Your search keyword '"Ovules"' showing total 2,154 results

1. Preferential Carbon Allocation Into Vegetative Ramets and Belowground Organs During the Seed‐Filling Stage Limits Seed Set in Leymus chinensis.

Author

Ao, Yunna, Wang, Zhiqi, Yang, Xinran, Knops, Johannes M. H., Wang, Jiao, Shi, Yujie, and Wang, Junfeng

Subjects

*CARBON cycle, *GRASSLANDS, *SEED industry, *OVULES, *PERENNIALS, *CARBON fixation

Abstract

Clonal perennial grasses are the dominant species in almost all natural grasslands, however their seed production is typically low. The reasons why seed set is so low remains unclear. We studied a rhizomatous grass (Leymus chinensis) using 13C tracing the different photosynthetic organs to investigate carbon fixation and allocation during the seed‐filling stage. We found that the vegetative ramet leaves are the largest (81%) source for total plant fixed carbon, whereas almost all carbon is allocated to vegetative reproduction. The spike is the largest (54%) carbon source for the seeds. However, the spike produced carbon only allocated 37% to the seeds, with the majority allocated to vegetative reproduction. This preferential carbon allocation to vegetative reproduction limits sexual reproduction. Nitrogen application significantly increased assimilated carbon. However, nearly all increased carbon accumulated in the vegetative reproduction rather than in the seeds. Only the carbon produced by the spike increased its allocation to the seeds by 13%. Taken together, we conclude that the predominance of vegetative reproduction, combined with self‐incompatibility, results in low ovule fertilization and very weak seed sink strength for carbon competition, suggests that the weak seed sink strength is the key reason causing low seed set in L. chinensis. Summary statement: The key reason of perennial grasses poor seed‐setting is a result of its weak sink strength. We recognized that the Leymus chinensis may represent a subset of the perennial grasses that seed in summer, whereas most perennial grasses seed in fall. The latter group has stronger seed sink strength. [ABSTRACT FROM AUTHOR]

Published

2025

2. 北美冬青奥斯特在滇中地区引种的坐果特性.

Author

解玮佳, 彭绿春, 李世峰, 汤再祥, 段学强, and 宋 杰

Subjects

*POLLEN tube, *POLLINATION, *FRUIT ripening, *FERTILITY, *OVULES, *POLLEN

Abstract

The central Yunnan region has become an important planting area of Ilex verticillat in China. In order to solve the problem of uneven Ilex verticillat cut/potted quality in the local area, provide reference for the formation of cultivation measures and the management of fruit-setting stage for Ilex verticillat Oosterwijk in the central Yunnan region, in this study, taking Ilex verticillat Oosterwijk planted in Anning as the test material, its phenology was observed, the pollen vitality of male flowers and the stigma receptivity of female flowers were measured, and the fruit growth and development was observed through artificial pollination. The results showed that Ilex verticillat Oosterwijk planted in the central Yunnan region sprouted in the middle of March, branched in the early of April, bloomed in the middle of May, fruit-enlarged from the early of June to the early of September, and fruit-ripened from the middle of September to the early of October. The germination rate of fresh pollen from male flowers was 8.68% by cultured in vitro for 1 hour and 25.12% by cultured in vitro for 6 hours, and the fresh pollen germination rate on the female stigma reached 75.23%, the average length of pollen tubes was 1 088.70 μm at 2 days after pollination and entered the ovules, which indicated that the female and male flower had normal fertility. And it took approximately 100 days to getting-red fruits and 125 days to the ripen fruits after the artificial pollination. And its dynamic growth curve was fast at first and then slow, showing a single S curve. [ABSTRACT FROM AUTHOR]

Published

2025

3. Multifaceted roles of TCP transcription factors in fate determination.

Author

Wang, Yutao, Cao, Yu, and Qin, Genji

Subjects

*PLANT morphogenesis, *PLANT diversity, *TRANSCRIPTION factors, *GYNOECIUM, *OVULES

Abstract

Summary: Fate determination is indispensable for the accurate shaping and specialization of plant organs, a process critical to the structural and functional diversity in plant kingdom. The TEOSINTE BRANCHED 1/CYCLOIDEA/PROLIFERATING CELL FACTOR (TCP) family of transcription factors has been recognized for its significant contributions to plant organogenesis and morphogenesis. Recent research has shed light on the pivotal roles that TCPs play in fate determination. In this review, we delve into the current understanding of TCP functions, emphasizing their critical influence on fate determination from the organelle to the cell and organ levels. We also consolidate the molecular mechanisms through which TCPs exert their regulatory effects on fate determination. Additionally, we highlight intriguing points of TCPs that warrant further exploration in future research endeavors. [ABSTRACT FROM AUTHOR]

Published

2025

4. A comparative analysis of gamete production in distylous Primula: Associations with floral traits and elevation.

Author

Yuan, Shuai, Zeng, Gui, Barrett, Spencer C. H., Xu, Yuan, Hao, Kai, Luo, Shixiao, and Zhang, Dianxiang

Subjects

*COMPARATIVE method, *GENITALIA, *POLLEN, *OVULES, *GAMETES, *PRIMROSES

Abstract

Despite the importance of gamete production this topic has rarely been investigated in angiosperms using comparative approaches. Here, we investigated pollen and ovule numbers per flower in 73 species and 99 populations of Primula comprising both distylous and homostylous reproductive systems. We investigated whether phylogenetic relationships influenced associations between variation in gamete production, floral traits and elevation, and whether the evolutionary breakdown of distyly to homostyly resulted in parallel changes to gamete production. We used a Bayesian approach facilitated by the MCMCglmm method to model pollen and ovule traits across species and determined whether they exhibited phylogenetic signals. We detected significant positive correlations between pollen number and elevation in both the long‐styled and short‐styled morphs (L‐morph and S‐morph, respectively), whereas ovule number was not influenced by elevation. Pollen production was significantly higher in the L‐morph than in the S‐morph, but there was no significant difference between morphs in ovule number. Pollen volume exhibited a positive correlation with the style length of compatible morphs. The transition from distyly to homostyly was associated with significant decreases in pollen production but not ovule number. Our findings demonstrate the importance of elevation on pollen production, perhaps because of selection to improve pollen‐transfer efficiency in uncertain pollinator environments. In contrast, ovule number variation appears to be more constrained by phylogenetic relationships. Our comparative analyses of a well defined angiosperm lineage highlight the complex interactions between intrinsic and extrinsic factors influencing gamete production in plants and emphasize the importance of considering pollen and ovule data separately. [ABSTRACT FROM AUTHOR]

