Your search keyword '"Angiosperms"' showing total 16,015 results

1. Precipitation, solar radiation, and their interaction modify leaf hydraulic efficiency–safety trade‐off across angiosperms at the global scale.

Author

Jin, Yi, Ye, Qing, Liu, Xiaorong, Liu, Hui, Gleason, Sean M., He, Pengcheng, Liang, Xingyun, and Wu, Guilin

Subjects

*TROPICAL dry forests, *OSMOREGULATION, *SOLAR radiation, *MOUNTAIN forests, *RAIN forests

Abstract

Summary: In theory, there is a trade‐off between hydraulic efficiency and safety. However, the strength and direction of this trade‐off at the leaf level are not consistent across studies, and habitat climate may impact this trade‐off.We compiled a leaf hydraulic efficiency and safety dataset for 362 species from 81 sites world‐wide, with 280 paired observations of both traits, and tested whether climate was associated with departure from the proposed trade‐off.The leaf hydraulic efficiency–safety trade‐off was weak (R2 = 0.144) at the global scale. Mean annual precipitation and solar radiation (SR) modified the trade‐off. Species from dry and high SR habitats (e.g. desert and tropical savanna) were generally located above the trade‐off line, indicating that these species tended to have higher leaf hydraulic safety and efficiency than species from wet habitats with low SR (e.g. subtropical monsoon forest and montane rainforest), which were located below the trade‐off line. Leaves with high vein density, dry leaf mass per area, and osmotic regulation enhanced safety without compromising hydraulic efficiency.Variation in the hydraulic efficiency–safety trade‐off at the leaf level likely facilitates plant survival in specific habitats and allows for a more nuanced view of leaf hydraulic adaption strategies at the global scale. [ABSTRACT FROM AUTHOR]

Published

2024

2. Repeated shifts out of tropical climates preceded by whole genome duplication.

Author

Carruthers, Tom, Gonçalves, Deise J. P., Li, Pan, Chanderbali, Andre S., Dick, Christopher W., Fritsch, Peter W., Larson, Drew A., Soltis, Douglas E., Soltis, Pamela S., Weaver, William N., and Smith, Stephen A.

Subjects

*BIOLOGICAL evolution, *FLOWERING of plants, *ANGIOSPERMS, *PHYLOGENY, TROPICAL climate

Abstract

Summary: While flowering plants have diversified in virtually every terrestrial clime, climate constrains the distribution of individual lineages. Overcoming climatic constraints may be associated with diverse evolutionary phenomena including whole genome duplication (WGD), gene‐tree conflict, and life‐history changes. Climatic shifts may also have facilitated increases in flowering plant diversification rates. We investigate climatic shifts in the flowering plant order Ericales, which consists of c. 14 000 species with diverse climatic tolerances.We estimate phylogenetic trees from transcriptomic data, 64 chloroplast loci, and Angiosperms353 nuclear loci that, respectively, incorporate 147, 4508, and 2870 Ericales species. We use these phylogenetic trees to analyse how climatic shifts are associated with WGD, gene‐tree conflict, life‐history, and diversification rates.Early branches in the phylogenetic trees are extremely short, and have high levels of gene‐tree conflict and at least one WGD. On lineages descended from these early branches, there is a significant association between climatic shifts (primarily out of tropical climates), further WGDs, and life‐history.Extremely short early branches, and their associated gene‐tree conflict and WGDs, appear to underpin the explosive origin of numerous species rich Ericales clades. The evolution of diverse climatic tolerances in these species rich clades is tightly associated with WGD and life‐history. [ABSTRACT FROM AUTHOR]

Published

2024

3. Gaining or cutting SLAC: the evolution of plant guard cell signalling pathways.

Author

Sussmilch, Frances C., Maierhofer, Tobias, Herrmann, Johannes, Voss, Lena J., Lind, Christof, Messerer, Maxim, Müller, Heike M., Bünner, Maria S., Ache, Peter, Mayer, Klaus F. X., Becker, Dirk, Roelfsema, M. Rob G., Geiger, Dietmar, Schultz, Jörg, and Hedrich, Rainer

Subjects

*PLANT evolution, *CELL communication, *ABSCISIC acid, *CELLULAR signal transduction, *ION channels, *STOMATA

Abstract

Summary: The evolution of adjustable stomatal pores, enabling CO2 acquisition, was one of the most significant events in the development of life on land. Here, we investigate how the guard cell signalling pathways that regulate stomatal movements evolved.We compare fern and angiosperm guard cell transcriptomes and physiological responses, and examine the functionality of ion channels from diverse plant species.We find that, despite conserved expression in guard cells, fern anion channels from the SLAC/SLAH family are not activated by the same abscisic acid (ABA) pathways that provoke stomatal closure in angiosperms. Accordingly, we find an insensitivity of fern stomata to ABA. Moreover, our analysis points to a complex evolutionary history, featuring multiple gains and/or losses of SLAC activation mechanisms, as these channels were recruited to a role in stomatal closure.Our results show that the guard cells of flowering and nonflowering plants share similar core features, with lineage‐specific and ecological niche‐related adaptations, likely underlying differences in behaviour. [ABSTRACT FROM AUTHOR]

Published

2024

4. A higher tissue fraction of parenchyma in secondary xylem supports growth recovery of angiosperm trees after drought.

Author

Zhang, Xijin, Li, Qingyao, Yang, Yongchuan, Fukuda, Kenji, Morris, Hugh, Jansen, Steven, Da, Liangjun, and Song, Kun

Abstract

Resilience to drought represents an important focus for trees during climate change, with the aim of predicting the resistance and recovery of species worldwide. Previous studies mainly linked tree growth resilience to plant functional traits that are related to resource acquisition and investment. Here, we investigate a potential link between resilience and the amount of parenchyma tissue in wood, a multifunctional tissue that may provide various physiological benefits to drought‐related mechanisms.We compiled a global tree‐ring data set to evaluate the relationship between growth resistance, resilience or recovery from drought and xylem parenchyma tissue fractions of 50 angiosperms, which was complemented with a local study of nine species from Mt. Tiantong in China. We also assessed the influence of climate and phylogeny on these relationships.We found that growth recovery after drought was positively related to the fractions of total parenchyma locally and globally. This association remained statistically significant when accounting for the effects of climate and phylogeny. No other associations between parenchyma fractions and growth resilience metrics were statistically significant.Our results suggest that drought recovery of angiosperm trees is affected by the amount of parenchyma. Incorporating xylem parenchyma fraction with other traits, such as hydraulic traits, could therefore enhance our comprehension of how various angiosperm tree species will respond to future droughts. Further studies should focus on unravelling the physiological roles of xylem parenchyma fraction. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

5. The enigmatic Triassic ovulate reproductive structures of Dordrechtites are recurved cupules fundamentally comparable to the cupules of Doylea and similar plants.

Author

Crane, Peter R., Anderson, John M., Anderson, Heidi, Herendeen, Patrick S., and Herrera, Fabiany

Subjects

*CONES (Botany), *MESOZOIC Era, *ANGIOSPERMS, *PHYLOGENY, *SEEDS

Abstract

Summary: Recent paleobotanical discoveries have renewed interest in the distinctively recurved, seed‐bearing cupules of Mesozoic plants, which are important for understanding seed plant phylogeny and the origin of the second integument of the angiosperm ovule.Reanalysis of the enigmatic seed‐bearing organ Dordrechtites elongatus from the Triassic of South Africa, the type species of the genus, combined with information from similar material from Antarctica, Argentina and Australia, indicates that Dordrechtites is a highly modified lateral branch of a seed cone. Short lateral projections from a primary cone axis each bear several Dordrechtites units. Each unit consists of a long stalk bearing a straight to sometimes recurved cupule with a long distal extension beyond the cupule apex. Each cupule is flattened in a plane perpendicular to the stalk and distal projection and contains up to two seeds.Structural similarities between Dordrechtites and the cupules of Doyleales indicate that they are homologous, providing new evidence for a close relationship.The persistent cupule stalk and apical extension of Dordrechtites, combined with the flattened cupule, suggests modification for wind and water dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

6. Genomic correlates of vascular plant reproductive complexity and the uniqueness of angiosperms.

Author

Leslie, Andrew B. and Mander, Luke

Abstract

Summary Whole genome duplication (WGD) likely plays an important role in plant macroevolution, and has been implicated in diversification rate shifts, structural innovations, and increased disparity. But the general effects of WGD are challenging to evaluate, in part due to the difficulty of directly comparing morphological patterns across disparate clades. We explored relationships between WGD and the evolution of reproductive complexity across vascular plants using a metric based on the number of reproductive part types. We used multiple regression models to evaluate the relative importance of inferred WGD events, genome size, and a suite of additional variables relating to growth habit and reproductive biology in explaining part type complexity. WGD was a consistent predictor of reproductive complexity only among angiosperms. Across vascular plants generally, reproductive biology, clade identity, and the presence of bisexual strobili (those that produce microsporangiate and megasporangiate organs) were better predictors of complexity. Angiosperms are unique among vascular plants in combining frequent polyploidy with high‐reproductive complexity. Whether WGD is mechanistically linked to floral complexity is unclear, but we suggest widespread polyploidy and increased complexity were ultimately facilitated by the evolution of herbaceous growth habits in early angiosperms. [ABSTRACT FROM AUTHOR]

Published

2024

7. A telomere-to-telomere Eucalyptus regnans genome: unveiling haplotype variance in structure and genes within one of the world's tallest trees.

