Comparative transcriptome analysis of differentially expressed genes and pathways in male and female flowers of Fraxinus mandshurica.

Fraxinus mandshurica Rupr. (F. mandshurica) is a dioecious tree species with important ecological and application values. To delve deeper into the regulatory pathways and genes responsible for male and female flowers in F. mandshurica, we conducted transcriptome sequencing on male and female flowers at four distinct stages. The analysis revealed that the female database generated 38,319,967 reads while the male database generated 43,320,907 reads, resulting in 2930 differentially expressed genes with 1441 were up-regulated and 1489 down-regulated in males compared to females. Following an analysis of Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG), four distinct pathways (hormone signal transduction, energy metabolism, flavonoid biosynthesis, and photoperiod) linked to female and male flowers were identified. Subsequently, qRT-PCR verification revealed that FmAUX/IAA, FmEIN3, and FmA-ARR genes in hormone signal transduction pathway are related to female flower development. Meanwhile, FmABF genes in hormone signal transduction pathway, FmGS and FmGDH genes in energy metabolism pathway, FmFLS genes in flavonoid biosynthesis pathway, and FmCaM, FmCRY, and FmPKA genes in photoperiod pathway are related to male flower development. This study was the first to analyze the transcriptome of male and female flowers of F. mandshurica, providing a reference for the developmental pathways and gene expression levels of male and female plants.

NRT2.1 mediates the reciprocal regulation of nitrate and NO/SNO in seedling leaves of Fraxinus mandshurica and Betula platyphylla.

Nitric oxide (NO) and S-nitrosothiol (SNO) are signal molecules and the products of nitrogen metabolism. Nitrate (NO3-) is the main nitrogen source, and nitrate transporters (NRTs) are responsible for NO3- absorption or transport. However, the interactive effect between NO3-/NRT and NO/SNO in tree plants remains ambiguous. In the present study, 25 mmol L-1 NO3- and 1 mmol L-1 NO donor sodium nitroprusside (SNP) treatment that was conducted for 24 h enhanced NO/SNO and NO3- metabolism, whereas 2.5 mmol L-1 NO3- and 80 µmol L-1 N6022 (a compound that increases SNO content) treatment reduced them in seedling leaves of Fraxinus mandshurica and Betula platyphylla. Among the nine NRT family members examined, the gene expression level of NRT2.1 had a greater response to NO/SNO and NO3- treatment in the seedling leaves of F. mandshurica and B. platyphylla. Meanwhile, FmNRT2.1 mediated NO and SNO production in seedling leaves of F. mandshurica using Agrobacterium-mediated transient transformation. These findings shed light on the reciprocal regulation between NO3- and NO/SNO in seedlings of F. mandshurica and B. platyphylla, and NRT2.1 may act as a key regulatory hub.

Brassinosteroids affect wood development and properties of Fraxinus mandshurica.

Introduction: Xylem development plays a crucial role in wood formation in woody plants. In recent years, there has been growing attention towards the impact of brassinosteroids (BRs) on this xylem development. In the present study, we evaluated the dynamic variation of xylem development in Fraxinus mandshurica (female parent, M8) and a novel interspecific hybrid F. mandshurica × Fraxinus sogdiana (1601) from May to August 2020. Methods: We obtained RNA-Seq transcriptomes of three tissue types (xylem, phloem, and leaf) to identify the differences in xylem-differentially expressed genes (X-DEGs) and xylem-specifically expressed genes (X-SEGs) in M8 and 1601 variants. We then further evaluated these genes via weighted gene co-expression network analysis (WGCNA) alongside overexpressing FmCPD, a BR biosynthesis enzyme gene, in transient transgenic F. mandshurica. Results: Our results indicated that the xylem development cycle of 1601 was extended by 2 weeks compared to that of M8. In addition, during the later wood development stages (secondary wall thickening) of 1601, an increased cellulose content (14%) and a reduced lignin content (11%) was observed. Furthermore, vessel length and width increased by 67% and 37%, respectively, in 1601 compared with those of M8. A total of 4589 X-DEGs were identified, including enzymes related to phenylpropane metabolism, galactose metabolism, BR synthesis, and signal transduction pathways. WGCNA identified hub X-SEGs involved in cellulose synthesis and BR signaling in the 1601 wood formation-related module (CESA8, COR1, C3H14, and C3H15); in contrast, genes involved in phenylpropane metabolism were significantly enriched in the M8 wood formation-related module (CCoAOMT and CCR). Moreover, overexpression of FmCPD in transient transgenic F. mandshurica affected the expression of genes associated with lignin and cellulose biosynthesis signal transduction. Finally, BR content was determined to be approximately 20% lower in the M8 xylem than in the 1601 xylem, and the exogenous application of BRs (24-epi brassinolide) significantly increased the number of xylem cell layers and altered the composition of the secondary cell walls in F. mandshurica. Discussion: Our findings suggest that BR biosynthesis and signaling play a critical role in the differing wood development and properties observed between M8 and 1601 F. mandshurica.

