences of the genes were cloned into plasmid vectors and expressed in a Sf9 insect cell‐culture system. The heterologous proteins were purified, and in vitro assays showed that, when incubated with UDP‐xylose and cellotetraose, cellopentaose or cellohexaose, PrGT34B showed xylosyltransferase activity, and, when incubated with UDP‐galactose and the same cello‐oligosaccharides, PrGT34B showed some galactosyltransferase activity. The ratio of xylosyltransferase to galactosyltransferase activity was 434:1. Hydrolysis of the galactosyltransferase reaction products using galactosidases showed the linkages formed were α‐linkages. Analysis of the products of PrGT34B by MALDI‐TOF MS showed that up to three xylosyl residues were transferred from UDP‐xylose to cellohexaose. The heterologous proteins PrGT34A and PrGT34C showed no detectable enzymatic activity.     

Induction of somatic embryogenesis in loblolly pine (Pinus taeda L.)

Summary Several factors that may affect induction of somatic embryogenesis in loblolly pine (Pinus taeda L.) were investigated in 1994 and 1995. Megagametophytes containing immature zygotic embryos were excised from seeds as explants. Potassium chloride, silver nitrate, myo-inositol, coconut water, or polyamine was added to the control media (U.S. patent no. 5,036,007) to determine the effects of each single ingredient or their combinations on the initiation of embryogenic tissue. Supplements of myo-inositol at 22.2 mM resulted in increases in frequencies of cell mass extrusion and proliferation compared with the control media in consecutive years. Addition of silver nitrate showed the potential to promote initiation of embryogenic culture. The combination of 10 mM potassium with 29.4 μM silver nitrate achieved the highest frequencies in both extrusion and proliferation of embryogenic tissue. The combination of silver nitrate at 29.4 μM with addition of myo-inositol at 11.1 or 22.2 mM achieved a higher conversion rate from extrusion to proliferation. Polyamine did not significantly affect the induction of somatic embryogenesis, but coconut water was inhibitory. Published with approval of the Director of Arkansas Agricultural Experimental Station.     

Intergenotypic interactions among families of loblolly pine (Pinus taeda L.)

Summary The effects of competition on the growth of families of loblolly pine (Pinus taeda, L.) seedlings were investigated. The experimental design made it possible to evaluate the effects of crowding on growth and to determine the types and magnitudes of intergenotypic interactions among pairs of families. The results showed that intergenotypic interactions were both highly variable and pronounced in their effect on early growth. Evidence was also found for precompetition cooperating interactions occurring among seedlings surrounded by neighbors of the same family.     

High-efficiency Agrobacterium-mediated transformation of Norway spruce (Picea abies) and loblolly pine (Pinus taeda)

Agrobacterium-mediated gene transfer is the method of choice for many plant biotechnology laboratories; however, large- scale use of this organism in conifer transformation has been limited by difficult propagation of explant material, selection efficiencies and low transformation frequency. We have analyzed co-cultivation conditions and different disarmed strains of Agrobacterium to improve transformation. Additional copies of virulence genes were added to three common disarmed strains. These extra virulence genes included either a constitutively active virG or extra copies of virG and virB, both from pTiBo542. In experiments with Norway spruce, we increased transformation efficiencies 1000-fold from initial experiments where little or no transient expression was detected. Over 100 transformed lines expressing the marker gene -glucuronidase (GUS) were generated from rapidly dividing embryogenic suspension-cultured cells co- cultivated with Agrobacterium. GUS activity was used to monitor transient expression and to further test lines selected on kanamycin-containing medium. In loblolly pine, transient expression increased 10-fold utilizing modified Agrobacterium strains. Agrobacterium-mediated gene transfer is a useful technique for large-scale generation of transgenic Norway spruce and may prove useful for other conifer species.     

Hormonal and developmental regulation of two arabinogalactan-proteins in xylem of loblolly pine (Pinus taeda)

The protein cores of two arabinogalactan-proteins are preferentially expressed at very high levels in differentiating xylem of loblolly pine. Arabinogalactan-proteins are hypothesized to play important roles in xylem development. The objectives of the described research were to identify signals responsible for the regulation of PtX 3H6 and PtX 14A9 expression and to assess their expression during seedling development. Application of inhibitors of the phytohormones auxin, gibberellic acid, and ethylene to pine seedlings and subsequent northern blot analyses indicate that PtX 3H6 expression is suppressed by inhibitors of auxin and ethylene and that PtX 14A9 expression is suppressed by all 3 hormone inhibitors. PtX 3H6 is first expressed in germinating embryos. Expression of PtX 14A9 is not observed until several days later. In young stems, both genes are expressed more in the radially expanding hypocotyls than in elongating epicotyls with PtX 14A9 having a higher ratio of hypocotyl to epicotyl expression. These results indicate that PtX 3H6 and PtX 14A9 are differently regulated during seedling development and that these differences may be mediated by different hormonal signaling.     

