Your search keyword '"Lilium growth & development"' showing total 102 results

1. A systematic regulatory network related to bulbil formation in Lilium lancifolium based on metabolome and transcriptome analyses.

Author

Ma R, Zhang Y, Zhao J, Zheng Y, Xue L, and Lei J

Subjects

Gene Expression Regulation, Plant, Lilium genetics, Lilium metabolism, Lilium growth & development, Metabolome, Gene Expression Profiling, Plant Growth Regulators metabolism, Transcriptome, Gene Regulatory Networks

Abstract

Background: Lilium lancifolium is a special wild triploid species native to China and can produce abundant bulbils on its stem under natural conditions, which is very valuable to study bulbil organogenesis in plants. Although similar to the lateral and tillering principles, the molecular mechanism underlying bulbil formation has remained incompletely understood., Results: The metabolome and transcriptome of L. lancifolium bulbils across four development stages were analyzed. The pairwise comparison of metabolomes across the four stages identified 17 differential hormones, predominantly auxin (IAA), cytokinin (CK), and jasmonic acid (JA). Short Time-series Expression Miner (STEM) trend analysis of differential genes revealed four significant trends across these stages. The KEGG enrichment analysis of the four clusters highlighted pathways, such as plant hormone signal transduction, which were speculated to play a crucial role in development stages. these pathways were speculated to play a crucial role in development stages. To explore the key differential expressed genes and transcription factors associated with bulbil occurrence, two periods were focused on: Ll_UN and Ll_DN, which represented the stages with and without bulbils, respectively. Through correlation analysis and qRT-PCR analysis, 11 candidate differentially expressed genes and 27 candidate transcription factors were selected. By spraying exogenous hormones to validate these candidates, LlbHLH128, LlTIFY10A, LlbHLH93, and LlMYB108, were identified as the key genes for L. lancifolium bulbils., Conclusion: A regulatory network of L. lancifolium bulbil development was predicted. LlTIFY10A and LlbHLH93 might be involved in the JA and auxin signal transduction pathways, which jointly formed a regulatory network to affect the occurrence of L. lancifolium bulbil. This study not only provided more information about the differentially expressed genes and metabolites through transcriptome and metabolomics analyses, but also provided a clearer understanding of the effect of hormones on bulbil formation in lily., (© 2024. The Author(s).)

Published

2024

2. Functional Study on the Key Gene LaLBD37 Related to the Lily Bulblets Formation.

Author

Hou X, Zhang K, and Lyu Y

Subjects

Plants, Genetically Modified genetics, Gene Expression Profiling, Plant Roots genetics, Plant Roots growth & development, Plant Roots metabolism, Lilium genetics, Lilium metabolism, Lilium growth & development, Gene Expression Regulation, Plant, Plant Proteins genetics, Plant Proteins metabolism

Abstract

Oriental hybrid lilies, known for their vibrant colors, diverse flower shapes, and long blooming seasons, require annual bulb propagation in horticultural production. This necessity can lead to higher production costs and limit their use in landscaping. The LA hybrid lily 'Aladdin' has shown strong self-reproduction capabilities in optimal cultivation environments, producing numerous high-quality underground stem bulblets. This makes it a valuable model for studying bulblet formation in lilies under natural conditions. Through transcriptome data analysis of different developmental stages of 'Aladdin' bulblets, the LaLBD37 gene, linked to bulblet formation, was identified. Bioinformatics analysis, subcellular localization studies, and transcriptional activation activity tests were conducted to understand the characteristics of LaLBD37 . By introducing the LaLBD37 gene into 'Sorbonne' aseptic seedlings via Agrobacterium-mediated transformation, resistant plants were obtained. Positive plants were identified through various methods such as GUS activity detection, PCR, and fluorescence quantitative PCR. Phenotypic changes in positive plants were observed, and various physiological indicators were measured to confirm the role of LaLBD37 in bulblet formation, including soluble sugar content, starch content, sucrose synthase activity, and endogenous hormone levels. The findings suggest that the LaLBD37 gene plays a significant role in promoting the development of lily bulblets, offering insights for enhancing the reproductive capacity of Oriental hybrid lilies and exploring the molecular mechanisms involved in lily bulb regeneration.

Published

2024

3. Unraveling the Molecular Mechanisms by Which the miR171b- SCL6 Module Regulates Maturation in Lilium .

Author

Li Q, Song M, Wang Y, Lu P, Ge W, and Zhang K

Subjects

Plants, Genetically Modified, Temperature, Lilium genetics, Lilium metabolism, Lilium growth & development, MicroRNAs genetics, MicroRNAs metabolism, Gene Expression Regulation, Plant, Plant Proteins genetics, Plant Proteins metabolism

Abstract

Lilium is one of the most widely cultivated ornamental bulbous plants in the world. Although research has shown that variable temperature treatments can accelerate the development process from vegetative to reproductive growth in Lilium , the molecular regulation mechanisms of this development are not clear. In this study, Lbr -miR171b and its target gene, LbrSCL6 , were selected and validated using transgenic functional verification, subcellular localization, and transcriptional activation. This study also investigated the differential expression of Lbr -miR171b and LbrSCL6 in two temperature treatment groups (25 °C and 15 °C). Lbr -miR171b expression significantly increased after the temperature change, whereas that of LbrSCL6 exhibited the opposite trend. Through in situ hybridization experiments facilitated by the design of hybridization probes targeting LbrSCL6 , a reduction in LbrSCL6 expression was detected following variable temperature treatment at 15 °C. The transgenic overexpression of Lbr -miR171b in plants promoted the phase transition, while LbrSCL6 overexpression induced a delay in the phase transition. In addition, LbrWOX4 interacted with LbrSCL6 in yeast two-hybrid and bimolecular fluorescence complementation assays. In conclusion, these results explain the molecular regulatory mechanisms governing the phase transition in Lilium .

Published

2024

4. Application of machine learning in in vitro propagation of endemic Lilium akkusianum R. Gämperle.

Author

Tütüncü M

Subjects

Plant Shoots growth & development, Plant Shoots drug effects, Regeneration drug effects, Naphthaleneacetic Acids pharmacology, Plant Growth Regulators pharmacology, Culture Media, Purines pharmacology, Lilium growth & development, Machine Learning

Abstract

A successful regeneration protocol was developed for micropropagation of Lilium akkusianum R. Gämperle, an endemic species of Türkiye, from scale explants. The study also aimed to evaluate the effects of Meta-Topolin (mT) and N6-Benzyladenine (BA) on in vitro regeneration. The Murashige and Skoog medium (MS) supplemented with different levels of α-naphthaleneacetic acid (NAA)/BA and NAA/mT were used for culture initiation in the darkness. The highest callus rates were observed on explants cultured on MS medium with 2.0 mg/L NAA + 0.5 mg/L mT (83.31%), and the highest adventitious bud number per explant was 4.98 in MS medium with 0.5 mg/L NAA + 1.5 mg/L mT. Adventitious buds were excised and cultured in 16/8 h photoperiod conditions. The highest average shoot number per explant was 4.0 in MS medium with 2.0 mg/L mT + 1.0 mg/L NAA. Shoots were rooted with the highest rate (90%) in the medium with the 1.0 mg/L IBA, and the highest survival rate (87.5%) was recorded in rooted shoots in the same medium. The ISSR marker system showed that regenerated plantlets were genetically stable. Besides traditional tissue culture techniques used in the current study, the potential for improving the effectiveness of L. akkusianum propagation protocols by incorporating machine learning methodologies was evaluated. ML techniques enhance lily micropropagation by analyzing complex biological processes, merging with traditional methods. This collaborative approach validates current protocols, allowing ongoing improvements. Embracing machine learning in endemic L. akkusianum studies contributes to sustainable plant propagation, promoting conservation and responsible genetic resource utilization in agriculture., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Mehmet Tütüncü. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

5. Changes of starch and sucrose content and related gene expression during the growth and development of Lanzhou lily bulb.

Author

Li W, Huang D, Wang B, Hou X, Zhang R, Yan M, and Liao W

Subjects

Flowers genetics, Flowers growth & development, Gene Expression Profiling, Lilium genetics, Lilium growth & development, Plant Proteins genetics, Flowers metabolism, Gene Expression Regulation, Plant, Lilium metabolism, Plant Proteins metabolism, Starch metabolism, Sucrose metabolism, Transcriptome

Abstract

As the main forms of carbohydrates, starch and sucrose play a vital role in the balance and coordination of various carbohydrates. Lanzhou lily is the most popular edible lily in China, mainly distributed in the central region of Gansu. To clarify the relationship between carbohydrate metabolism and bulb development of Lanzhou lily, so as to provide a basis for the promotion of the growth and development in Lanzhou lily and its important economic value, we studied lily bulbs in the squaring stage, flowering stage, half withering stage and withering stage. The plant height, fresh weight of mother and daughter bulbs continued to increase during the whole growth period and fresh weight of stem and leaf began to decrease in the half withering stage. The content of starch, sucrose and total soluble sugar in the lily mother bulb accumulated mostly in the flowering, withering and half withering stages, respectively. Starch, sucrose and total soluble sugar accumulated in the daughter bulb with the highest concentration during the withering stage. In the transcription level, sucrose synthase (SuSy1) and sucrose invertase (INV2) expressed the highest in squaring stage, and the expression was significantly higher in the mother bulb than in the daughter bulb. In flowering stage, the expression levels of soluble starch synthase (SSS1), starch-branching enzyme (SBE) and adenosine diphosphate-glucose pyrophosphorylase (AGP1) genes were higher in the mother bulb than in the daughter bulb. Altogether, our results indicate that starch and sucrose are important for the bulb growth and development of Lanzhou lily., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

6. Transcriptome and Metabolome Analyses Provide Insights into the Stomium Degeneration Mechanism in Lily.

Author

He L, Liu X, Wu Z, and Teng N

Subjects

Flowers genetics, Flowers growth & development, Flowers metabolism, Gene Expression Profiling, Gene Expression Regulation, Plant genetics, Lilium growth & development, Lilium metabolism, Plant Proteins metabolism, Pollen genetics, Pollen growth & development, Pollen metabolism, Transcription Factors genetics, Lilium genetics, Metabolome genetics, Plant Proteins genetics, Transcriptome genetics

Abstract

Lily ( Lilium spp.) is a widely cultivated horticultural crop that has high ornamental and commercial value but also the serious problem of pollen pollution. However, mechanisms of anther dehiscence in lily remain largely unknown. In this study, the morphological characteristics of the stomium zone (SZ) from different developmental stages of 'Siberia' lily anthers were investigated. In addition, transcriptomic and metabolomic data were analyzed to identify the differentially expressed genes (DEGs) and secondary metabolites involved in stomium degeneration. According to morphological observations, SZ lysis occurred when flower buds were 6-8 cm in length and was completed in 9 cm. Transcriptomic analysis identified the genes involved in SZ degeneration, including those associated with hormone signal transduction, cell structure, reactive oxygen species (ROS), and transcription factors. A weighted co-expression network showed strong correlations between transcription factors. In addition, TUNEL (TdT-mediated dUTP nick-end labeling) assays showed that programmed cell death was important during anther SZ degeneration. Jasmonates might also have key roles in anther dehiscence by affecting the expression of the genes involved in pectin lysis, water transport, and cysteine protease. Collectively, the results of this study improve our understanding of anther dehiscence in lily and provide a data platform from which the molecular mechanisms of SZ degeneration can be revealed.

Published

2021

7. Earthworm activity optimized the rhizosphere bacterial community structure and further alleviated the yield loss in continuous cropping lily (Lilium lancifolium Thunb.).