Author

Ferguson, Scott, Bar-Ness, Yoav D, Borevitz, Justin, and Jones, Ashley

Subjects

*HAPLOTYPES, *FLOWERING of plants, *GENETIC transcription, *ANGIOSPERMS, *ENERGY conservation, *EUCALYPTUS

Abstract

Background: Eucalyptus regnans (Mountain Ash) is an Australian native giant tree species which form forests that are among the highest known carbon-dense biomasses in the world. To enhance genomic studies in this ecologically important species, we assembled a high-quality, mostly telomere-to-telomere complete, chromosome-level, haplotype-resolved reference genome. We sampled a single tree, the Centurion, which is currently a contender for the world's tallest flowering plant. Results: Using long-read sequencing data (PacBio HiFi, Oxford Nanopore ultra-long reads) and chromosome conformation capture data (Hi-C), we assembled the most contiguous and complete Eucalyptus reference genome to date. For each haplotype, we observed contig N50s exceeding 36 Mbp, scaffold N50s exceeding 43 Mbp, and genome BUSCO completeness exceeding 99%. The assembled genome revealed extensive structural variations between the two haplotypes, consisting mostly of insertions, deletions, duplications and translocations. Analysis of gene content revealed haplotype-specific genes, which were enriched in functional categories related to transcription, energy production and conservation. Additionally, many genes reside within structurally rearranged regions, particularly duplications, suggesting that haplotype-specific variation may contribute to environmental adaptation in the species. Conclusions: Our study provides a foundation for future research into E. regnans environmental adaptation, and the high-quality genome will be a powerful resource for conservation of carbon-dense giant tree forests. [ABSTRACT FROM AUTHOR]

Published

2024

8. Transcriptome and Metabolome Analyses Reveal a Complex Stigma Microenvironment for Pollen Tube Growth in Tobacco.

Author

Xiong, Hanxian, Wang, Junjie, Gao, Xiaodi, Dong, Guoqing, Zeng, Wanyong, Wang, Wei, and Sun, Meng-Xiang

Subjects

*POLLEN tube, *GENE expression, *PLANT hormones, *ANGIOSPERMS, *AMINO acids

Abstract

In flowering plants, the success of fertilization depends on the rapid polar extension of a pollen tube, which delivers sperm cells to the female gametophyte for fertilization. Numerous studies have shown that the microenvironment in planta is more conducive to the growth and development of pollen tubes than that in vitro. However, how stigma factors coordinate to regulate pollen tube growth is still poorly understood. Here, we demonstrate that in tobacco, mature stigma extract, but not immature stigma extract, facilitates pollen tube growth. Comparative transcriptomic and qRT-PCR analyses showed that the differentially expressed genes during stigma maturation were mainly enriched in the metabolism pathway. Through metabolome analyses, about 500 metabolites were identified to be differently accumulated; the significantly increased metabolites in the mature stigmas mainly belonged to alkaloids, flavonoids, and terpenoids, while the downregulated differential metabolites were related to lipids, amino acids, and their derivatives. Among the different kinds of plant hormones, the cis-form contents of zeatin were significantly increased, and more importantly, cis-zeatin riboside promoted pollen tube growth in vitro. Thus, our results reveal an overall landscape of gene expression and a detailed nutritional microenvironment established for pollen tube growth during the process of stigma maturation, which provides valuable clues for optimizing in vitro pollen growth and investigating the pollen–stigma interaction. [ABSTRACT FROM AUTHOR]

Published

2024

9. Proximal aperture in Cephalanthera longifolia (L.) Fritsch (Orchidaceae) pollen: a rare germination site for angiosperms.

Author

Purgina, Carola, Grímsson, Friðgeir, and Ulrich, Silvia

Subjects

*POLLEN, *POLLEN dispersal, *SCANNING electron microscopy, *ANGIOSPERMS, *ORCHIDS

Abstract

The pollen dispersal unit of the epidendroid species, Cephalanthera longifolia, is a soft pollinium consisting of loosely connected tetrads that are agglutinated by elastoviscin. With scanning electron microscopy, the reticulate exine is visible on the outer pollen grains of outer tetrads of a pollinium. The pollen grains are mostly arranged in planar-tetragonal tetrads or decussate tetrads and easily disintegrate into monads. Contrary to the inaperturate pollen in members of subfamily Epidendroideae known so far, C. longifolia exhibits ulcerate pollen. When pollen grains are attached in tetrads within a pollinium the apertures are obscured, as they are located on the proximal side of the pollen grains. The ulcus can only be observed when tetrads disintegrate, freeing the monads and exposing the proximal side of pollen grains for investigation by light and scanning electron microscopy. Proximal aperture configurations are rare among angiosperms and currently known only from few other species of flowering plants. This is the first report of an ulcerate proximal aperture within Orchidaceae. [ABSTRACT FROM AUTHOR]

Published

2024

10. Comparative case study of evolutionary insights and floral complexity in key early-diverging eudicot Ranunculales models.

Author

Sharma, Bharti, Pandher, Mankirat Kaur, Alcaraz Echeveste, Ana Quetzali, Bravo, Marianellie, Romo, Rene Kenny, and Ramirez, Sarah Christine

Subjects

CROPS, ANGIOSPERMS, RANUNCULALES, PLANT genomes, CORN

Abstract

Famously referred to as "Darwin's abominable mystery," the rapid diversification of angiosperms over the last ~140 million years presents a fascinating enigma. This diversification is underpinned by complex genetic pathways that evolve and rewire to produce diverse and sometimes novel floral forms. Morphological innovations in flowers are shaped not only by genetics but also by evolutionary constraints and ecological dynamics. The importance of model organisms in addressing the long-standing scientific questions related to diverse floral forms cannot be overstated. In plant biology, Arabidopsis thaliana , a core eudicot, has emerged as a premier model system, with its genome being the first plant genome to be fully sequenced. Similarly, model systems derived from crop plants such as Oryza sativa (rice) and Zea mays (maize) have been invaluable, particularly for crop improvement. However, despite their substantial utility, these model systems have limitations, especially when it comes to exploring the evolution of diverse and novel floral forms. The order Ranunculales is the earliest-diverging lineage of eudicots, situated phylogenetically between core eudicots and monocots. This group is characterized by its exceptional floral diversity, showcasing a wide range of floral morphologies and adaptations that offer valuable insights into the evolutionary processes of flowering plants. Over the past two decades, the development of at least five model systems including, Aquilegia , Thalictrum , Nigella , Delphinium and Eschscholzia within the Ranunculales order has significantly advanced our understanding of floral evolution. This review highlights the conservation and divergence of floral organ identity programs observed among these models and discusses their importance in advancing research within the field. The review also delves into elaborate petal morphology observed in Aquilegia , Nigella , and Delphinium genera, and further discusses the contributions, limitations, and future research directions for Ranunculales model systems. Integrating these diverse models from the early-diverging eudicot order has enhanced our understanding of the complex evolutionary pathways that shape floral diversity in angiosperms, bridging the knowledge gaps essential for a comprehensive understanding of floral evolution. [ABSTRACT FROM AUTHOR]

Published

2024

11. Comparison of Orchid Conservation Between China and Other Countries.

Author

Li, Shixing, Liang, Cuiyi, Deng, Shuwen, Chen, Chen, Yuan, Liangchen, Liu, Zhen, Wu, Shasha, Lan, Siren, Tang, Ziang, Liu, Zhongjian, and Zhai, Junwen

Subjects

*NONGOVERNMENTAL organizations, *PLANT conservation, *BIODIVERSITY conservation, *NATURE reserves, *ANGIOSPERMS

Abstract

Global attention is highly focused on biodiversity conservation. Various countries are actively implementing relevant conservation measures. To advance these efforts in China, it is essential to understand global conservation actions. The orchid family, one of the most diverse groups of flowering plants, has become a "flagship" group for plant conservation. In this study, we summarized 3418 policies and regulations related to orchid conservation in 45 countries. We found that orchid conservation actions in various countries have focused on in situ conservation, with 1469 policies and regulations issued for nature reserves, while ex situ conservation has been seriously neglected, with only seven relevant regulations. Most developing countries have experienced an increase in orchid conservation actions, while developed countries have plateaued. We amassed 370 non-governmental organizations (NGOs) for orchid conservation. At present, the total number of policies and regulations for orchid protection in China is approximately 84, with 67 issued since 2000. Two non-governmental organizations have been established for orchid conservation. Although the benefit of orchid conservation in China is significant, it still requires continuous improvement compared to many other countries. We recommend that the Chinese government draws on the experiences of the United States, Canada, and Australia in areas such as policy and regulation formulation, optimization of non-governmental organizations, and implementation of related conservation projects. Through learning and collaboration, challenges can be transformed into opportunities for development. [ABSTRACT FROM AUTHOR]

Published

2024

12. Where did they come from, where did they go? Niche conservatism in woody and herbaceous plants and implications for plant‐based paleoclimatic reconstructions.

Author

Quirk, Zack J., Smith, Selena Y., Paul Acosta, R., and Poulsen, Christopher J.

Subjects

*GEOLOGICAL time scales, *HERBACEOUS plants, *ANGIOSPERMS, *FOSSILS, *ZINGIBERACEAE

Abstract

Premise: The ecological conditions that constrain plants to an environmental niche are assumed to be constant through time. While the fossil record has been used previously to test for niche conservatism of woody flowering plants, additional studies are needed in other plant groups especially since they can provide insight with paleoclimatic reconstructions, high biodiversity in modern terrestrial ecosystems, and significant contributions to agriculture. Methods: We tested climatic niche conservatism across time by characterizing the climatic niches of living herbaceous ginger plants (Zingiberaceae) and woody dawn redwood (Metasequoia) against paleoniches reconstructed based on fossil distribution data and paleoclimatic models. Results: Despite few fossil Zingiberaceae occurrences in the latitudinal tropics, unlike living Zingiberaceae, extinct Zingiberaceae likely experienced paratropical conditions in the higher latitudes, especially in the Cretaceous and Paleogene. The living and fossil distributions of Metasequoia largely remain in the upper latitudes of the northern hemisphere. The Zingiberaceae shifted from an initial subtropical climatic paleoniche in the Cretaceous, toward a temperate regime in the late Cenozoic; Metasequoia occupied a more consistent climatic niche over the same time intervals. Conclusions: Because of the inconsistent climatic niches of Zingiberaceae over geologic time, we are less confident of using them for taxonomic‐based paleoclimatic reconstruction methods like nearest living relative, which assume a consistent climatic niche between extant and extinct relatives; we argue that the consistent climatic niche of Metasequoia is more appropriate for these reconstructions. Niche conservatism cannot be assumed between extant and extinct plants and should be tested further in groups used for paleoclimatic reconstructions. [ABSTRACT FROM AUTHOR]

Published

2024

13. The seed morphospace, a new contribution towards the multidimensional study of angiosperm sexual reproductive biology.

