Your search keyword '"Liriodendron"' showing total 140 results

1. Overexpression of the Liriodendron tulipifera TPS32 gene in tobacco enhances terpenoid compounds synthesis.

Author

Junpeng Wu, Manli Bu, Yaxian Zong, Zhonghua Tu, Yanli Cheng, and Huogen Li

Subjects

MOLECULAR cloning, GENE families, GENE expression, BIOSYNTHESIS, PLANT growth, POLLINATORS

Abstract

Liriodendron, a relic genus from the Magnoliaceae family, comprises two species, L. tulipifera and L. chinense. L. tulipifera is distinguished by its extensive natural distribution in Eastern North America. Conversely, L. chinense is nearing endangerment due to its low regeneration rate. A pivotal aspect in the difference of these species involves terpenoids, which play crucial roles in plant growth and attracting pollinators. However, the complex molecular mechanisms underlying terpenoid roles in Liriodendron are not well understood. Terpene Synthases (TPS) genes are widely reported to play a role in terpenoid biosynthesis, hence, this study centers on TPS genes in Liriodendron spp. Employing multiple bioinformatics methods, a differential expression gene in L. tulipifera, LtuTPS32, was discerned for further functional analysis. Subcellular localization results reveal the involvement of LtuTPS32 in chloroplast-associated processes, hence participate in terpenoid biosynthesis within chloroplasts. Heterologous transformation of the LtuTPS32 gene into tobacco significantly elevates the levels of common terpenoid compounds, including chlorophyll, gibberellin, and carotenoids. Collectively, these findings not only underscore the role of the LtuTPS32 gene in the biosynthesis of terpenoids but also lay a foundation for future research on interspecific differences in Liriodendron. [ABSTRACT FROM AUTHOR]

Published

2024

2. Convergent and adaptive evolution drove change of secondary cell wall ultrastructure in extant lineages of seed plants.

Author

Lyczakowski, Jan J. and Wightman, Raymond

Subjects

*BIOLOGICAL evolution, *CARBON sequestration in forests, *PLANT cell walls, *TRANSCRIPTION factors, *CLIMATE change, *WOOD chemistry, *WOODY plants

Abstract

This article discusses the evolution and diversity of secondary cell walls (SCWs) in seed plants. The study used cryoSEM to analyze macrofibrils in 33 different angiosperm and gymnosperm species. The results showed that angiosperms generally have narrower macrofibrils compared to gymnosperms, but there are exceptions. The findings provide insights into wood nanostructure and cell wall composition, which can be useful for selecting or engineering desirable wood properties and improving carbon sequestration in plantation forests. The study also examines the evolution of macrofibril size in seed plants, specifically focusing on angiosperms and gymnosperms. The researchers found that large macrofibrils are characteristic of gymnosperms, while small macrofibrils are characteristic of angiosperms. However, they also discovered an intermediate macrofibril size in the Liriodendron genus. The researchers speculate that this may be due to differences in cell wall composition or environmental factors. Further research is needed to investigate these factors and their impact on carbon sequestration and storage by plants. [Extracted from the article]

Published

2024

3. The Role of Liriodendron Dof Gene Family in Abiotic Stress Response.

Author

Liao, Bojun, Liang, Pengxiang, Tong, Lu, Lu, Lu, Lu, Ye, Zheng, Renhua, Zheng, Xueyan, Chen, Jinhui, and Hao, Zhaodong

Subjects

TRANSCRIPTION factors, GENE families, ABIOTIC stress, PROMOTERS (Genetics), MOLECULAR cloning

Abstract

The DOF (DNA-binding with one finger) transcription factors are exclusive to plants and play crucial roles in plant growth, development, and environmental adaptation. Although extensive research has been conducted on the Dof gene family in Arabidopsis, maize, and Solanum, investigations concerning the role of this gene family in Liriodendron remain unreported, leaving its biological function largely unknown. In this study, we performed a comprehensive genome-wide identification of the Dof gene family based on the Liriodendron genome, resulting in the discovery of a total of 17 LcDof gene members. Based on the results of phylogenetic analysis, the 17 LcDof proteins were classified into eight subfamilies. The motif analysis revealed the diverse nature of motifs within the D1 subfamily, which includes a distinct type of Dof transcription factor known as CDF (Cycling Dof Factor). We further characterized the chromosomal distribution, gene structure, conserved protein motifs, and cis-elements in the promoter regions. Additionally, utilizing transcriptome data from Liriodendron hybrids and conducting RT-qPCR experiments, we investigated the expression patterns of LhDofs under various abiotic stresses such as drought, cold, and heat stress. Notably, we found that several LhDofs, particularly LhDof4 and LhDof6, were significantly upregulated in response to abiotic stress. Furthermore, we cloned LhDof4 and LhDof6 genes and found that its encoding protein was mainly located in the nucleus by transient transformation in Liriodendron hybrids protoplast. Subsequently, we used LhDof6-overexpressing Liriodendron hybrid seedlings. We found that overexpression of LhDof6 enhanced the cold tolerance of the plants, increasing their survival rate at −20 °C. This result was further validated by changes in physiological indicators. [ABSTRACT FROM AUTHOR]

Published

2024

4. Two novel Raoultella species associated with bleeding cankers of broadleaf hosts, Raoultella scottia sp. nov. and Raoultella lignicola sp. nov.

Author

Brady, Carrie, Crampton, Bridget, Kaur, Sundeep, Maddock, Daniel, Kile, Helene, Arnold, Dawn, and Denman, Sandra

Subjects

WHOLE genome sequencing, GRISELINIA littoralis, SPECIES, HEMORRHAGE, SEQUENCE analysis

Abstract

Seventeen Gram-negative, facultatively anaerobic bacterial strains were isolated from bleeding cankers of various broadleaf hosts and oak rhizosphere soil in Great Britain. The strains were tentatively identified as belonging to the genus Raoultella based on 16S rRNA gene sequencing. Multilocus sequence analysis (MLSA), based on four protein-encoding genes (fusA, leuS, pyrG, and rpoB), separated the strains into three clusters within the Raoultella genus clade. The majority of strains clustered with the type strain of Raoultella terrigena, with the remaining strains divided into two clusters with no known type strain. Whole genome sequencing comparisons confirmed these two clusters of strains as belonging to two novel Raoultella species which can be differentiated phenotypically from their current closest phylogenetic relatives. Therefore, two novel species are proposed: Raoultella scottia sp. nov. (type strain = BAC 10a-01-01T = LMG 33072T = CCUG 77096T) and Raoultella lignicola sp. nov. (type strain = TW_WC1a.1T = LMG 33073T = CCUG 77094T). [ABSTRACT FROM AUTHOR]

Published

2024

5. Two novel Raoultella species associated with bleeding cankers of broadleaf hosts, Raoultella scottia sp. nov. and Raoultella lignicola sp. nov.

Author

Carrie Brady, Bridget Crampton, Sundeep Kaur, Daniel Maddock, Helene Kile, Dawn Arnold, and Sandra Denman

Subjects

Raoultella, Enterobacteriaceae, bleeding canker, Liriodendron, Platanus, Tilia, Microbiology, QR1-502

Abstract

Seventeen Gram-negative, facultatively anaerobic bacterial strains were isolated from bleeding cankers of various broadleaf hosts and oak rhizosphere soil in Great Britain. The strains were tentatively identified as belonging to the genus Raoultella based on 16S rRNA gene sequencing. Multilocus sequence analysis (MLSA), based on four protein-encoding genes (fusA, leuS, pyrG, and rpoB), separated the strains into three clusters within the Raoultella genus clade. The majority of strains clustered with the type strain of Raoultella terrigena, with the remaining strains divided into two clusters with no known type strain. Whole genome sequencing comparisons confirmed these two clusters of strains as belonging to two novel Raoultella species which can be differentiated phenotypically from their current closest phylogenetic relatives. Therefore, two novel species are proposed: Raoultella scottia sp. nov. (type strain = BAC 10a-01-01T = LMG 33072T = CCUG 77096T) and Raoultella lignicola sp. nov. (type strain = TW_WC1a.1T = LMG 33073T = CCUG 77094T).

Published

2024

6. The Role of Liriodendron Dof Gene Family in Abiotic Stress Response

Author

Bojun Liao, Pengxiang Liang, Lu Tong, Lu Lu, Ye Lu, Renhua Zheng, Xueyan Zheng, Jinhui Chen, and Zhaodong Hao

Subjects

DNA-binding with one finger, Liriodendron, abiotic stress, Botany, QK1-989

Abstract

The DOF (DNA-binding with one finger) transcription factors are exclusive to plants and play crucial roles in plant growth, development, and environmental adaptation. Although extensive research has been conducted on the Dof gene family in Arabidopsis, maize, and Solanum, investigations concerning the role of this gene family in Liriodendron remain unreported, leaving its biological function largely unknown. In this study, we performed a comprehensive genome-wide identification of the Dof gene family based on the Liriodendron genome, resulting in the discovery of a total of 17 LcDof gene members. Based on the results of phylogenetic analysis, the 17 LcDof proteins were classified into eight subfamilies. The motif analysis revealed the diverse nature of motifs within the D1 subfamily, which includes a distinct type of Dof transcription factor known as CDF (Cycling Dof Factor). We further characterized the chromosomal distribution, gene structure, conserved protein motifs, and cis-elements in the promoter regions. Additionally, utilizing transcriptome data from Liriodendron hybrids and conducting RT-qPCR experiments, we investigated the expression patterns of LhDofs under various abiotic stresses such as drought, cold, and heat stress. Notably, we found that several LhDofs, particularly LhDof4 and LhDof6, were significantly upregulated in response to abiotic stress. Furthermore, we cloned LhDof4 and LhDof6 genes and found that its encoding protein was mainly located in the nucleus by transient transformation in Liriodendron hybrids protoplast. Subsequently, we used LhDof6-overexpressing Liriodendron hybrid seedlings. We found that overexpression of LhDof6 enhanced the cold tolerance of the plants, increasing their survival rate at −20 °C. This result was further validated by changes in physiological indicators.

Published

2024

7. Genome-wide analysis of the GRAS gene family in Liriodendron chinense reveals the putative function in abiotic stress and plant development.

Author

Yuhao Weng, Xinying Chen, Zhaodong Hao, Lu Lu, Xinru Wu, Jiaji Zhang, Jingxiang Wu, Jisen Shi, and Jinhui Chen

Subjects

SOMATIC embryogenesis, LIRIODENDRON chinense, GENE families, PLANT development, ABIOTIC stress, RNA sequencing

Abstract

Introduction: GRAS genes encode plant-specific transcription factors that play essential roles in plant growth and development. However, the members and the function of the GRAS gene family have not been reported in Liriodendron chinense. L. chinense, a tree species in the Magnolia family that produces excellent timber for daily life and industry. In addition, it is a good relict species for plant evolution research. Methods: Therefore, we conducted a genome-wide study of the LcGRAS gene family and identified 49 LcGRAS genes in L. chinense. Results: We found that LcGRAS could be divided into 13 sub-groups, among which there is a unique branch named HAM-t. We carried out RNA sequencing analysis of the somatic embryos from L. chinense and found that LcGRAS genes are mainly expressed after heart-stage embryo development, suggesting that LcGRAS may have a function during somatic embryogenesis. We also investigated whether GRAS genes are responsive to stress by carrying out RNA sequencing (RNA-seq) analysis, and we found that the genes in the PAT subfamily were activated upon stress treatment, suggesting that these genes may help plants survive stressful environments. We found that PIF was downregulated and COR was upregulated after the transient overexpression of PATs, suggesting that PAT may be upstream regulators of cold stress. Discussion: Collectively, LcGRAS genes are conserved and play essential roles in plant development and adaptation to abiotic stress. [ABSTRACT FROM AUTHOR]

Published

2023

8. Identification and Functional Analysis of the Phosphatidylethanolamine-Binding Protein (PEBP) Gene Family in Liriodendron Hybrids.