Basic helix-loop-helix transcription factor PxbHLH02 enhances drought tolerance in Populus (Populus simonii × P. nigra).

The basic helix-loop-helix (bHLH) transcription factors (TFs) are involved in plant morphogenesis and various abiotic and biotic stress responses. However, further exploration is required of drought-responsive bHLH family members and their detailed regulatory mechanisms in Populus. Two bHLH TF genes, PxbHLH01/02, were identified in Populus simonii × P. nigra and cloned. The aim of this study was to examine the role of bHLH TFs in drought tolerance in P. simonii × P. nigra. The results showed that the amino acid sequences of the two genes were homologous to Arabidopsis thaliana UPBEAT1 (AtUPB1) and overexpression of PxbHLH01/02 restored normal root length in the AtUPB1 insertional mutant (upb1-1). The PxbHLH01/02 gene promoter activity analysis suggested that they were involved in stress responses and hormone signaling. Furthermore, Arabidopsis transgenic lines overexpressing PxbHLH01/02 exhibited higher stress tolerance compared with the wild-type. Populus simonii × P. nigra overexpressing PxbHLH02 increased drought tolerance and exhibited higher superoxide dismutase and peroxidase activities, lower H2O2 and malondialdehyde content, and lower relative conductivity. The results of transcriptome sequencing (RNA-seq) and quantitative real-time PCR suggested that the response of PxbHLH02 to drought stress was related to abscisic acid (ABA) signal transduction. Overall, the findings of this study suggest that PxbHLH02 from P. simonii × P. nigra functions as a positive regulator of drought stress responses by regulating stomatal aperture and promoting ABA signal transduction.

Genome-wide analysis and molecular dissection of the SPL gene family in Fraxinus mandshurica.

BACKGROUND: SQUAMOSA promoter binding protein-like (SPL) is a unique family of transcription factors in plants, which is engaged in regulating plant growth and development, physiological and biochemical processes. Fraxinus mandshurica is an excellent timber species with a wide range of uses in northeastern China and enjoys a high reputation in the international market. SPL family analysis has been reported in some plants while SPL family analysis of Fraxinus mandshurica has not been reported. RESULTS: We used phylogeny, conserved motifs, gene structure, secondary structure prediction, miR156 binding sites, promoter cis elements and GO annotation to systematically analyze the FmSPLs family. This was followed by expression analysis by subcellular localization, expression patterns at various tissue sites, abiotic stress and hormone induction. Because FmSPL2 is highly expressed in flowers it was selected to describe the SPL gene family of Fraxinus mandshurica by ectopic expression. Among them, 10 FmSPL genes that were highly expressed at different loci were selected for expression analysis under abiotic stress (NaCl and Cold) and hormone induction (IAA and ABA). These 10 FmSPL genes showed corresponding trends in response to both abiotic stress and hormone induction. We showed that overexpression of FmSPL2 in transgenic Nicotiana tabacum L. resulted in taller plants, shorter root length, increased root number, rounded leaves, and earlier flowering time. CONCLUSIONS: We identified 36 SPL genes, which were classified into seven subfamilies based on sequence analysis. FmSPL2 was selected for subsequent heterologous expression by analysis of expression patterns in various tissues and under abiotic stress and hormone induction, and significant phenotypic changes were observed in the transgenic Nicotiana tabacum L. These results provide insight into the evolutionary origin and biological significance of plant SPL. The aim of this study was to lay the foundation for the genetic improvement of Fraxinus mandshurica and the subsequent functional analysis of FmSPL2.

Establishment of the technology of cambial meristematic cells (CMCs) culture from shoots and high expression of FmPHV (PHAVOLUTA) functions in identification and differentiation of CMCs and promoting the shoot regeneration by hypocotyl in Fraxinus mandshurica.