Published

2024

5. Two new species of Late Devonian seed Cosmosperma from Zhejiang and Anhui, South China.

Author

Liu, Le, Wang, De‐Ming, Zhou, Yi, Qin, Min, Xu, Peng, and Mu, Jia‐Jun

Subjects

*PLANT evolution, *PHANEROGAMS, *OVULES, *UPLANDS, *SEEDS, *DEVONIAN Period

Abstract

The earliest ovules or seeds widely reported from the Late Devonian (Famennian) are crucial for understanding the evolution of seed plants. Cosmosperma, the first Devonian seed documented in China and East Asia, is characterized by cupules with multiple segments enclosing a single ovule and covered by prickles. Two new Cosmosperma species, Cosmosperma dicrana sp. nov. and Cosmosperma lepta sp. nov., are now identified from the Upper Devonian (Wutong Formation) of Zhejiang and Anhui provinces, China, respectively. C. dicrana exhibits dichotomized fertile branches terminating in pairs of cupulate ovules, with centrifugally extending cupule segments at their distal portions. C. lepta displays slender cupulate ovules on pinnate fertile branches. Both species possess prickles on their cupules. A comparison with coeval seed plant taxa reveals differences in fertile branch types and suggests different evolutionary levels. The potentially weak dispersal ability of Cosmosperma is suggested by the absence of specialized structures for wind or water transport. Prickles on Cosmosperma cupules do not suggest adaptations for epizoochory but facilitate entanglement and friction. The adaptations for short‐distance dispersal can be advantageous in a disturbed and heterogeneous environment. The presence of Late Devonian seed plant taxa with dispersal‐adapted traits hints at habitat divergence, with some possibly inhabiting uplands or areas away from the coast. The prickles may also be an adaptation for maintaining stability in small‐ to medium‐sized plants of the Late Devonian coastal communities. [ABSTRACT FROM AUTHOR]

Published

2024

6. Analysis of the Cultured Microbiome of Fertilization-Stage Maize Silks (Styles) Reveals Taxonomic Relationships Across North American Maize Genotypes and Heterotic Groups.

Author

Thompson, Michelle E. H., Shrestha, Anuja, Khalaf, Eman M., Rinne, Jeffrey, Limay-Rios, Victor, Reid, Lana M., and Raizada, Manish N.

Subjects

*SPERMATOZOA, *POLLEN tube, *BACTERIAL diversity, *GENOTYPES, *OVULES, *CORN

Abstract

The style is the female reproductive channel in flowers, receiving pollen and transmitting male gametes through elongating pollen tubes to the ovules during fertilization. In maize/corn, the styles are known as silks. Fertilization-stage silks contain diverse bacteria, possibly originating from pollen. Bacteria were cultured and individually sequenced from the tip and base portions of healthy, fertilization-stage silks of 14 North American maize genotypes, resulting in 350 isolates, spanning 48 genera and 221 OTUs. The objective of this study was to taxonomically analyze these bacteria in the context of the maize host tissue and genotype, taking advantage of long-read (V1–V9) 16S Sanger sequencing. The results suggest that the maize genotype and heterotic breeding group may impact the bacterial diversity of healthy, fertilization-stage silks. Some taxa were relatively conserved across maize genotypes and silk tip/base locations, including Pantoea, which may represent part of the core microbiome or form stable, symbiotic relationships with healthy, pollinated silks. We also observed similarities between the silk microbiomes of maize genotypes that were related by plant pedigree; these preliminary results suggest inheritance or the ability of related genotypes to recruit common bacterial taxa. Overall, this study demonstrates that healthy maize silks represent a valuable resource for learning about relationships between plant reproductive microbiomes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Biologically Relevant Methods to Test How Microbes Colonize Maize Styles (Silks): Case Study of a Pantoea Strain.

Author

Thompson, Michelle E. H. and Raizada, Manish N.

Subjects

*SPERMATOZOA, *COLONIZATION (Ecology), *TEST methods, *POLLEN, *OVULES

Abstract

Maize silks (style) receive wind-transmitted pollen. Thereafter, male gametes travel through the silks to reach ovules. Pollinated silks contain a microbiome, members of which are predicted to promote host reproduction and abiotic/biotic stress tolerance during fertilization. It is unknown whether pollinated silk bacteria originate environmentally (air/pollen) or from maternal tissue. Methods are lacking to test microbial colonization of silks in their native habitat [on intact maize inflorescences (cobs) encased by husk leaves]. Current methods focus on naked silks attached to dehusked cob pieces. Here, two novel methods are presented to enable research on silk microbes in their native habitat. Method 1 tests whether silk-associated bacteria with potential environmental origins are attracted toward ovules. Method 2 distinguishes whether a microbe colonizes silks from the environment or maternal parent. Biosafety containment was enabled by housing microbe-treated cobs in large jars. Using these methods, a model bacterial isolate from fertilization-stage silks (DsRed-tagged Pantoea-E04) was shown to colonize husk-covered silks after inoculating exposed silk tips; E04 could not colonize from the cob base, suggesting an environmental origin. In support, E04 colonized silks more frequently when cobs were uncut and oriented vertically. These protocols will enable more biologically relevant investigation of silk microbiomes and pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

8. Regeneration Limitations of Hippophae rhamnoides Population After Successfully Encroached on the Qinghai‐Tibetan Plateau.

Author

Fan, Baoli, Gao, Pengfei, Tian, Tingting, Jiang, Jinhua, Ding, Nana, Wan, Yongkuan, Ma, Miaojun, and Sun, Kun

Subjects

*SEED coats (Botany), *OVULES, *HIPPOPHAE rhamnoides, *SEED storage, *POPULATION dynamics

Abstract

Shrub encroachment can alter the structure and function of grassland ecosystems, leading to their degradation. Therefore, population regeneration dynamics after shrub encroachment on the influence of grassland should not be ignored. H. rhamnoides, as a pioneer species, has significantly encroached with large areas on the Qinghai‐Tibetan Plateau (QTP) due to climate change and over‐grazing. However, few studies have focused on the dynamics of population regeneration following successful encroachment. Therefore, we studied H. rhamnoides natural population in the alpine grasslands, investigating population regeneration pattern, seed, bud production and storage, and limitation imposed by microhabitats (soil, light and feeding). Our aim was to explore population regeneration strategies and identify key limiting factors for population regeneration after successful encroachment. Our findings revealed several key points: (i) H. rhamnoides entered the alpine grassland by relying on seeds, it would seize resources by low‐cost clonal reproduction, then increase sexual reproduction to improve genetic diversity. (ii) The production and storage of seeds and buds was sufficient, seed vigor was high, seed emergence rate was higher due to mechanical restriction of hard seed coat was weakened by the water transport channels in the palisade layer, and formation of seedlings was less restricted. (iii) H. rhamnoides population regeneration was mainly limited by microhabitats light and feeding. However, light and feeding significantly affected seedlings photosynthesis and carbon storage, their interaction significantly reduced the seedlings survival, and further restricted population regeneration. The results can provide theoretical basis for the restoration and management of alpine grassland degradation caused by shrub encroachment. [ABSTRACT FROM AUTHOR]

Published

2024

9. Putting the puzzle together: the relationship between floral characters and pollinator morphology determines pollination mode in the fig–fig wasp mutualism.