Author

Hu, Miao, Liu, Lipan, Hu, Ping, Yu, Xiaoling, Zhou, Hua, Liu, Shujuan, Liu, Tengyun, Yu, Faxin, and Yang, Aihong

Subjects

GENE families, FUNCTIONAL analysis, PROTEIN analysis, FLOWERING time, LIRIODENDRON chinense, HETEROSIS, GERMINATION

Abstract

The plant phosphatidylethanolamine-binding protein (PEBP) gene family plays important roles in regulating flowering time and vegetative growth. Compared with its parents, Liriodendron hybrids (Liriodendron chinense (Hemsl.) Sarg. × L. tulipifera L.), have obvious heterosis in terms of higher seed germination, fast growth, bright flower colors, and long growth seasons. However, the genome-wide identification and functional analysis of PEBP genes that contribute to the heterosis of Liriodendron hybrids have not been studied. In this study, we characterized four members of expressed LhPEBP genes in Liriodendron hybrids and divided them into three subfamilies based on their phylogenetic relationships: FT-like (LhFT), TFL1-like (LhTFL1), and MFT-like (LhMFT1 and LhMFT2). A functional analysis of Arabidopsis showed that the overexpression of LhFT significantly promoted flowering, and the LhTFL1 gene induced a wide dispersion of the flowering timing. LhMFTs function differently, with LhMFT2 suppressing flowering, while LhMFT1 accelerates it and had a stronger promoting effect on the early stage of seed germination. Additionally, the seed germination of the LhMFT lines was relatively less influenced by ABA, while the transgenic LhFT and LhTFL1 lines were sensitive to both ABA and GA3. These results provide valuable insights into the functions of LhPEBP genes in flowering and seed germination. [ABSTRACT FROM AUTHOR]

Published

2023

9. Overexpression of the LcPIN2 and LtPIN2 Gene in Arabidopsis thaliana Promotes Root Elongation.

Author

Zijian Cao, Guoxia Xue, Lingfeng Hu, Haoxian Qu, Shuang Liang, Jisen Shi, Jinhui Chen, and Zhaodong Hao

Subjects

ARABIDOPSIS thaliana, GENE expression in plants, GEOTROPISM, LIRIODENDRON, ROOT development

Abstract

The auxin polar transporter, PIN-FORMED 2 (PIN2) plays an important role in root development. However, it remains unclear whether PIN2 genes form two Liriodendron species, L. chinense (LcPIN2) and L. tulipifera (LtPIN2), are both involved in root development and whether and to what extent these two genes diverge in function. Here, we cloned and overexpressed LcPIN2 and LtPIN2 in Arabidopsis thaliana wild-type (WT) and Atpin2 mutant. Phylogenetic and sequence analysis showed a small degree of differentiation between these two Liriodendron PIN2 genes. Tissue-specific gene expression analysis indicated that both Liriodendron PIN2 genes were highly expressed in roots, implying a potential role in root development. Finally, heterologous overexpression of LcPIN2 and LtPIN2 in Arabidopsis both significantly increased the root length compared to wild-type and empty vector. Furthermore, the root length defect in Atpin2 was complemented both by LcPIN2 and LtPIN2. However, heterologous overexpression of LcPIN2 and LtPIN2 cannot rescue the defect in root gravitropism of Atpin2 mutants. Taken together, our findings unravel PIN2 genes from the magnoliids plant Liriodendron were functionally conserved with AtPIN2 in the dicotyledonous plant Arabidopsis in regard to the regulation of root length, but not root gravitropism. This study also provides a potential target for genetic improvement of the root system in these valuable forest trees Liriodendron. [ABSTRACT FROM AUTHOR]

Published

2023

10. Expression dynamics of WOX homeodomain transcription factors during somatic embryogenesis in Liriodendron hybrids

Author

Xiaofei Long, Jiaji Zhang, Dandan Wang, Yuhao Weng, Siqin Liu, Meiping Li, Zhaodong Hao, Tielong Cheng, Jisen Shi, and Jinhui Chen

Subjects

wox family, liriodendron, somatic embryogenesis, Forestry, SD1-669.5

Abstract

The relict woody plant genus Liriodendron contains two endangered species, Liriodendron chinense and Liriodendron tulipifera. Understanding the molecular mechanisms involved in early embryo development is important for horticultural and ecological research, particularly for the development of improved somatic embryogenesis systems. However, the specific molecular processes underlying embryogenesis in these species remain largely unexplored. To address this, we investigated expression of the WOX (WUSCHEL-related homeobox) gene family of transcription factors throughout somatic embryogenesis. We confirmed expression of eight out of 11 novel candidate LcWOX genes in L.chinense using qRT-PCR and examined spatiotemporal expression patterns of the expressed genes using stable reporter lines that had been transformed with different LcWOX promoters driving GUS expression. We observed embryo developmental stages and expression patterns that broadly correlated with those reported for Arabidopsis somatic embryogenesis. LcWUS was weakly expressed during the transition stage and was predominantly restricted to the apical meristem. LcWOX5 was specifically expressed in the root meristem and restricted to the cotyledons thereafter, and LcWOX4 expression was restricted to the vascular tissue of cotyledonary embryos. In contrast, LcWOX9 was expressed in the embryonic callus and the entire embryonic cell mass, then became restricted to the basal cells, indicating a potential role in regulating embryonic maintenance. Our findings provide insights into spatiotemporally specific WOX transcription and shed new light on potential functions of WOX genes during Liriodendron somatic embryogenesis.

Published

2023

11. LtMYB305 transcription factor regulates the expression of LtLCYB gene to mediate carotenoids synthesis in Liriodendron petals.

Author

Yang, Lichun, Liu, Huanhuan, Xu, Jiye, Tu, Zhonghua, Hao, Ziyuan, Zong, Yaxian, and Li, Huogen

Subjects

*TRANSCRIPTION factors, *CAROTENOIDS, *GENE expression, *BIOSYNTHESIS, *CELL morphology, *PARAFFIN wax, *ANIMAL coloration

Abstract

Carotenoids are a group of naturally occurring tetraterpenoid with great industrial and pharmacological value. The carotenoids biosynthesis was extensively elucidated in model plants, such as tomato and monkey flower. However, little is known about the regulation mechanism of carotenoids biosynthesis. Here, we used L. chinense and L. tulipifera petals as materials to study the differences in carotenoid accumulation. We seek to unveil the mystery via morphologic, metabolomic, transcriptomic, bioinformatics and transgenic approaches. The paraffin section of petals showed that cell morphology was almost the same in Liriodendron genus , while the quantification of carotenoids content displayed a different pattern in petals between two Liriodendron species, with high concentrations of carotenoids accumulated on the orange band (OB) in L. tulipifera petals. Correspondingly, KEGG analysis showed that carotenoids biosynthesis pathway was significantly enriched in L. tulipifera. HPLC and transcriptome analyses indicated that LtLCYB might be a key gene functioning in OB coloration, thus further characterization was conducted. RT-qPCR and subcellular localization showed that LtLCYB was highly expressed in OB, and the LtLCYB was a chloroplast-located protein. Overexpression of LtLCYB in tobacco promoted the carotenoid synthesis. Furthermore, we identified R2R3-MYB TFs and found a potential member that maybe related to OB coloration. Y1H assay proved that LtMYB305 bind to LCYB promoter. Overexpression of LtMYB305 in tobacco increased the carotenoid content. Collectively, our findings proposed that the OB coloration in Liriodendron stems from the interspecies variation in the differential expression of CBP genes, and LtMYB305 takes a pivotal role in OB coloration. This study establishes a robust foundation for investigating the regulation mechanism of carotenoid synthesis, and offers valuable insights for the genetic improvement of petal colors in Liriodendron. • The flavonoids and chlorophyll biosynthesis were suppressed in the orange band of L. tulipifera. • Carotenoids biosynthesis pathway was specifically activated in the orange band of L. tulipifera petals. • LtLCYB were highly expressed in the middle part of L. tulipifera petals. • LtMYB305 regulated LtLCYB expression and increased the synthesis of carotenoids. [ABSTRACT FROM AUTHOR]

Published

2024

12. Identification and Functional Analysis of the Phosphatidylethanolamine-Binding Protein (PEBP) Gene Family in Liriodendron Hybrids

Author

Miao Hu, Lipan Liu, Ping Hu, Xiaoling Yu, Hua Zhou, Shujuan Liu, Tengyun Liu, Faxin Yu, and Aihong Yang

Subjects

Liriodendron, PEBP, FLOWERING LOCUS T, MFT, gene family, Plant ecology, QK900-989

Abstract

The plant phosphatidylethanolamine-binding protein (PEBP) gene family plays important roles in regulating flowering time and vegetative growth. Compared with its parents, Liriodendron hybrids (Liriodendron chinense (Hemsl.) Sarg. × L. tulipifera L.), have obvious heterosis in terms of higher seed germination, fast growth, bright flower colors, and long growth seasons. However, the genome-wide identification and functional analysis of PEBP genes that contribute to the heterosis of Liriodendron hybrids have not been studied. In this study, we characterized four members of expressed LhPEBP genes in Liriodendron hybrids and divided them into three subfamilies based on their phylogenetic relationships: FT-like (LhFT), TFL1-like (LhTFL1), and MFT-like (LhMFT1 and LhMFT2). A functional analysis of Arabidopsis showed that the overexpression of LhFT significantly promoted flowering, and the LhTFL1 gene induced a wide dispersion of the flowering timing. LhMFTs function differently, with LhMFT2 suppressing flowering, while LhMFT1 accelerates it and had a stronger promoting effect on the early stage of seed germination. Additionally, the seed germination of the LhMFT lines was relatively less influenced by ABA, while the transgenic LhFT and LhTFL1 lines were sensitive to both ABA and GA3. These results provide valuable insights into the functions of LhPEBP genes in flowering and seed germination.

Published

2023

13. Overexpression of the Liriodendron tulipifera TPS32 gene in tobacco enhances terpenoid compounds synthesis.

Author

Wu J, Bu M, Zong Y, Tu Z, Cheng Y, and Li H

Abstract

Liriodendron , a relic genus from the Magnoliaceae family, comprises two species, L. tulipifera and L. chinense . L. tulipifera is distinguished by its extensive natural distribution in Eastern North America. Conversely, L. chinense is nearing endangerment due to its low regeneration rate. A pivotal aspect in the difference of these species involves terpenoids, which play crucial roles in plant growth and attracting pollinators. However, the complex molecular mechanisms underlying terpenoid roles in Liriodendron are not well understood. Terpene Synthases (TPS) genes are widely reported to play a role in terpenoid biosynthesis, hence, this study centers on TPS genes in Liriodendron spp. Employing multiple bioinformatics methods, a differential expression gene in L. tulipifera , LtuTPS32 , was discerned for further functional analysis. Subcellular localization results reveal the involvement of LtuTPS32 in chloroplast-associated processes, hence participate in terpenoid biosynthesis within chloroplasts. Heterologous transformation of the LtuTPS32 gene into tobacco significantly elevates the levels of common terpenoid compounds, including chlorophyll, gibberellin, and carotenoids. Collectively, these findings not only underscore the role of the LtuTPS32 gene in the biosynthesis of terpenoids but also lay a foundation for future research on interspecific differences in Liriodendron ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Wu, Bu, Zong, Tu, Cheng and Li.)