Reference karyotype and cytomolecular map for loblolly pine (Pinus taeda L.).

A reference karyotype is presented for loblolly pine (Pinus taeda L., subgenus Pinus, section Pinus, subsection Australes), based on fluorescent in situ hybridization (FISH), using 18S-28S rDNA, 5S rDNA, and an Arabidopsis-type telomere repeat sequence (A-type TRS). Well separated somatic chromosomes were prepared from colchicine-treated root meristems, using an enzymatic digestion technique. Statistical analyses performed on chromosome-arm lengths, centromeric indices, and interstitial rDNA and telomeric positions were based on observations from 6 well-separated metaphase cells from each of 3 unrelated trees. Statistically, 7 of the 12 loblolly pine chromosomes could be distinguished by their relative lengths. Centromeric indices were unable to distinguish additional chromosomes. However, the position and relative strength of the rDNA and telomeric sites made it possible to uniquely identify all of the chromosomes, providing a reference karyotype for use in comparative genome analyses. A dichotomous key was developed to aid in the identification of loblolly pine chromosomes and their comparison to chromosomes of other Pinus spp. A cytomolecular map was developed using the interstitial 18S-28S rDNA and A-type TRS signals. A total of 54 bins were assigned, ranging from 3 to 5 bins per chromosome. This is the first report of a chromosome-anchored physical map for a conifer that includes a dichotomous key for accurate and consistent identification of the P. taeda chromosomes.     

Anchored reference loci in loblolly pine (Pinus taeda L.) for integrating pine genomics

Anchored reference loci provide a framework for comparative mapping. They are landmarks to denote conserved chromosomal segments, allowing the synthesis of genetic maps from multiple sources. We evaluated 90 expressed sequence tag polymorphisms (ESTPs) from loblolly pine (Pinus taeda L.) for this function. Primer sets were assayed for amplification and polymorphism in six pedigrees, representing two subgenera of Pinus and a distant member of the Pinaceae, Douglas-fir (Pseudotsuga menziesii [Mirb.] Franco). On average, 89% of primer sets amplified in four species of subgenus Pinus, 49% in one species of subgenus Strobus, and 22% in Douglas-fir. Polymorphisms were detected for 37-61% of the ESTPs within each pedigree. Comparative mapping in loblolly and slash pine (P. elliottii Englm.) revealed that ESTPs mapped to the same location. Disrupted synteny or significant disruptions in colinearity were not detected. Thirty-five ESTPs met criteria established for anchor loci. The majority of those that did not meet these criteria were excluded when map location was known in only a single species. Anchor loci provide a unifying tool for the community, facilitating the creation of a "generic" pine map and serving as a foundation for studies on genome organization and evolution.     

Anatomy of seedling tap roots of loblolly pine (Pinus taeda L.)

The development of tap root anatomical features was investigated in seedlings of loblolly pine (Pinus taeda L.) under both pot and pouch growth regimes. The roots possessed the three anatomical zones previously observed in jack pine (Pinus banksiana Lamb) and Eucalyptus pilularis Sm. - white, condensed tannin (CT), and cork - suggesting that this developmental sequence is preserved over species and growth conditions. Xylem development was centripetal and similar to that found earlier in P. sylvestris. Tracheids with lignified, secondary walls were detected distal to the point of endodermal Casparian band deposition. However, tests for ability to conduct fluid indicated that the protoxylem was capable of transport only proximal to the Casparian bands. Detailed examination of suberin lamella deposition in the endodermis demonstrated that passage cells were present through the white and CT zones. Progressive, centripetal cortical death in the CT zone did not include the endodermis, which remained alive until the cork layer formed, at which point the endodermis was crushed. Therefore, passage cells remain as functional portals for nutrient and water uptake in the CT zone even though the central cortex is dead. Tracer tests indicated that the endodermis provides an apoplastic barrier to tracer diffusion into the stele and that this function was taken over by the young cork layers. Results of this study point to a strong role for the endodermis in the regulation of nutrient and water uptake until the maturation of the first cork layer.