Author

Castro‐Cárdenas, N., Martén‐Rodríguez, S., Vázquez‐Santana, S., Cornejo‐Tenorio, G., Navarrete‐Segueda, A., and Ibarra‐Manríquez, G.

Subjects

*ADAPTIVE radiation, *FLORAL morphology, *FIG, *OVULES, *POLLEN, *POLLINATORS, *POLLINATION

Abstract

The diversification of angiosperms has largely been attributed to adaptive radiation of their pollination and mating systems, which are relevant drivers of the macroevolution processes. The fig (Ficus, Moraceae) and fig wasp (Agaonidae, Hymenoptera) interaction is an example of obligate mutualism. Passive and active pollination modes have been associated with morphological traits in both partners. However, more information is required to assess the relationship between floral traits and pollination modes, particularly in Neotropical Ficus species.This study evaluates the morphological traits of figs and fig wasps regarding pollination modes in species belonging to Neotropical Ficus sections (three species each of Americanae and Pharmacosycea). Pollination mode was identified by floral morphology, anther/ovule ratio, and specialized structures fig wasps use for pollen transport (pollen pocket and coxal combs).Fig species in sect. Americanae are actively pollinated because pistillate flowers form a synstigma, present anther/ovule ratios <0.11, and their pollinator Pegoscapus fig wasps have pollen pockets and coxal combs. In contrast, species in sect. Pharmacosycea have free pistillate flowers, with anther/ovule ratios >0.27; they are pollinated by Tetrapus wasps, which lack specialized structures to carry pollen. Each species of Ficus was associated with a single morphospecies of fig wasp.The results support previous contributions that consider reciprocal morphological traits between fig species and their pollinating wasps as evidence of a close co‐evolutionary history. [ABSTRACT FROM AUTHOR]

Published

2024

10. Localization and activity of lipoxygenase in the ovule of Larix kaempferi (Lamb.) Carr. during female gametophyte maturation.

Author

Seta-Koselska, Aleksandra, Szczuka, Ewa, and Koselski, Mateusz

Subjects

*IMMUNOGOLD labeling, *BIOLOGICAL systems, *LINOLENIC acids, *FRUIT ripening, *PLANT development, *OVULES

Abstract

Key message: Lipoxygenase activity and localization vary throughout the development of Larix kaempferi ovules, with the highest enzyme activity observed in ovules at the cellular stage and the most intense immunogold reaction noted at the mature archegonium stage of gametophyte development. Lipoxygenases are a family of oxidoreductases with a significant role in biological systems, widespread in living organisms e.g. mammals, fish, corals, plants, mosses, algae, fungi, yeasts, and bacteria. Lipoxygenase activity in plants leads to the formation of phytooxylipins, i.e. signaling molecules, which play a crucial role in many significant physiological processes such as male and female gametophyte maturation, germination and seedling growth, pathogen resistance, abiotic stress response, fruit ripening, and senescence. The activity and localization of lipoxygenase change during plant growth and development. The localization of lipoxygenase in a developing ovule of Larix kaempferi was analyzed using the immunogold labeling method, and the activity was determined spectrophotometrically with linolenic acid as a substrate. Among the investigated stages, the immunogold reaction was the most intense at the mature archegonium stage in the ovule. Lipoxygenase was found in all parts of the L. kaempferi ovule. The largest number of immunogold particles was detected in the integument cells of all the analyzed stages of ovule development. Only one isoform of lipoxygenase with an optimum at pH 8 was active in the ovules during female gametophyte maturation. The highest enzyme activity was determined at the cellular stage, whereas the mature archegonium stage was characterized by its lowest level, which means that LOX activity in developing ovules of the Japanese larch is not correlated with the number of antibody-labeled molecules of the enzyme. [ABSTRACT FROM AUTHOR]

Published

2024

11. NCERT XTRACT: This Section Covers Questions Based on Latest NCERT Textbook of Class XI.

Subjects

PLANT tissue culture, OVULES, PLANT physiology, CYTOCHROME oxidase, KREBS cycle, CYTOKININS, FRUIT ripening, RESPIRATION

Abstract

The article from Biology Today covers questions based on the latest NCERT textbook of Class XI, focusing on topics such as photosynthesis, respiration in plants, and plant growth and development. It includes multiple-choice questions related to plant physiology, glycolysis, hormones, and the TCA cycle. The questions address various aspects of plant biology, including cellular processes, growth patterns, and the role of different plant hormones. The article provides a comprehensive overview of key concepts in plant physiology and biochemistry, making it a valuable resource for students studying biology. [Extracted from the article]

Published

2025

12. Class XII: Monthly test drive.

Subjects

SEX determination, RNA synthesis, BIOMASS, BARTHOLIN'S gland, OVUM, Y chromosome, OVULES

Abstract

The Biology Today article provides a monthly test for Class XII students to self-assess their understanding of specific chapters. The test covers topics such as reproductive health, genetics, evolution, and ecology. It includes multiple-choice questions on various biological concepts and provides a self-check table for students to evaluate their readiness for exams. The article aims to help students improve their knowledge and prepare effectively for their final exams. [Extracted from the article]

Published

2025

13. CLASS-XI: CBSE warm-up! Chapterwise practice questions for CBSE Exams as per the latest pattern and syllabus by CBSE for the academic session 2024-25.