Published

2024

14. Dynamics of stem water uptake among isohydric and anisohydric species experiencing a severe drought.

Author

Yi, Koong, Dragoni, Danilo, Phillips, Richard P, Roman, D Tyler, and Novick, Kimberly A

Subjects

Pediatric, Life on Land, Acer, Droughts, Liriodendron, Plant Stems, Quercus, Species Specificity, Trees, Water, anisohydric, drought, hydraulic capacitance, isohydric, sap flux, stomatal conductance, water regulation, Ecology, Plant Biology, Forestry Sciences, Plant Biology & Botany

Abstract

Predicting the impact of drought on forest ecosystem processes requires an understanding of trees' species-specific responses to drought, especially in the Eastern USA, where species composition is highly dynamic due to historical changes in land use and fire regime. Here, we adapted a framework that classifies trees' water-use strategy along the spectrum of isohydric to anisohydric behavior to determine the responses of three canopy-dominant species to drought. We used a collection of leaf-level gas exchange, tree-level sap flux and stand-level eddy covariance data collected in south-central Indiana from 2011 to 2013, which included an unusually severe drought in the summer of 2012. Our goal was to assess how patterns in the radial profile of sap flux and reliance on hydraulic capacitance differed among species of contrasting water-use strategies. In isohydric species, which included sugar maple (Acer saccharum Marsh.) and tulip poplar (Liriodendron tulipifera L.), we found that the sap flux in the outer xylem experienced dramatic declines during drought, but sap flux at inner xylem was buffered from reductions in water availability. In contrast, for anisohydric oak species (Quercus alba L. and Quercus rubra L.), we observed relatively smaller variations in sap flux during drought in both inner and outer xylem, and higher nighttime refilling when compared with isohydric species. This reliance on nocturnal refilling, which occurred coincident with a decoupling between leaf- and tree-level water-use dynamics, suggests that anisohydric species may benefit from a reliance on hydraulic capacitance to mitigate the risk of hydraulic failure associated with maintaining high transpiration rates during drought. In the case of both isohydric and anisohydric species, our work demonstrates that failure to account for shifts in the radial profile of sap flux during drought could introduce substantial bias in estimates of tree water use during both drought and non-drought periods.

Published

2017

15. Alterations in Population Distribution of Liriodendron chinense (Hemsl.) Sarg. and Liriodendron tulipifera Linn. Caused by Climate Change.

Author

Cao, Yiwei, Feng, Jiajie, Hwarari, Delight, Ahmad, Baseer, Wu, Haozhengji, Chen, Jinhui, and Yang, Liming

Subjects

LIRIODENDRON chinense, CLIMATE change, FOREST biodiversity, GLOBAL warming, LOW temperatures, DATA recorders & recording

Abstract

Climate change has a significant impact on species population size and distribution, global biodiversity, and ecological status. The Liriodendron genus contains two species: Liriodendron chinense and Liriodendron tulipifera, both playing important roles in timber, medicinal, and landscape purposes. However, little is known about their population distribution characteristics and important climatic factors shaping their suitability. In this research, we used the geological record data, 19 climate components, MaxEnt, and ArcGIS to recreate and analyze the potential population distribution and their alterations of Liriodendron within the world beneath the current and future scenarios of RCP 2.6, RCP 4.5, and RCP 8.5 in 2050 and 2070. Our results showed that: Liriodendron is suitable to grow in subtropical monsoon climate areas, and that the climatic factor of precipitation of warmest quarter exerts the greatest impact on L. chinense, with a contribution rate of 57.6%. Additionally, we showed that the climatic factor of precipitation of the driest month exerts the greatest impact on L. tulipifera, with a contribution rate of 60.5%. Further analysis exhibited that low temperature and temperature fluctuations are major temperature factors affecting L. chinense and L. tulipifera, respectively. Therefore, we predicted that by the 2050s and 2070s, the areas of Liriodendron suitable habitats would increase first and then decrease in three scenarios; except the area of L. tulipifera suitable habitats under RCP8.5, which shows a slight increase. We then conclude that the Liriodendron suitable areas would shift to high latitudes due to global climate warming. The information gained from this study will provide a reference for developing forest cultivation, management, and conservation strategies for these two important tree species, and also a basis for subsequent biogeographic research. [ABSTRACT FROM AUTHOR]

Published

2022

16. Genetic divergence and local adaptation of Liriodendron driven by heterogeneous environments.

Author

Shen, Yufang, Xia, Hui, Tu, Zhonghua, Zong, Yaxian, Yang, Lichun, and Li, Huogen

Subjects

*PLIOCENE-Pleistocene boundary, *GENETIC variation, *PHYSIOLOGICAL adaptation, *SINGLE nucleotide polymorphisms, *FOREST biodiversity, *WILDLIFE conservation, *SPECIES diversity

Abstract

Ecological adaptive differentiation alters both the species diversity and intraspecific genetic diversity in forests, thus affecting the stability of forest ecosystems. Therefore, knowledge of the genetic underpinnings of the ecological adaptive differentiation of forest species is critical for effective species conservation. In this study, single‐nucleotide polymorphisms (SNPs) from population transcriptomes were used to investigate the spatial distribution of genetic variation in Liriodendron to assess whether environmental variables can explain genetic divergence. We examined the contributions of environmental variables to population divergence and explored the genetic underpinnings of local adaptation using a landscape genomic approach. Niche models and statistical analyses showed significant niche divergence between L. chinense and L. tulipifera, suggesting that ecological adaptation may play a crucial role in driving interspecific divergence. We detected a new fine‐scale genetic structure in L. chinense, and divergence of the six groups occurred during the late Pliocene to early Pleistocene. Redundancy analysis (RDA) revealed significant associations between genetic variation and multiple environmental variables. Environmental association analyses identified 67 environmental association loci (EALs; nonsynonymous SNPs) that underwent interspecific or intraspecific differentiation, 28 of which were associated with adaptive genes. These 28 candidate adaptive loci provide substantial evidence for local adaptation in Liriodendron. Our findings reveal ecological adaptive divergence pattern between Liriodendron species and provide novel insight into the role of heterogeneous environments in shaping genetic structure and driving local adaptation among populations, informing future L. chinense conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2022

17. Transcriptomic and microstructural analyses in Liriodendron tulipifera Linn. reveal candidate genes involved in nectary development and nectar secretion

Author

Huanhuan Liu, Jikai Ma, and Huogen Li

Subjects

Nectary, Transcriptome, Morphology, Liriodendron, Secretion, Botany, QK1-989

Abstract

Abstract Background Nectar is a major floral attractant and reward for insects that ensures pollination. Liriodendron, a genus of the Magnoliaceae family, includes only two relict species, L. chinense and L. tulipifera, which are considered “basal angiosperms” according to plant evolutionary history. The flowers of Liriodendron plants are insect pollinated and secrete nectar to attract pollinators. To date, the morphology and anatomy of nectaries, the mechanism of nectar secretion and the molecular mechanism of nectary development in Liriodendron remain poorly understood. Methods In this study, we examined the nectary surface cells and change in starch in L. tulipifera by using scanning electron microscopy and periodic acid-Schiff techniques to select appropriate samples for subsequent research. Transcriptome sequencing was of the top and middle parts of immature nectaries and the middle part of mature and postsecretory nectaries in L. tulipifera was performed. We evaluated the expression profiles of 21 DEGs that are closely related to nectary development and nectar secretion for real-time quantitative PCR analysis. Results L. tulipifera nectaries are starch-storing nectaries and are located in the top and middle parts of L. tulipifera petals. After analyzing the RNA-seq data, we obtained 115.26 Gb of clean data in 12 libraries and mapped the results to the L. chinense reference genome with 71.02–79.77% efficiency. In total, 26,955 DEGs were identified by performing six pairwise comparisons. The flavonoid biosynthesis, phenylpropanoid biosynthesis, anthocyanin biosynthesis and starch and sucrose metabolism pathways were enriched and related to nectar secretion and pigment change. We identified 56 transcription factor families, and members of the TCP, Trihelix, C2H2, ERF, and MADS families changed dynamically during nectary development. Moreover, to further verify the accuracy of the RNA-seq results, we validated the expression profiles of 21 candidate genes. Conclusions We evaluated the nectary development and secretion processes comprehensively and identified many related candidate genes in L. tulipifera. These findings suggest that nectaries play important roles in flavonoid synthesis and petal color presentation.

Published

2019

18. Combined non-targeted metabolomic and transcriptomic analysis explains the biosynthetic pathway and differential accumulation of chlorogenic acid in the Liriodendron petal.

Author

Hu, Lingfeng, Yu, Long, Weng, Yuhao, Qu, Haoxian, Yang, Dingjie, Lu, Ye, Wang, Pengkai, Shi, Jisen, Hao, Zhaodong, and Chen, Jinhui

Subjects

*CHLOROGENIC acid, *METABOLOMICS, *METABOLITES, *TRANSCRIPTOMES, *PHENYLPROPANOIDS, *BIOACTIVE compounds

Abstract

• Comprehensive metabolites profiles among the petals of Liriodendron. • Different accumulation of chlorogenic acid was found in the petal of the Liriodendron. • The chlorogenic acid synthesis pathway was identified in Liriodendron petals. • CYP98A gene family showed significant expansion in Liriodendron. Petal secondary metabolites can affect pollinator selection and invasion of pathogenic microorganisms to change the adaptability to the environment. Meanwhile, the active components in petal are widely used in many aspects of human society. At present, research into bioactive compounds in Liriodendron have mainly focused on bark, leaf and root tissues, with few studies systematically studying the differences in secondary metabolite content of petals coming from different Liriodendron accessions. By combining untargeted LC–MS metabolome analysis with analysis of the Liriodendron petal transcriptome, the biosynthetic pathway of activity in Liriodendron petals was studied, and the 6097 different accumulated metabolites were identified in different Liriodendron. These differentially accumulated metabolites (DAMs) are synthesized through multiple secondary metabolic pathways, with a strong enrichment for flavonoid and phenylpropanoid biosynthetic compounds, suggesting that these active substances may be potentially valid medicinal components. In this study, the accumulation of chlorogenic acid (CGA) was increased in the petals of L. chinense. In addition, the chlorogenic acid synthesis pathway, which is mainly involved in the regulation of multiple CYP98A enzymes. These results reveal differential accumulation of secondary metabolites and potential medicinal ingredients in Liriodendron petals and thus provide a basis for further effective utilization of petals. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

19. Interspecies evolutionary divergence in Liriodendron, evidence from the nucleotide variations of LcDHN-like gene

Author

Yanli Cheng and Huogen Li

Subjects

Liriodendron, Divergence, Dehydrin, Nucleotide variation, Adaptation, Evolution, QH359-425