In Fraxinus mandshurica, we successfully isolated and identified the loose, uniform and creamy-white cambial meristematic cells (CMCs) from newborn shoots, and established a culture technology for induction, proliferation and differentiation of CMCs. In this technology, higher induction rate (83.0%, 0.57-fold to the control) was obtained by an effective pretreatment after 28-day induction culture, CMCs can be better proliferation cultured than common calli and maintain same growth states after several times of cultures and 3.3% CMCs primarily realized differentiation. Gene expressions in the differentiated CMCs revealed that, low expression of FmWOX5 (regulator in establishment of competence for shoot formation, 0.09-fold to the control) and high expressions of FmWOX4 (cambium stem cell regulator, 16.7-fold to the control) and 9 key genes in shoot regeneration (2.4-fold-72.1-fold to the control) function in CMCs differentiation. In addition to the function of high expression of PHAVOLUTA (FmPHV) in CMCs differentiation (5.4-fold-157.3-fold to undifferentiated CMCs), functions of high expression of FmPHV in CMCs identification (22.4-fold to common calli) and generating more shoots (2.3-fold to the control) by significantly changing expressions of key regulators in HD-Zip Class III related shoot regeneration networks in positive transgenic plants through the hypocotyl transforming system in F. mandshurica, were further revealed. These works were of profound significance in providing the culture technology of CMCs from newborn shoots in F. mandshurica for the first time and revealing the positive functions of FmPHV in CMCs identification and differentiation in F. mandshurica and promoting the shoot regeneration by hypocotyls.

Functional identification of BpMYB21 and BpMYB61 transcription factors responding to MeJA and SA in birch triterpenoid synthesis.

BACKGROUND: Triterpenoids from birch (Betula platyphylla Suk.) exert antitumor and anti-HIV activities. Due to the complexity of plant secondary metabolic pathways, triterpene compounds in plants is not always determined by a single gene; they may be controlled by polygene quantitative traits. Secondary metabolism related to terpenoids involves tissue specificity and localisation of key biosynthetic enzymes. Terpene synthesis is influenced by light, hormones and other signals, as well as upstream transcription factor regulation. RESULTS: Anchor Herein, we identified and characterised two birch MYB transcription factors (TFs) that regulate triterpenoid biosynthesis. BpMYB21 and BpMYB61 are R2R3 TFs that positively and negatively regulate responses to methyl-jasmonate (MeJA) and salicyclic acid (SA), respectively. Expression of BpMYB21 and BpMYB61 was elevated in leaves and stems more than roots during July/August in Harbin, China. BpMYB21 expression was increased by abscisic acid (ABA), MeJA, SA and gibberellins (GAs). BpMYB61 expression in leaves and BpMYB21 expression in stems was reduced by ABA, MeJA and SA, while GAs, ethylene, and injury increased BpMYB61 expression. BpMYB21 was localised in nuclei, while BpMYB61 was detected in cell membranes and nuclei. Promoters for both BpMYB21 (1302 bp) and BpMYB61 (850 bp) were active. BpMYB21 and BpMYB61 were ligated into pYES3, introduced into AnchorINVScl (yeast strain without exogenous genes), INVScl-pYES2-SSAnchorAnchor (transgenic yeast strain harbouring the SS gene from birch), and INVScl-pYES2-SE (transgenic yeast strain harbouring the SE gene from birch), and the squalene content was highest in AnchorINVScl-pYES-MYB21-SS (transgenic yeast strain harbouring SS and MYB21 genes) and INVScl-pYES3-MYB61 (transgenic yeast strain harbouring the MYB61 gene). In BpMYB21 transgenic birch key triterpenoid synthesis genes were up-regulated, and in BpMYB61 transgenic birch AnchorFPS (farnesyl pyrophosphate synthase) and SS (squalene synthase) were up-regulated, but HMGR (3-hydroxy-3-methylglutaryl coenzyme a reductase), BPWAnchor (lupeol synthase), SE (squalene epoxidase) and BPY (b-amyrin synthase) were down-regulated. Both BpMYB21 and BpMYB61 specifically activate SE and BPX (cycloartenol synthase synthesis) promoters. CONCLUSIONS: These findings support further functional characterisation of R2R3-MYB genes, and illuminate the regulatory role of BpMYB21 and BpMYB61 in the synthesis of birch triterpenoids.