Subjects

CELL respiration, TISSUE differentiation, CARDIOVASCULAR system, OVULES, PEPTIDE hormones, TISSUE culture

Abstract

The document titled "CLASS-XI: CBSE warm-up! Chapterwise practice questions for CBSE Exams as per the latest pattern and syllabus by CBSE for the academic session 2024-25" provides practice questions for CBSE exams in Biology. The questions cover topics such as arthropods, respiratory disorders, mitosis, aestivation, organelles, chloroplasts, hormones, and more. The document includes multiple-choice questions, diagrams, and explanations related to various biological concepts. [Extracted from the article]

Published

2025

14. Effects of pre-bloom spraying thidiazuron and different embryo development media on seedless grape embryo rescue.

Author

Zhu, Peipei and Zhang, Jianxia

Subjects

*VITICULTURE, *THIDIAZURON, *SELF-pollination, *EMBRYOS, *OVULES

Abstract

Embryo rescue technology has been widely applied in seedless grape breeding, but its success depends on many factors. Here, two Vitis vinifera seedless varieties 'Qinhong No.2' and 'Qinhong No.10' were used as research objects, the inflorescences were sprayed with 0.5 mg·L−1 thidiazuron 10 days before flowering, and then the ovules from open- and self-pollination of them were cultured in solid–liquid biphase MM3 media to investigate the effect of thidiazuron on embryo rescue. Under natural condition, the ovules of open- and self-pollination were inoculated onto three solid–liquid biphase media NN, ER, and MM3 to compare the efficiency of embryo rescue. The results showed that pre-bloom spraying thidiazuron significantly promoted ovule development and further improved the effect of embryo rescue in vitro. After applying thidiazuron, the embryo development rate, germination rate, and seedling rate of the four combinations reached 30.77%–42.62%, 29.36%–41.64%, and 22.02%–40.33%, respectively. Open-pollination of the two varieties provided better effects for culturing than their self-pollination, and the MM3 medium was always more suitable for embryo development than either the ER or NN medium. Furthermore, the germination rate of bare embryos of 'Qinhong No. 10' open-pollination on solid WPM medium surpassed that of ovules (without embryo stripping) on solid NN medium. HIGHLIGHTS: Pre-bloom spraying TDZ could improve the effect of embryo rescue of seedless grape. The embryo rescue effect was better in open- than self-pollinated seedless grapes. Solid–liquid biphase MM3 was more suitable for embryo rescue than an ER or NN medium. The seedling rate of bare embryos on WPM medium exceeded that of ovules on NN medium. Overall, 2312 hybrids from the four combinations were obtained via embryo rescue. [ABSTRACT FROM AUTHOR]

Published

2025

15. Genome-Wide Identification of the Oxidative Stress 3 (OXS3) Gene Family and Analysis of Its Expression Pattern During Ovule Development and Under Abiotic Stress in Cotton.

Author

Chen, Yu, Yang, Rui, Wang, Haojie, Xiao, Xianghui, Xing, Baoguang, Li, Yanfang, Liu, Qiankun, Lu, Quanwei, Peng, Renhai, Chen, Guodong, Wang, Yongbo, and Li, Pengtao

Subjects

*GENE expression, *GENE families, *CHROMOSOME duplication, *SALICYLIC acid, *ABIOTIC stress, *OVULES, *COTTON

Abstract

Simple Summary: Our study comprehensively performed genome-wide analyses of the oxidative stress 3 gene family in four representative Gossypium species, including identifications of family members, evolutionary relationships, structural features, chromosomal locations, collinearity, cis-acting elements, and expression patterns. Furthermore, the potential functions of cotton OXS3 genes against multiple abiotic stresses were verified. These findings offer valuable insights for use in molecular breeding aimed at cotton germplasm innovation or genetic improvement. Oxidative Stress 3 (OXS3) encodes a plant-specific protein that makes great contributions to a plant's stress tolerance. However, reports on genome-wide identification and expression pattern analyses of OXS3 were only found for Arabidopsis, wheat, and rice. The genus Gossypium (cotton) serves as an ideal model for studying allopolyploidy. Therefore, two diploid species (G. raimondii and G. arboreum) and two tetraploid species (G. hirsutum and G. barbadense) were chosen in this study for a bioinformatics analysis, resulting in 12, 12, 22, and 23 OXS3 members, respectively. A phylogenetic tree was constructed using 69 cotton OXS3 genes alongside 8 Arabidopsis, 10 rice, and 9 wheat genes, which were classified into three groups (Group 1–3). A consistent evolutionary relationship with the phylogenetic tree was observed in our structural analysis of the cotton OXS3 genes and the clustering of six conserved motifs. Gene duplication analysis across the four representative Gossypium species suggested that whole-genome duplication, segmental duplication, and tandem duplication might play significant roles in the expansion of the OXS3 gene family. Some existing elements responsive to salicylic acid (SA), jasmonic acid (JA), and abscisic acid (ABA) were identified by cis-regulatory element analysis in the promoter regions, which could influence the expression levels of cotton OXS3 genes. Furthermore, the expression patterns of the GhOXS3 gene were examined in different tissues or organs, as well as in developing ovules and fibers, with the highest expression observed in ovules. GhOXS3 genes exhibited a more pronounced regulatory response to abiotic stresses, of which ten GhOXS3 genes showed similar expression patterns under cold, heat, salt, and drought treatments. These observations were verified by quantitative real-time PCR experiments. These findings enhance our understanding of the evolutionary relationships and expression patterns of the OXS3 gene family and provide valuable insights for the identification of vital candidate genes for trait improvement in cotton breeding. [ABSTRACT FROM AUTHOR]

Published

2024

16. How pollen and ovule development underlay dioecy in Chloroluma gonocarpa (Sapotaceae).

Author

Judkevich, Marina Daniela, Luaces, Paula Alayón, and Gonzalez, Ana M.

Subjects

*GENITALIA, *MICROSCOPES, *MICROSCOPY, *ANTHER, *GAMETOGENESIS, *OVULES

Abstract

Previous studies have determined that Chloroluma gonocarpa (Sapotaceae), is a species that has cryptic dioecy. This type of sexual system is characterized by flowers that are morphologically perfect (both sexual whorls are present) but functionally pistillate or staminate (in each type of flower one of the sexual whorls is non-functional). In C. gonocarpa the pistillate flowers present well-developed stigma, functional ovules, and staminodes, while the staminate flowers present a poorly developed stigma, collapsed ovules, and pollen-producing anthers. In angiosperms, the abortion of sexual organs can occur at different stages of development (from pre-meiosis to post-meiosis), that is why we conducted an anatomical analysis of both flower types at various developmental stages. Using light microscopy, we described the processes of sporogenesis and gametogenesis to establish when the staminate flowers lose their pistillate function. To achieve this, we collected, fixed, and processed the flowers following conventional anatomical techniques for observation under a light microscope. Our findings reveal that pollen development occurs only in staminate flowers, while ovule development begins in both types of flowers but ceases in staminate flowers due to post-meiosis abortion. In contrast, normal development continues in pistillate flowers. These results suggest that dioecy in C. gonocarpa may have arisen from a gynodioecious pathway. [ABSTRACT FROM AUTHOR]

Published

2024

17. Genome-wide identification of the Gossypium hirsutum CAD gene family and functional study of GhiCAD23 under drought stress.