Abstract

Abstract Background Liriodendron is a genus of Magnoliaceae, which consists of two relict species, Liriodendron chinense and L. tulipifera. Although the morphologies are highly similar, the two species exhibit different adaptive capacity. Dehydrins (DHNs) are abiotic stresses resistant proteins in planta, which are associated with adaptive evolution. To better understand the evolution divergence between L. chinense and L. tulipifera and how DHN genes are associated with adaptation evolution, we firstly investigated the DNA polymorphisms of the LcDHN-like gene in 21 L. chinense and 6 L. tulipifera populations. Results A 707 bp LcDHN-like gene was cloned, which included a 477 bp open reading frame (ORF) and coding 158 amino acids. 311 LcDHN-like gDNA sequences were obtained from 70 L. chinense and 35 L. tulipifera individuals. The AMOVA and phylogenetic relationship analysis showed significant differences between the two species. A higher genetic diversity was observed in L. tulipifera compared to L. chinense, in consistent with the higher adaptive capacity of L. tulipifera. Our data also suggested that the LcDHN-like genes’ polymorphisms were under neutral mutation and purifying selection model in the L. chinense and L. tulipifera populations, respectively. The distinct expanding range and rate between the two species, haplotypes shared only in L.chinense’s nearby populations, and wide dispersals in L. tulipifera could contribute to the obscure east-west separation in L. chinense and entirely unordered phylogeny in L. tulipifera. The completely separated nonsynonymous substitution at position 875 and the higher range scope of aliphatic index in L. tulipifera populations may be related with its higher adaptive capacity. Taken together, our study suggests LcDHN-like gene is a potential mark gene responsible for adaptive evolution divergence in Liriodendron. Conclusions Significant differences and completely distinct haplogroups between L. chinense and L. tulipifera showed that the two species have evolved into different directions. The more widely distribution, earlier haplogroups divergence events, and richer SNPs variations in L. tulipifera could imply its stronger adaptation in this species. And potential effect of the allelic variations in LcDHN-like gene may reflect the difference of water stress and chill tolerance between L. chinense and L. tulipifera, which could provide some information for further adaption evolution studies of Liriodendron.

Published

2018

20. Alterations in Population Distribution of Liriodendron chinense (Hemsl.) Sarg. and Liriodendron tulipifera Linn. Caused by Climate Change

Author

Yiwei Cao, Jiajie Feng, Delight Hwarari, Baseer Ahmad, Haozhengji Wu, Jinhui Chen, and Liming Yang

Subjects

climatic factor, Liriodendron, population size, potential geographic distribution, suitable habitat, Plant ecology, QK900-989

Abstract

Climate change has a significant impact on species population size and distribution, global biodiversity, and ecological status. The Liriodendron genus contains two species: Liriodendron chinense and Liriodendron tulipifera, both playing important roles in timber, medicinal, and landscape purposes. However, little is known about their population distribution characteristics and important climatic factors shaping their suitability. In this research, we used the geological record data, 19 climate components, MaxEnt, and ArcGIS to recreate and analyze the potential population distribution and their alterations of Liriodendron within the world beneath the current and future scenarios of RCP 2.6, RCP 4.5, and RCP 8.5 in 2050 and 2070. Our results showed that: Liriodendron is suitable to grow in subtropical monsoon climate areas, and that the climatic factor of precipitation of warmest quarter exerts the greatest impact on L. chinense, with a contribution rate of 57.6%. Additionally, we showed that the climatic factor of precipitation of the driest month exerts the greatest impact on L. tulipifera, with a contribution rate of 60.5%. Further analysis exhibited that low temperature and temperature fluctuations are major temperature factors affecting L. chinense and L. tulipifera, respectively. Therefore, we predicted that by the 2050s and 2070s, the areas of Liriodendron suitable habitats would increase first and then decrease in three scenarios; except the area of L. tulipifera suitable habitats under RCP8.5, which shows a slight increase. We then conclude that the Liriodendron suitable areas would shift to high latitudes due to global climate warming. The information gained from this study will provide a reference for developing forest cultivation, management, and conservation strategies for these two important tree species, and also a basis for subsequent biogeographic research.

Published

2022

21. Genome Sequence and Comparative Analysis of Colletotrichum gloeosporioides Isolated from Liriodendron Leaves.

Author

Fang-Fang Fu, Zhaodong Hao, Pengkai Wang, Ye Lu, Liang-Jiao Xue, Guoyu Wei, Yanli Tian, Baishi Hu, Haibin Xu, Jisen Shi, Tielong Cheng, Guibin Wang, Yin Yi, and Jinhui Chen

Subjects

*COLLETOTRICHUM gloeosporioides, *COMPARATIVE genomics, *NUCLEOTIDE sequencing, *SEQUENCE analysis, *COMPARATIVE studies, *NON-coding RNA

Abstract

Colletotrichum gloeosporioides is a hemibiotrophic pathogen causing significant losses to economically important crops and forest trees, including Liriodendron. To explore the interaction between C. gloeosporioides and Liriodendron and to identify the candidate genes determining the pathogenesis, we sequenced and assembled the whole genome of C. gloeosporioides Lc1 (CgLc1) using PacBio and Illumina next generation sequencing and performed a comparative genomic analysis between CgLc1 and Cg01, the latter being a described endophytic species of the C. gloeosporioides complex. Gene structure prediction identified 15,744 protein-coding genes and 837 noncoding RNAs. Species-specific genes were characterized using an ortholog analysis followed by a pathway enrichment analysis, which showed that genes specific to CgLc1 were enriched for the arginine biosynthetic process. Furthermore, genome synteny analysis revealed that most of the protein-coding genes fell into collinear blocks. However, two clusters of polyketide synthase genes were identified to be specific for CgLc1, suggesting that they might have an important role in virulence control. Transcriptional regulators coexpressed with polyketide synthase genes were detected through a Weighted Correlation Network Analysis. Taken together, this work provides new insight into the virulence- and pathogenesis-associated genes present in C. gloeosporioides and its possible lifestyle. [ABSTRACT FROM AUTHOR]

Published

2020

22. Genome-Wide Identification and Expression Analysis of R2R3-MYB Family Genes Associated with Petal Pigment Synthesis in Liriodendron

Author

Lichun Yang, Huanhuan Liu, Ziyuan Hao, Yaxian Zong, Hui Xia, Yufang Shen, and Huogen Li

Subjects

Liriodendron, R2R3-MYB genes, pigment biosynthesis, petal coloration, RT-qPCR, HPLC, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The MYB transcription factor family is one of the largest families in plants, and its members have various biological functions. R2R3-MYB genes are involved in the synthesis of pigments that yield petal colors. Liriodendron plants are widely cultivated as ornamental trees owing to their peculiar leaves, tulip-like flowers, and colorful petals. However, the mechanism underlying petal coloring in this species is unknown, and minimal information about MYB genes in Liriodendron is available. Herein, this study aimed to discern gene(s) involved in petal coloration in Liriodendron via genome-wide identification, HPLC, and RT-qPCR assays. In total, 204 LcMYB superfamily genes were identified in the Liriodendron chinense genome, and 85 R2R3-MYB genes were mapped onto 19 chromosomes. Chromosome 4 contained the most (10) R2R3-MYB genes, and chromosomes 14 and 16 contained the fewest (only one). MEME analysis showed that R2R3-MYB proteins in L. chinense were highly conserved and that their exon-intron structures varied. The HPLC results showed that three major carotenoids were uniformly distributed in the petals of L. chinense, while lycopene and β-carotene were concentrated in the orange band region in the petals of Liriodendron tulipifera. Furthermore, the expression profiles via RT-qPCR assays revealed that four R2R3-MYB genes were expressed at the highest levels at the S3P/S4P stage in L. tulipifera. This result combined with the HPLC results showed that these four R2R3-MYB genes might participate in carotenoid synthesis in the petals of L. tulipifera. This work laid a cornerstone for further functional characterization of R2R3-MYB genes in Liriodendron plants.

Published

2021

23. Nitrate reduces copper toxicity by preventing oxidative stress and inhibiting copper translocation from roots to shoots in Liriodendron Chinense.

Author

Sui X, Sun X, Liu S, Li L, Xin Z, and Li X

Subjects

Antioxidants metabolism, Nitrates pharmacology, Hydrogen Peroxide pharmacology, Oxidative Stress, Glutathione metabolism, Nitrogen pharmacology, Plant Roots metabolism, Copper toxicity, Liriodendron

Abstract

Nitrogen forms can affect metal accumulation in plants and tolerance to metals, but a few published studies on the effects on Cu toxicity and Cu accumulation in plants are scarce. Thus, the objective of this study was to evaluate the responses of Liriodendron chinense to different nitrogen forms, by the oxidative stress, antioxidant enzymes system, GSH-AsA cycle, Cu uptake, translocation, and accumulation under Cu stress. We found that Cu-induced growth inhibiting was alleviated by added exclusive NO 3 - -N. Adding N as NH 4 + -N with or without NO 3 - -N was aggravated as evidenced by significantly elevated malonaldehyde (MDA) and hydrogen peroxide (H 2 O 2 ) compared to N-Null. Cu exposure and adding NH 4 + -N inhibited superoxide dismutase activity, but remarkably stimulated the activities of catalase and peroxidase, the efficiency of glutathione-ascorbate (GSH-AsA) cycle, and the activity of glutathione reductase and nitrate reductase, with respect to the control. However, adding exclusive NO 3 - -N progressively restored the alteration of antioxidant to prevent Cu-induced oxidative stress. Additionally, adding exclusive NO 3 - -N significantly promoted the Cu uptake and accumulation in roots, but reduced Cu concentration in leaves, accompanied by the inhibited Cu translocation factor from roots to shoots by 36.7%, when compared with N-Null. Overall, adding NO 3 - -N alleviated its Cu toxicity by preventing Cu-induced oxidative stress and inhibiting Cu translocation from roots to shoots, which provides an effective strategy for phytostabilization in Cu-contaminated lands., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

24. SINTERING CHARACTERISTICS OF CERAMSITE OBTAINED FROM LAKE SEDIMENTS, CLAY, AND LIRIODENDRON.

Author

Zhulai Wang, Zuhui Fan, Zizeng Lin, and Yali Liu

Abstract

In order to evaluate the feasibility that the three raw materials of lake sediment, clay, liriodendron were mixed for producing ceramsite and examine their sintering characteristics, the specific surface area, pore size distribution, bulk and apparent density were chosen as the study object. The results showed that at the lower preheating and sintering temperatures and duration, many small pores were formed in the inner of the ceramsites, while at the higher preheating and sintering temperatures and duration, small pores started melting to form larger pores resulting in the decline of the specific surface area and the increase of the bulk and apparent density. As the lake sediments decreased, the specific surface area of the ceramsites also declined and the bulk and apparent density increased, while as the amount of the liriodendron rose, the specific surface area would also increase and the bulk and apparent density decrease. In addition, the influence for the increase of the organic matters was greater than the influence for the decline of the preheating and sintering temperatures and duration. [ABSTRACT FROM AUTHOR]

Published

2019

25. Reduced Gene Flow from Mainland Populations of Liriodendron tulipifera into the Florida Peninsula Promotes Diversification.