Author

Carta, Angelino, Vandelook, Filip, Ramírez-Barahona, Santiago, Chen, Si-Chong, Dickie, John, Steinbrecher, Tina, Thanos, Costas A, Moles, Angela T, Leubner-Metzger, Gerhard, and Mattana, Efisio

Subjects

*SEED coats (Botany), *COMPARATIVE biology, *BIOLOGICAL fitness, *COMPARATIVE method, *ENDOSPERM

Abstract

Background The evolutionary success of flowering plants is associated with the vast diversity of their reproductive structures. Despite recent progress in understanding angiosperm-wide trends in floral structure and evolution, a synthetic view of the diversity in seed form and function across angiosperms is lacking. Scope Here we present a roadmap to synthesize the diversity of seed forms in extant angiosperms, relying on the morphospace concept, i.e. a mathematical representation which relates multiple traits and describes the realized morphologies. We provide recommendations on how to broaden the range of measurable traits beyond mass, by using key morphological traits representative of the embryo, endosperm and seed coat but also fruit attributes (e.g. dehiscence, fleshiness). These key traits were used to construct and analyse a morphospace to detect evolutionary trends and gain insight into how morphological traits relate to seed functions. Finally, we outline challenges and future research directions, combining the morphospace with macroevolutionary comparative methods to underline the drivers that gave rise to the diversity of observed seed forms. Conclusions We conclude that this multidimensional approach has the potential, although still untapped, to improve our understanding of covariation among reproductive traits, and further elucidate angiosperm reproductive biology as a whole. [ABSTRACT FROM AUTHOR]

Published

2024

14. The Gongora gibba genome assembly provides new insights into the evolution of floral scent in male euglossine bee–pollinated orchids.

Author

Amador, Maria Fernanda Guizar, Darragh, Kathy, Liu, Jasen W, Dean, Cheryl, Bogarín, Diego, Pérez-Escobar, Oscar A, Serracín, Zuleika, Pupulin, Franco, and Ramírez, Santiago R

Subjects

*FLOWERING of plants, *ANGIOSPERMS, *CHROMOSOMES, *TERPENES, *GENOMES, *POLLINATORS, *POLLINATION, *ORCHIDS

Abstract

Orchidaceae is one of the most prominent flowering plant families, with many species exhibiting highly specialized reproductive and ecological adaptations. An estimated 10% of orchid species in the American tropics are pollinated by scent-collecting male euglossine bees; however, to date, there are no published genomes of species within this pollination syndrome. In this study, we present the first draft genome of an epiphytic orchid from the genus Gongora , a representative of the male euglossine bee–pollinated subtribe Stanhopeinae. The 1.83-Gb de novo genome with a scaffold N50 of 1.7 Mb was assembled using short- and long-read sequencing and chromosome capture (Hi-C) information. Over 17,000 genes were annotated, and 82.95% of the genome was identified as repetitive content. Furthermore, we identified and manually annotated 26 terpene synthase genes linked to floral scent biosynthesis and performed a phylogenetic analysis with other published orchid terpene synthase genes. The Gongora gibba genome assembly will serve as the foundation for future research to understand the genetic basis of floral scent biosynthesis and diversification in orchids. [ABSTRACT FROM AUTHOR]

Published

2024

15. Ad fontes: divergence‐time estimation and the age of angiosperms.

Author

Smith, Stephen A. and Beaulieu, Jeremy M.

Subjects

*FOSSILS, *LIFE history theory, *PALEOECOLOGY, *PLANT evolution, *ANGIOSPERMS

Abstract

Summary: Accurate divergence times are essential for interpreting and understanding the context in which lineages have evolved. Over the past several decades, debates have surrounded the discrepancies between the inferred molecular ages of crown angiosperms, often estimated from the Late Jurassic into the Permian, and the fossil record, placing angiosperms in the Early Cretaceous. That crown angiosperms could have emerged as early as the Permian or even the Triassic would have major implications for the paleoecological context of the origin of one of the most consequential clades in the tree of life. Here, we argue, and demonstrate through simulations, that the older ages inferred from molecular data and relaxed‐clock models are misled by lineage‐specific rate heterogeneity resulting from life history changes that occurred several times throughout the evolution of vascular plants. To overcome persistent discrepancies in age estimates, more biologically informed and realistic models should be developed, and our results should be considered in the context of their biological implications before we accept inferences that are a major departure from our strongest evidence. [ABSTRACT FROM AUTHOR]

Published

2024

16. Overexpression of lily MicroRNA156-resistant SPL13A stimulates stem elongation and flowering in Lilium formosanum under non-inductive (non-chilling) conditions.

Author

Masumi Yamagishi, Toshikazu Nomizu, and Takashi Nakatsuka

Subjects

SHOOT apexes, GENE expression, PLANT stems, GENETIC regulation, ANGIOSPERMS, LILIES

Abstract

Flowering plants undergo juvenile vegetative, adult vegetative, and reproductive phases. Lily plants (Lilium spp.) develop scaly leaves during their juvenile vegetative phase. Stem elongation occurs in the adult vegetative phase and is followed by floral transition. As the duration of the juvenile vegetative phase is long in lilies, the microRNA156 (miR156) and SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE (SPL) modules are expected to play a major role in vegetative phase change and flower induction. In the present study, we aimed to explore the functions of lily SLP13A. We evaluated phenotypic changes and gene expression in L. formosanum plants overexpressing miR156-resistant SPL13A (rSPL13A) and examined the accumulation levels of gene transcripts and mature miRNAs in non-transformed L. longiflorum plants. Lily plants overexpressing rSPL13A exhibited stem elongation under non-inductive conditions, and FLOWERING LOCUS T (FT) genes were poorly involved in this stem elongation. Flowering was induced in the transformed plants with elongated stems, and the accumulation of MADS5 (APETALA1) transcripts and mature miR172 was elevated in these plants. In non-transformed lilies, SPL13A transcripts were highly accumulated in the shoot apices of both juvenile and adult plants. As mature miR156 was poorly accumulated in the shoot apices of the adult plants, SPL13A was active enough to stimulate stem elongation and flower induction. In contrast, mature miR156 was reliably detected in shoot apices of the juvenile plants. Because our transient assay using tobacco plants expressing a SPL13A-GFP fusion protein indicated that miR156 repressed SPL13A expression mainly at the translational level, SPL13A activity should be insufficient to stimulate stem elongation in the juvenile plants. In addition, the accumulation of MADS5 transcripts and mature miR172 in the shoot apices increased with plant growth and peaked before the transition to the reproductive phase. Therefore, we conclude that SPL13A regulates stem elongation in the adult vegetative phase, which differs from the mechanisms evaluated in Arabidopsis and rice, wherein stem elongation proceeds in a reproductive phase and FT genes are heavily involved in it, and that SPL13A induces flowering by the activation of genes related to the age pathway underlying floral transition, as APETALA1 and primary-MIR172 are mainly involved in this pathway. [ABSTRACT FROM AUTHOR]

Published

2024

17. Ancient large‐scale gene duplications and diversification in bryophytes illuminate the plant terrestrialization.

Author

Shen, Chao, Li, Hao, Shu, Lei, Huang, Wen‐Zhuan, and Zhu, Rui‐Liang

Subjects

*CHROMOSOME duplication, *VASCULAR plants, *BRYOPHYTES, *ANGIOSPERMS, *GYMNOSPERMS

Abstract

Summary Large‐scale gene duplications (LSGDs) are crucial for evolutionary adaptation and recurrent in vascular plants. However, the role of ancient LSGDs in the terrestrialization and diversification of bryophytes, the second most species‐rich group of land plants, remains largely elusive due to limited sampling in bryophytes. Employing the most extensive nuclear gene dataset in bryophytes to date, we reconstructed a time‐calibrated phylogenetic tree from 209 species, covering virtually all key bryophyte lineages, for phylogenomic analyses of LSGDs and diversification. We newly identified two ancient LSGDs: one in the most recent common ancestor (MRCA) of extant bryophytes and another in the MRCA of the majority of Jungermanniales s. lato. Duplicated genes from these two LSGDs show significant enrichment in photosynthesis‐related processes and structures. Rhizoid‐responsive ROOTHAIR DEFECTIVE SIX‐LIKE (RSL) genes from ancient LSGDs are present in rhizoidless bryophytes, challenging assumptions about rhizoid absence mechanisms. We highlighted four major diversification rate upshifts, two of which slightly postdated LSGDs, potentially linked to the flourishing of gymnosperms and angiosperms and explaining over 80% of bryophyte diversity. Our findings, supported by extensive bryophyte sampling, highlight the significance of LSGDs in the early terrestrialization and diversification of bryophytes, offering new insights into land plant evolution. [ABSTRACT FROM AUTHOR]

Published

2024

18. E3 ubiquitin ligase IPI1 controls rice immunity and flowering via both E3 ligase-dependent and -independent pathways.