Author

Lu Y, Gao P, Wang Y, Li W, Cui X, Zhou J, Peng F, and Dai L

Subjects

Agriculture, Animals, Bacteria genetics, Microbiota, RNA, Ribosomal, 16S genetics, Bacteria isolation & purification, Lilium growth & development, Oligochaeta physiology, Rhizosphere, Soil Microbiology

Abstract

The soil microbial community plays a vital role in the biogeochemical cycles of bioelements and maintaining healthy soil conditions in agricultural ecosystems. However, how the soil microbial community responds to mitigation measures for continuous cropping obstacles remains largely unknown. Here we examined the impact of quicklime (QL), chemical fungicide (CF), inoculation with earthworm (IE), and a biocontrol agent (BA) on the soil microbial community structure, and the effects toward alleviating crop yield decline in lily. High-throughput sequencing of the 16S rRNA gene from the lily rhizosphere after 3 years of continuous cropping was performed using the Illumina MiSeq platform. The results showed that Proteobacteria, Acidobacteria, Bacteroidetes, Actinobacteria, Chloroflexi and Gemmatimonadetes were the dominant bacterial phyla, with a total relative abundance of 86.15-91.59%. On the other hand, Betaproteobacteriales, Rhizobiales, Myxococcales, Gemmatimonadales, Xanthomonadales, and Micropepsales were the dominant orders with a relative abundance of 28.23-37.89%. The hydrogen ion concentration (pH) and available phosphorus (AP) were the key factors affecting the structure and diversity of the bacterial community. The yield of continuous cropping lily with using similar treatments decreased yearly for the leaf blight, but that of IE was significantly (p < 0.05) higher than with the other treatments in the same year, which were 17.9%, 18.54%, and 15.69% higher than that of blank control (CK) over 3 years. In addition, IE significantly (p < 0.05) increased organic matter (OM), available nitrogen (AN), AP, and available potassium (AK) content in the lily rhizosphere soil, optimized the structure and diversity of the rhizosphere bacterial community, and increased the abundance of several beneficial bacterial taxa, including Rhizobiales, Myxococcales, Streptomycetales and Pseudomonadales. Therefore, enriching the number of earthworms in fields could effectively optimize the bacterial community structure of the lily rhizosphere soil, promote the circulation and release in soil nutrients and consequently alleviate the loss of continuous cropping lily yield., (© 2021. The Author(s).)

Published

2021

8. Transcriptome profiling reveals key genes in regulation of the tepal trichome development in Lilium pumilum D.C.

Author

Xin Y, Pan W, Chen X, Liu Y, Zhang M, Chen X, Yang F, Li J, Wu J, Du Y, and Zhang X

Subjects

Gene Expression Profiling, Gene Expression Regulation, Plant, Gene Ontology, Lilium cytology, Lilium growth & development, Microscopy, Electron, Transmission, Mutation, Plant Cells, Plant Proteins genetics, Plant Proteins metabolism, Reproducibility of Results, Transcription Factors genetics, Transcription Factors metabolism, Trichomes growth & development, Lilium genetics, Trichomes cytology, Trichomes genetics

Abstract

Key Message: A number of potential genes and pathways involved in tepal trichome development were identified in a natural lily mutant by transcriptome analysis and were confirmed with trichome and trichomeless species. Trichome is a specialized structure found on the surface of the plant with an important function in survival against abiotic and biotic stress. It is also an important economic trait in crop breeding. Extensive research has investigated the foliar trichome in model plants (Arabidopsis and tomato). However, the developmental mechanism of tepal trichome remains elusive. Lilium pumilum is an edible ornamental bulb and a good breeding parent possessing cold and salt-alkali resistance. Here, we found a natural mutant of Lilium pumilum grown on a highland whose tepals are covered by trichomes. Our data indicate that trichomes of the mutant are multicellular and branchless. Notably, stomata are also developed on the tepal of the mutant as well, suggesting there may be a correlation between trichome and stomata regulation. Furthermore, we isolated 27 differentially expressed genes (DEGs) by comparing the transcriptome profiling between the natural mutant and the wild type. These 27 genes belong to 4 groups: epidermal cell cycle and division, trichome morphogenesis, stress response, and transcription factors. Quantitative real-time PCR in Lilium pumilum (natural mutant and the wild type) and other lily species (Lilium leichtlinii var. maximowiczii/trichome; Lilium davidii var. willmottiae/, trichomeless) confirmed the validation of RNA-seq data and identified several trichome-related genes., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

9. Molecular cloning, characterization and expression analysis of three key starch synthesis-related genes from the bulb of a rare lily germplasm, Lilium brownii var. giganteum .

Author

Wu Y, Sun M, Li S, Min R, Gao C, Lyu Q, Ren Z, and Xia Y

Subjects

Cloning, Molecular, Computational Biology, Lilium genetics, Lilium growth & development, Polymorphism, Single Nucleotide, Glucose-1-Phosphate Adenylyltransferase genetics, Lilium metabolism, Protein Subunits genetics, Starch biosynthesis

Abstract

Starch is the predominant compound in bulb scales, and previous studies have shown that bulblet development is closely associated with starch enrichment. However, how starch synthesis affects bulbification at the molecular level is unclear. In this study, we demonstrate that Lilium brownii var. giganteum , a wild lily with a giant bulb in nature, and L . brownii , the native species, have different starch levels and characteristics according to cytological and ultra-structural observations. We cloned the complete sequence of three key gene-encoding enzymes (LbgAGPS, LbgGBSS, andLbgSSIII) during starch synthesis by rapid amplification of 5' and 3' complementary DNA (cDNA) ends (RACE) technology. Bioinformatics analysis revealed that the proteins deduced by these genes contain the canonical conserved domains. Constructed phylogenetic trees confirmed the evolutionary relationships with proteins from other species, including monocotyledons and dicotyledons. The transcript levels of various tissues and time course samples obtained during bulblet development uncovered relatively high expression levels in bulblets and gradual increase expression accompanying bulblet growth. Moreover, a set of single nucleotide polymorphisms (SNPs) was discovered in the AGPS genes of four lily genotypes, and a purifying selection fashion was predicted according to the non-synonymous/synonymous (Ka/Ks) values. Taken together, our results suggested that key starch-synthesizing genes might play important roles in bulblet development and lead to distinctive phenotypes in bulblet size.

Published

2021

10. SMRT and Illumina RNA Sequencing and Characterization of a Key NAC Gene LoNAC29 during the Flower Senescence in Lilium oriental 'Siberia'.

Author

Luo J, Li R, Xu X, Niu H, Zhang Y, and Wang C

Subjects

Flowers growth & development, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Lilium growth & development, Plant Proteins metabolism, RNA-Seq, Transcription Factors metabolism, Flowers genetics, Lilium genetics, Plant Proteins genetics, Transcription Factors genetics

Abstract

Lily ( Lilium spp.) is an important cut flower around the world. Flower senescence in lilies is characterized by the wilting and abscission of tepals, which results in a decrease in flower quality and huge economic loss. However, the mechanism underlying flower senescence in lilies is largely unknown. In this study, single-molecule, real-time (SMRT) and Illumina sequencing were carried out in L . oriental 'Siberia'. Sequencing yielded 73,218 non-redundant transcripts, with an N50 of 3792 bp. These data were further integrated with three published transcriptomes through cogent analysis, which yielded 62,960 transcripts, with an increase in N50 of 3935 bp. Analysis of differentially expressed genes showed that 319 transcription factors were highly upregulated during flower senescence. The expression of twelve NAC genes and eleven senescence-associated genes ( SAGs ) showed that LoNAC29 and LoSAG39 were highly expressed in senescent flowers. Transient overexpression of LoNAC29 and LoSAG39 in tepals of lily notably accelerated flower senescence, and the promoter activity of LoSAG39 was strongly induced by LoNAC29 . This work supported new evidence for the molecular mechanism of flower senescence and provided better sequence data for further study in lilies.

Published

2021

11. Analysis of miRNA-mediated regulation of flowering induction in Lilium × formolongi.

Author

Zhang Q, Zhao YQ, Gao X, and Jia GX

Subjects

Base Sequence, Flowers genetics, Lilium genetics, Lilium growth & development, Reproduction, Flowers growth & development, Lilium physiology, MicroRNAs genetics, RNA, Plant genetics

Abstract

Background: MicroRNAs play pivotal roles in plant vegetative phase change and flowering induction via integrating into multiple flowering pathways. Lilium × formolongi is an important ornamental lily cultivar that can flower within one year after sowing. However, it remains unresolved how miRNA-mediated regulation networks contribute to the L. × formolongi characteristics of a short vegetative growth period and rapid flowering., Results: In this study, the small RNA libraries and one degradome library were constructed for L. × formolongi during vegetative growth and flowering initiation, and 366 conserved miRNAs and 32 novel miRNAs were identified. Additionally, 84 miRNAs were significantly differentially expressed during development. A total of 396 targets of 185 miRNAs were identified and validated through degradome sequencing. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses showed that functions of the targets were top enriched in the cold and cadmium ion responses, pentose phosphate pathway and carbon fixation in photosynthetic organisms. Furthermore, among 23 differentially expressed miRNA-target pairs, the miR156s-LfSPL2, miR172a-LfAP2 and miR164a-LfNAC pairs as well as miR159a-LfSPL2 were found to be relevant to flowering based on the correlation analysis of expression profiles in the miRNA libraries, degradome and transcriptome. A coexpression regulatory network focused on differentially expressed pairs was also constructed by WGCNA, and 14 miRNAs were considered putative key miRNAs during vegetative development and flowering induction. miR156a/ d/ e showed particularly strong relationships with other miRNAs in the coexpression network., Conclusions: This study provides cues for the further exploration of the regulatory mechanisms of short vegetative development and flowering in L. × formolongi.

Published

2021

12. Cytokinin Type-B Response Regulators Promote Bulbil Initiation in Lilium lancifolium .

Author

He G, Yang P, Cao Y, Tang Y, Wang L, Song M, Wang J, Xu L, and Ming J

Subjects

DNA-Binding Proteins metabolism, Gene Expression Profiling, Gene Silencing, Lilium growth & development, Meristem growth & development, Molecular Conformation, Peptides chemistry, Phenotype, Protein Domains, Signal Transduction, Cytokinins metabolism, Gene Expression Regulation, Plant, Lilium genetics, Plant Proteins metabolism, Transcription Factors metabolism

Abstract

The bulbil is an important vegetative reproductive organ in triploid Lilium lancifolium whose development is promoted by cytokinins. Type-B response regulators (RRs) are critical regulators that mediate primary cytokinin responses and promote cytokinin-induced gene expression. However, the function of cytokinin type-B Arabidopsis RRs (ARRs) in regulating bulbil formation is unclear. In this study, we identified five type-B LlRR s, LlRR1 , LlRR2 , LlRR10 , LlRR11 and LlRR12 , in L. lancifolium for the first time. The five LlRR s encode proteins of 715, 675, 573, 582 and 647 amino acids. All of the regulators belong to the B-I subfamily, whose members typically contain a conserved CheY-homologous receiver (REC) domain and an Myb DNA-binding (MYB) domain at the N-terminus. As transcription factors, all five type-B LlRRs localize at the nucleus and are widely expressed in plant tissues, especially during axillary meristem (AM) formation. Functional analysis showed that type-B LlRR s are involved in bulbil formation in a functionally redundant manner and can activate LlRR9 expression. In summary, our study elucidates the process by which cytokinins regulate bulbil initiation in L. lancifolium through type-B LlRRs and lays a foundation for research on the molecular mechanism of bulbil formation in the lily.

Published

2021

13. Comparative transcriptome analysis reveals heat stress-responsive genes and their signalling pathways in lilies (Lilium longiflorum vs. Lilium distichum).

Author

Fu Y, Yang L, Gao H, Wenji X, Li Q, Li H, and Gao J

Subjects

Gene Expression Profiling, Gene Expression Regulation, Plant, Genes, Plant, Heat Shock Transcription Factors genetics, Heat Shock Transcription Factors physiology, Heat-Shock Response genetics, Heat-Shock Response physiology, Lilium growth & development, Metabolic Networks and Pathways genetics, Molecular Sequence Annotation, Multigene Family, Plant Proteins genetics, Plant Proteins physiology, RNA-Seq, Signal Transduction genetics, Species Specificity, Thermotolerance genetics, Thermotolerance physiology, Lilium genetics, Lilium physiology

Abstract

The lily, a famous bulbous flower, is seriously affected by high temperatures, which affect their growth and production. To date, the signalling pathways and the molecular mechanisms related to heat response in Lilium have not been elucidated. In this study, a comparative transcriptome analysis was performed in an important thermo-tolerant flower, L. longiflorum, and a thermo-sensitive flower, L. distichum. Lily seedlings were first exposed to heat stress at 42°C for different lengths of time, and the optimal time-points (2 h and 24 h) were selected for RNA sequencing (RNA-seq). Approximately 66.51, 66.21, and 65.36 Mb clean reads were identified from three libraries of L. longiflorum (LL&#95;CK, LL&#95;T2h and LL&#95;T24h, respectively) and 66.18, 66.03, and 65.16 Mb clean reads were obtained from three libraries of L. distichum (LD&#95;CK, LD&#95;T2h and LD&#95;T24h, respectively) after rRNA removing. A total of 34,301 unigenes showed similarity to known proteins in the database NCBI non-redundant protein (NR), Swiss-Prot proteins, InterPro proteins, Clusters of Orthologous Groups (COG) and Kyoto Encyclopedia of Genes and Genomes (KEGG). In addition, 1,621 genes were differentially expressed in the overlapping libraries between LL&#95;DEGs and LD&#95;DEGs; of these genes, 352 DEGs were obviously upregulated in L. longiflorum and downregulated in L. distichum during heat stress, including 4-coumarate, CoA ligase (4CL), caffeoyl-CoA O-methyltransferase (CCoAOMT), peroxidase, pathogenesis-related protein 10 family genes (PR10s), 14-3-3 protein, leucine-rich repeat receptor-like protein kinase, and glycine-rich cell wall structural protein-like. These genes were mainly involved in metabolic pathways, phenylpropanoid biosynthesis, plant-pathogen interactions, plant hormone signal transduction, and kinase signalling pathways. Quantitative RT-PCR was performed to validate the expression profiling of these DEGs in RNA-seq data. Taken together, the results obtained in the present study provide a comprehensive sequence resource for the discovery of heat-resistance genes and reveal potential key components that are responsive to heat stress in lilies, which may help to elucidate the heat signal transcription networks and facilitate heat-resistance breeding in lily., Competing Interests: The authors declare no conflict of interest.