Author

Fetter, Karl C. and Weakley, Alan

Subjects

*LIRIODENDRON tulipifera, *GENE flow in plants, *PLANT adaptation, *PLANT populations, *PHYLOGEOGRAPHY

Abstract

Premise of research. Glacial cycles during the last circa 5 Myr altered the distribution of genetic variance observed today. During periods of unfavorable climate, populations survive glacial maxima in refugial microclimates where growth and reproduction are possible. Peninsulas provide refuge but may alter demographic processes in comparison with mainland populations. The Florida peninsula is an important refugium for plant populations, and its unique geologic history created environments that differ from those of nearby mainland sites. Peninsular demographic effects and adaptation may contribute to genetic diversity. We investigate the genetic divergence of tulip trees (Liriodendron tulipifera L.) across much of their range and interpret our results in the context of eastern North American phylogeography, detectable signals of population expansion during recolonization, and peninsular demographic effects. We also test the hypothesis that peninsular populations represent a new species or subspecies within L. tulipifera. Methodology. Population structure was evaluated in a sample of 141 individuals from 56 populations at one nuclear DNA region (LFY) and three cpDNA intergenic regions (psbA-trnH , trnL intron-trnF , trnK 5′- matK). We use population genetic methods to identify clusters, test their significance, and estimate coalescent parameters. Phylogenetic trees and population trees were built to observe relationships between groups. Pivotal results. Genetic clusters determined with population genetic and phylogenetic methods are regionally coherent. We observe a secondary contact zone in the Gulf Coast near the Apalachicola River basin. Florida peninsula populations both are genetically diverse and experience low migration from mainland populations. Conclusions. We detect patterns of phylogeographic clustering using population genetic and phylogenetic methods. Analysis of genetic diversity and gene flow indicates range expansion has influenced their patterns. A demographic peninsular effect appears to have altered patterns of genetic diversity, linkage disequilibrium, and gene flow between peninsular and mainland populations. We interpret these results to indicate that a subspecies of L. tulipifera from the Florida peninsula exists. [ABSTRACT FROM AUTHOR]

Published

2019

26. Witness Tree Records for the Early Colonial Period (1623-1700) of Eastern Virginia.

Author

Abrams, Marc D. and Johnson, Sarah E.

Subjects

*COLONIAL United States, ca. 1600-1775, *SURVEYING (Engineering), *TIDE-waters, *LIRIODENDRON, *RIPARIAN areas

Abstract

The composition and dominance of 1256 witness (land survey) trees were compiled for the early Colonial era (pre-1700) in two locations in eastern Virginia, a region where studies of such information are lacking. The study locations are the Marine Corps Base Quantico and the Cheatham Annex Naval Supply Center, both along major rivers of Tidewater Virginia. At Quantico, a total of 754 witness trees comprising 22 species were recorded. Oak (Quercus) species made up 67% of these trees, followed by hickory (Carya; 15%), poplar (Liriodendron), gum (Nyssa), and pine (Pinus) each representing 4% of the forest composition. At Cheatham Annex a total of 502 witness trees from 24 species were recorded. Oaks made up 57% of the total composition followed by hickory (13%), pine (10%), poplar (5%), and gum (5%). There was a dearth of late successional, fire sensitive species at both locations, despite the presence of many mesic locations that should support such species. This suggests Native American activity (e.g., burning and land clearing) was an important factor affecting forests in eastern Virginia. This research provides a better understanding of the original forests of eastern Virginia and can serve as a baseline for making comparisons with present day forests to assess forest change since the Colonial era. [ABSTRACT FROM AUTHOR]

Published

2019

27. Interspecies evolutionary divergence in Liriodendron, evidence from the nucleotide variations of LcDHN-like gene.

Author

Cheng, Yanli and Li, Huogen

Subjects

*NUCLEOTIDES, *LIRIODENDRON, *DEHYDRINS, *ABIOTIC stress, *GENETIC polymorphisms

Abstract

Background: Liriodendron is a genus of Magnoliaceae, which consists of two relict species, Liriodendron chinense and L. tulipifera. Although the morphologies are highly similar, the two species exhibit different adaptive capacity. Dehydrins (DHNs) are abiotic stresses resistant proteins in planta, which are associated with adaptive evolution. To better understand the evolution divergence between L. chinense and L. tulipifera and how DHN genes are associated with adaptation evolution, we firstly investigated the DNA polymorphisms of the LcDHN-like gene in 21 L. chinense and 6 L. tulipifera populations. Results: A 707 bp LcDHN-like gene was cloned, which included a 477 bp open reading frame (ORF) and coding 158 amino acids. 311 LcDHN-like gDNA sequences were obtained from 70 L. chinense and 35 L. tulipifera individuals. The AMOVA and phylogenetic relationship analysis showed significant differences between the two species. A higher genetic diversity was observed in L. tulipifera compared to L. chinense, in consistent with the higher adaptive capacity of L. tulipifera. Our data also suggested that the LcDHN-like genes' polymorphisms were under neutral mutation and purifying selection model in the L. chinense and L. tulipifera populations, respectively. The distinct expanding range and rate between the two species, haplotypes shared only in L.chinense's nearby populations, and wide dispersals in L. tulipifera could contribute to the obscure east-west separation in L. chinense and entirely unordered phylogeny in L. tulipifera. The completely separated nonsynonymous substitution at position 875 and the higher range scope of aliphatic index in L. tulipifera populations may be related with its higher adaptive capacity. Taken together, our study suggests LcDHN-like gene is a potential mark gene responsible for adaptive evolution divergence in Liriodendron. Conclusions: Significant differences and completely distinct haplogroups between L. chinense and L. tulipifera showed that the two species have evolved into different directions. The more widely distribution, earlier haplogroups divergence events, and richer SNPs variations in L. tulipifera could imply its stronger adaptation in this species. And potential effect of the allelic variations in LcDHN-like gene may reflect the difference of water stress and chill tolerance between L. chinense and L. tulipifera, which could provide some information for further adaption evolution studies of Liriodendron. [ABSTRACT FROM AUTHOR]

Published

2018

28. The complete chloroplast genome of tulip tree, Liriodendron tulifipera L. (Magnoliaceae): investigation of intra-species chloroplast variations

Author

Jongsun Park, Yongsung Kim, Woochan Kwon, Hong Xi, and Mi Kwon

Subjects

liriodendron tulifipera, intra-species variations, chloroplast genome, liriodendron, magnoliaceae, Genetics, QH426-470

Abstract

Liriodendron tulifipera L. belongs to Magnoliaceae which is one of the basal angiosperm families. To understand intra-species variations on chloroplast genome in Liriodendron genus, we presented complete chloroplast genome of L. tulifipera, which is 156,387 bp long and has four subregions: 85,606 bp of large single copy (LSC) and 18,778 bp of small single copy (SSC) regions are separated by 26,002 bp of inverted repeat (IR) regions including 129 genes (84 coding genes, 8 rRNAs, and 37 tRNAs). The overall GC content of the chloroplast genome is 37.0% and those in the LSC, SSC, and IR regions are 34.9%, 30.5%, and 42.8%, respectively. Twelve single nucleotide polymorphisms (SNPs) located in one region and one insertion and deletion are found between two L. tulifipera genomes. INDEL Phylogenetic trees show that two L. tulifipera chloroplasts are clustered together and are sister to Magnolia species.

Published

2019

29. The complete mitochondrial genome of tulip tree, Liriodendron tulipifera L. (Magnoliaceae): intra-species variations on mitochondrial genome

Author

Jongsun Park, Yongsung Kim, and Mi Kwon

Subjects

liriodendron tulipifera, mitochondrial genome, intra-species variations, liriodendron, magnoliaceae, Genetics, QH426-470

Abstract

Liriodendron tulipifera L. is easily recognized by its heart-shaped of leaves and can grow up to 60 meters in North America. In this study, we presented second complete mitochondrial genome of L. tulipifera to understand intra-species variations. Its length is 156,387 bp and contains 66 genes (42 protein-coding genes, three rRNAs, and 21 tRNAs). The overall GC content of the mitochondrial genome is 43.5%, 365 single nucleotide polymorphisms (SNPs; 0.07%), and 2117 insertions and deletions (INDELs; 0.38%) are identified. Most of INDELs are from 1980 bp deletions on this mitochondrial genome. Phylogenetic trees show that intra-species relation in both Liriodendron and Arabidopsis shows are clustered tightly in each clade. In addition, monocots and eudicots are positioned in different manner from classical plant taxonomy, requiring more researches.

Published

2019

30. Genome-wide analysis of the GRAS gene family in Liriodendron chinense reveals the putative function in abiotic stress and plant development.

Author

Weng Y, Chen X, Hao Z, Lu L, Wu X, Zhang J, Wu J, Shi J, and Chen J

Abstract

Introduction: GRAS genes encode plant-specific transcription factors that play essential roles in plant growth and development. However, the members and the function of the GRAS gene family have not been reported in Liriodendron chinense . L. chinense , a tree species in the Magnolia family that produces excellent timber for daily life and industry. In addition, it is a good relict species for plant evolution research., Methods: Therefore, we conducted a genome-wide study of the LcGRAS gene family and identified 49 LcGRAS genes in L. chinense ., Results: We found that LcGRAS could be divided into 13 sub-groups, among which there is a unique branch named HAM-t. We carried out RNA sequencing analysis of the somatic embryos from L. chinense and found that LcGRAS genes are mainly expressed after heart-stage embryo development, suggesting that LcGRAS may have a function during somatic embryogenesis. We also investigated whether GRAS genes are responsive to stress by carrying out RNA sequencing (RNA-seq) analysis, and we found that the genes in the PAT subfamily were activated upon stress treatment, suggesting that these genes may help plants survive stressful environments. We found that PIF was downregulated and COR was upregulated after the transient overexpression of PATs, suggesting that PAT may be upstream regulators of cold stress., Discussion: Collectively, LcGRAS genes are conserved and play essential roles in plant development and adaptation to abiotic stress., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Weng, Chen, Hao, Lu, Wu, Zhang, Wu, Shi and Chen.)