Author

Yi, Hong, Shi, Hui, Mao, Wei, Yin, Junjie, Ma, Yanyan, Xu, Li, Jing, Linjie, He, Min, Zhu, Xiaobo, Lu, Xiang, Xiong, Qing, Tang, Yongyan, Hou, Qingqing, Song, Li, Wang, Long, Li, Weitao, Yu, Hong, Chen, Xuewei, Li, Jiayang, and Wang, Jing

Subjects

*RICE blast disease, *FLOWERING time, *FLOWERING of plants, *DISEASE resistance of plants, *ANGIOSPERMS

Abstract

Immunity and flowering are energy-consuming processes. However, the mechanism underlying the balance between immunity and flowering remains to be elucidated. Here, we report that the E3 ligase ideal plant architecture 1 interactor 1 (IPI1) controls rice immunity and flowering via two different pathways, one dependent on and another independent of its E3 ligase activity. We found that IPI1, a RING-finger E3 ligase, interacts with another E3 ligase, AvrPiz-t-interacting protein 6 (APIP6), and protects APIP6 from degradation by preventing APIP6's self-ubiquitination. Stabilization of APIP6 by IPI1 requires no IPI1 E3 ligase activity and leads to degradation of APIP6 substrates via the ubiquitin-proteasome system (UPS). Meanwhile, IPI1 directly ubiquitinates OsELF3-1 and OsELF3-2, two homologs of EARLY FLOWERING3 (ELF3), targeting them for degradation via the 26S proteasome. IPI1 knockout plants display early flowering but compromised resistance to rice blast. Thus, IPI1 balances rice immunity and flowering via both E3 ligase-dependent and -independent pathways. [Display omitted] • IPI1 functions dependent on or independent of its E3 ligase activity • IPI1 protects APIP6 from degradation, independent of its E3 ligase activity • IPI1 promotes the degradation of OsELF3-1/OsELF3-2 dependent on its E3 ligase activity • IPI1 balances rice immunity and flowering Yi et al. demonstrate that the E3 ligase IPI1 inhibits flowering time by promoting the degradation of OsELF3-1, dependent on its E3 ligase activity, and enhances rice immunity by ubiquitinating OsELF3-2 and stabilizing APIP6, dependent and independent of its E3 ligase activity, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

19. Unravelling the microbiome of wild flowering plants: a comparative study of leaves and flowers in alpine ecosystems.

Author

Ramakrishnan, Dinesh Kumar, Jauernegger, Franziska, Hoefle, Daniel, Berg, Christian, Berg, Gabriele, and Abdelfattah, Ahmed

Subjects

*MOUNTAIN ecology, *WILD flowers, *WILD plants, *ANGIOSPERMS, *MOUNTAIN plants, *FUNGAL communities

Abstract

Background: While substantial research has explored rhizosphere and phyllosphere microbiomes, knowledge on flower microbiome, particularly in wild plants remains limited. This study explores into the diversity, abundance, and composition of bacterial and fungal communities on leaves and flowers of wild flowering plants in their natural alpine habitat, considering the influence of environmental factors. Methods: We investigated 50 wild flowering plants representing 22 families across seven locations in Austria. Sampling sites encompassed varied soil types (carbonate/silicate) and altitudes (450–2760 m). Amplicon sequencing to characterize bacterial and fungal communities and quantitative PCR to assess microbial abundance was applied, and the influence of biotic and abiotic factors assessed. Results: Our study revealed distinct bacterial and fungal communities on leaves and flowers, with higher diversity and richness on leaves (228 fungal and 91 bacterial ASVs) than on flowers (163 fungal and 55 bacterial ASVs). In addition, Gammaproteobacteria on flowers and Alphaproteobacteria on leaves suggests niche specialization for plant compartments. Location significantly shaped both community composition and fungal diversity on both plant parts. Notably, soil type influenced community composition but not diversity. Altitude was associated with increased fungal species diversity on leaves and flowers. Furthermore, significant effects of plant family identity emerged within a subset of seven families, impacting bacterial and fungal abundance, fungal Shannon diversity, and bacterial species richness, particularly on flowers. Conclusion: This study provides novel insights into the specific microbiome of wild flowering plants, highlighting adaptations to local environments and plant–microbe coevolution. The observed specificity indicates a potential role in plant health and resilience, which is crucial for predicting how microbiomes respond to changing environments, ultimately aiding in the conservation of natural ecosystems facing climate change pressures. [ABSTRACT FROM AUTHOR]

Published

2024

20. Expression‐based machine learning models for predicting plant tissue identity.

Author

Palande, Sourabh, Arsenault, Jeremy, Basurto‐Lozada, Patricia, Bleich, Andrew, Brown, Brianna N. I., Buysse, Sophia F., Connors, Noelle A., Das Adhikari, Sikta, Dobson, Kara C., Guerra‐Castillo, Francisco Xavier, Guerrero‐Carrillo, Maria F., Harlow, Sophia, Herrera‐Orozco, Héctor, Hightower, Asia T., Izquierdo, Paulo, Jacobs, MacKenzie, Johnson, Nicholas A., Leuenberger, Wendy, Lopez‐Hernandez, Alessandro, and Luckie‐Duque, Alicia

Subjects

*MACHINE learning, *PLANT cells & tissues, *GENE expression, *ANGIOSPERMS, *TISSUES

Abstract

Premise Methods Results Discussion The selection of Arabidopsis as a model organism played a pivotal role in advancing genomic science. The competing frameworks to select an agricultural‐ or ecological‐based model species were rejected, in favor of building knowledge in a species that would facilitate genome‐enabled research.Here, we examine the ability of models based on Arabidopsis gene expression data to predict tissue identity in other flowering plants. Comparing different machine learning algorithms, models trained and tested on Arabidopsis data achieved near perfect precision and recall values, whereas when tissue identity is predicted across the flowering plants using models trained on Arabidopsis data, precision values range from 0.69 to 0.74 and recall from 0.54 to 0.64.The identity of belowground tissue can be predicted more accurately than other tissue types, and the ability to predict tissue identity is not correlated with phylogenetic distance from Arabidopsis. k‐nearest neighbors is the most successful algorithm, suggesting that gene expression signatures, rather than marker genes, are more valuable to create models for tissue and cell type prediction in plants.Our data‐driven results highlight that the assertion that knowledge from Arabidopsis is translatable to other plants is not always true. Considering the current landscape of abundant sequencing data, we should reevaluate the scientific emphasis on Arabidopsis and prioritize plant diversity. [ABSTRACT FROM AUTHOR]

Published

2024

21. Leaf venation network architecture coordinates functional trade‐offs across vein spatial scales: evidence for multiple alternative designs.

Author

Matos, Ilaine Silveira, Boakye, Mickey, Niewiadomski, Izzi, Antonio, Monica, Carlos, Sonoma, Johnson, Breanna Carrillo, Chu, Ashley, Echevarria, Andrea, Fontao, Adrian, Garcia, Lisa, Kalantar, Diana, Madhavan, Srinivasan, Mann, Joseph, McDonough, Samantha, Rohde, James, Scudder, Meg, Sharma, Satvik, To, Jason, Tomaka, Connor, and Vu, Bradley

Subjects

*CONSTRUCTION costs, *VEINS, *HYDRAULICS, *ANGIOSPERMS, *DROUGHTS

Abstract

Summary: Variation in leaf venation network architecture may reflect trade‐offs among multiple functions including efficiency, resilience, support, cost, and resistance to drought and herbivory. However, our knowledge about architecture‐function trade‐offs is mostly based on studies examining a small number of functional axes, so we still lack a more integrative picture of multidimensional trade‐offs.Here, we measured architecture and functional traits on 122 ferns and angiosperms species to describe how trade‐offs vary across phylogenetic groups and vein spatial scales (small, medium, and large vein width) and determine whether architecture traits at each scale have independent or integrated effects on each function.We found that generalized architecture‐function trade‐offs are weak. Architecture strongly predicts leaf support and damage resistance axes but weakly predicts efficiency and resilience axes. Architecture traits at different spatial scales contribute to different functional axes, allowing plants to independently modulate different functions by varying network properties at each scale.This independence of vein architecture traits within and across spatial scales may enable evolution of multiple alternative leaf network designs with similar functioning. [ABSTRACT FROM AUTHOR]

Published

2024

22. First Report of cucumber mosaic virus in Zinnia elegans in Indonesia.

Author

Zahra, Hayu Alifia, Defitra, Nabilla Kurnialaili, Probowati, Wiwit, Randa-Zelyüt, Filiz, and Santosa, Adyatma Irawan

Subjects

FARM produce, PEST control, FLOWERING of plants, BEGOMOVIRUSES, ANGIOSPERMS, CUCUMBER mosaic virus, CUCUMBERS

Abstract

Zinnia elegans of Family Asteraceae is a flowering plant grown widely in gardens in Indonesia. The plant is also often integrated into pest management of different agricultural commodities as its colourful flowers may attract beneficial insects including natural enemies. A total of eight viral symptomatic and four non-symptomatic Z. elegans samples were collected from four districts in Kulon Progo and Sleman Regencies of Special Region of Yogyakarta. They were molecularly tested using two universal primer pairs for begomoviruses, and two specific primer pairs for cucumber mosaic virus (CMV, Cucumovirus) detections. The eight symptomatic samples were all positive for CMV but negative for begomoviruses infections. The four non-symptomatic samples were tested negative to begomoviruses and CMV. Partial RNA2 and RNA3 segments of four CMV isolates were sequenced to demonstrate that they are members of subgroup IB. 4Ze-Ngaglik isolate was shown to be mechanically transmitted to healthy Z. elegans and cucumber cv. Baresta (Cucumis sativus). To the best of our knowledge, this report confirmed the first CMV occurrence in Z. elegans in Indonesia. [ABSTRACT FROM AUTHOR]