Fraxinus mandshurica 4-coumarate-CoA ligase 2 enhances drought and osmotic stress tolerance of tobacco by increasing coniferyl alcohol content.

4-Coumarate-CoA ligase (4CL) is an important branch point in the phenylpropane pathway and plays important roles in plant growth and development. In this study, the 4CL2 gene from Fraxinus mandshurica (designated Fm4CL2) was identified and isolated. Sequence analysis revealed that Fm4CL2 is a type I 4CL gene involved in lignin biosynthesis. Analysis of cell wall components revealed that Fm4CL2-overexpressing (OE-Fm4CL2) tobacco showed increased lignin content (by 58.9%) and decreased hemicellulose content (by 41.2%). Detection of small-molecule metabolites in the lignin pathway revealed that coumaric acid content decreased by 48% and coniferyl alcohol content increased by 250% compared with the control values. Compared with wild type, OE-Fm4CL2 tobacco showed increased xylem cell layer number (by 120%) and cell wall thickness (by 54.5%). Under osmotic stress, transgenic tobacco showed higher growth than wild-type tobacco. The germination rate of transgenic tobacco was higher than that of wild type. Reactive oxygen species accumulation and malondialdehyde content were significantly lower in transgenic tobacco than in wild type. Under drought, the expression of stress-related genes was higher in 35S-Fm4CL2-infected Fraxinus mandshurica plants than in control plants. These results indicate that Fm4CL2 overexpression can enhance drought and osmotic stress tolerance of plants.

Expression characteristics and function of CAS and a new beta-amyrin synthase in triterpenoid synthesis in birch (Betula platyphylla Suk.).

Triterpenoids produced by the secondary metabolism of Betula platyphylla Suk. exhibit important pharmacological activities, such as tumor inhibition, anti-HIV, and defense against pathogens, but the yield of natural synthesis is low, which is insufficient to meet people's needs. In this study, we identified two OSC genes of birch, named as BpCAS and Bpß-AS, respectively. The expression of BpCAS and Bpß-AS were higher levels in roots and in stems, respectively, and they induced expression in response to methyl jasmonate (MeJA), gibberellin (GA3), abscisic acid (ABA), ethylene and mechanical damage. The function of the two genes in the triterpene synthesis of birch was identified by reverse genetics. The inhibition of Bpß-AS gene positively regulates synthesis of betulinic acid. BpCAS interference can significantly promote the upregulation of lupeol synthase gene (BPW) and ß-amyrin synthase gene(BPY), and conversion of 2,3-oxidosqualene to the downstream products betulinic acid and oleanolic acid. This study provided a basis for the genetic improvement of triterpenoid synthesis in birch through genetic engineering. The obtained transgenic birch and suspension cells served as material resources for birch triterpenoid applications in further.

DNA Methylation Silences Exogenous Gene Expression in Transgenic Birch Progeny.

The genetic stability of exogenous genes in the progeny of transgenic trees is extremely important in forest breeding; however, it remains largely unclear. We selected transgenic birch (Betula platyphylla) and its hybrid F1 progeny to investigate the expression stability and silencing mechanism of exogenous genes. We found that the exogenous genes of transgenic birch could be transmitted to their offspring through sexual reproduction. The exogenous genes were segregated during genetic transmission. The hybrid progeny of transgenic birch WT1×TP22 (184) and WT1×TP23 (212) showed higher Bgt expression and greater insect resistance than their parents. However, the hybrid progeny of transgenic birch TP23×TP49 (196) showed much lower Bgt expression, which was only 13.5% of the expression in its parents. To elucidate the mechanism underlying the variation in gene expression between the parents and progeny, we analyzed the methylation rates of Bgt in its promoter and coding regions. The hybrid progeny with normally expressed exogenous genes showed much lower methylation rates (0-29%) than the hybrid progeny with silenced exogenous genes (32.35-45.95%). These results suggest that transgene silencing in the progeny is mainly due to DNA methylation at cytosine residues. We further demonstrated that methylation in the promoter region, rather than in the coding region, leads to gene silencing. We also investigated the relative expression levels of three methyltransferase genes: BpCMT, BpDRM, and BpMET. The transgenic birch line 196 with a silenced Gus gene showed, respectively, 2.54, 9.92, and 4.54 times higher expression levels of BpCMT, BpDRM, and BpMET than its parents. These trends are consistent with and corroborate the high methylation levels of exogenous genes in the transgenic birch line 196. Therefore, our study suggests that DNA methylation in the promoter region leads to silencing of exogenous genes in transgenic progeny of birch.