Published

2023

31. Genome-wide identification of the NAC gene family and its functional analysis in Liriodendron.

Author

Liu S, Guan Y, Weng Y, Liao B, Tong L, Hao Z, Chen J, Shi J, and Cheng T

Subjects

Acetylcysteine, Cell Nucleus, Cytoplasm, Liriodendron

Abstract

As one of the largest plant specific transcription factor families, NAC family members play an important role in plant growth, development and stress resistance. To investigate the function of NAC transcription factors during abiotic stress, as well as during somatic embryogenesis, we identified and characterized the NAC gene family in Liriodendron chinense. We found that most LcNAC members contain more than three exons, with a relatively conserved gene and motif structure, especially at the N-terminus. Interspecies collinearity analysis revealed a closer relationship between the L. chinense NACs and the P. trichocarpa NACs. We analyzed the expression of LcNAC in different tissues and under three abiotic stresses. We found that 12 genes were highly expressed during the ES3 and ES4 stages of somatic embryos, suggesting that they are involved in the development of somatic embryos. 6 LcNAC genes are highly expressed in flower organs. The expression pattern analysis of LcNACs based on transcriptome data and RT-qPCR obtained from L. chinense leaves indicated differential expression responses to drought, cold, and heat stress. Genes in the NAM subfamily expressed differently during abiotic stress, and LcNAC6/18/41/65 might be the key genes in response to abiotic stress. LcNAC6/18/41/65 were cloned and transiently transformed into Liriodendron protoplasts, where LcNAC18/65 was localized in cytoplasm and nucleus, and LcNAC6/41 was localized only in nucleus. Overall, our findings suggest a role of the NAC gene family during environmental stresses in L. chinense. This research provides a basis for further study of NAC genes in Liriodendron chinense., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

32. RAD-Seq Data Point to a Distinct Split in Liriodendron (Magnoliaceae) and Obvious East–West Genetic Divergence in L. chinense

Author

Yongda Zhong, Aihong Yang, Shujuan Liu, Lipan Liu, Yanqiang Li, Zhaoxiang Wu, and Faxin Yu

Subjects

Liriodendron, RAD-Seq, phylogenetic, genetic structure, Plant ecology, QK900-989

Abstract

Liriodendron is a Tertiary period relic tree genus with a typical East Asian and North American disjunction distribution pattern. As an angiosperm base group of trees, Liriodendron provides a valuable resource for the study of evolution processes. Here, we reconstruct the phylogeny and population genetic structure of Liriodendron based on the restriction site-associated DNA sequencing (RAD-Seq) of a wide collection of individuals from 16 populations. Our results reveal a clear phylogenetic break between L. chinense and L. tulipifera and obvious genetic divergence between the eastern and western populations of L. chinense, which are consistent with the patterns of geographical distributions. The phylogeographic history and long-term geographical isolation of the genus may be responsible for this pattern. Furthermore, a closer relationship was found between L. tulipifera and the eastern populations of L. chinense, indicating the ancient phylogeny of L. chinense in this area. The results of this study will aid in the development of scientific strategies for the conservation and utilization of the Liriodendron germplasm.

Published

2018

33. Contrasting strategies for tree species to cope with heat and dry conditions at urban sites.

Author

Gillner, Sten, Korn, Sandra, Hofmann, Mathias, and Roloff, Andreas

Subjects

MULTIPURPOSE trees, CHLOROPHYLL spectra, LIRIODENDRON, GAS exchange in plants, VAPOR pressure

Abstract

Street trees planted at tree pits with impermeable pavements are exposed to a high level of both, atmospheric and edaphic stress. For many species tree physiology, optimal growth, and consequently long-term vitality may be hampered under these harsh conditions. Therefore, maintaining the vitality and promoting the ecosystem services provided by urban trees, for example aesthetic values and microclimatic benefits, it is important to establish trees with a high tolerance to stressful urban environments. Measurements of leaf gas exchange, leaf water potential, leaf surface temperature and chlorophyll-fluorescence were used for identification of specific response of Corylus corluna L., Ginkgo biloba L., Liriodendron tulipifera L., and Tilia cordata Mill. 'Greenspire'. The summer months in 2013 with a period of heat and drought over eight weeks only interrupted by two rainy days were appropriate to access tree's strategies to cope with low water availability. During the measurement period, the influence of high temperatures, high values of vapor pressure deficit (VPD) and low soil water availability on stomatal conductance, water-use efficiency (WUE) and leaf water potential (Ψmin, Ψmax ) was highest for Liriodendron followed by Ginkgo. These species showed high reductions in WUE in case of higher air temperatures and high values of VPD. Results indicate an avoidance strategy under increasing heat and VPD. In contrast, Corylus and Tilia followed a tolerance strategy indicated by decreasing values of Ψmin and lower reductions of WUE. In conclusion, wide species-specific variation in response to high temperatures and high VPD indicates that substantial potential exists in the selection for dry and hot urban places. [ABSTRACT FROM AUTHOR]

Published

2017

34. Establishment of transient gene expression systems in protoplasts from Liriodendron hybrid mesophyll cells.

Author

Huo, Ailing, Chen, Zhenyu, Wang, Pengkai, Yang, Liming, Wang, Guangping, Wang, Dandan, Liao, Suchan, Cheng, Tielong, Chen, Jinhui, and Shi, Jisen

Subjects

*GENE expression, *PROTOPLASTS, *LIRIODENDRON, *MESOPHYLL tissue, *HARDWOODS

Abstract

Liriodendron is a genus of the magnolia family comprised of two flowering tree species that produce hardwoods of great ecological and economic value. However, only a limited amount of genetic research has been performed on the Liriodendron genus partly because transient or stable transgenic trees have been difficult to produce. In general, transient expression systems are indispensable for rapid, high-throughput screening and systematic characterization of gene functions at a low cost; therefore, development of such a system for Liriodendron would provide a necessary step forward for research on Magnoliaceae and other woody trees. Herein, we describe an efficient and rapid protocol for preparing protoplasts from the leaf mesophyll tissue of a Liriodendron hybrid and an optimized system for polyethylene glycol–mediated transient transfection of the protoplasts. Because the leaves of the Liriodendron hybrid are waxy, we formulated an enzyme mix containing 1.5% (w/v) Cellulase R-10, 0.5% (w/v) Macerozyme R-10, and 0.1% (w/v) Pectolyase Y-23 to efficiently isolate protoplasts from the Liriodendron hybrid leaf mesophyll tissue in 3 h. We optimized Liriodendron protoplast transfection efficiency by including 20 μg plasmid DNA per 104 protoplasts, a transformation time of 20 min, and inclusion of 20% (w/v) polyethylene glycol 4000. After integrating the Liriodendron WOX1 gene into pJIT166-GFP to produce a WOX1-GFP fusion product and transfecting it into isolated protoplasts, LhWOX1-GFP was found to localize to the nucleus according to its green fluorescence. [ABSTRACT FROM AUTHOR]

Published

2017

35. Water yield following forest-grass-forest transitions.

Author

Elliott, Katherine J., Caldwell, Peter V., Brantley, Steven T., Miniat, Chelcy F., Vose, James M., and Swank, Wayne T.

Subjects

EVAPOTRANSPIRATION, WATER supply, APPALACHIANS (People), LIRIODENDRON, MAGNOLIACEAE

Abstract

Many currently forested areas in the southern Appalachians were harvested in the early 1900s and cleared for agriculture or pasture, but have since been abandoned and reverted to forest (old-field succession). Land-use and land-cover changes such as these may have altered the timing and quantity of water yield (Q). We examined 80 years of streamflow and vegetation data in an experimental watershed that underwent forest-grass-forest conversion (i.e., oldfield succession treatment). We hypothesized that changes in forest species composition and water use would largely explain long-term changes in Q. Aboveground biomass was comparable among watersheds before the treatment (208.3 Mg ha-1), and again after 45 years of forest regeneration (217.9 Mg ha-1). However, management practices in the treatment watershed altered resulting species composition compared to the reference watershed. Evapotranspiration (ET) and Q in the treatment watershed recovered to pretreatment levels after 9 years of abandonment, then Q became less (averaging 5.4% less) and ET more (averaging 4.5% more) than expected after the 10th year up to the present day. We demonstrate that the decline in Q and corresponding increase in ET could be explained by the shift in major forest species from predominantly Quercus and Carya before treatment to predominantly Liriodendron and Acer through old-field succession. The annual change in Q can be attributed to changes in seasonal Q. The greatest management effect on monthly Q occurred during the wettest (i.e., above median Q) growing-season months, when Q was significantly lower than expected. In the dormant season, monthly Q was higher than expected during the wettest months. [ABSTRACT FROM AUTHOR]

Published

2017

36. Differences in leaf gas exchange strategies explain Quercus rubra and Liriodendron tulipifera intrinsic water use efficiency responses to air pollution and climate change.

Author

Mathias JM, Smith KR, Lantz KE, Allen KT, Wright MJ, Sabet A, Anderson-Teixeira KJ, and Thomas RB

Subjects

Climate Change, Carbon Dioxide analysis, Water, Plant Leaves chemistry, Quercus, Liriodendron, Air Pollution

Abstract

Trees continuously regulate leaf physiology to acquire CO 2 while simultaneously avoiding excessive water loss. The balance between these two processes, or water use efficiency (WUE), is fundamentally important to understanding changes in carbon uptake and transpiration from the leaf to the globe under environmental change. While increasing atmospheric CO 2 (iCO 2 ) is known to increase tree intrinsic water use efficiency (iWUE), less clear are the additional impacts of climate and acidic air pollution and how they vary by tree species. Here, we couple annually resolved long-term records of tree-ring carbon isotope signatures with leaf physiological measurements of Quercus rubra (Quru) and Liriodendron tulipifera (Litu) at four study locations spanning nearly 100 km in the eastern United States to reconstruct historical iWUE, net photosynthesis (A net ), and stomatal conductance to water (g s ) since 1940. We first show 16%-25% increases in tree iWUE since the mid-20th century, primarily driven by iCO 2 , but also document the individual and interactive effects of nitrogen (NO x ) and sulfur (SO 2 ) air pollution overwhelming climate. We find evidence for Quru leaf gas exchange being less tightly regulated than Litu through an analysis of isotope-derived leaf internal CO 2 (C i ), particularly in wetter, recent years. Modeled estimates of seasonally integrated A net and g s revealed a 43%-50% stimulation of A net was responsible for increasing iWUE in both tree species throughout 79%-86% of the chronologies with reductions in g s attributable to the remaining 14%-21%, building upon a growing body of literature documenting stimulated A net overwhelming reductions in g s as a primary mechanism of increasing iWUE of trees. Finally, our results underscore the importance of considering air pollution, which remains a major environmental issue in many areas of the world, alongside climate in the interpretation of leaf physiology derived from tree rings., (© 2023 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2023

37. Characterization of the Liriodendron chinense Pentatricopeptide Repeat (PPR) Gene Family and Its Role in Osmotic Stress Response.

Author

Ma X, Wang D, Xue G, Zheng X, Lu Y, Shi J, Hao Z, and Chen J

Subjects

Phylogeny, Plant Proteins genetics, Plant Proteins chemistry, Synteny, Osmoregulation, Liriodendron

Abstract

The Pentatricopeptide repeat ( PPR ) superfamily is a large gene family in plants that regulates organelle RNA metabolism, which is important for plant growth and development. However, a genome-wide analysis of the PPR gene family and its response to abiotic stress has not been reported for the relict woody plant Liriodendron chinense . In this paper, we identified 650 PPR genes from the L. chinense genome. A phylogenetic analysis showed that the LcPPR genes could roughly be divided into the P and PLS subfamilies. We found that 598 LcPPR genes were widely distributed across 19 chromosomes. An intraspecies synteny analysis indicated that duplicated genes from segmental duplication contributed to the expansion of the LcPPR gene family in the L. chinense genome. In addition, we verified the relative expression of Lchi03277 , Lchi06624 , Lchi18566 , and Lchi23489 in the roots, stems, and leaves and found that all four genes had the highest expression in the leaves. By simulating a drought treatment and quantitative reverse transcription PCR (qRT-PCR) analysis, we confirmed the drought-responsive transcriptional changes in four LcPPR genes, two of which responded to drought stress independent of endogenous ABA biosynthesis. Thus, our study provides a comprehensive analysis of the L. chinense PPR gene family. It contributes to research into their roles in this valuable tree species' growth, development, and stress resistance.

Published

2023

38. Effect of ethanol organosolv pretreatment factors on enzymatic digestibility and ethanol organosolv lignin structure from Liriodendron tulipifera in specific combined severity factors.