Published

2020

14. Durotropic Growth of Pollen Tubes.

Author

Reimann R, Kah D, Mark C, Dettmer J, Reimann TM, Gerum RC, Geitmann A, Fabry B, Dietrich P, and Kost B

Subjects

Flowers growth & development, Flowers metabolism, Lilium metabolism, Plant Proteins genetics, Plant Proteins metabolism, Nicotiana growth & development, Nicotiana metabolism, Lilium growth & development, Pollen Tube growth & development, Pollen Tube metabolism

Abstract

To reach the female gametophyte, growing pollen tubes must penetrate different tissues within the pistil, the female reproductive organ of a flower. Past research has identified various chemotropic cues that guide pollen tubes through the transmitting tract of the pistil, which represents the longest segment of its growth path. In addition, physical mechanisms also play a role in pollen tube guidance; however, these processes remain poorly understood. Here we show that pollen tubes from plants with solid transmitting tracts actively respond to the stiffness of the environment. We found that pollen tubes from Nicotiana tabacum and other plant species with a solid or semisolid transmitting tract increase their growth rate in response to an increasing matrix stiffness. By contrast, pollen tubes from Lilium longiflorum and other plant species with a hollow transmitting tract decrease their growth rate with increasing matrix stiffness, even though the forces needed to maintain a constant growth rate remain far below the maximum penetration force these pollen tubes are able to generate. Moreover, when confronted with a transition from a softer to a stiffer matrix, pollen tubes from N. tabacum display a greater ability to penetrate into a stiffer matrix compared with pollen tubes from L. longiflorum, even though the maximum force generated by pollen tubes from N. tabacum (11 µN) is smaller than the maximum force generated by pollen tubes from L. longiflorum (36 µN). These findings demonstrate a mechano-sensitive growth behavior, termed here durotropic growth, that is only expressed in pollen tubes from plants with a solid or semisolid transmitting tract and thus may contribute to an effective pollen tube guidance within the pistil., (© 2020 American Society of Plant Biologists. All Rights Reserved.)

Published

2020

15. Cloning and Functional Characterization of a Flavonoid Transport-Related MATE Gene in Asiatic Hybrid Lilies ( Lilium spp.).

Author

Xu H, Yang P, Cao Y, Tang Y, He G, Xu L, and Ming J

Subjects

Cloning, Molecular, Flowers genetics, Flowers growth & development, Gene Expression Regulation, Plant, Lilium genetics, Lilium growth & development, Phylogeny, Plant Proteins genetics, Flavonoids metabolism, Flowers metabolism, Lilium metabolism, Plant Extracts metabolism, Plant Proteins metabolism

Abstract

Previous studies have suggested that multidrug and toxic compound extrusion (MATE) proteins might be involved in flavonoid transportation. However, whether MATE proteins are involved in anthocyanin accumulation in Lilium is unclear. Here, a flavonoid transport-related MATE candidate gene, LhDTX35 , was cloned from the Asiatic hybrid lily cultivar 'Tiny Padhye' by rapid amplification of 5' and 3' cDNA ends (RACE) and found to encode 507 amino acids. BLASTx results indicated that LhDTX35 showed high homology to the DTX35 genes of other species. Bioinformatics analysis predicted that the protein encoded by LhDTX35 possessed 12 typical transmembrane segments and had functional domains typical of the MATE-like superfamily. Phylogenetic analysis grouped LhDTX35 in the same clade as the DTX35 of other species. Notably, the expression pattern of LhDTX35 was positively correlated with floral anthocyanin accumulation in 'Tiny Padhye'. A subcellular localization assay showed that the protein encoded by LhDTX35 was plasmalemma localized but not nuclear, indicating that the LhDTX35 gene may function as a carrier protein to transport anthocyanins in Lilium . Functional complementation of the Arabidopsis DTX35 gene demonstrated that LhDTX35 could restore silique-infertility and the anthocyaninless phenotype of an Arabidopsis DTX35 mutant. These results indicated that LhDTX35 might be involved in anthocyanin accumulation in Lilium.

Published

2020

16. Isolation and Characterization of Plant Growth-Promoting Endophytic Bacteria Paenibacillus polymyxa SK1 from Lilium lancifolium .

Author

Khan MS, Gao J, Chen X, Zhang M, Yang F, Du Y, Moe TS, Munir I, Xue J, and Zhang X

Subjects

Anti-Infective Agents metabolism, Carbon-Carbon Lyases metabolism, Carboxylic Acids metabolism, Endophytes, Indoleacetic Acids metabolism, Lilium growth & development, Nitrogen Fixation, Paenibacillus polymyxa chemistry, Paenibacillus polymyxa classification, Paenibacillus polymyxa genetics, Plant Diseases microbiology, Plant Growth Regulators metabolism, Plant Roots growth & development, Plant Roots microbiology, Siderophores metabolism, Tandem Mass Spectrometry, Ascomycota physiology, Fusarium physiology, Lilium microbiology, Paenibacillus polymyxa physiology, Plant Diseases prevention & control

Abstract

Paenibacillus polymyxa is a plant growth-promoting rhizobacterium that has immense potential to be used as an environmentally friendly replacement of chemical fertilizers and pesticides. In the present study, Paenibacillus polymyxa SK1 was isolated from bulbs of Lilium lancifolium . The isolated endophytic strain showed antifungal activities against important plant pathogens like Botryosphaeria dothidea , Fusarium oxysporum , Botrytis cinerea , and Fusarium fujikuroi . The highest percentage of growth inhibition, i.e., 66.67 ± 2.23%, was observed for SK1 against Botryosphaeria dothidea followed by 61.19 ± 3.12%, 60.71 ± 3.53%, and 55.54 ± 2.89% against Botrytis cinerea , Fusarium fujikuroi , and Fusarium oxysporum , respectively. The metabolite profiling of ethyl acetate fraction was assessed through the UHPLC-LTQ-IT-MS/MS analysis, and putative identification was done with the aid of the GNPS molecular networking workflow. A total of 29 compounds were putatively identified which included dipeptides, tripeptides, cyclopeptides (cyclo-(Leu-Leu), cyclo(Pro-Phe)), 2-heptyl-3-hydroxy 4-quinolone, 6-oxocativic acid, anhydrobrazilic acid, 1-(5-methoxy-1H-indol-3-yl)-2-piperidin-1-ylethane-1,2-dione, octadecenoic acid, pyochelin, 15-hydroxy-5Z,8Z,11Z, 13E-eicosatetraenoic acid, (Z)-7-[(2R,3S)-3-[(2Z,5E)-Undeca-2,5-dienyl]oxiran-2-yl]hept-5-enoic acid, arginylasparagine, cholic acid, sphinganine, elaidic acid, gossypin, L-carnosine, tetrodotoxin, and ursodiol. The high antifungal activity of SK1 might be attributed to the presence of these bioactive compounds. The isolated strain SK1 showed plant growth-promoting traits such as the production of organic acids, ACC deaminase, indole-3-acetic acid (IAA), siderophores, nitrogen fixation, and phosphate solubilization. IAA production was strongly correlated with the application of exogenous tryptophan concentrations in the medium. Furthermore, inoculation of SK1 enhanced plant growth of two Lilium varieties, Tresor and White Heaven, under greenhouse condition. In the light of these findings, the P. polymyxa SK1 may be utilized as a source of plant growth promotion and disease control in sustainable agriculture., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2020 Mohammad Sayyar Khan et al.)

Published

2020

17. The proof is in the bulb: glycerol influences key stages of lily development.

Author

Lazare S, Bechar D, Fernie AR, Brotman Y, and Zaccai M

Subjects

Flowers genetics, Flowers growth & development, Flowers radiation effects, Gene Expression Profiling, Glycerol metabolism, Lilium growth & development, Lilium radiation effects, Meristem genetics, Meristem growth & development, Meristem radiation effects, Photoperiod, Plant Roots genetics, Plant Roots growth & development, Plant Roots radiation effects, Temperature, Gene Expression Regulation, Plant drug effects, Glycerol pharmacology, Lilium genetics

Abstract

A bulb is a whole plant condensed into an underground organ. A geophyte's bulb comprises both food reserves and important developmental history that may affect its whole growth. In Easter lily (Lilium longiflorum), bulb size is associated with the plant's flowering pathway - vernalization or photoperiod - and also affects sprouting, flower quality and abortion rate. The aim of this study was to investigate the reasons for the major physiological differences between large and small bulbs. Lily bulbs start their development from secondary meristems along the stem, with large bulbs being heavier and bear more scales than small ones. Peeling the outer scales of a large bulb converts its physiological responses into those of a small bulb, implying that the physiological discrepancies in plants developing from large or small bulbs are mediated by factors inherent to the bulb. We therefore performed broad analyses of the metabolite composition in the scales of bulbs subjected to temperature regimes affecting further plant development. We found a striking association between the level of glycerol, a primary metabolite mostly synthesized in the outer scales, and a delay in sprouting and flowering time, and reduction in abortion rate. Exogenous glycerol application to the bulbs before planting corroborated these results. Moreover, transcriptome analyses showed that flowering-promoting gene expression was downregulated in the bulb after glycerol treatment, while potential flowering inhibitor as well as a dormancy-related gene expressions were upregulated. Based on these studies, we postulate that glycerol is a major factor influencing both vegetative and reproductive development in lily., (© 2018 The Authors The Plant Journal © 2018 John Wiley & Sons Ltd.)

Published

2019

18. Comparative Proteomic Analysis during the Involvement of Nitric Oxide in Hydrogen Gas-Improved Postharvest Freshness in Cut Lilies.

Author

Huo J, Huang D, Zhang J, Fang H, Wang B, Wang C, Ma Z, and Liao W

Subjects

ATP Synthetase Complexes metabolism, Biomass, Chlorophyll metabolism, Electrophoresis, Gel, Two-Dimensional, Flowers anatomy & histology, Flowers drug effects, Fluorescence, Gene Expression Regulation, Plant drug effects, Genes, Plant, Image Processing, Computer-Assisted, Lilium drug effects, Lilium genetics, Nitroprusside pharmacology, Photosynthesis drug effects, Plant Proteins classification, Plant Proteins metabolism, Sodium Azide pharmacology, Tungsten Compounds pharmacology, Hydrogen metabolism, Lilium growth & development, Lilium metabolism, Nitric Oxide metabolism, Proteomics methods

Abstract

Our previous studies suggested that both hydrogen gas (H₂) and nitric oxide (NO) could enhance the postharvest freshness of cut flowers. However, the crosstalk of H₂ and NO during that process is unknown. Here, cut lilies ( Lilium "Manissa") were used to investigate the relationship between H₂ and NO and to identify differentially accumulated proteins during postharvest freshness. The results revealed that 1% hydrogen-rich water (HRW) and 150 μM sodium nitroprusside (SNP) significantly extended the vase life and quality, while NO inhibitors suppressed the positive effects of HRW. Proteomics analysis found 50 differentially accumulated proteins in lilies leaves which were classified into seven functional categories. Among them, ATP synthase CF1 alpha subunit (chloroplast) (AtpA) was up-regulated by HRW and down-regulated by NO inhibitor. The expression level of LlatpA gene was consistent with the result of proteomics analysis. The positive effect of HRW and SNP on ATP synthase activity was inhibited by NO inhibitor. Meanwhile, the physiological-level analysis of chlorophyll fluorescence and photosynthetic parameters also agreed with the expression of AtpA regulated by HRW and SNP. Altogether, our results suggested that NO might be involved in H₂-improved freshness of cut lilies, and AtpA protein may play important roles during that process.