Author

Zhang, Xin, Wang, Ziyu, Zhong, Xingyue, Fu, Wanwan, Li, Yuanxin, Liusui, Yunhao, Guo, Yanjun, Zhang, JingBo, and Li, Bo

Subjects

ALCOHOL dehydrogenase, GENE families, GENOMICS, GENE silencing, SUPEROXIDE dismutase, OVULES, COTTON

Abstract

Cinnamyl alcohol dehydrogenase (CAD) is a crucial enzyme in the final stage of lignin monomer biosynthesis. This study focuses on the CAD gene family within Gossypium hirsutum. Through comprehensive genomic analysis, we identified 29 GhiCAD genes within the Gossypium hirsutum genome using a bioinformatics approach. Phylogenetic analysis revealed that the GhiCAD family can be categorized into four subgroups, which are closest to the evolutionary relationship with Arabidopsis thaliana. There are multiple cis-acting elements on the promoters of GhiCAD genes associated with abiotic stress responses. Some GhiCAD genes demonstrated high expression in various tissues like root, leaf, and sepal, as well as in fiber and ovule at different developmental stages (10 days post anthesis (DPA), 15 DPA, 20 DPA, 25 DPA). The transcript levels of GhiCAD23 were notably elevated when exposed to PEG treatment and drought stress (DS). GhiCAD23 is also co-expressed with many known drought response genes, suggesting its involvement in the plant's reaction to DS. Employing virus-induced gene silencing (VIGS) technology to silence the GhiCAD23 gene, it was found that silencing GhiCAD23 reduced the tolerance of cotton to DS. Under DS, the relative leaf water content, superoxide dismutase (SOD), and catalase (CAT) enzyme activities of the GhiCAD23-silenced cotton plants were decreased by 31.84%, 30.22% and 14.19%, respectively, while malondialdehyde (MDA) was increased by 72.16% compared with the control cohort. Drought promotes the accumulation of lignin, and it was found that silencing the GhiCAD23 reduces lignin accumulation in cotton under DS. The analysis of phenotypic and physiological indicators indicates that GhiCAD23 is vital in cotton's resistance to DS. This investigation provides an important reference for future comprehensive exploration of the GhiCAD23 gene's function in cotton's DS response mechanism. [ABSTRACT FROM AUTHOR]

Published

2024

18. Reproductive development in Trithuria submersa (Hydatellaceae: Nymphaeales): the involvement of AGAMOUS-like genes.

Author

Moschin, Silvia, Nigris, Sebastiano, Offer, Elisabetta, Babolin, Nicola, Chiappetta, Adriana, Bruno, Leonardo, and Baldan, Barbara

Subjects

LIFE cycles (Biology), BIOLOGICAL evolution, GENE families, FLOWER development, FRUIT development, OVULES

Abstract

Main conclusion: In the early diverging angiosperm Trithuria submersaTsAG1 and TsAG2 are expressed in different flower organs, including bracts, while TsAG3 is more ovule-specific, probably functioning as a D-type gene. Species of Trithuria, the only genus of the family Hydatellaceae, represent ideal candidates to explore the biology and flower evolution of early diverging angiosperms. The life cycle of T. submersa is generally known, and the "reproductive units" are morphologically well described, but the availability of genetic and developmental data of T. submersa is still scarce. To fill this gap, a transcriptome analysis of the reproductive structures was performed and presented in this work. This analysis provided sequences of MADS-box transcription factors, a gene family known to be involved in flower and fruit development. In situ hybridization experiments on floral buds were performed to describe the spatiotemporal expression patterns of the AGAMOUS genes, revealing the existence of three AG genes with different expression domains in flower organs and in developing ovules. Trithuria may offer important clues to the evolution of reproductive function among early angiosperms and Nymphaeales in particular, and this study aims to broaden relevant knowledge regarding key genes of reproductive development in non-model angiosperms, shaping first flower appearance and evolution. [ABSTRACT FROM AUTHOR]

Published

2024

19. Quiescence and dormancy underpin plasticity and resilience: the virtue of being idle.

Author

Considine, Michael J

Subjects

*MOLECULAR biology, *PLANT phenology, *MOLECULAR structure, *OVULES, *AGRICULTURAL conservation, *SEED dormancy, *POTATOES, *LILIES

Abstract

This article discusses the concept of quiescence and dormancy in plants and their importance in plant development, acclimation, and survival. The article highlights recent research on the molecular and metabolic regulation of quiescence, as well as the ecological modeling and molecular perception of temperature in relation to dormancy. The integration of hormone and cell-to-cell signaling, as well as the role of epigenetic mechanisms in establishing and maintaining dormancy, is also explored. The article concludes by emphasizing the potential applications of this research in enhancing plant resilience in the face of climate change. [Extracted from the article]

Published

2024

20. Histone modifications affecting plant dormancy and dormancy release: common regulatory effects on hormone metabolism.