Author

Jang, Soo-Kyeong, Kim, Ho-Yong, Jeong, Han-Seob, Kim, Jae-Young, Yeo, Hwanmyeong, and Choi, In-Gyu

Subjects

*LIRIODENDRON tulipifera, *LIRIODENDRON, *ETHANOL, *ALCOHOLS (Chemical class), *LIGNINS

Abstract

In this study, various ethanol organosolv pretreatment factors including reaction temperature, time, and concentration of acid catalyst were evaluated for effective decomposition of lignocellulosic biomass. The different pretreatment conditions had the same combined severity factor (1.16). With an increase in reaction temperature and pH, the water-insoluble residue recovery and amount of lignin in the solid residue decreased from 52.6% to 42.4% and from 10.4% to 5.5%, respectively, whereas enzymatic digestibility increased up to 97.9%. After pretreatment, ethanol organosolv lignin (EOL) recovered from the liquid hydrolyzate was subjected to nitrobenzene oxidation, gel permeation chromatography, and supercritical ethanol treatment for evaluation of the lignin structural properties. At a higher reaction temperature and pH, the proportion of ether linkages and the polydispersity of EOL decreased from 15.7% to 10.9% and from 3.1 to 1.9, respectively, while the amount of phenolic monomers ranged from 16.7 mg/g to 27.9 mg/g. [ABSTRACT FROM AUTHOR]

Published

2016

39. Relationship between parental genetic distance and offspring's heterosis for early growth traits in Liriodendron: implication for parent pair selection in cross breeding.

Author

Yao, Junxiu, Li, Huogen, Ye, Jing, and Shi, Linli

Subjects

CROSSBREEDING, TREES, LIRIODENDRON, HETEROSIS in plants, GENETIC distance

Abstract

Parent-pair selection is one of crucial factors that generate progenies with strong heterosis in tree cross-breeding programmes. In our Liriodendron breeding programme, we conducted a very effective strategy on selecting elite parental combinations with strong heterosis on the basis of a large number of crosses and progeny tests. In the past two decades, we have conducted dozens of interspecies crosses in Liriodendron and the hybrids with good performance have been broadly planted for both ornamental and industrial utilization in southern China. In contrast to the application, the genetic mechanism of heterosis in Liriodendron still remains unknown. Genetic distance is one key parameter which has been considered for parent-pair selection. Here, we reported the relationship between parental genetic distance and offspring heterosis by analyzing early growth traits of progenies from intra- and inter-specific crosses in Liriodendron. The genetic distances among 13 parental trees were assessed based on polymorphisms generated from 24 microsatellites loci. Offspring heterosis was estimated based on a 6-year-old progeny test. No significant correlations were found between parental genetic distance and offspring heterosis. However, we found that the offspring heterosis of growth reached the maximum value when parental genetic distance was 1.07, which was validated in another batch of crosses based on 2-year-old growth. Our findings may be helpful for the future parent-pair selection in Liriodendron cross-breeding programmes. [ABSTRACT FROM AUTHOR]

Published

2016

40. Phenylethanoid glycosides in tepals of Magnolia salicifolia and their occurrence in flowers of Magnoliaceae.

Author

Porter, Elaine A., Kite, Geoffrey C., Veitch, Nigel C., Geoghegan, Ivey A., Larsson, Sonny, and Simmonds, Monique S.J.

Subjects

*GLYCOSIDES, *MAGNOLIACEAE, *ULTRAVIOLET radiation, *VERBASCOSIDE, *LIRIODENDRON

Abstract

Phenylethanoid glycosides were among the major UV-absorbing components in 80% aq. CH 3 OH extracts of the tepals of Magnolia salicifolia (Siebold & Zucc.) Maxim. (Magnoliaceae; Magnolia subgenus Yulania ). Structural characterisation of isolated compounds by spectroscopic and chemical methods revealed three previously unrecorded examples, yulanoside A, yulanoside B and 2′-rhamnoechinacoside, and the known compounds echinacoside and crassifolioside; chromatographic methods also identified verbascoside in the tepal extract. Yulanoside A is the first reported example of a phenylethanoid pentaglycoside, namely hydroxytyrosol 1- O -{β- d -glucopyranosyl-(1 → 4)-β- d -glucopyranosyl-(1 → 6)-[3,4-dihydroxycinnamoyl-(→ 4)][α- l -rhamnopyranosyl-(1 → 3)][α- l -rhamnopyranosyl-(1 → 2)]-β- d -glucopyranoside}. A survey of Magnolia sensu lato and Liriodendron (the two genera of Magnoliaceae) suggested that yulanoside A and its deglucosyl derivative (yulanoside B) were a feature of the tepal chemistry of Magnolia subgenus Yulania (except Magnolia acuminata , the sole member of section Tulipastrum , which did not accumulate phenylethanoid glycosides). The two species of Liriodendron and examined examples of Magnolia subgenus Magnolia sections Magnolia and Rytidospermum (subsection Oyama ) also accumulated phenylethanoid glycosides in their tepals and in these species, and in subgenus Yulania , the major compounds were one or more of echinacoside, 2′-rhamnoechinacoside, crassifolioside and verbascoside. Levels of phenylethanoid glycosides were found to be much lower in species studied from Magnolia sections Gwillimia , Macrophylla and Rytidospermum (subsection Rytidospermum ), although yulanoside A was detectable in M. macrophylla and this may have some bearing on the placement of section Macrophylla , which is currently uncertain. In the isolates of yulanoside B and echinacoside, minor phenylethanoid glycosides were determined to be analogues of these compounds with β- d -xylose at C-3′ of the primary glucose rather than α- l -rhamnose. [ABSTRACT FROM AUTHOR]

Published

2015

41. Transcriptomic and microstructural analyses in Liriodendron tulipifera Linn. reveal candidate genes involved in nectary development and nectar secretion

Author

Liu, Huanhuan, Ma, Jikai, and Li, Huogen

Published

2019

42. Predicting the impact of climate change on the distribution of two relict Liriodendron species by coupling the MaxEnt model and actual physiological indicators in relation to stress tolerance.

Author

Shen Y, Tu Z, Zhang Y, Zhong W, Xia H, Hao Z, Zhang C, and Li H

Subjects

Climate Change, Ecosystem, Environment, Trees, Liriodendron

Abstract

Climate change has a crucial impact on the distributions of plants, especially relict species. Hence, predicting the potential impact of climate change on the distributions of relict plants is critical for their future conservation. Liriodendron plants are relict trees, and only two natural species have survived: L. chinense and L. tulipifera. However, the extent of the impact of future climate change on the distributions of these two Liriodendron species remains unclear. Therefore, we predicted the suitable habitat distributions of two Liriodendron species under present and future climate scenarios using MaxEnt modeling. The results showed that the area of suitable habitats for two Liriodendron species would significantly decrease. However, the two relict species presented different habitat shift patterns, with a local contraction of suitable habitat for L. chinense and a northward shift in suitable habitat for L. tulipifera, indicating that changes in environmental factors will affect the distributions of these species. Among the environmental factors assessed, May precipitation induced the largest impact on the L. chinense distribution, while L. tulipifera was significantly affected by precipitation in the driest quarter. Furthermore, to explore the relationship between habitat suitability and Liriodendron stress tolerance, we analyzed six physiological indicators of stress tolerance by sampling twelve provenances of L. chinense and five provenances of L. tulipifera. The composite index of six physiological indicators was significantly negatively correlated with the habitat suitability of the species. The stress tolerance of Liriodendron plants in highly suitable areas was lower than that in areas with moderate or low suitability. Overall, these findings improve our understanding of the ecological impacts of climate change, informing future conservation efforts for Liriodendron species., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

43. FRUIT STRUCTURE IN MAGNOLIACEAE S.L. AND ARCHAEANTHUS AND THEIR RELATIONSHIPS.

Author

Romanov, Mikhail S. and Dilcher, David L.

Subjects

*MAGNOLIACEAE, *ANGIOSPERMS, *PERICARP, *FRUIT, *SEED dispersal, *SHRUBS

Abstract

* Premise of the study: The family Magnoliaceae s.l. is a basal angiosperm family with two subfamilies--Magnolioideae and Liriodendroideae, which differ by the types and structure of their fruits and seeds. The late Albian genus Archaeanthus shares many features of its reproductive organs with Magnoliaceae s.l., but its pericarp anatomy was never studied in detail. A broad-scale carpological investigation of Archaeanthus and Magnoliaceae s.l. was undertaken to reveal the nature of the similarities in fruit structure and to reconstruct Archaeanthus pericarp anatomy. These data are important to determine the early stages of fruit morphogenesis and thus to clarify relationships of Archaeanthus to the taxa of Magnoliaceae s.l. * Methods: The pericarp anatomy was studied with light microscopy, SEM, and polarizing microscopy. * Key results: The dehiscent, polyspermous follicles shed from the receptacle of Archaeanthus share similarities with dehiscent follicles of Magnoliaceae s.s. and shedding nutlets of Liriodendron. The seeds of Archaeanthus are dorsiventrally flattened, ovoid, and encircled with a single circular wing. The pericarps of all the taxa studied are differentiated into exocarp (epidermis), multilayered mesocarp, and endocarp (fiber-like sclereids). The mesocarp consists of parenchyma with scattered secretory cells and sclereid clusters (Magnoliaceae s.s., Archaeanthus) or composed by sclerenchyma (Liriodendron). * Conclusions: The specializations of dehiscent multifollicles of unknown Cretaceous ancestors for different modes of seed and fruitlet dispersal formed the basis for the differentiation of two evolutionary lines with their divergence occurring more than 100 million years ago: Magnoliaceae s.s. and the Archaeanthus-Liriodendroidea-Liriodendron line (Liriodendraceae s.l.) within the order Magnoliales. [ABSTRACT FROM AUTHOR]

Published

2013

44. Influence of seasonal variation on the phenology and liriodenine content of Annona lutescens (Annonaceae).

Author

Castro-Moreno, Marisol, Tinoco-Ojangurén, Clara, Cruz-Ortega, Ma., and González-Esquinca, Alma

Subjects

*SEASONAL temperature variations, *PHENOLOGY, *ANNONACEAE, *TROPICAL dry forests, *BIOSYNTHESIS, *LIRIODENDRON, *PLANT species, *ALKALOIDS

Abstract

Annona lutescens Saff. (Annonaceae) grows as a native tree in Chiapas, Mexico in Tropical Dry Forest habitat. Like most Annonaceae, it biosynthesizes benzylisoquinoline alkaloids, mostly liriodenine. To determine the influence of seasonal changes in the accumulation of liriodenine, the monthly variation of liriodenine content in roots, stems and leaves of mature and young trees was observed. These parts of young and mature A. lutescens trees were collected monthly over a 1 year period and the alkaloids were extracted; the liriodenine was quantified by high-resolution liquid chromatography. The phenological stages of the species were also assessed (leaf development, flowering and fruiting) using the Biologische Bundesanstalt, Bundessortenamt und Chemische Industrie (BBCH) scale. The analysis of both young and mature trees showed a significant increase in the liriodenine concentration occurs within roots during the dry season, which coincides with leaf fall. A significant decrease also occurred at the beginning of the rainy season (the period of leaf growth); the liriodenine content for the next rainy season did not reach the levels of the previous dry season. The climatic variation induced phenological and physiological changes in this species. [ABSTRACT FROM AUTHOR]

Published

2013

45. Development of Three Underplanted Hardwood Species 7 Years Following Midstory Removal.

Author

Lhotka, John M. and Loewenstein, Edward F.