Molecular cloning and functional analysis of 4-Coumarate:CoA ligase 4(4CL-like 1)from Fraxinus mandshurica and its role in abiotic stress tolerance and cell wall synthesis.

BACKGROUND: Four-Coumarate:CoA ligase gene (4CL) plays multiple important roles in plant growth and development by catalyzing the formation of CoA ester. 4CL belongs to the plant phenylpropane derivative, which is related to the synthesis of flavonoids and lignin and is a key enzyme in the biosynthetic pathway. RESULTS: In this study, 12 4CL genes of Fraxinus mandschurica were identified and named Fm4CL1-Fm4CL12, respectively. The analysis of the expression pattern of Fm4CL genes indicate that Fm4CL-like 1 gene may play a role in the lignin synthesis pathway. Our study indicate that overexpression of Fm4CL-like 1 increases the lignin content of transgenic tobacco by 39.5% compared to WT, and the S/G ratio of transgenic tobacco increased by 19.7% compared with WT. The xylem cell layer of transgenic line is increased by 40% compared to WT, the xylem cell wall thickness increased by 21.6% compared to the WT. Under mannitol-simulated drought stress, the root length of transgenic tobacco is 64% longer than WT, and the seed germination rate of the transgenic lines is 47% higher than that of WT. In addition, the H2O2 content in the transgenic tobacco was 22% lower than that of WT, while the POD and SOD content was higher than WT by 30 and 24% respectively, which showed Fm4CL-like 1 affect the accumulation of reactive oxygen species (ROS). The MDA content and relative conductivity was 25 and 15% lower than WT, respectively. The water loss rate is 16.7% lower than that of WT. The relative expression levels of stress-related genes NtHAK, NtAPX, NtCAT, NtABF2, and NtZFP were higher than those of WT under stress treatment. The stomatal apertures of OE (Overexpression) were 30% smaller than those of WT, and the photosynthetic rate of OE was 48% higher than that of WT. These results showed that the overexpression line exhibited stronger adaptability to osmotic stress than WT. CONCLUSIONS: Our results indicate that Fm4CL-like 1 is involved in secondary cell wall development and lignin synthesis. Fm4CL-like 1 play an important role in osmotic stress by affecting cell wall and stomatal development.

Molecular cloning and functional analysis of a UV-B photoreceptor gene, BpUVR8 (UV Resistance Locus 8), from birch and its role in ABA response.

As a photoreceptor specifically for UV-B light, UVR8 gene plays an important role in the photomorphogenesis and developmental growth of plants. In this research, we isolated the UVR8 gene from birch, named BpUVR8 (AHY02156). BpUVR8 overexpression rescued the uvr8 mutant phenotype using functional complementation assay of BpUVR8 in Arabidopsis uvr8 mutants, which showed that the function of UVR8 is conserved between Arabidopsis and birch. The expression analysis of BpUVR8 indicated that this gene is expressed in various tissues, but its expression levels in leaves are higher than in other organs. Moreover, abiotic stress factors, such as UV-B, salinity, and abscisic acid (ABA) can induce the expression of BpUVR8 gene. Interestingly, the analysis of promoter activity indicated that BpUVR8 promoter not only has the promoting activity but can also respond to the induction of abiotic stress and ABA signal. So, we analyzed its function in ABA response via transgenic UVR8 overexpression in Arabidopsis. The BpUVR8 enhances the susceptibility to ABA, which indicates that BpUVR8 is regulated by ABA and can inhibit seed germination. The root length of 20-day-old 35S::BpUVR8/WT transgenic plants was 18% reduced as compared to the wild-type under the ABA treatment. The membrane of the BpUVR8-overexpressing in Arabidopsis thaliana was the most damaged after ABA treatment and 35S::BpUVR8/WT transgenic plant was more sensitive to ABA than the wild type. These results showed that BpUVR8 is a positive regulator in the ABA signal transduction pathway. In the presence of low dose of UV-B, the sensitivity of wild-type and 35S::BpUVR8/WT plants to ABA was reduced. Moreover, BpUVR8 regulates the expression of a subset of ABA-responsive genes, both in Arabidopsis and Betula platyphylla, under the ABA treatment. Our data provide evidence that BpUVR8 is a positive regulator in the UV-B-induced photomorphogenesis in plants. Moreover, we propose from this research that BpUVR8 might have an important role in integrating plant growth and ABA signaling pathway.