Author

Sato, Hikaru and Yamane, Hisayo

Subjects

*PHYSIOLOGY, *OVULES, *REGULATOR genes, *PLANT development, *SESSILE organisms, *DORMANCY in plants, *HISTONES, *SEED dormancy

Abstract

As sessile organisms, plants enter periods of dormancy in response to environmental stresses to ensure continued growth and reproduction in the future. During dormancy, plant growth is suppressed, adaptive/survival mechanisms are exerted, and stress tolerance increases over a prolonged period until the plants resume their development or reproduction under favorable conditions. In this review, we focus on seed dormancy and bud dormancy, which are critical for adaptation to fluctuating environmental conditions. We provide an overview of the physiological characteristics of both types of dormancy as well as the importance of the phytohormones abscisic acid and gibberellin for establishing and releasing dormancy, respectively. Additionally, recent epigenetic analyses have revealed that dormancy establishment and release are associated with the removal and deposition of histone modifications at the loci of key regulatory genes influencing phytohormone metabolism and signaling, including DELAY OF GERMINATION 1 and DORMANCY-ASSOCIATED MADS-box genes. We discuss our current understanding of the physiological and molecular mechanisms required to establish and release seed dormancy and bud dormancy, while also describing how environmental conditions control dormancy depth, with a focus on the effects of histone modifications. [ABSTRACT FROM AUTHOR]

Published

2024

21. Plant quiescence strategy and seed dormancy under hypoxia.

Author

Pucciariello, Chiara and Perata, Pierdomenico

Subjects

*DORMANCY in plants, *OVULES, *HYPOXEMIA, *SUGAR, *STARVATION, *SEED dormancy, *GERMINATION

Abstract

Plant quiescence and seed dormancy can be triggered by reduced oxygen availability. Under water, oxygen depletion caused by flooding can culminate in a quiescent state, which is a plant strategy for energy preservation and survival. In adult plants, a quiescent state can be activated by sugar starvation, leading to metabolic depression. In seeds, secondary dormancy can be activated by reduced oxygen availability, which creates an unfavourable state for germination. The physical dormancy of some seeds and buds includes barriers to external conditions, which indirectly results in hypoxia. The molecular processes that support seed dormancy and plant survival through quiescence under hypoxia include the N-degron pathway, which enables the modulation of ethylene-responsive factors of group VII and downstream targets. This oxygen- and nitric oxide-dependent mechanism interacts with phytohormone-related pathways to control growth. [ABSTRACT FROM AUTHOR]

Published

2024

22. GhEXL3 participates in brassinosteroids regulation of fiber elongation in Gossypium hirsutum.

Author

Zhang, Changsheng, Liu, Zhao, Shu, Sheng, Li, Xinyang, Li, Yujun, Liu, Le, Liu, Li, Wang, Xuwen, Li, Fuguang, Qanmber, Ghulam, and Yang, Zuoren

Subjects

*COTTON fibers, *TRANSCRIPTION factors, *PROMOTERS (Genetics), *BRASSINOSTEROIDS, *PLANT growth, *COTTON, *OVULES, *ARABIDOPSIS

Abstract

SUMMARY: Cotton fiber (Gossypium hirsutum) serves as an ideal model for investigating the molecular mechanisms of plant cell elongation at the single‐cell level. Brassinosteroids (BRs) play a crucial role in regulating plant growth and development. However, the mechanism by which BR influences cotton fiber elongation remains incompletely understood. In this study, we identified EXORDIUM‐like (GhEXL3) through transcriptome analysis of fibers from BR‐deficient cotton mutant pagoda 1 (pag1) and BRI1‐EMS‐SUPPRESSOR 1 (GhBES1.4, encoding a central transcription factor of BR signaling) overexpression cotton lines. Knockout of GhEXL3 using CRISPR/Cas9 was found to impede cotton fiber elongation, while its overexpression promoted fiber elongation, suggesting a positive regulatory function for GhEXL3 in fiber elongation. Furthermore, in vitro ovule culture experiments revealed that the overexpression of GhEXL3 partially counteracted the inhibitory effects of brassinazole (BRZ) on cotton fiber elongation, providing additional evidence of GhEXL3 involvement in BR signaling pathways. Moreover, our findings demonstrate that GhBES1.4 directly binds to the E‐box (CACGTG) motif in the GhEXL3 promoter region and enhances its transcription. RNA‐seq analysis revealed that overexpression of GhEXL3 upregulated the expression of EXPs, XTHs, and other genes associated with fiber cell elongation. Overall, our study contributes to understanding the mechanism by which BR regulates the elongation of cotton fibers through the direct modulation of GhEXL3 expression by GhBES1.4. Significance Statement: Understanding the molecular mechanisms of cotton fiber elongation is crucial for improving fiber yield. This study reveals that the EXORDIUM‐like gene (GhEXL3) positively regulates fiber elongation in response to brassinosteroids (BRs). By demonstrating that GhBES1.4, a key BR signaling transcription factor, directly activates GhEXL3, we provide insights into how BR signaling pathways influence fiber growth. These findings enhance our understanding of BR‐mediated fiber development and offer potential targets for genetic improvement in cotton. [ABSTRACT FROM AUTHOR]

Published

2024

23. Topological analysis of 3D digital ovules identifies cellular patterns associated with ovule shape diversity.

Author

Mody, Tejasvinee Atul, Rolle, Alexander, Stucki, Nico, Roll, Fabian, Bauer, Ulrich, and Schneitz, Kay

Subjects

*INSPECTION & review, *CELL size, *OVULES, *MORPHOGENESIS, *MORPHOMETRICS, *ARABIDOPSIS

Abstract

Tissue morphogenesis remains poorly understood. In plants, a central problem is how the 3D cellular architecture of a developing organ contributes to its final shape. We address this question through a comparative analysis of ovule morphogenesis, taking advantage of the diversity in ovule shape across angiosperms. Here, we provide a 3D digital atlas of Cardamine hirsuta ovule development at single cell resolution and compare it with an equivalent atlas of Arabidopsis thaliana. We introduce nerve-based topological analysis as a tool for unbiased detection of differences in cellular architectures and corroborate identified topological differences between two homologous tissues by comparative morphometrics and visual inspection. We find that differences in topology, cell volume variation and tissue growth patterns in the sheet-like integuments and the bulbous chalaza are associated with differences in ovule curvature. In contrast, the radialized conical ovule primordia and nucelli exhibit similar shapes, despite differences in internal cellular topology and tissue growth patterns. Our results support the notion that the structural organization of a tissue is associated with its susceptibility to shape changes during evolutionary shifts in 3D cellular architecture. [ABSTRACT FROM AUTHOR]

Published

2024

24. Alasemenia, the earliest ovule with three wings and without cupule.

Author

Deming Wang, Jiangnan Yang, Le Liu, Yi Zhou, Peng Xu, Min Qin, and Pu Huang

Subjects

*SEED dispersal, *OVULES, *MATHEMATICAL analysis, *SEEDS, *NUTRITION

Abstract

The ovules or seeds (fertilized ovules) with wings are widespread and especially important for wind dispersal. However, the earliest ovules in the Famennian of the Late Devonian are rarely known about the dispersal syndrome and usually surrounded by a cupule. From Xinhang, Anhui, China, we now report a new taxon of Famennian ovules, Alasemenia tria gen. et sp. nov. Each ovule of this taxon possesses three integumentary wings evidently extending outwards, folding inwards along abaxial side and enclosing most part of nucellus. The ovule is borne terminally on smooth dichotomous branches and lacks a cupule. Alasemenia suggests that the integuments of the earliest ovules without a cupule evolved functions in probable photosynthetic nutrition and wind dispersal. It indicates that the seed wing originated earlier than other wind dispersal mechanisms such as seed plume and pappus, and that three- or four-winged seeds were followed by seeds with less wings. Mathematical analysis shows that three-winged seeds are more adapted to wind dispersal than seeds with one, two or four wings under the same condition. [ABSTRACT FROM AUTHOR]