Subjects

HARDWOOD industry, CHERRY bark tortrix, VALLEY oak, LIRIODENDRON tulipifera, SEEDLINGS

Abstract

We evaluate the effect of four midstory removal (no removal, 1/3 removal, 1/2 removal, and complete removal) and two understory removal (no removal, complete removal) intensities on underplanted seeding size and survival after seven growing seasons. The study was conducted in a mixed-hardwood riparian forest. The underplanted species were cherrybark oak [Quercus pagoda Raf.), water oak (Quercus nigra L), and yellow-poplar (Liriodendron tulipfera L). Seven-year survival of cherrybark oak, water oak, and yellow-poplar was higher in the complete midstory removal treatment than in the no midstory removal treatment. Height and basal diameter were significantly greater in the complete midstory removal treatment than in 1/2, 1/3, or no removal treatments. Understory removal had no effect on yellow-poplar and only marginally increased water oak survival and cherrybark oak seedling size. Species trends indicated that the growth of yellow-poplar following complete midstory removal surpassed that of both cherrybark and water oak. Mean survival of yellow-poplar was lower than cherrybark or water oak survival in all treatments. Results suggest underplanting and complete midstory removal may be effective at establishing large advance reproduction in mixed hardwood riparian forests. Findings also suggest that complete midstory removal created favorable conditions for the continued survival and growth of underplanted seedlings through seven growing seasons. If oak reproduction is considered to be sufficiently competitive on reaching a height of 137 cm (4.5 ft), the average cherrybark and water oak seedlings in the complete midstory removal treatment exceeded this minimum and may be released following the fifth growing season after underplanting. [ABSTRACT FROM AUTHOR]

Published

2013

46. In vitro tumor cytotoxic activities of extracts from three Liriodendron plants.

Author

Jin-Hui Chen, Guo-Xu Yang, Qiang Ding, Tian-Song Xia, Jisen Shi, and Ai-Qun Jia

Abstract

The extracts prepared from Liriodendron tulipifera Linn., L. chinense (Hemsl.) Sarg., and their hybrid L. chinense x L. tulipifera, were investigated for their cytotoxic abilities in vitro against five human cancer cell lines: MDA-MB-231 and MCF-7 breast cancer cells, SGC-7901 gastric cancer cells, HuH-7 hepatocarcinoma cells, and HCT-15 colon carcinoma cells, and then measured their phenols and alkaloids contents. Of these plant extracts, some of them, especially the lower polar extracts from barks, exhibited potent cytotoxic effects on five tested tumor cell lines. [ABSTRACT FROM AUTHOR]

Published

2013

47. Generation of a large-scale genomic resource for functional and comparative genomics in Liriodendron tulipifera L.

Author

Liang, Haiying, Ayyampalayam, Saravanaraj, Wickett, Norman, Barakat, Abdelali, Xu, Yi, Landherr, Lena, Ralph, Paula, Jiao, Yuannian, Xu, Tao, Schlarbaum, Scott, Ma, Hong, Leebens-Mack, James, and dePamphilis, Claude

Abstract

Liriodendron tulipifera L., a member of Magnoliaceae in the order Magnoliales, has been used extensively as a reference species in studies on plant evolution. However, genomic resources for this tree species are limited. We constructed cDNA libraries from ten different types of tissues: premeiotic flower buds, postmeiotic flower buds, open flowers, developing fruit, terminal buds, leaves, cambium, xylem, roots, and seedlings. EST sequences were generated either by 454 GS FLX or Sanger methods. Assembly of almost 2.4 million sequencing reads from all libraries resulted in 137,923 unigenes (132,905 contigs and 4,599 singletons). About 50% of the unigenes had significant matches to publically available plant protein sequences, representing a wide variety of putative functions. Approximately 30,000 simple sequence repeats were identified. More than 97% of the cell wall formation genes in the Cell Wall Navigator and the MAIZEWALL databases are represented. The cinnamyl alcohol dehydrogenase ( CAD) homologs identified in the L. tulipifera EST dataset showed different expression levels in the ten tissue types included in this study. In particular, the LtuCAD1 was found to partially recover the stiffness of the floral stems in the Arabidopsis thaliana CAD4 and CAD5 double mutant plants, of the LtuCAD1 in lignin biosynthesis. L. tulipifera genes have greater sequence similarity to homologs from other woody angiosperm species than to non-woody model plants. This large-scale genomic resour"HistryDatesce will be instrumental for gene discovery, cDNA microarray production, and marker-assisted breeding in L. tulipifera, and strengthen this species' role in comparative studies. [ABSTRACT FROM AUTHOR]

Published

2011

48. Organization of the chromosome region harboring a FLORICAULA/LEAFY gene in Liriodendron.

Author

Liang, Haiying, Barakat, Abdelali, Schlarbaum, Scott, and Carlson, John

Abstract

FLORICAULA/LEAFY ( FLO/LFY) plays an important role in the reproductive transition and controls flower spatial patterning by inducing the expression of the ABC floral organ identity genes. In this study, we sequenced two bacterial artificial chromosomes harboring a FLO/LFY and three other genes from yellow-poplar ( Liriodendron tulipifera L.) and compared the gene order in this locus between several species. Besides the conserved terminal domains, key residues involved in interactions with DNA bases, backbone, and in dimerization were also conserved in the yellow-poplar FLO/LFY. Phylogenetic analysis of the FLO/LFY amino acid sequences placed yellow-poplar closer to eudicots than to monocotyledonous species. We found that gene content and order in this region of the yellow-poplar genome was more similar to corresponding regions in Vitis vinifera L., Carica papaya L., Populus trichocarpa Torr. & Gray, and Ricinus communis L., regardless of the evolutionary relationship. In addition, evidence for transposition, large insertions, and duplications were found, suggesting multiple and complex mechanisms of basal angiosperm genome evolution. [ABSTRACT FROM AUTHOR]

Published

2011

49. EST-SSRs development and paternity analysis for Liriodendron spp.

Author

Xu, Meng, Sun, Yaguang, and Li, Huogen

Subjects

PLANT reproduction, LIRIODENDRON, POPULATION genetics, PLANT genetics, POLLINATION, SEX in plants, REPEATED sequence (Genetics), MICROSATELLITE repeats, ANTISENSE DNA

Abstract

Liriodendron are ideal plants for research on mating system, systemic evolution and population genetics. Here we report the development and application of a set of simple sequence repeat (SSR) markers derived from expressed sequence tags (ESTs) of L. tulipifera. In total, 176 primer pairs were developed and yielded 132 EST-SSR markers that amplified clear SSR bands with genomic DNA of L. tulipifera. Transferability of these EST-SSR markers to related species and genera was further examined. Twelve highly informative loci screened from 132 EST-SSR markers were applied to explore the effective pollen dispersal patterns and male reproductive success of Liriodendron. A provenance trial population of Liriodendron comprised 12 L. chinense (Hemsl.) Sarg provenances and 5 L. tulipifera provenances. The four maternal trees were randomly sampled as tested maternal trees in the population. Paternities of 220 open-pollination progenies from 4 maternal trees above were potentially identified by means of paternity analysis, of which 138 progenies (accounting for 62.7%) were assigned to 49 male parents at the 95% confidence level. The cumulative exclusion probability of 12 EST-SSR loci was 98.5%. The average effective pollen dispersal distance of pollen donors ranged from 15 to 35 m, with the maximum dispersal distance of 77 m. There were obvious male reproductive success differences among individuals, ranging from 0 to 10.9%. The cumulative male reproductive success of individuals within 35 m radius around the known maternal trees reached 51.4%. Diversiform mating patterns, including selfing, intra-species mating and interspecies mating, coexisted in the occasion of open-pollination in Liriodendron. [ABSTRACT FROM AUTHOR]

Published

2010

50. Comparison of gene order of GIGANTEA loci in yellow-poplar, monocots, and eudicots.

Author

Liang, Haiying, Barakat, Abdelali, Schlarbaum, Scott E., Mandoli, Dina F., and Carlson, John E.

Subjects

*CIRCADIAN rhythms, *CHROMOSOMES, *LIRIODENDRON tulipifera, *GENOMES, RICE genetics

Abstract

GIGANTEA plays an important role in the control of circadian rhythms and photoperiodic flowering. The GIGANTEA gene has been studied in various species, but not in basal angiosperms. Moreover, to the best of our knowledge, no study of the genome organization of a basal angiosperm has yet been published. In this study, we sequenced a bacterial artificial chromosome (BAC) harboring GIGANTEA from yellow-poplar (Liriodendron tulipifera L.) and compared the genomic organization of this gene in yellow-poplar with that in other species from various angiosperm clades. This is the first report on the gene structure and organization of a large contig in any basal angiosperm species. The BAC clone, covering a region of approximately 122 kb from the yellow-poplar genome, was sequenced and assembled by coupling the 454 pyrosequencing technology with ABI capillary sequencing. In addition to GIGANTEA, the gene RPS18.A (encoding ribosomal protein S18.A) was found in this segment of the genome. We found that gene content and order in this region of the yellow-poplar genome were similar to those in the corresponding region in eudicots but not in Oryza sativa and Sorghum bicolor, implying that clustering of the GIGANTEA and RPS18.A genes is ancestral and separation of the genes occurred after the phylogenetic split of monocots from dicots. Phylogenetic analysis of GIGANTEA amino acid sequences placed yellow-poplar closer to eudicots than to monocots. In addition, evidence for transposition and large insertions and duplications was found, suggesting multiple and complex mechanisms of basal angiosperm genome evolution. GIGANTEA joue un rôle important dans le contrôle des rythmes circadiens et la floraison photopériodique. Ce gène a été étudié chez plusieurs espèces, mais pas chez les angiospermes basales. De plus, au meilleur des connaissances des auteurs, aucune étude sur l’organisation génomique d’une angiosperme basale n’a été publiée à ce jour. Dans ce travail, les auteurs ont séquencé un clone BAC du tulipier de Virginie (Liriodendron tulipifera L.) contentant GIGANTEA et comparé l’organisation génomique de ce gène chez plusieurs espèces appartenant à différents clades au sein des angiospermes. Il s’agit de la première description de la structure et de l’organisation d’un gène au sein d’un grand contig chez une angiosperme basale. Le clone BAC contenait une région d’environ 122 kb du génome du tulipier de Virginie et il a été séquencé et assemblé en combinant du pyroséquençage 454 et du séquençage sur appareil capillaire ABI. En plus de GIGANTEA, ce segment du génome comprenait un gène codant pour la protéine ribosomique S18.A (RPS18.A). Les auteurs ont observé que le contenu et l’ordre des gènes au sein de cette région du génome du tulipier de Virginie étaient semblables à ce qu’on rencontre dans la région correspondante du génome chez les eudicotylédones, mais pas chez l’Oryza sativa ou le Sorghum bicolor. Cela impliquerait que la proximité des gènes GIGANTEA et RPS18.A serait ancestrale et que la séparation de ces gènes se serait produite après la séparation des monocotylédones des dicotylédones. Une analyse phylogénétique des séquences d’acides aminés de GIGANTEA a placé le tulipier de Virginie plus près de eudicotylédones que des monocotylédones. De plus, des évidences de transpositions ainsi que de grandes insertions et duplications ont été observées, ce qui suggère de multiples et complexes mécanismes d’évolution au sein des angiospermes basales. [ABSTRACT FROM AUTHOR]

Published

2010