Published

2024

23. Three New Species of Mytilinidioid Fungi (Dothideomycetes, Ascomycota) from Mexico.

Author

Raymundo, Tania, Martínez-González, César R., Martínez-Pineda, Michelle, Cobos-Villagrán, Aurora, Ramírez-Rosales, Isabel, and Valenzuela, Ricardo

Subjects

*BIVALVE shells, *LIQUIDAMBAR, *ACACIA, *ASCOMYCETES, *ANGIOSPERMS

Abstract

Mytilinidioid fungi are conchiform in nature, with the appearance of bivalve shells or wedge-shaped, rigid, brittle, and carbonaceous hysterothecia growing on the bark of gymnosperms or angiosperms. Based on their morphological characteristics and molecular markers (ITS and LSU), this study describes three new species of mytilinidioid fungi: Ericboehmia mexicana of the family Hysteriaceae of the order Hysteriales and Lophium pinicola and Mytilinidion mexicanum of the family Mytilinidiaceae of the order Mytilinidiales. The first species grows on Liquidambar styracyphlua, the second species grows on Pinus patula, and the third species grows on Acacia californica subsp. pringlei. The specimens studied were deposited in the ENCB Herbarium. [ABSTRACT FROM AUTHOR]

Published

2024

24. Chilling and Forcing Requirements of Wintersweet (Chimonanthus praecox L.) Flowering in China.

Author

Hao, Yulong, Dai, Junhu, Zhu, Mengyao, Cao, Lijuan, and Shahzad, Khurram

Subjects

CLIMATE change, ANGIOSPERMS, SPATIAL variation, PHENOLOGY, LEAST squares

Abstract

Numerous studies have reported phenological changes and their driving mechanisms in spring flowering plants. However, there is little research on the shifts of winter flowering phenology and its response to forcing and chilling requirements. Based on the China Phenological Observation Network (CPON) ground observation data from nine sites over the past 20 years, we explored the spatial and temporal variation patterns of flowering plants and their response to chilling and forcing in wintersweet (Chimonanthus praecox L.), a common winter flowering plant species in temperate and subtropical zones of China. We used three chilling models (chilling hour, Utah, and dynamic models) and the growing degree hours (GDHs) model to calculate each site's daily chilling and forcing. Using the partial least squares (PLSs) regression approach, we established the relationship between the first flowering date (FFD) and pre-season chilling and forcing in wintersweet, based on which we identified chilling and forcing periods and calculated chilling and forcing requirements. This study found that the FFD of wintersweet in China showed an overall advancement trend during the last 20 years. Still, there were temporal and spatial differences in the FFD of wintersweet among different sites. The PLS results showed that wintersweet also had periods of chilling and forcing, both of which co-regulated wintersweet flowering. We found the forcing and chilling requirements of wintersweet varied significantly from site to site. The higher the latitude is, the more chilling requirements are needed. The chilling requirements for wintersweet were about 6.9–34.9 Chill Portions (CPs) and 1.4–21.6 CP in the temperate and subtropical zones, respectively, with corresponding forcing requirements of 3.2–1922.9 GDH and 965.3–8482.6 GDH, respectively. In addition, we found that the temperature requirements of wintersweet were correlated by a negative exponential relationship, suggesting that chilling and forcing requirements have an antagonistic effect on initiating flowering phenology. Our results could help us understand how flowering dates of winter flowering plants respond to climate change. [ABSTRACT FROM AUTHOR]

Published

2024

25. Antibacterial phenolic compounds from the flowering plants of Asia and the Pacific: coming to the light

Author

Mazdida Sulaiman, Layane Ebehairy, Veeranoot Nissapatorn, Mohammed Rahmatullah, Jhonnel Villegas, Helina Jean Dupa, Ricksterlie C. Verzosa, Karma G. Dolma, Muhamad Shabaz, Scholastica Lanting, Nor Azizun Rusdi, Nor Hayati Abdullah, Mohammed Khaled Bin Break, Teng Jin Khoo, Wei Wang, and Christophe Wiart

Subjects

Angiosperms, antibiotics, Asia-Pacific, inflammation, superbugs, Therapeutics. Pharmacology, RM1-950

Abstract

Context The emergence of pan-resistant bacteria requires the development of new antibiotics and antibiotic potentiators.Objective This review identifies antibacterial phenolic compounds that have been identified in Asian and Pacific Angiosperms from 1945 to 2023 and analyzes their strengths and spectra of activity, distributions, molecular masses, solubilities, modes of action, structures-activities, as well as their synergistic effects with antibiotics, toxicities, and clinical potential.Methods All data in this review was compiled from Google Scholar, PubMed, Science Direct, Web of Science, and library search; other sources were excluded. We used the following combination of keywords: ‘Phenolic compound’, ‘Plants’, and ‘Antibacterial’. This produced 736 results. Each result was examined and articles that did not contain information relevant to the topic or coming from non-peer-reviewed journals were excluded. Each of the remaining 467 selected articles was read critically for the information that it contained.Results Out of ∼350 antibacterial phenolic compounds identified, 44 were very strongly active, mainly targeting the cytoplasmic membrane of Gram-positive bacteria, and with a molecular mass between 200 and 400 g/mol. 2-Methoxy-7-methyljuglone, [6]-gingerol, anacardic acid, baicalin, vitexin, and malabaricone A and B have the potential to be developed as antibacterial leads.Conclusions Angiosperms from Asia and the Pacific provide a rich source of natural products with the potential to be developed as leads for treating bacterial infections.

Published

2024

26. Take a Bough.

Author

BEALL, CAMERON and THOMPSON, MARK

Subjects

TRADITIONAL farming, CONTAINER gardening, ANGIOSPERMS, PINE needles, BALSAM fir

Abstract

The article from Southern Living provides tips on creating festive Christmas containers using natural elements like branches and blooms. Suggestions include using evergreens in baskets, planting amaryllis bulbs in glass vases, and arranging topiaries for a tabletop display. The author, Mark Thompson, also recommends using pink poinsettias and mini poinsettias for unique and easy-to-maintain arrangements. Thompson's advice emphasizes the use of seasonal greenery and proper care techniques to ensure longevity and vibrancy in the holiday decorations. [Extracted from the article]

Published

2024

27. ON THE TRAIL OF TROPICAL FRUIT.

Author

COPPA, GREG

Subjects

*ORNAMENTAL plants, *JACKFRUIT, *TROPICAL fruit, *ORANGES, *ANGIOSPERMS, *CITRUS greening disease, *CITRUS

Abstract

The article discusses the tropical fruit collection at Palma Sola Botanical Park in Florida. The park is home to the Manatee Rare Fruit Council (MRFC), which aims to introduce, propagate, and distribute rare tropical fruits. The park features a variety of exotic fruit trees, and visitors can learn about each specimen through detailed signage. The article highlights lesser-known fruits such as lychee, Brazilian grape, jackfruit, sugar apple, and black sapote. The park plans to expand its tree plantings and may provide fresh fruit to disadvantaged local people in the future. [Extracted from the article]

Published

2024

28. PART OF THE FAMILY 2: Berberidaceae.

Author

BRAND, ANDY

Subjects

*ORNAMENTAL plants, *ANGIOSPERMS, *PRESIDENTS of the United States, *MIXED forests, *DECIDUOUS forests, *LAVENDERS, *PERENNIALS

Abstract

The article discusses the plant family Berberidaceae, which is often associated with the invasive Japanese barberry. However, the article highlights that there are many other members of the family that have ornamental appeal and are unfairly disregarded. The family consists of 18 genera and approximately 700 species of trees, shrubs, and perennials, with a variety of flowers and colorful fruit displays. The article then goes on to discuss several specific plants from the family, including barrenwort, umbrella leaf, ranzania japonica, twinleaf, and blue cohosh, providing information on their characteristics and growing conditions. The author encourages readers to give these plants a chance and appreciate their beauty. [Extracted from the article]

Published

2024

29. Antioxidants by nature: an ancient feature at the heart of flavonoids' multifunctionality.

Author

Agati, Giovanni, Brunetti, Cecilia, dos Santos Nascimento, Luana Beatriz, Gori, Antonella, Lo Piccolo, Ermes, and Tattini, Massimiliano

Published

2025

30. Changing knowledge and attitudes through citizen science at schools

Author

Natalia Pirani Ghilardi-Lopes, Gustavo Bellini Monteiro, Jussara Almeida Bezerra, and Janaína Dutra Gonzalez

Subjects

angiosperms, curriculum competencies and skills, Science

Abstract

Improving scientific literacy among elementary and high school students is crucial. Here we report the learning outcomes of three Brazilian school initiatives that incorporated citizen science: 1. A cocreated one aimed at investigating biodiversity in a school garden; 2. A collaborative one focused on the phenology and life cycle of angiosperms; and 3. A collaborative initiative aimed at reducing food waste in schools. There is evidence that the initiatives promoted learning, such as: 1. Scientific content knowledge (life cycle of angiosperms, sustainable eating); 2. Procedural skills (asking productive questions; formulating clear and concise hypothesis; collecting precise and accurate data; drawing conclusions); 3. Improved self-efficacy for science; 4. Attitudes (reducing food waste, observing plants more frequently).