Cloning and expression of BpMYC4 and BpbHLH9 genes and the role of BpbHLH9 in triterpenoid synthesis in birch.

BACKGROUND: Birch (Betula platyphylla Suk.) contains triterpenoids with anti-HIV and anti-tumor pharmacological activities. However, the natural abundance of these triterpenoids is low, and their chemical synthesis is costly. Transcription factors have the ability to regulate the metabolite pathways of triterpenoids via multi-gene control, thereby improving metabolite yield. Thus, transcription factors have the potential to facilitate the production of birch triterpenoids. Plant bHLH (basic helix-loop-helix) transcription factors play important roles in stress response and secondary metabolism. RESULTS: In this study, we cloned two genes, BpMYC4 and BpbHLH9, that encode bHLH transcription factors in Betula platyphylla Suk. The open reading frame (ORF) of BpMYC4 was 1452 bp and encoded 483 amino acids, while the ORF of BpbHLH9 was 1140 bp and encoded 379 amino acids. The proteins of BpMYC4 and BpbHLH9 were localized in the cell membrane and nucleus. The tissue-specific expression patterns revealed that BpMYC4 expression in leaves was similar to that in the stem and higher than in the roots. The expression of BpbHLH9 was higher in the leaves than in the root and stem. The expressions of BpMYC4 and BpbHLH9 increased after treatment with abscisic acid, methyl jasmonate, and gibberellin and decreased after treatment with ethephon. The promoters of BpMYC4 and BpbHLH9 were isolated using a genome walking approach, and 900-bp and 1064-bp promoter sequences were obtained for BpMYC4 and BpbHLH9, respectively. The ORF of BpbHLH9 was ligated into yeast expression plasmid pYES3 and introduced into INVScl and INVScl1-pYES2-SS yeast strains. The squalene and total triterpenoid contents in the different INVScl1 transformants decreased in the following order INVScl1-pYES-SS-bHLH9 > INVScl1-pYES3-bHLH9 > INVScl1-pYES2- BpSS > INVScl-pYES2. In BpbHLH9 transgenic birch, the relative expression of the genes that encodes for enzymes critical for triterpenoid synthesis showed a different level of up-regulation compair with wild birch(control), and the contents of betulinic acid, oleanolic acid and betulin in bHLH9-8 transgenic birch were increased by 11.35%, 88.34% and 23.02% compared to in wild birch, respectively. CONCLUSIONS: Our results showed that the modulation of BpbHLH9 by different hormones affected triterpenoid synthesis and triterpenoid contents. This is the first report of the cloning of BpbHLH9, and the findings are important for understanding the regulatory role of BpbHLH9 in the synthesis of birch triterpenoids.

Exogenous Feeding of Fructose and Phenylalanine Further Improves Betulin Production in Suspended Betula platyphylla Cells under Nitric Oxide Treatment.

The aim of this study was to assay by NMR the metabolites which contribute to betulin production. 8-day-old suspended birch (Betula platyphylla) cells were treated by sodium nitroprusside (SNP) treatment, an NO donor, and 2-(4-carboxyphenyl)-4,4,5,5-tetramethyl-imidazoline-1-oxyl-3-oxide (cPTIO), an NO-specific scavenger. The results showed that betulin production was increased by five times after SNP treatment, similar with that of the control under cPTIO treatment. Forty one metabolites were detected after SNP treatment or cPTIO treatment. Among them, 10 were found to significantly contribute to the differences observed between controls and treated cell culture samples. To validate the contribution of the above 10 metabolites to betulin production, myo-inositol, fructose and phenylalanine based on correlation analysis between the content of 12 metabolites and betulin were used to feed birch suspension cell cultures under SNP treatment. Exogenous feeding of fructose or phenylalanine further enhanced the betulin production under SNP treatment, but myo-inositol had the opposite result.

Sexually different morphological, physiological and molecular responses of Fraxinus mandshurica flowers to floral development and chilling stress.