Published

2018

19. Lily Pollen Tubes Pulse According to a Simple Spatial Oscillator.

Author

Hemelryck MV, Bernal R, Ispolatov Y, and Dumais J

Subjects

Lilium growth & development, Morphogenesis, Pollen Tube growth & development

Abstract

Polar growth is a fundamental mode of cell morphogenesis observed in nearly all major groups of organisms. Among polarly growing cells, the angiosperm pollen tubes have emerged as powerful experimental systems in large part because of their oscillatory growth, which provides a window into the network of interactions regulating morphogenesis. Empirical studies of oscillatory pollen tubes have sought to uncover the temporal sequence of cellular and molecular events that constitutes an oscillatory cycle. Here we show that in lily pollen tubes the distance or wavelength (λ = 6.3 ± 1.7 μm) over which an oscillatory cycle unfolds is more robust than the period of oscillation (τ = 39.1 ± 17.6 s) (n = 159 cells). Moreover, the oscillatory cycle is divided into slow and fast phases, with each phase unfolding over precisely one half of the wavelength. Using these observations, we show that a simple spatial bi-oscillator predicts the most common modes of oscillation observed in pollen tubes. These results call into question the traditional view of pollen tube morphogenesis as a temporal succession of cellular events. Space, not time, may be the most natural metric to inteprete the morphogenetic dynamics of these cells.

Published

2018

20. The metabolic (under)groundwork of the lily bulb toward sprouting.

Author

Lazare S, Burgos A, Brotman Y, and Zaccai M

Subjects

Citric Acid Cycle, Cold Temperature, Flowers growth & development, Flowers metabolism, Lipid Metabolism, Metabolic Networks and Pathways, Plant Roots growth & development, Lilium growth & development, Lilium metabolism, Plant Roots metabolism

Abstract

Large bulbs of Lilium longiflorum have an obligatory cold requirement to flower. Bulb cooling is widely used to induce and accelerate flowering. However, in-depth investigations of the effect of bulb cooling on major landmarks of plant development are lacking. It has been demonstrated that low temperature induces carbohydrate degradation, yet integrative studies on metabolic changes occurring in the bulb are not available. We detected that cold exposure mainly hastened bulb sprouting, rather than floral transition or blooming. Metabolite profiling of cooled and non-cooled bulbs was carried out, revealing cold-induced accumulation of soluble sugars, lipids and specific amino acids, and a significant reduction in tricarboxylic acid (TCA)-cycle elements. We observed that metabolic pathways located in the cytosol - including glycolysis, lipid synthesis and part of the gamma-Aminobutyric acid (GABA) shunt - were enhanced by cold exposure, while mitochondrial metabolism - namely the TCA cycle - was reduced by cold. We suggest a physiological model accounting for this metabolic discrepancy., (© 2017 Scandinavian Plant Physiology Society.)

Published

2018

21. Overexpression of Lilium formosanum MADS-box ( LFMADS ) Causing Floral Defects While Promoting Flowering in Arabidopsis thaliana , Whereas Only Affecting Floral Transition Time in Nicotiana tabacum .

Author

Liao WY, Lin LF, Lin MD, Hsieh SC, Li AY, Tsay YS, and Chou ML

Subjects

Arabidopsis growth & development, Flowers growth & development, Gene Expression Regulation, Plant, Genes, Plant, Lilium growth & development, Phylogeny, Plants, Genetically Modified growth & development, Nicotiana growth & development, Transcriptome, Up-Regulation, Arabidopsis genetics, Flowers genetics, Lilium genetics, MADS Domain Proteins genetics, Plant Proteins genetics, Plants, Genetically Modified genetics, Nicotiana genetics

Abstract

The Formosa lily ( Lilium formosanum ) is one of the most common horticultural species in Taiwan. To explore gene regulation involved in this species, we used transcriptome analysis to generate PH-FB (mixed floral buds) and PH-LF (mature leaves) datasets. Combination of the PH-FB and PH-LF constructed a de novo assembly of the ALL dataset, including 18,041 contigs and 23,807 unigenes by Nr, GO, COG, and KEGG databases. The differential gene expression (DGE) analysis revealed 9937 genes were upregulated while 10,383 genes were downregulated in the developing floral buds compared to mature leaves. Seven putative genes ( LFMADS1 to 7 ) encoding floral organ identity proteins were selected for further analysis. LFMADS1-6 genes were specifically expressed in the floral organ, while LFMADS7 in the floral buds and mature leaves. Phylogenetic analysis revealed that LFMADS1-3 is classified into B-class, LFMADS4 into C-class, LFMADS5 into D-class, and LFMADS6-7 into E-class, respectively. LFMADS-GFP fusion proteins appeared to localize in the nucleus, supporting their roles as transcription factors (TFs). Overexpression of the LFMADS2 , LFMADS4 , and LFMADS6 genes in Arabidopsis resulted in early flowering and floral defect, however, only early flowering in transgenic tobacco was observed. Highly expressed floral integrator genes, including AtFT , AtLFY , and AtFUL in transgenic Arabidopsis and NtFUL and NtSOC1 in transgenic tobacco, resulted in early flowering phenotype through qRT-PCR analysis. Yeast two-hybrid analysis suggested that LFMADSs may form higher order complexes with the B-, C-, D, and/or E-class proteins to determine the floral organ identity. Furthermore, E-class LFMADS proteins may function as a glue to mediate and strengthen the protein-protein interactions. Therefore, our de novo datasets would provide information for investigating other differentially expressed candidate transcripts. In addition, functional conservation of LFMADSs appears to be vital in floral transition and floral organ identity.

Published

2018

22. Effect of mercury on pollen germination and tube growth in Lilium longiflorum.

Author

Sawidis T, Baycu G, Cevahir-Öz G, and Weryszko-Chmielewska E

Subjects

Cell Wall drug effects, Cell Wall metabolism, Golgi Apparatus drug effects, Golgi Apparatus metabolism, Lilium drug effects, Membranes drug effects, Pollen Tube anatomy & histology, Pollen Tube drug effects, Pollen Tube ultrastructure, Germination drug effects, Lilium growth & development, Mercury toxicity, Pollen Tube growth & development

Abstract

Pollen development and germination were adversely affected by the presence of mercury, whereas low-concentrations stimulated the whole procedure. Mercury caused morphological anomalies during the tube growth, characterized by irregularly increasing diameters and swelling tips. The main effect was the anomalous cell wall formation at the tip where a substantial number of organelles were found reducing the secretory vesicles. The dense organelle concentration caused a significant reduction of cytoplasmic movement integrity, and the cytosol streaming was gradually reduced or stopped completely. Electron dense, multilamellar myelin-like structures (MMS) of membranous material were frequently present, in close contact with plasmalemma or away from it. A loose network of fibrillar material and spherical aggregates mostly at the tip region were observed which progressively were loosened into the surrounding medium. Elevated mercury concentrations can affect plant reproduction, resulting in anomalies in gamete development and consequently loss of plant biodiversity.

Published

2018

23. Tulipa gesneriana and Lilium longiflorum PEBP Genes and Their Putative Roles in Flowering Time Control.

Author

Leeggangers HACF, Rosilio-Brami T, Bigas-Nadal J, Rubin N, van Dijk ADJ, Nunez de Caceres Gonzalez FF, Saadon-Shitrit S, Nijveen H, Hilhorst HWM, Immink RGH, and Zaccai M

Subjects

Amino Acid Sequence, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Flowers growth & development, Flowers metabolism, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Lilium growth & development, Lilium metabolism, Multigene Family genetics, Mutation, Phosphatidylethanolamine Binding Protein classification, Phosphatidylethanolamine Binding Protein metabolism, Phylogeny, Plant Proteins metabolism, Plants, Genetically Modified, Sequence Homology, Amino Acid, Tulipa growth & development, Tulipa metabolism, Flowers genetics, Lilium genetics, Phosphatidylethanolamine Binding Protein genetics, Plant Proteins genetics, Tulipa genetics

Abstract

Floral induction in Tulipa gesneriana and Lilium longiflorum is triggered by contrasting temperature conditions, high and low temperature, respectively. In Arabidopsis, the floral integrator FLOWERING LOCUS T (FT), a member of the PEBP (phosphatidyl ethanolamine-binding protein) gene family, is a key player in flowering time control. In this study, one PEBP gene was identified and characterized in lily (LlFT) and three PEBP genes were isolated from tulip (TgFT1, TgFT2 and TgFT3). Overexpression of these genes in Arabidopsis thaliana resulted in an early flowering phenotype for LlFT and TgFT2, but a late flowering phenotype for TgFT1 and TgFT3. Overexpression of LlFT in L. longiflorum also resulted in an early flowering phenotype, confirming its proposed role as a flowering time-controlling gene. The tulip PEBP genes TgFT2 and TgFT3 have a similar expression pattern in tulip, but show opposite effects on the timing of flowering in Arabidopsis. Therefore, the difference between these two proteins was further investigated by interchanging amino acids thought to be important for the FT function. This resulted in the conversion of phenotypes in Arabidopsis upon overexpressing the substituted TgFT2 and TgFT3 genes, revealing the importance of these interchanged amino acid residues. Based on all obtained results, we hypothesize that LlFT is involved in creating meristem competence to flowering-related cues in lily, and TgFT2 is considered to act as a florigen involved in the floral induction in tulip. The function of TgFT3 remains unclear, but, based on our observations and phylogenetic analysis, we propose a bulb-specific function for this gene., (© The Author 2017. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2018

24. Fountain streaming contributes to fast tip-growth through regulating the gradients of turgor pressure and concentration in pollen tubes.

Author

Liu S, Liu H, Feng S, Lin M, Xu F, and Lu TJ

Subjects

Cell Membrane metabolism, Cell Wall metabolism, Cytoplasm metabolism, Diffusion, Kinetics, Movement, Lilium cytology, Lilium growth & development, Microfluidics, Models, Biological, Pollen Tube cytology, Pollen Tube growth & development, Pressure

Abstract

Fountain streaming is a typical microfluidic pattern in plant cells, especially for cells with a high aspect ratio such as pollen tubes. Although it has been found that fountain streaming plays crucial roles in the transport of nutrients and metabolites, the positioning of organelles and the mixing of cytoplasms, its implications for the fast tip growth of pollen tubes remain a mystery. To address this, based on the observations of asiatic lily Lilium Casablanca, we developed physical models for reverse fountain streaming in pollen tubes and solved the hydrodynamics and advection-diffusion dynamics of viscous Stokes flow in the shank and apical region of pollen tubes. Theoretical and numerical results demonstrated that the gradients of turgor pressure and concentration of wall materials along the length of pollen tubes provide undamped driving force and high-efficiency materials supply, which are supposed to contribute to the fast tip-growth of pollen tubes. The sample experimental results show that the tip-growth will be abnormal when the gradients of turgor pressure change under osmotic stress induced by different concentrations of PEG-6000 (a dehydrant).

Published

2017

25. LlFH1-mediated interaction between actin fringe and exocytic vesicles is involved in pollen tube tip growth.

Author

Li S, Dong H, Pei W, Liu C, Zhang S, Sun T, Xue X, and Ren H

Subjects

Actin Cytoskeleton metabolism, Cell Membrane metabolism, Cloning, Molecular, Lilium growth & development, Polymerization, Protein Binding, Actins metabolism, Exocytosis, Lilium cytology, Lilium metabolism, Plant Proteins metabolism, Pollen Tube growth & development, Pollen Tube metabolism, Secretory Vesicles metabolism

Abstract

Pollen tube tip growth is an extreme form of polarized cell growth, which requires polarized exocytosis based on a dynamic actin cytoskeleton. However, the molecular basis for the connection between actin filaments and exocytic vesicles is unclear. Here, we identified a Lilium longiflorum pollen-specific formin (LlFH1) and found that it localized at the apical vesicles and plasma membrane (PM). Overexpression of LlFH1 induced excessive actin cables in the tube tip region, and downregulation of LlFH1 eliminated the actin fringe. Fluorescence recovery after photobleaching (FRAP) analysis revealed that LlFH1-labeled exocytic vesicles exhibited an initial accumulation at the shoulder of the apex and coincided with the leading edge of the actin fringe. Time-lapse analysis suggested that nascent actin filaments followed the emergence of the apical vesicles, implying that LlFH1 at apical vesicles could initiate actin polymerization. Biochemical assays showed that LlFH1 FH1FH2 could nucleate actin polymerization, but then capped the actin filament at the barbed end and inhibited its elongation. However, in the presence of lily profilins, LlFH1 FH1FH2 could accelerate barbed-end actin elongation. In addition, LlFH1 FH1FH2 was able to bundle actin filaments. Thus, we propose that LlFH1 and profilin coordinate the interaction between the actin fringe and exocytic vesicle trafficking during pollen tube growth of lily., (© 2017 The Authors. New Phytologist © 2017 New Phytologist Trust.)