Published

2024

31. Comparative analyses suggest a link between mRNA splicing, stability, and RNA covalent modifications in flowering plants

Author

Kyle Palos, Anna C. Nelson Dittrich, Eric H. Lyons, Brian D. Gregory, and Andrew D. L. Nelson

Subjects

RNA covalent modifications, RNA, Comparative transcriptomics, RNA decay, Angiosperms, Botany, QK1-989

Abstract

Abstract Background In recent years, covalent modifications on RNA nucleotides have emerged as pivotal moieties influencing the structure, function, and regulatory processes of RNA Polymerase II transcripts such as mRNAs and lncRNAs. However, our understanding of their biological roles and whether these roles are conserved across eukaryotes remains limited. Results In this study, we leveraged standard polyadenylation-enriched RNA-sequencing data to identify and characterize RNA modifications that introduce base-pairing errors into cDNA reads. Our investigation incorporated data from three Poaceae (Zea mays, Sorghum bicolor, and Setaria italica), as well as publicly available data from a range of stress and genetic contexts in Sorghum and Arabidopsis thaliana. We uncovered a strong enrichment of RNA covalent modifications (RCMs) deposited on a conserved core set of nuclear mRNAs involved in photosynthesis and translation across these species. However, the cohort of modified transcripts changed based on environmental context and developmental program, a pattern that was also conserved across flowering plants. We determined that RCMs can partly explain accession-level differences in drought tolerance in Sorghum, with stress-associated genes receiving a higher level of RCMs in a drought tolerant accession. To address function, we determined that RCMs are significantly enriched near exon junctions within coding regions, suggesting an association with splicing. Intriguingly, we found that these base-pair disrupting RCMs are associated with stable mRNAs, are highly correlated with protein abundance, and thus likely associated with facilitating translation. Conclusions Our data point to a conserved role for RCMs in mRNA stability and translation across the flowering plant lineage.

Published

2024

32. Five newly recorded species of angiosperms from Shanxi Province

Author

WANG Gangshi, HAO Jue, JIA Zefan, SHI Baoling, and LIU Ruixia

Subjects

shanxi province, angiosperms, new records, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Abstract [Objective] The aim is to enrich the angiosperm germplasm resources in Shanxi Province, and promote research on biodiversity and forest ecosystems in Zhongtiao Mountain area. [Methods] Photoes of plant specimens and their typical features from Zhongtiao Mountains were collected through specimen identification, data access, and expert consultation, by conducting an extensive field survey of vegetation. [Results] Five species of angiosperms were newly recorded in Shanxi Province, including viz. Rumex acetosella L., Anemone narcissiflora subsp. protracta (Ulbrich) Ziman & Fedoronczuk, Cardamine flexuosa With., Impatiens lushiensis Y. L. Chen, and Physalis minima L.. [Conclusion] These plants belong to 5 families and 5 genera, which are newly recorded species of angiosperms from Shanxi Province. These discoveries enrich the angiosperms germplasm resources and provide a basis for the study of plant diversity and florogenesis in Zhongtiao Mountain Area.

Published

2024

33. 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

34. Morphological and Transcriptomic Analyses Reveal the Involvement of Key Metabolic Pathways in Male Sterility in Chimonanthus praecox (L.) Genotypes.

Author

Liu, Bin, Wu, Huafeng, Cao, Yinzhu, Zheng, Xiaowen, Zhu, Haoxiang, and Sui, Shunzhao

Subjects

STARCH metabolism, PLANT metabolism, FLOWERING trees, PLANT hormones, MALE sterility in plants, ANGIOSPERMS

Abstract

Chimonanthus praecox (Calycanthaceae family) is a unique ornamental and economic flowering tree in China, and after thousands of years of cultivation, it has produced several varieties and varietal types. Notably, male sterility is common in flowering plants and is an important tool for the genetic improvement in plants and optimization using hybrid plant technology; however, there have been no reports on male-sterile material or related studies on C. praecox. To our knowledge, this is the first time that C. praecox male sterility is dissected unveiling the involvement of key metabolic pathways. Notably, male sterility in C. praecox was observed during the budding period and likely occurred during the premature stage of pollen cell maturation. Additionally, differentially expressed genes in the starch and sucrose metabolism pathway and the plant hormone signal transduction pathway showed regular expression trends. This study reports on significant genetic differences that contribute to male sterility in C. praecox and provides a basis for further research and breeding strategies. [ABSTRACT FROM AUTHOR]

Published

2024

35. Data-centric AI approach for automated wildflower monitoring.

Author

Schouten, Gerard, Michielsen, Bas S. H. T., and Gravendeel, Barbara

Subjects

*ARTIFICIAL intelligence, *PUBLIC spaces, *ANGIOSPERMS, *NATURAL capital, *MARSHES

Abstract

We present the Eindhoven Wildflower Dataset (EWD) as well as a PyTorch object detection model that is able to classify and count wildflowers. EWD, collected over two entire flowering seasons and expert annotated, contains 2,002 top-view images of flowering plants captured 'in the wild' in five different landscape types (roadsides, urban green spaces, cropland, weed-rich grassland, marshland). It holds a total of 65,571 annotations for 160 species belonging to 31 different families of flowering plants and serves as a reference dataset for automating wildflower monitoring and object detection in general. To ensure consistent annotations, we define species-specific floral count units and provide extensive annotation guidelines. With a 0.82 mAP (@IoU > 0.50) score the presented baseline model, trained on a balanced subset of EWD, is to the best of our knowledge superior in its class. Our approach empowers automated quantification of wildflower richness and abundance, which helps understanding and assessing natural capital, and encourages the development of standards for AI-based wildflower monitoring. The annotated EWD dataset and the code to train and run the baseline model are publicly available. [ABSTRACT FROM AUTHOR]

Published

2024

36. Competition limits first-year growth and flowering of wiregrass (Aristida beyrichiana) at a sandhills restoration site.

Author

Love, Debriana T., Fill, Jennifer M., Zee, April, Tevlin, Sarah, Pérez, Héctor E., and Crandall, Raelene M.

Subjects

*NATIVE plants, *FIRE management, *ANGIOSPERMS, *RESTORATION ecology, *SOIL classification

Abstract

Uncertainty in ecosystem restoration can be mitigated by information on drivers of variability in restoration outcomes, especially through experimental study. In southeastern USA pine savannas, efforts to restore the perennial bunchgrass wiregrass (Aristida beyrichiana) often achieve variable outcomes in the first year. Although ecotypic differentiation and competition with other native vegetation are known to influence wiregrass seedling establishment and growth, to our knowledge, no studies have examined interactions between these drivers. We experimentally quantified individual and interactive effects of competition, seed source, and soil type on wiregrass density, size, and flowering culm production in the field. We sowed seeds from dry and wet sites reciprocally into dry and wet soils and weeded half of the plots. We found that competition removal resulted in significantly larger plants and a greater proportion of flowering plants with more culms on average, regardless of seed source or soil type. Seeds sourced from a wet site resulted in more plants per plot than seeds from a dry site, which might have been influenced by the greater number of filled seeds from the wet site. After seedlings become established, competition contributes to variation in growth and reproduction. Although competition removal could help start wiregrass populations, the necessity of mitigation depends on fire management needs. [ABSTRACT FROM AUTHOR]

Published

2024

37. Expansion of the distribution range of angiosperm species for the states of Maranhão and Tocantins, Brazil, through a territorial action plan.

Author

Marinho, Lucas C., Scatigna, André V., Garcia, Amanda L., Castro, Ellen Thamara S., Amorim, Gabriela, Silva, Fabio A., Mendes, Jone Clebson R., Pimenta, Karena M., Feitosa, Natércia Camille V., and Ferreira, Alessandro W.C.

Subjects

*ANGIOSPERMS, *ARISTOLOCHIACEAE

Abstract

We expand the geographical distribution of 10 angiosperm species in Maranhão and Tocantins states. The species were collected during two field expeditions carried out by the Territorial Action Plan for the conservation of endangered species of the Meio Norte Territory between September 20 and 30, 2022 and between July 24 and 30, 2023, in both states. Photographs, comments on morphology and distribution-al data are provided for species of Acanthaceae, Aristolochiaceae, Euphorbiaceae, Myrtaceae, Orchidace-ae, Plantaginaceae, Pontederiaceae and Turneraceae. [ABSTRACT FROM AUTHOR]

Published

2024

38. Developing Asparagaceae1726: An Asparagaceae‐specific probe set targeting 1726 loci for Hyb‐Seq and phylogenomics in the family.

Author

Bentz, Philip C. and Leebens‐Mack, Jim

Subjects

*ASPARAGACEAE, *ANGIOSPERMS, *LOCUS (Mathematics), *TOPOLOGY, *RNA

Abstract

Premise: Target sequence capture (Hyb‐Seq) is a cost‐effective sequencing strategy that employs RNA probes to enrich for specific genomic sequences. By targeting conserved low‐copy orthologs, Hyb‐Seq enables efficient phylogenomic investigations. Here, we present Asparagaceae1726—a Hyb‐Seq probe set targeting 1726 low‐copy nuclear genes for phylogenomics in the angiosperm family Asparagaceae—which will aid the often‐challenging delineation and resolution of evolutionary relationships within Asparagaceae. Methods: Here we describe and validate the Asparagaceae1726 probe set (https://github.com/bentzpc/Asparagaceae1726) in six of the seven subfamilies of Asparagaceae. We perform phylogenomic analyses with these 1726 loci and evaluate how inclusion of paralogs and bycatch plastome sequences can enhance phylogenomic inference with target‐enriched data sets. Results: We recovered at least 82% of target orthologs from all sampled taxa, and phylogenomic analyses resulted in strong support for all subfamilial relationships. Additionally, topology and branch support were congruent between analyses with and without inclusion of target paralogs, suggesting that paralogs had limited effect on phylogenomic inference. Discussion: Asparagaceae1726 is effective across the family and enables the generation of robust data sets for phylogenomics of any Asparagaceae taxon. Asparagaceae1726 establishes a standardized set of loci for phylogenomic analysis in Asparagaceae, which we hope will be widely used for extensible and reproducible investigations of diversification in the family. [ABSTRACT FROM AUTHOR]