Published

2024

25. The correlation between embryo rescue and hormonal changes in seedless grapes.

Author

Guirong Li, Kaiwei Li, Yihai Lu, Xiucai Fan, and Ling Wang

Subjects

EMBRYOLOGY, ABSCISIC acid, GIBBERELLIC acid, EMBRYOS, OVULES, ABORTION, POLLINATION, BERRIES

Abstract

After normal pollination and fertilization of pseudoparthenocarpic seedless grapes, their embryos often stop developing due to certain developmental factors, resulting in embryo abortion. Hybrid breeding using seedless grapes as the maternal parent requires embryo rescue breeding technology. This technology plays a crucial role in seedless grape breeding. Although previous studies have extensively explored this technology, knowledge regarding its impact on embryo abortion and the effectiveness of rescue techniques remains limited. This study aimed to investigate the correlation between embryo rescue and hormonal changes in seedless grapes. Four Eurasian seedless grape cultivars, "Thompson Seedless," "Flame Seedless," "Heshi Seedless," and "Ruby Seedless," were selected for examination. We investigated endogenous hormone levels, including indole-3-acetic acid (IAA), gibberellic acid (GA3), and abscisic acid (ABA), in both berries and in vitro ovules during the most suitable embryo rescue time for these cultivars. Based on the observed fluctuations in endogenous hormone levels and previous research findings, appropriate doses of exogenous hormones, such as IAA, GA3, and ABA, were applied during seedless grape embryo rescue. The results indicated significant differences in endogenous hormone levels between berrieswith varying ovule counts of the same cultivar and ovules cultured in vitro, suggesting a hormonal influence on ovule abortion and embryo development in seedless grapes. Further research has identified effective ratios of exogenous hormones: 30 mg·L-1 IAA + 30 mg·L-1 ABA for berry ovule development, 1.0 mg·L-1 IAA + 2.0 mg·L-1 6-benzylaminopurine (6-BA) + 1.0 mg·L-1 GA3 + 1.0 mg·L-1 ABA for in vitro ovule development, and 1.0 mg·L-1 IAA + 2.0 mg·L-1 6-BA + 1.0 mg·L-1 GA3 for embryo germination and seedling formation. In summary, hormonal changes significantly influence ovule and embryo development and are closely related to seedless grape embryo rescue breeding. This study deepened our understanding of the correlation between seedless grape embryo rescue and hormonal changes. It also resulted in the successful production of a batch of embryo rescue seedlings, further improving embryo rescue breeding technology and providing new germplasm materials for developing new seedless grape cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

26. Simultaneous improvement of fiber yield and quality in upland cotton (Gossypium hirsutum L.) by integration of auxin transport and synthesis.

Author

Chu, Qingqing, Fu, Xingxian, Zhao, Juan, Li, Yuxin, Liu, Lina, Zhang, Liuqin, Zhang, Yujie, Guo, Yifan, Pei, Yan, and Zhang, Mi

Subjects

*COTTON fibers, *CROPS, *FIELD research, *COTTON quality, *OVULES, *COTTON

Abstract

Cotton is a widely planted commercial crop in the world. Enhancing fiber yield and quality is a long-term goal for cotton breeders. Our previous work has demonstrated that fine promotion of auxin biosynthesis in ovule epidermis, by overexpressing FBP7pro::iaaM, has a significant improvement on lint yield and fiber fineness. Lately, transgenic cottons overexpressing GhROP6 variants modify mature fiber length by controlling GhPIN3a-mediated polar auxin transport in ovules. Here, this study showed that all these GhROP6-related cottons displayed unsatisfactory agronomic performance in field conditions. Yet extra auxin supply could promote their fiber development, suggesting inadequate auxin supply in the ovules. Thus, these cottons were integrated with enhanced auxin synthesis by crossing with FBP7pro::iaaM cotton. All the transgene-stacked cottons exhibited synergetic effects on cotton yield (seedcotton yield, lint yield, and lint percentage) and quality (length, strength, and micronaire). Notably, comparing to the FBP7pro::iaaM background, the transgene-stacked cotton co-expressing FBP7pro::iaaM and CA-ghrop6 (constitutively active GhROP6) exhibited a 12.6% increase in seedcotton yield and a 19.0% increase in lint yield over a three-year field trial, and simultaneously resulted in further improvement on fiber length, strength, and micronaire. Collectively, our data provide a potential strategy for genetic improvement on cotton fiber yield and quality. [ABSTRACT FROM AUTHOR]

Published

2024

27. Brassinosteroids in Focus.

Author

Poppenberger, Brigitte, Russinova, Eugenia, and Savaldi-Goldstein, Sigal

Subjects

*TRANSCRIPTION factors, *PLANT breeding, *SCAFFOLD proteins, *NUCLEOCYTOPLASMIC interactions, *CELL physiology, *PLANT hormones, *DROUGHT tolerance, *OVULES

Published

2024

28. Sex on Steroids: How Brassinosteroids Shape Reproductive Development in Flowering Plants.

Author

Lima, Rita B and Figueiredo, Duarte D

Subjects

*PLANT breeding, *SEED development, *FRUIT development, *PLANT development, *BRASSINOSTEROIDS, *OVULES

Abstract

Since the discovery of brassinolide in the pollen of rapeseed, brassinosteroids (BRs) have consistently been associated with reproductive traits. However, compared to what is known for how BRs shape vegetative development, the understanding of how these hormones regulate reproductive traits is comparatively still lacking. Nevertheless, there is now considerable evidence that BRs regulate almost all aspects of reproduction, from ovule and pollen formation to seed and fruit development. Here, we review the current body of knowledge on how BRs regulate reproductive processes in plants and what is known about how these pathways are transduced at the molecular level. We also discuss how the manipulation of BR biosynthesis and signaling can be a promising avenue for improving crop traits that rely on efficient reproduction. We thus propose that BRs hold an untapped potential for plant breeding, which could contribute to attaining food security in the coming years. [ABSTRACT FROM AUTHOR]