Published

2017

26. High precision, localized proton gradients and fluxes generated by a microelectrode device induce differential growth behaviors of pollen tubes.

Author

Hu C, Vogler H, Aellen M, Shamsudhin N, Jang B, Burri JT, Läubli N, Grossniklaus U, Pané S, and Nelson BJ

Subjects

Equipment Design, Hydrogen-Ion Concentration, Lab-On-A-Chip Devices, Lilium cytology, Lilium growth & development, Lilium physiology, Tissue Culture Techniques instrumentation, Microelectrodes, Pollen Tube cytology, Pollen Tube growth & development, Pollen Tube physiology, Protons, Tissue Culture Techniques methods

Abstract

Pollen tubes are tip-growing plant cells that deliver the sperm cells to the ovules for double fertilization of the egg cell and the endosperm. Various directional cues can trigger the reorientation of pollen tube growth direction on their passage through the female tissues. Among the external stimuli, protons serve an important, regulatory role in the control of pollen tube growth. The generation of local guidance cues has been challenging when investigating the mechanisms of perception and processing of such directional triggers in pollen tubes. Here, we developed and characterized a microelectrode device to generate a local proton gradient and proton flux through water electrolysis. We confirmed that the cytoplasmic pH of pollen tubes varied with environmental pH change. Depending on the position of the pollen tube tip relative to the proton gradient, we observed alterations in the growth behavior, such as bursting at the tip, change in growth direction, or complete growth arrest. Bursting and growth arrest support the hypothesis that changes in the extracellular H + concentration may interfere with cell wall integrity and actin polymerization at the growing tip. A change in growth direction for some pollen tubes implies that they can perceive the local proton gradient and respond to it. We also showed that the growth rate is directly correlated with the extracellular pH in the tip region. Our microelectrode approach provides a simple method to generate protons and investigate their effect on plant cell growth.

Published

2017

27. Characterization of size-dependent mechanical properties of tip-growing cells using a lab-on-chip device.

Author

Hu C, Munglani G, Vogler H, Ndinyanka Fabrice T, Shamsudhin N, Wittel FK, Ringli C, Grossniklaus U, Herrmann HJ, and Nelson BJ

Subjects

Elastic Modulus, Equipment Design, Lilium growth & development, Lilium metabolism, Microfluidics instrumentation, Microfluidics methods, Microscopy, Electron, Pollen Tube chemistry, Lab-On-A-Chip Devices, Pollen Tube growth & development

Abstract

Quantification of mechanical properties of tissues, living cells, and cellular components is crucial for the modeling of plant developmental processes such as mechanotransduction. Pollen tubes are tip-growing cells that provide an ideal system to study the mechanical properties at the single cell level. In this article, a lab-on-a-chip (LOC) device is developed to quantitatively measure the biomechanical properties of lily (Lilium longiflorum) pollen tubes. A single pollen tube is fixed inside the microfluidic chip at a specific orientation and subjected to compression by a soft membrane. By comparing the deformation of the pollen tube at a given external load (compressibility) and the effect of turgor pressure on the tube diameter (stretch ratio) with finite element modeling, its mechanical properties are determined. The turgor pressure and wall stiffness of the pollen tubes are found to decrease considerably with increasing initial diameter of the pollen tubes. This observation supports the hypothesis that tip-growth is regulated by a delicate balance between turgor pressure and wall stiffness. The LOC device is modular and adaptable to a variety of cells that exhibit tip-growth, allowing for the straightforward measurement of mechanical properties.

Published

2016

28. Low humic acids promote in vitro lily bulblet enlargement by enhancing roots growth and carbohydrate metabolism.

Author

Wu Y, Xia YP, Zhang JP, Du F, Zhang L, Ma YD, and Zhou H

Subjects

Lilium growth & development, Lilium metabolism, Plant Roots drug effects, Plant Roots growth & development, Carbohydrate Metabolism drug effects, Humic Substances, Lilium drug effects

Abstract

Bulblet development is a problem in global lily bulb production and carbohydrate metabolism is a crucial factor. Micropropagation acts as an efficient substitute for faster propagation and can provide a controllable condition to explore bulb growth. The present study was conducted to investigate the effects of humic acid (HA) on bulblet swelling and the carbohydrate metabolic pathway in Lilium Oriental Hybrids 'Sorbonne' under in vitro conditions. HA greatly promoted bulblet growth at 0.2, 2.0, and 20.0 mg/L, and pronounced increases in bulblet sucrose, total soluble sugar, and starch content were observed for higher HA concentrations (≥2.0 mg/L) within 45 d after transplanting (DAT). The activities of three major starch synthetic enzymes (including adenosine 5'-diphosphate glucose pyrophosphorylase, granule-bound starch synthase, and soluble starch synthase) were enhanced dramatically after HA application especially low concentration HA (LHA), indicating a quick response of starch metabolism. However, higher doses of HA also caused excessive aboveground biomass accumulation and inhibited root growth. Accordingly, an earlier carbon starvation emerged by observing evident starch degradation. Relative bulblet weight gradually decreased with increased HA doses and thereby broke the balance between the source and sink. A low HA concentration at 0.2 mg/L performed best in both root and bulblet growth. The number of roots and root length peaked at 14.5 and 5.75 cm, respectively. The fresh bulblet weight and diameter reached 468 mg (2.9 times that under the control treatment) and 11.68 mm, respectively. Further, sucrose/starch utilization and conversion were accelerated and carbon famine was delayed as a result with an average relative bulblet weight of 80.09%. To our knowledge, this is the first HA application and mechanism research into starch metabolism in both in vitro and in vivo condition in bulbous crops., Competing Interests: Compliance with ethics guidelines: Yun WU, Yi-ping XIA, Jia-ping ZHANG, Fang DU, Lin ZHANG, Yi-di MA, and Hong ZHOU declare that they have no conflict of interest.

Published

2016

29. Flowering pathway is regulated by bulb size in Lilium longiflorum (Easter lily).

Author

Lazare S and Zaccai M

Subjects

Cold Temperature, Flowers growth & development, Flowers physiology, Flowers radiation effects, Lilium growth & development, Lilium radiation effects, Meristem growth & development, Meristem physiology, Meristem radiation effects, Photoperiod, Plant Roots growth & development, Plant Roots physiology, Plant Roots radiation effects, Lilium physiology

Abstract

Lilium longiflorum (Easter lily) vegetative propagation occurs through production of underground bulbs containing apical and axillary meristems. In addition, sexual reproduction is achieved by flowering of elongated shoots above the bulb. It is generally accepted that L. longiflorum has an obligatory requirement for vernalisation and that long day (LD) regime hastens flowering. However, the effect of bulb size and origin, with respect to axillary or apical meristems on flowering, as well as the interactions between these meristems are largely unknown. The aim of this study was to explore the effect of bulb size, vernalisation and photoperiod on L. longiflorum flowering. To this end, we applied vernalisation and photoperiod treatments to the different bulb sizes and used a system of constant ambient temperature of 25 °C, above vernalisation spectrum, to avoid cold-dependent floral induction during plant growth. Vernalisation and LD hasten flowering in all bulbs. Large, non-vernalised bulbs invariably remained at a vegetative stage. However, small non-vernalised bulbs flowered under LD conditions. These results demonstrate for the first time that cold exposure is not an obligatory prerequisite for L. longiflorum flowering, and that an alternative flowering pathway can bypass vernalisation in small bulbs. We suggest that apical dominance interactions determine the distinct flowering pathways of the apical and axillary meristems. Similar floral induction is achieved in propagated bulblets from scaling. These innovative findings in the field of geophyte floral induction represent valuable applicative knowledge for lily production., (© 2016 German Botanical Society and The Royal Botanical Society of the Netherlands.)

Published

2016

30. Alkyne-Modulated Surface-Enhanced Raman Scattering-Palette for Optical Interference-Free and Multiplex Cellular Imaging.

Author

Chen Y, Ren JQ, Zhang XG, Wu DY, Shen AG, and Hu JM

Subjects

Gold chemistry, HeLa Cells, Humans, Lilium growth & development, Metal Nanoparticles chemistry, Phenols chemistry, Pollen chemistry, Polyamines chemistry, Silver chemistry, Sulfhydryl Compounds chemistry, Alkynes chemistry, Spectrum Analysis, Raman

Abstract

The alkyne tags possess unique interference-free Raman emissions but are still hindered for further application in the field of biochemical labels due to its extremely weak spontaneous Raman scattering. With the aid of computational chemistry, herein, an alkyne-modulated surface-enhanced Raman scattering (SERS) palette is constructed based on rationally designed 4-ethynylbenzenethiol derivatives for spectroscopic signature, Au@Ag core for optical enhancement and an encapsulating polyallylamine shell for protection and conjugation. Even for the pigment rich plant cell (e.g., pollen), the alkyne-coded SERS tag can be highly discerned on two-dimension distribution impervious to strong organic interferences originating from resonance-enhanced Raman scattering or autofluorescence. In addition, the alkynyl-containing Raman reporters contribute especially narrow emission, band shift-tunable (2100-2300 cm(-1)) and tremendously enhanced Raman signals when the alkynyl group locates at para position of mercaptobenzene ring. Depending on only single Raman band, the suggested alkyne-modulated SERS-palette potentially provides a more effective solution for multiplex cellular imaging with vibrant colors, when the hyperspectral and fairly intense optical noises originating from lower wavenumber region (<1800 cm(-1)) are inevitable under complex ambient conditions.

Published

2016

31. Illumina-based analysis of the rhizosphere microbial communities associated with healthy and wilted Lanzhou lily (Lilium davidii var. unicolor) plants grown in the field.

Author

Shang Q, Yang G, Wang Y, Wu X, Zhao X, Hao H, Li Y, Xie Z, Zhang Y, and Wang R

Subjects

Bacteria genetics, Bacteria isolation & purification, Biodiversity, China, Fungi genetics, Fungi isolation & purification, Lilium growth & development, Microbiota, Plant Roots microbiology, RNA, Ribosomal, 16S genetics, Rhizosphere, Soil chemistry, Bacteria classification, Fungi classification, Lilium microbiology, Plant Diseases microbiology, Soil Microbiology

Abstract

Lanzhou lily (Liliumdavidii var. unicolor) is the best edible lily as well as a traditional medicinal plant in China. The microbes associated with plant roots play crucial roles in plant growth and health. However, little is known about the differences of rhizosphere microbes between healthy and wilted Lanzhou lily (Lilium davidii var. unicolor) plants. The objective of this study was to compare the rhizosphere microbial community and functional diversity of healthy and wilted plants, and to identify potential biocontrol agents with significant effect. Paired end Illumina Mi-Seq sequencing of 16S rRNA and ITS gene amplicons was employed to study the bacterial and fungal communities in the rhizosphere soil of Lanzhou lily plants. BIOLOG technology was adopted to investigate the microbial functional diversity. Our results indicated that there were major differences in the rhizosphere microbial composition and functional diversity of wilted samples compared with healthy samples. Healthy Lanzhou lily plants exhibited lower rhizosphere-associated bacterial diversity than diseased plants, whereas fungi exhibited the opposite trend. The dominant phyla in both the healthy and wilted samples were Proteobacteria and Ascomycota, i.e., 34.45 and 64.01 %, respectively. The microbial functional diversity was suppressed in wilted soil samples. Besides Fusarium, the higher relative abundances of Rhizoctonia, Verticillium, Penicillium, and Ilyonectria (Neonectria) in the wilted samples suggest they may pathogenetic root rot fungi. The high relative abundances of Bacillus in Firmicutes in healthy samples may have significant roles as biological control agents against soilborne pathogens. This is the first study to find evidence of major differences between the microbial communities in the rhizospheric soil of healthy and wilted Lanzhou lily, which may be linked to the health status of plants.

Published

2016

32. [Effects of drought stress at the bud stage on quality of cut lily.]