Published

2024

39. New Insights into the Diversity of Mitochondrial Plastid DNA.

Author

Nam, Nguyen Nhat, Thi, Nguyen Pham Anh, and Do, Hoang Dang Khoa

Subjects

*MITOCHONDRIAL DNA, *PHANEROGAMS, *GENOMES, *ANGIOSPERMS, *RUTACEAE, *CHLOROPLAST DNA

Abstract

The mitochondrial plastid DNAs (MTPTs) in seed plants were reported more than 40 years ago and exhibited a high diversity regarding gene content, quantity, and size. However, the mechanism that resulted in the current diversity of MTPTs in angiosperms has not been fully discovered. In this study, we sequenced and characterized the complete organelle genomes of Limonia acidissima L. a monotypic species of Rutaceae. The newly generated and previously published organelle genomes of 42 species were used to explore the diversity of MTPTs regarding quantity, gene content, size, and coverage of chloroplast genome (cpDNA) regions. The results showed that the number of MTPTs ranged from three to 74, of which the lengths were from 100 to 53,731 bp. The highest coverage of MTPTs was found in the inverted repeat region, whereas the small single repeat region had the lowest coverage. Based on the previous data and current results, we propose a scenario for the diversity of MTPTs in angiosperms. In the first stage, the whole cpDNA might migrate to the mitogenome. Then, different genomic events, such as duplication, deletion, substitution, and inversion, have occurred continuously and independently and resulted in extremely variable profiles of mitogenomes among angiosperms. Our hypothesis provides a new and possibly reliable scenario for explaining the present circumstances of MTPTs in angiosperms. However, more genomic data should be mined, and more studies should be conducted to clarify this natural phenomenon in plants. [ABSTRACT FROM AUTHOR]

Published

2024

40. Unraveling Evolutionary Dynamics: Comparative Analysis of Chloroplast Genome of Cleomella serrulata from Leaf Extracts.

Author

Vasquez, Madelynn K., Stock, Emma K., Terrell, Kaziah J., Ramirez, Julian, and Kyndt, John A.

Subjects

*MOUNTAIN plants, *HONEY plants, *NATIVE plants, *PLANT evolution, *ANGIOSPERMS, *CHLOROPLAST DNA

Abstract

Cleomella serrulata is a native flowering plant found in North America. Even though this plant is of ecological and native medicinal importance, very little is known about the genomic makeup of Cleomella and the Cleomaceae family at large. Here, we report the complete chloroplast genome of Cleomella serrulata and provide an evolutionary comparison to other chloroplast genomes from Cleomaceae and closely related families. This study not only confirms the taxonomic placement of Cleomella as a distinct genus, but also provides phylogenetic insights that imply potential adaptive strategies and evolutionary mechanisms driving the genomic diversity of the Cleomella genus. Whole-genome-based and ANI comparisons indicate that the Cleomella species form a distinct clade that is about equidistant from the other Cleomaceae genera as it is from the genera from the nearby Capparaceae and Brassicaceae. This is the first complete chloroplast-based phylogenetic comparison of Cleomella species to other related genera and helps refine the complex taxonomic distinctions of Cleomaceae. [ABSTRACT FROM AUTHOR]

Published

2024

41. Extinct or Not? Confirming the "Extinct" Status of Hieracium tolstoii (Asteraceae) with Integrated Taxonomic Investigation.

Author

Fainelli, Federico, Baldesi, Giacomo, Pallanza, Mattia, and Orsenigo, Simone

Subjects

*ENDEMIC species, *BOTANICAL specimens, *FLOWERING of plants, *ANGIOSPERMS, *SPECIES hybridization, *BIOLOGICAL extinction

Abstract

Hieracium is one of the largest flowering plant genera that has recently experienced a rapid evolutionary radiation. Due to the massive morphological variation among species, frequent hybridization, and polyploidization events, combined with apomictic reproduction in polyploids, the concept of species in Hieracium is widely debated, and species identification is incredibly challenging. Taxonomic investigation can lead to changes in conservation status or, in some cases, to de-extinctions of species. Taxa with doubtful classification are particularly sensitive to this kind of problem. Hieracium tolstoii was a narrow Italian endemic species that is nowadays considered extinct. Described as a morphological intermediate form between two other species, no further investigations were conducted after its first description. To clarify H. tolstoii's origin and ensure the validity of its current conservation status, we conducted a taxonomic investigation on herbaria specimens of the early XX century. Specimens were studied using a morphometric analysis that compared H. tolstoii with other closely related taxa. Moreover, we performed phylogenetic investigations using three plastid intergenic spacers to evaluate the relationship between species. Plastid markers revealed the presence of indels and SNPs in H. tolstoii sequences that differ from sequences of the supposed parental species. Morphometry revealed differences among species that led us to confirm the validity of H. tolstoii as an independent apomictic species and, therefore, unfortunately, its extinction. [ABSTRACT FROM AUTHOR]

Published

2024

42. Allocation of nitrogen and phosphorus in the leaves, stems, and roots of Artemisia: a case study in phylogenetic control.

Author

Dechun Jiang, Haiyang Gong, Niklas, Karl J., and Zhiqiang Wang

Subjects

ARTEMISIA, EXPONENTS, ANGIOSPERMS, NITROGEN, PHOSPHORUS

Abstract

Introduction: The allocation of nitrogen (N) and phosphorus (P) among plant organs is an important strategy affecting growth and development as well as ecological processes in terrestrial ecosystems. However, due to lack of systematic investigation data, the allocation strategies of N and P in the three primary plant organs (e.g., leaves, stems and roots) are still unclear. Methods: A total of 912 individuals of 62 Artemisia species were examined across a broad environmental expanse in China, and the N and P concentrations of leaves, stems and roots were measured to explore the allocation strategies in different subgenera, ecosystem types, and local sites. Results and discussion: Across all 62 species, the N vs. P scaling exponents for leaves, stems and roots were 0.67, 0.59 and 0.67, respectively. However, these numerical values differed among subgenera, ecosystem types, and local sites. Overall, the numerical values of N vs. P scaling exponents comply with a 2/3- power function for each Artemisia organ-type reflecting a phylogenetically conserved allocation strategy that has nevertheless diversified with respect to local environmental conditions. These results inform our understanding of N and P stoichiometric patterns and responses to abiotic factors in an ecologically broadly distributed angiosperm genus. [ABSTRACT FROM AUTHOR]

Published

2024

43. Fast mvSLOUCH: Multivariate Ornstein–Uhlenbeck‐based models of trait evolution on large phylogenies.

Author

Bartoszek, Krzysztof, Tredgett Clarke, John, Fuentes‐González, Jesualdo, Mitov, Venelin, Pienaar, Jason, Piwczyński, Marcin, Puchałka, Radosław, Spalik, Krzysztof, and Voje, Kjetil Lysne

Subjects

COMPARATIVE method, VASCULAR plants, ANGIOSPERMS, HYPOTHESIS

Abstract

Copyright of Methods in Ecology & Evolution is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

44. Macrophytes as Key Element to Determine Ecological Quality Changes in Transitional Water Systems: The Venice Lagoon as Study Case.

Author

Sfriso, Adriano, Buosi, Alessandro, Tomio, Yari, Silan, Giulia, Wolf, Marion Adelheid, Sciuto, Katia, and Sfriso, Andrea Augusto

Subjects

BIOTIC communities, ECOLOGICAL assessment, ENVIRONMENTAL monitoring, BIOLOGICAL monitoring, ANGIOSPERMS, MACROPHYTES, LAGOONS

Abstract

According to European Union guidelines, the assessment of the ecological status of Transitional Water Systems (TWSs) should be based on the monitoring of biological communities rather than physico-chemical parameters and pollutants. Macrophytes, including aquatic angiosperms and macroalgae, are organisms that respond more quickly to environmental changes by varying the structure and biomass of their assemblages. There are several ecological indices based on macrophytes, among them the Macrophyte Quality Index (MaQI), which has been intercalibrated with water and sediment parameters, nutrient concentrations, and pollutants and is used to determine the ecological status of Italian TWSs. In the Venice Lagoon, it was applied to 87 stations, showing a significant score increase over the last ten years of monitoring (2011–2021) due to progressive lagoon environmental recovery. The dominant taxa assemblages, previously dominated by Ulvaceae, were replaced by species of higher ecological value, with an increase in the number and distribution of sensitive species, as well as the spread and cover of aquatic angiosperms. The rise in the Ecological Quality Ratio (EQR) determined by the MaQI confirms the key role of macrophyte monitoring in detecting environmental changes in TWSs. In fact, a simple check of the presence or absence of aquatic angiosperms and sensitive species is sufficient for an initial rapid assessment of the ecological status of these environments. [ABSTRACT FROM AUTHOR]

Published

2024

45. Novel Perspectives on Chloroplast tRNA Genomic and Structural Variations Imply the Evolution of Papilionoideae (Fabaceae).