Fraxinus mandshurica is considered a dioecious hardwood, and the temporal separation of the maturation of the male and female flowers is one reason that F. mandshurica has become an endangered species in China. Rainfall and low temperature influence pollen formation and dispersal and the blooming of female flowers. Therefore, low fertilization efficiency strongly influences the population of F. mandshurica. Nevertheless, few studies have investigated the sex-specific morphological, physiological and molecular differentiation of F. mandshurica during flowering and its responses to low temperature. In this study, we investigated the sexual differences in the morphological, physiological, and biochemical parameters of F. mandshurica during flowering and determined the physiological and biochemical parameters and expression levels of related genes in response to low-temperature stress induced by exposure to 4 °C (chilling stress) during pollen dispersal and fertilization. Our study supports the hypothesis that male flowers suffer more severe injuries while female flowers are more adaptable to environmental stress during flower development in F. mandshurica. The results showed higher physiological and biochemical levels of malondialdehyde, proline, and soluble sugar, as well as the expression of genes involved in calcium signaling, cold shock and DNA methylation in male flowers compared with female flowers, which suggested that male flowers suffer from more serious peroxidation than female flowers. In contrast, higher antioxidant capacity and FmaCAT expression were detected in female flowers, providing preliminary evidence that male flowers rapidly fade after pollination and further demonstrating that female flowers need a much stronger antioxidant enzyme system to maintain embryonic growth. Most peaks related to physiological and molecular responses were observed at 2-4 h and 8-10 h of exposure to chilling stress in the female and male flowers, respectively. This trend implies that female flowers have higher adaptability to low temperature during fertilization.

Molecular cloning and promoter analysis of squalene synthase and squalene epoxidase genes from Betula platyphylla.

Betula platyphylla is a rich repository of pharmacologically active secondary metabolites known as birch triterpenoids (TBP). Here, we cloned the squalene synthase (SS) and squalene epoxidase genetic (SE) sequences from B. platyphylla that encode the key enzymes that are involved in triterpenoid biosynthesis and analyzed the conserved domains and phylogenetics of their corresponding proteins. The full-length sequence of BpSS is 1588 bp with a poly-A tail, which contained an open reading frame (ORF) of 1241 bp that encoded a protein of 413 amino acids. Additionally, the BpSE full-length sequence of 2040 bp with a poly-A tail was also obtained, which contained an ORF of 1581 bp encoding a protein of 526 amino acids. Their organ-specific expression patterns in 4-week-old tissue culture seedlings of B. platyphylla were detected by real-time PCR and showed that they were all highly expressed in leaves, as compared to stem and root tissues. Additionaly, both BpSS and BpSE were enhanced following stimulation with ethephon and MeJA. The expression of BpSS was enhanced by ABA, whereas BpSE was not. The SA treatment did not affect the BpSS and BpSE transcripts notably. Using a genome walking approach, promoter sequences of 965 and 1193 bp, respectively, for BpSS and BpSE were isolated, and they revealed several key cis-regulatory elements known to be involved in the response to phytohormone and abiotic plant stress. We also found that the BpSS protein is localized in the cytoplasm. Opening reading frames of BpSS and BpSE were ligated into yeast expression plasmid pYES2 under control of GAL1 promoter and introduced into the yeast INVScl1 strain. The transformants were cultured for 12 h, the squalene content of galactose-induced BpSS expression yeast cells was 13.2 times of control (empty vector control yeast cells) by high-performance liquid chromatography (HPLC) test method. And, the squalene epoxidase activity of induced BpSE expression yeast cell was about 11.8 times of control. These indicated that we cloned birch BpSS and BpSE that were indeed involved in the synthesis of triteropenoids. This is the first report wherein SS and SE from B. platyphylla were cloned and may be of significant interest to understand the regulatory role of SS and SE in the triterpenoids biosynthesis of B. platyphylla. This is the first report wherein SS and SE from B. platyphylla were cloned and may be of significant interest to understand the regulatory role of SS and SE in the biosynthesis of birch triterpenoids.

Endogenous and Exogenous Calcium Involved in the Betulin Production from Submerged Culture of Phellinus linteus Induced by Hydrogen Sulfide.