Author

Cui GF, Du WW, Duan Q, Wang XN, Ma LL, Wu LF, and Jia WJ

Subjects

China, Chlorophyll analysis, Plant Leaves physiology, Proline analysis, Droughts, Flowers growth & development, Lilium growth & development, Stress, Physiological, Water physiology

Abstract

Under the climatic conditions of the central Yunnan, with oriental lily cultivar 'Sorbonne' as material, the influences of different degrees of drought stress on physiological and biochemical changes of leaf and on quality of cut flowers after re-watering during the growth of bud were studied. The results showed that as the period of drought stress extended, the levels of leaf relative water content and chlorophyll content decreased significantly, while the stomatal density, MDA and proline content increased. Under mild drought, MDA increased slowly while it rose rapidly in the later stage of moderate drought stress, indicating that severe drought aggravated harm to the plasma membrane and ultimately affect the synthesis of MDA. Proline only experienced some slight changes in early period of mild drought, however, it increased sharply under severe drought conditions, which indicated that the sensitivity of proline to water deficit was lower than that to MDA. From re-watering to flowering, the effects of drought during bud growth reflected abnormal flowering traits. Compared with the normal group, there were significant differences in shoot growth, plant height, flower diameter, length and width of petal and flower pigment content. All indicators were in verse relation with the length of drought stress period because a longer drought period resulted in shorter plants, smaller flowers, shallower color. The differences among seven treatments during the flowe-ring stage of leaf morphology (length and width) were not significant. The drought during bud stage resulted in the delay of the flowering time, and the flowering quality of plants experiencing severe drought stress could not return to the normal levels even after re-watering. Overall, mild drought during early period had small influence on the quality of lily cut flowers as well as the grade of flo-wering branches. Under moderate or severe drought, the quality of cut flowers declined dramatically and even lost their commercial values.

Published

2016

33. Somatic Embryogenesis of Lilium from Microbulb Transverse Thin Cell Layers.

Author

Marinangeli P

Subjects

Acclimatization genetics, Germination genetics, Lilium genetics, Plant Development genetics, Plant Growth Regulators metabolism, Plant Leaves genetics, Plant Leaves growth & development, Plant Roots genetics, Plant Shoots genetics, Plant Shoots growth & development, Plants, Genetically Modified genetics, Lilium growth & development, Plant Roots growth & development, Plant Somatic Embryogenesis Techniques methods, Tissue Culture Techniques methods

Abstract

A reliable somatic embryogenesis protocol is a prerequisite for application of other plant biotechniques. Several protocols were reported for genus Lilium, with variable success. Between them, transverse Thin Cell Layers (tTCL) were used efficiently to induce indirect somatic embryogenesis of Lilium. Somatic embryogenesis potential is dependent on the genotype, explant, and culture medium composition, especially as for plant growth regulators and environmental conditions. Usually, the process comprises three phases: embryogenic callus induction, embryogenic callus proliferation and somatic embryo germination. Somatic embryo germination can be achieved in light or dark. In the first case, complete plantlets are formed, with green leaves and pseudobulb in the base. In darkness, microbulbs are formed from single somatic embryos or clusters. A last phase of microbulb enlargement allows plantlets or microbulbs to increase their biomass. These enlarged microbulbs do not need special acclimatization conditions when transferred to soil and quickly produce sturdy plants. This chapter describes a protocol for somatic embryogenesis of Lilium using tTCL from microbulbs.

Published

2016

34. Cloning and characterization of a benzoic acid/salicylic acid carboxyl methyltransferase gene involved in floral scent production from lily (Lilium 'Yelloween').

Author

Wang H, Sun M, Li LL, Xie XH, and Zhang QX

Subjects

Amino Acid Sequence, Benzoic Acid metabolism, Cloning, Molecular, Flowers growth & development, Flowers metabolism, Gene Expression Regulation, Plant, Lilium growth & development, Lilium metabolism, Methyltransferases metabolism, Oryza genetics, Phylogeny, Flowers genetics, Lilium genetics, Methyltransferases genetics

Abstract

In lily flowers, the volatile ester methyl benzoate is one of the major and abundant floral scent compounds; however, knowledge regarding the biosynthesis of methyl benzoate remains unknown for Lilium. In this study, we isolated a benzoic acid/salicylic acid carboxyl methyltransferase (BSMT) gene, LiBSMT, from petals of Lilium 'Yelloween'. The gene has an open reading frame of 1083 base pairs (bp) and encodes a protein of 41.05 kDa. Sequence alignment and phylogenetic analyses of LiBSMT revealed 40-50% similarity with other known benzenoid carboxyl methyltransferases in other plant species, and revealed homology to BSMT of Oryza sativa. Heterologous expression of this gene in Escherichia coli yielded an enzyme responsible for catalyzing benzoic acid and salicylic acid to methyl benzoate and methyl salicylate, respectively. Quantitative real-time polymerase chain reaction analysis showed that LiBSMT was preferentially expressed in petals. Moreover, the expression of LiBSMT in petals was developmentally regulated. These expression patterns correlate well with the emission of methyl benzoate. Our results indicate that LiBSMT plays an important role in floral scent methyl benzoate production and emission in lily flowers.

Published

2015

35. Conferred resistance to Botrytis cinerea in Lilium by overexpression of the RCH10 chitinase gene.

Author

Núñez de Cáceres González FF, Davey MR, Cancho Sanchez E, and Wilson ZA

Subjects

Agrobacterium physiology, Chitinases metabolism, Flowers physiology, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Lilium growth & development, Phenotype, Plant Diseases genetics, Plant Leaves genetics, Plants, Genetically Modified, Real-Time Polymerase Chain Reaction, Spores, Fungal physiology, Statistics, Nonparametric, Transformation, Genetic, Botrytis physiology, Chitinases genetics, Disease Resistance genetics, Genes, Plant, Lilium genetics, Lilium microbiology, Plant Diseases microbiology

Abstract

Key Message: Transgenic Lilium lines have been generated by Agrobacterium -mediated transformation that have enhanced resistance to Botrytis cinerea as a consequence of ectopic expression of a rice chitinase gene. The production of ornamentals is an important global industry, with Lilium being one of the six major bulb crops in the world. The international trade in ornamentals is in the order of £60-75 billion and is expected to increase worldwide by 2-4% per annum. The continued success of the floriculture industry depends on the introduction of new species/cultivars with major alterations in key agronomic characteristics, such as resistance to pathogens. Fungal diseases are the cause of reduced yields and marketable quality of cultivated plants, including ornamental species. The fungal pathogen Botrytis causes extreme economic losses to a wide range of crop species, including ornamentals such as Lilium. Agrobacterium-mediated transformation was used to develop Lilium oriental cv. 'Star Gazer' plants that ectopically overexpress the Rice Chitinase 10 gene (RCH10), under control of the CaMV35S promoter. Levels of conferred resistance linked to chitinase expression were evaluated by infection with Botrytis cinerea; sporulation was reduced in an in vitro assay and the relative expression of the RCH10 gene was determined by quantitative reverse transcriptase-PCR. The extent of resistance to Botrytis, compared to that of the wild type plants, showed a direct correlation with the level of chitinase gene expression. Transgenic plants grown to flowering showed no detrimental phenotypic effects associated with transgene expression. This is the first report of Lilium plants with resistance to Botrytis cinerea generated by a transgenic approach.

Published

2015

36. Auxin involvement in tepal senescence and abscission in Lilium: a tale of two lilies.

Author

Lombardi L, Arrom L, Mariotti L, Battelli R, Picciarelli P, Kille P, Stead T, Munné-Bosch S, and Rogers HJ

Subjects

Amino Acid Sequence, Flowers genetics, Flowers growth & development, Flowers metabolism, Lilium genetics, Lilium metabolism, Molecular Sequence Data, Plant Proteins chemistry, Plant Proteins metabolism, Sequence Alignment, Transcription Factors chemistry, Transcription Factors genetics, Transcription Factors metabolism, Gene Expression Regulation, Plant, Indoleacetic Acids metabolism, Lilium growth & development, Plant Growth Regulators metabolism, Plant Proteins genetics

Abstract

Petal wilting and/or abscission terminates the life of the flower. However, how wilting and abscission are coordinated is not fully understood. There is wide variation in the extent to which petals wilt before abscission, even between cultivars of the same species. For example, tepals of Lilium longiflorum wilt substantially, while those of the closely related Lilium longiflorum×Asiatic hybrid (L.A.) abscise turgid. Furthermore, close comparison of petal death in these two Lilium genotypes shows that there is a dramatic fall in fresh weight/dry weight accompanied by a sharp increase in ion leakage in late senescent L. longiflorum tepals, neither of which occur in Lilium L.A. Despite these differences, a putative abscission zone was identified in both lilies, but while the detachment force was reduced to zero in Lilium L.A., wilting of the fused tepals in L. longiflorum occurred before abscission was complete. Abscission is often negatively regulated by auxin, and the possible role of auxin in regulating tepal abscission relative to wilting was tested in the two lilies. There was a dramatic increase in auxin levels with senescence in L. longiflorum but not in Lilium L.A. Fifty auxin-related genes were expressed in early senescent L. longiflorum tepals including 12 ARF-related genes. In Arabidopsis, several ARF genes are involved in the regulation of abscission. Expression of a homologous transcript to Arabidopsis ARF7/19 was 8-fold higher during senescence in L. longiflorum compared with abscising Lilium L.A., suggesting a conserved role for auxin-regulated abscission in monocotyledonous ethylene-insensitive flowers., (© The Author 2014. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published

2015

37. Transcriptome analysis of carbohydrate metabolism during bulblet formation and development in Lilium davidii var. unicolor.

Author

Li X, Wang C, Cheng J, Zhang J, da Silva JA, Liu X, Duan X, Li T, and Sun H

Subjects

High-Throughput Nucleotide Sequencing, Lilium enzymology, Lilium metabolism, Molecular Sequence Data, Plant Proteins metabolism, Plant Roots enzymology, Plant Roots genetics, Plant Roots growth & development, Plant Roots metabolism, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Carbohydrate Metabolism, Gene Expression Regulation, Plant, Lilium genetics, Lilium growth & development, Plant Proteins genetics, Transcriptome

Abstract

Background: The formation and development of bulblets are crucial to the Lilium genus since these processes are closely related to carbohydrate metabolism, especially to starch and sucrose metabolism. However, little is known about the transcriptional regulation of both processes. To gain insight into carbohydrate-related genes involved in bulblet formation and development, we conducted comparative transcriptome profiling of Lilium davidii var. unicolor bulblets at 0 d, 15 d (bulblets emerged) and 35 d (bulblets formed a basic shape with three or four scales) after scale propagation., Results: Analysis of the transcriptome revealed that a total of 52,901 unigenes with an average sequence size of 630 bp were generated. Based on Clusters of Orthologous Groups (COG) analysis, 8% of the sequences were attributed to carbohydrate transport and metabolism. The results of KEGG pathway enrichment analysis showed that starch and sucrose metabolism constituted the predominant pathway among the three library pairs. The starch content in mother scales and bulblets decreased and increased, respectively, with almost the same trend as sucrose content. Gene expression analysis of the key enzymes in starch and sucrose metabolism suggested that sucrose synthase (SuSy) and invertase (INV), mainly hydrolyzing sucrose, presented higher gene expression in mother scales and bulblets at stages of bulblet appearance and enlargement, while sucrose phosphate synthase (SPS) showed higher expression in bulblets at morphogenesis. The enzymes involved in the starch synthetic direction such as ADPG pyrophosphorylase (AGPase), soluble starch synthase (SSS), starch branching enzyme (SBE) and granule-bound starch synthase (GBSS) showed a decreasing trend in mother scales and higher gene expression in bulblets at bulblet appearance and enlargement stages while the enzyme in the cleavage direction, starch de-branching enzyme (SDBE), showed higher gene expression in mother scales than in bulblets., Conclusions: An extensive transcriptome analysis of three bulblet development stages contributes considerable novel information to our understanding of carbohydrate metabolism-related genes in Lilium at the transcriptional level, and demonstrates the fundamentality of carbohydrate metabolism in bulblet emergence and development at the molecular level. This could facilitate further investigation into the molecular mechanisms underlying these processes in lily and other related species.