Author

Han, Shiyun, Zhang, Sijia, Peng, Hui, Ge, Wen, Yang, Jianke, Wu, Huaqin, Dai, Chenwei, Zhu, Bo, and Kan, Xianzhao

Subjects

LEGUMES, ANGIOSPERMS, TRANSFER RNA

Abstract

Papilionoideae is the most species-rich subfamily of the third largest angiosperm family Fabaceae. One constituent large group, the inverted-repeat-lacking clade (IRLC), is well-known for the broad loss of one IR copy. Accumulating observations of massive plastomic disparities have made IRLC a well-suited model for exploring plastome evolution. However, there is still a large amount left to explore. The present study focused on the plastid tRNA (pttRNA) evolution within Papilionoideae, employing the currently densest sampling strategies for both the IRLC (156) and non-IRLC (109) lineages. Strikingly, our results revealed abundant inter-lineage variabilities in both tRNA sequences and structures, including a 3 nt difference in the average size of trnS-UGA, the consensus sequence disparities across 29 tRNAs, the distinct 3 nt indels in trnA-UGC, and an impressive 248 nt intron loss of IRLC trnI-GAU (potential markers). Additionally, there was unequal stability of the atypical secondary structures in trnS-GGA and trnS-UGA, as well as significantly diverse compositions of substitution events in all compared tRNAs (p < 0.05). Ultimately, these findings not only demonstrate the significant differences and unique markers of IRLC pttRNAs compared to other non-IRLC Papilionoideae, but also draw an important conclusion that the large losses of one IR potentially promote highly diverse evolutionary patterns of IRLC, which could partly compensate for the potential IR-lacking impacts. [ABSTRACT FROM AUTHOR]

Published

2024

46. A Review of the Pharmacological Effects of Solanum muricatum Fruit (Pepino Melon).

Author

Chan, Hei-Tung Lydia, Chan, Ka-Man, Abhreet-Kaur, Sam, Sze-Wing, and Chan, Shun-Wan

Subjects

INSULIN sensitivity, INSULIN resistance, ANGIOSPERMS, VITAMIN C, NUTRITIONAL value, SOLANACEAE

Abstract

Solanaceae, commonly known as nightshade, is a diverse family of flowering plants comprising around 90 genera and an estimated 3000–4000 species. Solanaceae spp. and its various fruits, including pepino (Solanum muricatum), commonly known as pepino melon, are widely recognized by the public for their nutritional value and pharmacological effects. Pepino melon, in particular, is often enjoyed as a fresh dessert or salad due to its juicy flesh. Given its beneficial properties, the potential of pepino melon to be developed as a functional food has been extensively studied. This review aims to provide a comprehensive summary of the reported pharmacological effects of the active compounds found in pepino plant and melon. Among these compounds, polyphenols, notably quercetin, and vitamin C have demonstrated notable antioxidant properties such as scavenging free radicals, effectively protecting against free-radical damage. Moreover, these active ingredients provide pepino with anti-inflammatory properties by inhibiting the expression of proinflammatory cytokines and enzymes, thereby reducing nitric oxide production. Additionally, they have shown promise in selectively targeting cancer cells, exhibiting anti-cancer properties. Furthermore, the active compounds such as quercetin in pepino have been associated with anti-diabetic effects, improving insulin sensitivity and inhibiting insulin resistance. Overall, this review highlights the diverse and significant pharmacological effects of the active compounds found in pepino melon, emphasizing its potential as a valuable functional food. [ABSTRACT FROM AUTHOR]

Published

2024

47. RcOST1L phosphorylates RcPIF4 for proteasomal degradation to promote flowering in rose.

Author

Sun, Jingjing, Liu, Hongchi, Wang, Weinan, Fan, Chunguo, Yuan, Guozhen, Zhou, Rui, Lu, Jun, Liu, Jinyi, and Wang, Changquan

Subjects

*FLOWERING of plants, *FLOWERING time, *LIGHT intensity, *ANGIOSPERMS, *VALUE (Economics)

Abstract

Summary: Flowering is a vital agronomic trait that determines the economic value of most ornamental plants. The flowering time of rose (Rosa spp.) is photoperiod insensitive and is thought to be tightly controlled by light intensity, although the detailed molecular mechanism remains unclear.Here, we showed that rose plants flower later under low‐light (LL) intensity than under high‐light (HL) intensity, which is mainly related to the stability of PHYTOCHROME‐INTERACTING FACTORs (RcPIFs) mediated by OPEN STOMATA 1‐Like (RcOST1L) under different light intensity regimes.We determined that HL conditions trigger the rapid phosphorylation of RcPIFs before their degradation. A yeast two‐hybrid screen identified the kinase RcOST1L as interacting with RcPIF4. Moreover, RcOST1L positively regulated rose flowering and directly phosphorylated RcPIF4 on serine 198 to promote its degradation under HL conditions. Additionally, phytochrome B (RcphyB) enhanced RcOST1L‐mediated phosphorylation of RcPIF4 via interacting with the active phyB‐binding motif. RcphyB was activated upon HL and recruited RcOST1L to facilitate its nuclear accumulation, in turn leading to decreased stability of RcPIF4 and flowering acceleration.Our findings illustrate how RcPIF abundance safeguards proper rose flowering under different light intensities, thus uncovering the essential role of RcOST1L in the RcphyB–RcPIF4 module in flowering. [ABSTRACT FROM AUTHOR]

Published

2024

48. Unique Jurassic Ovaries Shed a New Light on the Nature of Carpels.

Author

Fu, Qiang, Sun, Jie, Zheng, Shaolin, and Wang, Xin

Subjects

GENITALIA, CARPEL, ANGIOSPERMS, FOSSILS, OVARIES, OVULES

Abstract

Enclosed ovules are a reproductive feature restricted to angiosperms. Although this feature can be used as a criterion for identifying fossil angiosperms, how ovules are enclosed and the nature of the placenta are still foci of debates. A reason underlying these controversies is the lack of reproductive organ fossils shedding light on these issues. These controversies hinder a clear understanding of angiosperm evolution and systematics. Here, we report a new fossil ovary, Xenofructus dabuensis gen. et sp. nov, from the Middle Jurassic of Liaoning, China. Our fossil clearly demonstrates the existence of ovules in Xenofructus that has a free central placentation. This new feature implies that a placenta in angiosperm gynoecia is homologous to an ovule/seed-bearing axis, and free central placentation is one of the early developed placentations. This discovery is apparently at odds with the current understanding of placentation and its evolution. Apparently, the understanding of angiosperms and their gynoecia should be updated with newly available palaeobotanical data. [ABSTRACT FROM AUTHOR]

Published

2024

49. GhSWEET42 Regulates Flowering Time under Long-Day Conditions in Arabidopsis thaliana.

Author

Du, Mengxue, Wang, Deying, Li, Jingyu, Zhu, Taotao, Lyu, Peng, Li, Gang, Ding, Yi, Liu, Xinxin, Men, Qingmei, Li, Xiaofei, Sun, Yongwang, Meng, Lingzhi, and Guo, Shangjing

Subjects

FLOWERING time, FLOWERING of plants, GENE expression, TRANSCRIPTION factors, ANGIOSPERMS, COTTON

Abstract

Flowering in plants is pivotal for initiating and advancing reproductive processes, impacting regional adaptation and crop yield. Despite numerous cloned and identified flowering time genes, research in cotton remains sparse. This study identified GhSWEET42 as a key determinant of the flowering time in cotton, demonstrating that its heterologous expression in Arabidopsis accelerated flowering under LD conditions compared to WT. Transgenic plants exhibited upregulated expression of the flowering inducers AtFT, AtSOC1, AtGI, and AtFKF1, alongside downregulated expression of the repressors AtTSF, AtFLC, and AtRGL2, correlating with the earlier flowering phenotype. GhSWEET42 showed a constitutive expression pattern, with elevated levels in the leaves, petals, and flower buds, and was notably higher in early-maturing cotton varieties. Subcellular localization assays confirmed GhSWEET42's presence on the cell membrane. Transcriptome analysis between WT and GhSWEET42-overexpressing Arabidopsis plants revealed 2393 differentially expressed genes (DEGs), spanning 221 biological processes, 93 molecular functions, and 37 cellular components according to Gene Ontology (GO) enrichment analysis. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis categorized the DEGs into metabolism and environmental information processing. These findings enhance the understanding of GhSWEET42's function and provide a foundation for elucidating the molecular mechanisms governing flowering time regulation in cotton. [ABSTRACT FROM AUTHOR]

Published

2024

50. Adaptive responses to elevated CO2 in fruit species with different phloem loading mechanisms.

Author

Davoudi, Marzieh, Kalantzis, Spyridon, and Petridis, Antonios

Subjects

ANGIOSPERMS, FLOWERING of plants, PHYSIOLOGICAL adaptation, FRUIT development, GAS analysis, STRAWBERRIES, TOMATOES

Abstract

Introduction: It has been suggested that the mechanism of phloem loading, that is apoplastic or symplastic loading, may affect a plant's ability to adapt to elevated CO2 levels. Strawberry (Fragaria × ananassa) and tomato (Solanum lycopersicum) are two fruit crops that use different mechanisms to load sugars into the phloem - the former symplastically and the latter apoplastically - yet both species can increase their yields when grown in a CO2-enriched environment. In this study, we subjected strawberry and tomato plants to long-term CO2 enrichment to determine the morphological and physiological adaptations that enable them to increase their yields in response to higher CO2 levels. Methods: Transplanted tomato and strawberry plants were subjected to ambient (400 ppm) and elevated (800 ppm) CO2 for three months. We examined various parameters associated with growth, yield, photosynthesis, and carbon allocation by means of phenotyping, gas exchange analysis, and 13C labelling combined with isotope ratio mass spectrometry. Results: We found that CO2 enrichment promoted growth and reproductive development in both species, resulting in more flowers per plant (tomato and strawberry), larger crown (strawberry), and, eventually, higher yields. Gas exchange analysis and A/ci curves revealed that elevated CO2 increased carbon assimilation rate in strawberry, but not in tomato - the latter being limited by Rubisco's carboxylation efficiency. Finally, whereas both species prioritized fruit development over the development of other sink organs, they were both limited by carbon export at elevated CO2, since new photoassimilates were equally distributed to various sinks between CO2 treatments. Discussion: The findings suggest that both species will benefit from future increases in CO2 levels and support current glasshouse practices entailing CO2 enrichment. Those benefits probably stem from an enhanced performance of both species at early developmental stages, as differences in carbon assimilation rate (tomato) and carbon allocation between treatments at late developmental stages were absent. Moreover, crop adaptation to elevated CO2 seems to depend on the ability of each species to respond to elevated CO2, rather than on the phloem loading mechanism per se. [ABSTRACT FROM AUTHOR]

Published

2024