Using pharmacological and biochemical approaches, Ca(2+) involved in the betulin production in mycelia of Phellinus linteus induced by hydrogen sulfide (H2S) were investigated. The results showed that 2 mM H2S donor NaHS or 10 mM CaCl2 was found to enhance the betulin content in the mycelia of Phellinus to the maximum, which were 112.43 and 93.24% higher than that in the control, respectively. Further, NaHS and CaCl2 co-treatment also showed positive outcome, which were 128.95 or 24.52% higher than that in the control or NaHS treatment. At the same time, NaHS also enhanced the content of Ca(2+) and CaM. But, the above positive inductive effects for Ca(2+), CaM, and betulin production can be blocked with either Ca(2+) channel blocker (LaCl3, 2-aminoethoxydiphenyl borate) or Ca(2+) chelator (ethylenediaminetetraacetic acid (EDTA)). Among of them, betulin content was reduced 35.06% by NaHS and EGTA to the minimum, and this reduction could be reversed by the application of CaCl2 (NaHS + EGTA + CaCl2). From above results, it can be concluded that endogenous and exogenous calcium involved in the betulin production from submerged culture of P. linteus induced by hydrogen sulfide.

De novo transcriptome analysis of a medicinal fungi Phellinus linteus and identification of SSR markers.

The aim of this study was to facilitate gene discovery for functional genome studies and to identify simple sequence repeat (SSR) markers for molecular-assisted selection in Phellinus linteus. The transcriptome of Phellinus linteus was sequenced using а high-throughput RNA sequencing system - the Illumina Hiseq 2000. A total of 16,383,818 clean sequencing reads, 35,532 contigs and 25,811 unigenes were postulated. Based on similarity searches with known proteins, 19,350 genes (74.97% of the unigenes) were annotated. In the present research, 19,266, 10,978 and 7831 unigenes were mapped in Nr, Swiss-Prot and clusters of orthologous groups (COG) classifications, respectively. Of all unigenes, 6845 were categorized into three functional groups, namely biological process, cellular components and molecular function and 11,088 were annotated to 108 pathways by searching the Kyoto Encyclopedia of Genes and Genomes pathway database. A total of 1129 SSRs were identified in these unigenes. In addition, 23 candidate genes, potentially involved in sterol biosynthesis, were identified and were worthy of further investigation.

Crosstalk among nitric oxide, calcium and reactive oxygen species during triterpenoid biosynthesis in Betula platyphylla.

We analysed NO, reactive oxygen species (ROS) and Ca2+ crosstalk during triterpenoid biosynthesis in white birch (Betula platyphylla Suk.) cells. Cells were pretreated with diphenyleneiodonium, sodium diethyldithiocarbamate (DDTC) or catalase (CAT), or a Ca2+ channel blocker or chelator before sodium nitroprusside treatment. Changes in triterpenoid, malondialdehyde and proline levels, cell viability, and CAT, ascorbate peroxidase and peroxidase activity were recorded. Furthermore, enzyme gene expression levels related to triterpene biosynthesis, endogenous signalling and antioxidase activity, and cell apoptosis and death rates were measured. Sodium nitroprusside elevated ROS and Ca2+ levels. Oleanolic acid levels in cells pretreated with diphenyleneiodonium and CAT reduced significantly, but it increased with DDTC pretreatment. ROS inhibition downregulated BpDXR, BpCALM and BpNIA expression. Oleanolic acid, BpMnSOD expression, and CAT, ascorbate peroxidase and peroxidase activities reduced when the Ca2+ signalling pathway was blocked. The apoptosis rates of cells pretreated with DDTC and CAT decreased significantly; cell death rates also reduced in groups Ca2+ pretreated with channel blocker and chelator . Thus ROS and Ca2+ participate in triterpenoid biosynthesis, cell apoptosis and death induced by exogenous NO application. Further, NO causes oxidative stress and restricts the level of intracellular ROS through the Ca2+ signalling pathway.

[By nasal cavity approach resection of bigger pleomorphic adenoma in left skull base with nasal endoscope].

A 46-year-old female patient presented to our hospital with history of pharyngeal discomfort for 6 months. Physical examination showed that she had facial asymmetry, loss of the left nasolabial fold, rightward de- viation of uvula, swelling of the left soft palate. Magnetic resonance imaging revealed a bigger neoplasm in left pa- rapharyngeal space which invaded into left lateral skull base. The left internal carotid artery, vein and the styloid process was jostled backward. The primary clinical diagnosis is pleomorphic adenoma of the parapharyngeal space.