Published

2014

38. Effect of pre-storage on Lilium martagon L. seed longevity following cryopreservation.

Author

Urbaniec-Kiepura M and Bach A

Subjects

Acclimatization, Cold Temperature, Desiccation, Germination, Lilium growth & development, Seedlings growth & development, Seedlings physiology, Seeds growth & development, Sucrose metabolism, Cryopreservation methods, Lilium physiology, Seeds physiology

Abstract

Background: The aim of the study was to compare different strategies for the cryopreservation of Lilium martagon L. seeds., Materials and Methods: The starting material was seeds of the martagon lily (without or with a special pretreatment involving sucrose pre-culture dehydratation and desiccation) subjected to cryopreservation after preliminary storage under conventional conditions (-5 degree C, 5 degree C, or 15 degree C). The effects of storage, pretreatment and cryopreservation on the seeds were assessed in terms of seed germination and phenotypic changes in the seedlings derived from those seeds., Results: Subjecting the seeds to cold hardening or pretreatment did not affect significantly their germination capacity or the average germination time after cryopreservation. Combination of these strategies, however, significantly affected the capacity of the seeds to germinate. The highest germinability (100%) after cryopreservation was observed in the seeds stored at 15 degree C and subjected to sucrose pre-culture dehydration and air flow desiccation (seed moisture content [MC] 13.1%), and in those seeds stored at the same temperature but subjected subsequently to 5 h desiccation, not pretreated, with MC of 7.6 degree. Cryopreservation did not affect the germination capacity of the seeds but shortened the average germination time from 40.7 to 34.4 days., Conclusions: The obtained results demonstrate that a simple cryopreservation method without any special pretreatment of seeds can be used successfully for preserving L. martagon seeds. Neither the low temperature nor the sucrose concentration used affected the germination capacity or the average germination time of L. martagon seeds following cryopreservation.

Published

2014

39. Size-dependent gender modification in Lilium apertum (Liliaceae): does this species exhibit gender diphasy?

Author

Zhang ZQ, Zhu XF, Sun H, Yang YP, and Barrett SC

Subjects

China, Flowers growth & development, Hermaphroditic Organisms growth & development, Hermaphroditic Organisms physiology, Lilium growth & development, Phenotype, Reproduction, Seasons, Sex Determination Processes, Flowers physiology, Lilium physiology

Abstract

Background and Aims: Variation in the relative female and male reproductive success of flowering plants is widespread, despite the fundamental hermaphroditic condition of the majority of species. In many hermaphroditic populations, environmental conditions and their influence on development and size can influence the gender expression of individuals through the formation of hermaphroditic and unisexual flowers. This study investigates the hypothesis that the bulbous, animal-pollinated, perennial Lilium apertum (Liliaceae) exhibits a form of size-dependent gender modification known as gender diphasy, in which the sexual expression of individuals depends on their size, with plants often changing sex between seasons., Methods: Variation in floral traits was examined in relation to their size using marked individuals in natural populations, and also under glasshouse conditions. Measurements were taken of the height, flower number, floral sex expression, flower size, flower biomass and pollen production of individuals over consecutive years between 2009 and 2012 in seven populations in south-west China., Key Results: Flowers of L. apertum are either perfect (hermaphroditic) or staminate (male) and, in any given season, plants exhibit one of three sex phenotypes: only hermaphrodite flowers, a mixture of hermaphroditic and male flowers, or only male flowers. Transitions between each of these sex phenotypes were observed over consecutive years and were commonly size-dependent, particularly transitions from small plants bearing only male flowers to those that were taller with hermaphroditic flowers. Hermaphroditic flowers were significantly larger, heavier and produced more pollen than male flowers., Conclusions: The results for L. apertum are consistent with the 'size advantage hypothesis' developed for animal species with sex change. The theory predicts that when individuals are small they should exhibit the sex for which the costs of reproduction are less, and this usually involves the male phase. L. apertum provides an example of gender diphasy, a rare sexual system in flowering plants., (© The Author 2014. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2014

40. The apical actin fringe contributes to localized cell wall deposition and polarized growth in the lily pollen tube.

Author

Rounds CM, Hepler PK, and Winship LJ

Subjects

Body Patterning, Brefeldin A, Bridged Bicyclo Compounds, Heterocyclic, Lilium metabolism, Potassium Cyanide, Thiazolidines, Actins metabolism, Cell Wall metabolism, Lilium growth & development, Pectins metabolism, Pollen Tube growth & development

Abstract

In lily (Lilium formosanum) pollen tubes, pectin, a major component of the cell wall, is delivered through regulated exocytosis. The targeted transport and secretion of the pectin-containing vesicles may be controlled by the cortical actin fringe at the pollen tube apex. Here, we address the role of the actin fringe using three different inhibitors of growth: brefeldin A, latrunculin B, and potassium cyanide. Brefeldin A blocks membrane trafficking and inhibits exocytosis in pollen tubes; it also leads to the degradation of the actin fringe and the formation of an aggregate of filamentous actin at the base of the clear zone. Latrunculin B, which depolymerizes filamentous actin, markedly slows growth but allows focused pectin deposition to continue. Of note, the locus of deposition shifts frequently and correlates with changes in the direction of growth. Finally, potassium cyanide, an electron transport chain inhibitor, briefly stops growth while causing the actin fringe to completely disappear. Pectin deposition continues but lacks focus, instead being delivered in a wide arc across the pollen tube tip. These data support a model in which the actin fringe contributes to the focused secretion of pectin to the apical cell wall and, thus, to the polarized growth of the pollen tube., (© 2014 American Society of Plant Biologists. All Rights Reserved.)

Published

2014

41. A novel lily anther-specific gene encodes adhesin-like proteins associated with exine formation during anther development.

Author

Liu MC, Yang CS, Yeh FL, Wei CH, Jane WN, Chung MC, and Wang CS

Subjects

Amino Acid Sequence, Base Sequence, Ethylenes metabolism, Flowers growth & development, Flowers metabolism, Gibberellins genetics, Gibberellins metabolism, Lilium growth & development, Lilium metabolism, Lilium ultrastructure, Microscopy, Electron, Scanning, Plant Proteins chemistry, Plant Proteins metabolism, Pollen growth & development, Pollen ultrastructure, Reverse Transcriptase Polymerase Chain Reaction, Sequence Alignment, Flowers genetics, Gene Expression Regulation, Plant, Lilium genetics, Plant Proteins genetics

Abstract

The anther-specific gene LLA1271 isolated from lily (Lilium longiflorum Thunb.) anthers is novel and exists in two forms. The protein encoded by LLA1271 may represent an adhesin-like protein first found in higher plants. The protein contains a typical N-terminal signal peptide followed by a highly conserved repeat domain. The LLA1271 gene is temporally expressed at the phase of microspore development. RNA blot and RNA in situ hybridization analyses demonstrated that the gene was expressed both in the tapetum and in the microspore. The gene is endo- and exogenously induced by gibberellin. Studies with the gibberellin biosynthesis inhibitor uniconazole and an inhibitor of ethylene activity, 2,5-norbornadien (NBD), revealed that LLA1271 is negatively regulated by ethylene, and a cross-talk of regulation between gibberellin and ethylene occurs in young anthers. The treatment with NBD caused the tapetum to become densely cytoplasmic and highly polarized, whereas uniconazole arrested tapetal development in a state close to that of a tapetum without treatment. The LLA1271 protein is heat stable and heterogeneous. An immunoblot of separated protein fractions of the anther revealed that the LLA1271 protein was detected in protein fraction of the microspore released from the cell wall by treatment with either 0.5% or 2% Triton X-100. Ectopic expression of LLA1271 resulted in impaired stamen and low pollen germination. Scanning electron microscopy of TAP::LLA1271 pollen showed distorted exine formation and patterning. The LLA1271 protein once synthesized in both the tapetum and microspore is secreted and deposited on the surface of microspores, moderately affecting exine formation and patterning.

Published

2014

42. Mercury-sensitive water channels as possible sensors of water potentials in pollen.

Author

Shachar-Hill B, Hill AE, Powell J, Skepper JN, and Shachar-Hill Y

Subjects

Calcium metabolism, Cell Wall metabolism, Lilium growth & development, Osmosis, Pollen growth & development, Pollen Tube growth & development, Pollen Tube metabolism, Potassium metabolism, Ion Channels metabolism, Lilium metabolism, Mercury metabolism, Plant Proteins metabolism, Pollen metabolism, Water metabolism

Abstract

The growing pollen tube is central to plant reproduction and is a long-standing model for cellular tip growth in biology. Rapid osmotically driven growth is maintained under variable conditions, which requires osmosensing and regulation. This study explores the mechanism of water entry and the potential role of osmosensory regulation in maintaining pollen growth. The osmotic permeability of the plasmalemma of Lilium pollen tubes was measured from plasmolysis rates to be 1.32±0.31×10(-3) cm s(-1). Mercuric ions reduce this permeability by 65%. Simulations using an osmotic model of pollen tube growth predict that an osmosensor at the cell membrane controls pectin deposition at the cell tip; inhibiting the sensor is predicted to cause tip bursting due to cell wall thinning. It was found that adding mercury to growing pollen tubes caused such a bursting of the tips. The model indicates that lowering the osmotic permeability per se does not lead to bursting but rather to thickening of the tip. The time course of induced bursting showed no time lag and was independent of mercury concentration, compatible with a surface site of action. The submaximal bursting response to intermediate mercuric ion concentration was independent of the concentration of calcium ions, showing that bursting is not due to a competitive inhibition of calcium binding or entry. Bursting with the same time course was also shown by cells growing on potassium-free media, indicating that potassium channels (implicated in mechanosensing) are not involved in the bursting response. The possible involvement of mercury-sensitive water channels as osmosensors and current knowledge of these in pollen cells are discussed.

Published

2013

43. Effects of perchlorate on growth of four wetland plants and its accumulation in plant tissues.

Author

He H, Gao H, Chen G, Li H, Lin H, and Shu Z

Subjects

Acorus drug effects, Acorus growth & development, Acorus metabolism, Biodegradation, Environmental, Chlorophyll metabolism, Chlorophyll pharmacology, Eichhornia drug effects, Eichhornia growth & development, Eichhornia metabolism, Lilium drug effects, Lilium growth & development, Lilium metabolism, Marantaceae drug effects, Marantaceae growth & development, Marantaceae metabolism, Perchlorates metabolism, Plant Leaves drug effects, Plant Leaves growth & development, Plant Leaves metabolism, Plant Roots drug effects, Plant Roots growth & development, Plant Roots metabolism, Plants metabolism, Risk Assessment, Water Pollutants, Chemical metabolism, Perchlorates toxicity, Water Pollutants, Chemical toxicity, Wetlands

Abstract

Perchlorate contamination in water is of concern because of uncertainties about toxicity and health effects, impact on ecosystems, and possible indirect exposure pathways to humans. Therefore, it is very important to investigate the ecotoxicology of perchlorate and to screen plant species for phytoremediation. Effects of perchlorate (20, 200, and 500 mg/L) on the growth of four wetland plants (Eichhornia crassipes, Acorus calamus L., Thalia dealbata, and Canna indica) as well as its accumulation in different plant tissues were investigated through water culture experiments. Twenty milligrams per liter of perchlorate had no significant effects on height, root length, aboveground part weight, root weight, and oxidizing power of roots of four plants, except A. calamus, and increasing concentrations of perchlorate showed that out of the four wetland plants, only A. calamus had a significant (p<0.05) dose-dependent decrease in these parameters. When treated with 500 mg/L perchlorate, these parameters and chlorophyll content in the leaf of plants showed significant decline contrasted to control groups, except the root length of E. crassipes and C. indica. The order of inhibition rates of perchlorate on root length, aboveground part weight and root weight, and oxidizing power of roots was: A. calamus > C. indica > T. dealbata > E. crassipes and on chlorophyll content in the leaf it was: A. calamus > T. dealbata > C. indica > E. crassipes. The higher the concentration of perchlorate used, the higher the amount of perchlorate accumulation in plants. Perchlorate accumulation in aboveground tissues was much higher than that in underground tissues and leaf was the main tissue for perchlorate accumulation. The order of perchlorate accumulation content and the bioconcentration factor in leaf of four plants was: E. crassipes > C. indica > T. dealbata > A. calamus. Therefore, E. crassipes might be an ideal plant with high tolerance ability and accumulation ability for constructing wetland to remediate high levels of perchlorate polluted water.

Published

2013

44. Dynamic adaption of metabolic pathways during germination and growth of lily pollen tubes after inhibition of the electron transport chain.

Author

Obermeyer G, Fragner L, Lang V, and Weckwerth W

Subjects

Adaptation, Physiological physiology, Adenosine Triphosphate metabolism, Amino Acids metabolism, Antimycin A pharmacology, Carbohydrate Metabolism, Electron Transport, Enzymes genetics, Enzymes metabolism, Ethanol metabolism, Gas Chromatography-Mass Spectrometry, Gene Expression Regulation, Plant, Germination drug effects, Lilium drug effects, Lilium growth & development, Metabolic Networks and Pathways genetics, Oxidative Phosphorylation, Principal Component Analysis, Sucrose metabolism, Time Factors, gamma-Aminobutyric Acid metabolism, Germination physiology, Lilium metabolism, Pollen Tube growth & development, Pollen Tube metabolism

Abstract

Investigation of the metabolome and the transcriptome of pollen of lily (Lilium longiflorum) gave a comprehensive overview of metabolic pathways active during pollen germination and tube growth. More than 100 different metabolites were determined simultaneously by gas chromatography coupled to mass spectrometry, and expressed genes of selected metabolic pathways were identified by next-generation sequencing of lily pollen transcripts. The time-dependent changes in metabolite abundances, as well as the changes after inhibition of the mitochondrial electron transport chain, revealed a fast and dynamic adaption of the metabolic pathways in the range of minutes. The metabolic state prior to pollen germination differed clearly from the metabolic state during pollen tube growth, as indicated by principal component analysis of all detected metabolites and by detailed observation of individual metabolites. For instance, the amount of sucrose increased during the first 60 minutes of pollen culture but decreased during tube growth, while glucose and fructose showed the opposite behavior. Glycolysis, tricarbonic acid cycle, glyoxylate cycle, starch, and fatty acid degradation were activated, providing energy during pollen germination and tube growth. Inhibition of the mitochondrial electron transport chain by antimycin A resulted in an immediate production of ethanol and a fast rearrangement of metabolic pathways, which correlated with changes in the amounts of the majority of identified metabolites, e.g. a rapid increase in γ-aminobutyric acid indicated the activation of a γ-aminobutyric acid shunt in the tricarbonic acid cycle, while ethanol fermentation compensated the reduced ATP production after inhibition of the oxidative phosphorylation.

Published

2013

45. Epicotyl morphophysiological dormancy in seeds of Lilium polyphyllum (Liliaceae).

Author

Dhyani A, Phartyal SS, Nautiyal BP, and Nautiyal MC

Subjects

Lilium embryology, Seasons, Seeds embryology, Temperature, Germination physiology, Lilium growth & development, Plant Dormancy physiology, Seeds growth & development

Abstract

Dormancy-breaking and seed germination studies in genus Lilium reveal that the majority of Lilium spp. studied have an underdeveloped embryo at maturity, which grows inside the seed before the radicle emerges. Additionally, the embryo, radicle or cotyledon has a physiological component of dormancy; thus, Lilium seeds have morphophysiological dormancy (MPD). A previous study suggested that seeds of Lilium polyphyllum have MPD but the study did not investigate the development of the embryo, which is one of the main criteria to determine MPD in seeds. To test this hypothesis, we investigated embryo growth and emergence of radicles and epicotyls in seeds over a range of temperatures. At maturity, seeds had underdeveloped embryos which developed fully at warm temperature within 6 weeks. Immediately after embryo growth, radicles also emerged at warm temperatures. However, epicotyls failed to emerge soon after radicle emergence. Epicotyls emerged from >90% seeds with an emerged radicle only after they were subjected to 2 weeks of cold moist stratification. The overall temperature requirements for dormancy-breaking and seed germination indicate a non-deep simple epicotyl MPD in L. polyphyllum.

Published

2013

46. Generative cell-specific activation of the histone gH2A gene promoter of Lilium longiflorum in tobacco.

Author

Ueda K, Ono M, Iwashita J, Wabiko H, and Inoue M

Subjects

Biomarkers, Colchicine pharmacology, Flowers cytology, Flowers drug effects, Flowers genetics, Flowers growth & development, Gene Expression Regulation, Developmental drug effects, Gene Expression Regulation, Plant drug effects, Gene Expression Regulation, Plant genetics, Genes, Reporter, Glucuronidase genetics, Glucuronidase metabolism, Lilium cytology, Lilium drug effects, Lilium growth & development, Microtubules drug effects, Microtubules metabolism, Mitosis drug effects, Organ Specificity, Plant Proteins genetics, Pollen cytology, Pollen drug effects, Pollen growth & development, RNA, Messenger genetics, RNA, Plant genetics, Nicotiana genetics, Nicotiana metabolism, Tubulin Modulators pharmacology, Gene Expression Regulation, Developmental genetics, Histones genetics, Lilium genetics, Pollen genetics, Promoter Regions, Genetic genetics

Abstract

The Lilium longiflorum gH2A promoter is active exclusively in the generative cells of mature pollen in transgenic tobacco expressing the gH2A promoter::GUS (β-glucuronidase) construct as a reporter gene. Temporal and spatial aspects of gH2A promoter activity examined during pollen development in transgenic tobacco reveal that GUS reporter activity was not detected until developing pollen entered the early bicellular developmental stage. Activity was first detected in generative cells at early-mid stages and gradually increased to maximum levels at mid-bicellular stages. The patterns of appearance and longevity of GUS activity in tobacco were very similar to those of gH2A mRNA during pollen development in Lilium. Exogenous treatment with colchicine, a well-known microtubule depolymerize, blocked microspore mitosis and inhibited generative cell differentiation. No GUS signal was detected in the resulting anomalous pollen, which lacked generative cell differentiation. These data strongly suggest that normal generative cell development is essential for activation of the gH2A promoter. Furthermore, these results indicate that common transcriptional activator(s) of the gH2A promoter may be present in both Lilium and Nicotiana, and that such putative factor(s) activates the gH2A promoter only when generative cells undergo normal development.

Published

2012

47. FIMBRIN1 is involved in lily pollen tube growth by stabilizing the actin fringe.

Author

Su H, Zhu J, Cai C, Pei W, Wang J, Dong H, and Ren H

Subjects

Actins metabolism, Amino Acid Sequence, Arabidopsis genetics, Arabidopsis growth & development, Arabidopsis metabolism, Arabidopsis ultrastructure, DNA, Complementary genetics, Gene Expression, Gene Expression Regulation, Developmental, Lilium growth & development, Lilium metabolism, Lilium ultrastructure, Membrane Glycoproteins metabolism, Microfilament Proteins metabolism, Molecular Sequence Data, Mutation, Organ Specificity, Phenotype, Plant Proteins genetics, Plant Proteins metabolism, Pollen Tube growth & development, Pollen Tube metabolism, Pollen Tube ultrastructure, Recombinant Fusion Proteins, Sequence Analysis, DNA, Actin Cytoskeleton metabolism, Gene Expression Regulation, Plant, Lilium genetics, Membrane Glycoproteins genetics, Microfilament Proteins genetics, Pollen Tube genetics

Abstract

An actin fringe structure in the subapex plays an important role in pollen tube tip growth. However, the precise mechanism by which the actin fringe is generated and maintained remains largely unknown. Here, we cloned a 2606-bp full-length cDNA encoding a deduced 77-kD fimbrin-like protein from lily (Lilium longiflorum), named FIMBRIN1 (FIM1). Ll-FIM1 was preferentially expressed in pollen and concentrated at actin fringe in the subapical region, as well as in longitudinal actin-filament bundles in the shank of pollen tubes. Microinjection of Ll-FIM1 antibody into lily pollen tubes inhibited tip growth and disrupted the actin fringe. Furthermore, we verified the function of Ll-FIM1 in the fim5 mutant of its closest relative, Arabidopsis thaliana. Pollen tubes of fim5 mutants grew with a larger diameter in early stages but could recover into normal forms in later stages, despite significantly slower growth rates. The actin fringe of the fim5 mutants, however, was impaired during both early and late stages. Impressively, stable expression of fim5pro:GFP:Ll-FIM1 rescued the actin fringe and the growth rate of Arabidopsis fim5 pollen tubes. In vitro biochemical analysis showed that Ll-FIM1 could bundle actin filaments. Thus, our study has identified a fimbrin that may stabilize the actin fringe by cross-linking actin filaments into bundles, which is important for proper tip growth of lily pollen tubes.

Published

2012

48. Hormonal regulation of leaf senescence in Lilium.

Author

Arrom L and Munné-Bosch S

Subjects

Abscisic Acid pharmacology, Cellular Senescence drug effects, Gene Expression Regulation, Plant, Gibberellins metabolism, Naphthalenes pharmacology, Photoperiod, Plant Growth Regulators metabolism, Salicylic Acid metabolism, Sulfonamides pharmacology, Temperature, Cellular Senescence physiology, Lilium drug effects, Lilium growth & development, Plant Growth Regulators analysis, Plant Leaves drug effects, Plant Leaves growth & development

Abstract

In addition to floral senescence and longevity, the control of leaf senescence is a major factor determining the quality of several cut flowers, including Lilium, in the commercial market. To better understand the physiological process underlying leaf senescence in this species, we evaluated: (i) endogenous variation in the levels of phytohormones during leaf senescence, (ii) the effects of leaf darkening in senescence and associated changes in phytohormones, and (iii) the effects of spray applications of abscisic acid (ABA) and pyrabactin on leaf senescence. Results showed that while gibberellin 4 (GA(4)) and salicylic acid (SA) contents decreased, that of ABA increased during the progression of leaf senescence. However, dark-induced senescence increased ABA levels, but did not affect GA(4) and SA levels, which appeared to correlate more with changes in air temperature and/or photoperiod than with the induction of leaf senescence. Furthermore, spray applications of pyrabactin delayed the progression of leaf senescence in cut flowers. Thus, we conclude that (i) ABA plays a major role in the regulation of leaf senescence in Lilium, (ii) darkness promotes leaf senescence and increases ABA levels, and (iii) exogenous applications of pyrabactin inhibit leaf senescence in Lilium, therefore suggesting that it acts as an antagonist of ABA in senescing leaves of cut lily flowers., (Copyright © 2012 Elsevier GmbH. All rights reserved.)

Published

2012

49. Actin fringe is correlated with tip growth velocity of pollen tubes.

Author

Dong H, Pei W, and Haiyun R

Subjects

Actins genetics, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Kinetics, Lilium chemistry, Lilium genetics, Lilium growth & development, Pollen Tube chemistry, Pollen Tube genetics, Pollen Tube metabolism, Actins metabolism, Lilium metabolism, Pollen Tube growth & development

Published

2012

50. Hormonal changes during flower development in floral tissues of Lilium.

Author

Arrom L and Munné-Bosch S

Subjects

Abscisic Acid analysis, Abscisic Acid metabolism, Cyclopentanes analysis, Cyclopentanes metabolism, Cytokinins analysis, Cytokinins metabolism, Ethylenes analysis, Ethylenes metabolism, Flowers drug effects, Flowers growth & development, Gibberellins analysis, Gibberellins metabolism, Indoleacetic Acids analysis, Indoleacetic Acids metabolism, Lilium drug effects, Lilium growth & development, Oxylipins analysis, Oxylipins metabolism, Plant Growth Regulators analysis, Reproduction, Salicylic Acid analysis, Salicylic Acid metabolism, Time Factors, Abscisic Acid pharmacology, Flowers physiology, Gene Expression Regulation, Plant physiology, Lilium physiology, Plant Growth Regulators metabolism

Abstract

Much effort has been focussed on better understanding the key signals that modulate floral senescence. Although ethylene is one of the most important regulators of floral senescence in several species, Lilium flowers show low sensitivity to ethylene; thus their senescence may be regulated by other hormones. In this study we have examined how (1) endogenous levels of hormones in various floral tissues (outer and inner tepals, androecium and gynoecium) vary throughout flower development, (2) endogenous levels of hormones in such tissues change in cut versus intact flowers at anthesis, and (3) spray applications of abscisic acid and pyrabactin alter flower longevity. Results show that floral tissues behave differently in their hormonal changes during flower development. Cytokinin and auxin levels mostly increased in tepals prior to anthesis and decreased later during senescence. In contrast, levels of abscisic acid increased during senescence, but only in outer tepals and the gynoecium, and during the latest stages. In addition, cut flowers at anthesis differed from intact flowers in the levels of abscisic acid and auxins in outer tepals, salicylic acid in inner tepals, cytokinins, gibberellins and jasmonic acid in the androecium, and abscisic acid and salicylic acid in the gynoecium, thus showing a clear differential response between floral tissues. Furthermore, spray applications of abscisic acid and pyrabactin in combination accelerated the latest stages of tepal senescence, yet only when flower senescence was delayed with Promalin. It is concluded that (1) floral tissues differentially respond in their endogenous variations of hormones during flower development, (2) cut flowers have drastic changes in the hormonal balance not only of outer and inner tepals but also of androecium and gynoecium, and (3) abscisic acid may accelerate the progression of tepal senescence in Lilium.

Published

2012