Published

2024

29. Morphology of flower bud differentiation and floral organ specialization in Caucasian clover.

Author

Zhang, Hui‐min, Wang, Ming‐jiu, Hampton, John, Rolston, Phil, Lucas, Richard, and Ti, Zhong‐hui

Subjects

*POLLEN, *POLLEN viability, *FLOWER development, *MORPHOGENESIS, *FLORAL morphology, *OVULES

Abstract

Flower bud differentiation is the commencement of plant reproductive development. Flower organ specialization follows flower bud differentiation. This biological mechanism controls whether plants reproduce successfully via seed. Caucasian clover (Trifolium ambiguum) is used in mixed temperate pastures. However, its low natural seed setting rate contributes to a low seed yield. This study aimed to elucidate how the reproductive biology of Caucasian clover could affect seed production. Caucasian clover flower bud differentiation and flower organ development were systematically examined. Flower bud differentiation has six consecutive stages: pre‐differentiation, differentiation of the inflorescence, the floret, the perianth, the stamen, and finally the pistil primordium. The anther has two chambers. Pollen grains have six development phases: the tetraspore, early‐uninucleate, late‐uninucleate, vegetative cell and germ‐cell form, binucleate, and maturation phase. The microspore tetrad is tetrahedral, and the mature pollen grains are bicellular. Pollen grain viability was found 35%. The Caucasian clover monocarpelate ovary contains 1–2 ovules that are covered with a 2‐layer integument. The ovule is anatropous. The embryo sac development type is a polygonum. The floral formula is "⚥↑K(5) C1+1+2 A(9)+1G(1:1:1−2)". These genetic traits of two pollen sacs and low viability pollen grains may be responsible for the low natural seed setting. Poor seed setting may also be due to embryo sac dysplasia that leads to ovule sterility. Therefore, the breeding aim should be to improve pollen viability, to decrease embryo sac dysplasia and to reduce embryo abortion that could be targeted for genetic improvement to enhance seed yields. [ABSTRACT FROM AUTHOR]

Published

2024

30. JAGGER localization and function are dependent on GPI anchor addition.

Author

Figueiredo, Raquel, Costa, Mónica, Moreira, Diana, Moreira, Miguel, Noble, Jennifer, Pereira, Luís Gustavo, Melo, Paula, Palanivelu, Ravishankar, Coimbra, Sílvia, and Pereira, Ana Marta

Subjects

*GLYCOSYLPHOSPHATIDYLINOSITOL, *POLLEN tube, *FLUORESCENT proteins, *ARABIDOPSIS proteins, *CELL membranes, *OVULES

Abstract

Key message: GPI anchor addition is important for JAGGER localization and in vivo function. Loss of correct GPI anchor addition in JAGGER, negatively affects its localization and function. In flowering plants, successful double fertilization requires the correct delivery of two sperm cells to the female gametophyte inside the ovule. The delivery of a single pair of sperm cells is achieved by the entrance of a single pollen tube into one female gametophyte. To prevent polyspermy, Arabidopsis ovules avoid the attraction of multiple pollen tubes to one ovule–polytubey block. In Arabidopsisjagger mutants, a significant number of ovules attract more than one pollen tube to an ovule due to an impairment in synergid degeneration. JAGGER encodes a putative arabinogalactan protein which is predicted to be anchored to the plasma membrane by a glycosylphosphatidylinositol (GPI) anchor. Here, we show that JAGGER fused to citrine yellow fluorescent protein (JAGGER-cYFP) is functional and localizes mostly to the periphery of ovule integuments and transmitting tract cells. We further investigated the importance of GPI-anchor addition domains for JAGGER localization and function. Different JAGGER proteins with deletions in predicted ω-site regions and GPI attachment signal domain, expected to compromise the addition of the GPI anchor, led to disruption of JAGGER localization in the cell periphery. All JAGGER proteins with disrupted localization were also not able to rescue the polytubey phenotype, pointing to the importance of GPI-anchor addition to in vivo function of the JAGGER protein. [ABSTRACT FROM AUTHOR]

Published

2024

31. 濒危植物小勾儿茶大小孢子发生和雌雄配子体发育.

Author

王康鑫, 王仕沁, 王毅敏, 程志杰, 陈发菊, and 王玉兵

Subjects

POLLEN, STEM cells, CELL nuclei, RATE setting, TAPETUM, OVULES

Abstract

Copyright of Bulletin of Botanical Research is the property of Bulletin of Botanical Research Editorial Department 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

32. Class XI: Monthly test drive.

Subjects

LACTIC acid fermentation, INDOLE compounds, INDOLEACETIC acid, CARBON compounds, OVULES, CYTOKININS, PLANT hormones, GIBBERELLINS

Abstract

This document is a biology exam or practice test for Class XI students. It contains multiple-choice questions on topics such as respiration, photosynthesis, and plant growth and development. The questions cover concepts such as experimental evidence, biochemical processes, and scientific terminology. The test is designed to help students assess their understanding of specific chapters and includes a self-check table for students to evaluate their readiness. The document also includes a key to check the answers and determine the score. [Extracted from the article]

Published

2024

33. CLASS-XI: CBSE warm-up! Chapterwise practice questions for CBSE Exams as per the latest pattern and syllabus by CBSE for the academic session 2024-25.

Subjects

PLANT tissue culture, ATMOSPHERIC carbon dioxide, OVULES, PLANT anatomy, PLANT physiology, CYTOKININS, BUDS, MITOCHONDRIAL membranes

Abstract

This document titled "CLASS-XI: CBSE warm-up! Chapterwise practice questions for CBSE Exams as per the latest pattern and syllabus by CBSE for the academic session 2024-25" provides chapterwise practice questions for CBSE exams in biology. The questions cover topics such as photosynthesis, respiration in plants, plant growth and development, and more. The document is designed to help students prepare for their exams and is based on the latest pattern and syllabus provided by CBSE for the academic session 2024-25. It discusses various topics related to plant growth regulators, photosynthesis, and cellular respiration, providing information on their identification, functions, and processes. The text also covers the synthesis and functions of different hormones, the anatomy of C3 and C4 plants, and the different phases of the Calvin cycle. It explains the differences between photosystems I and II, the process of photolysis of water, and the synthesis of ATP and NADPH. Additionally, it discusses the process of anaerobic respiration and the production of lactic acid, as well as glycolysis, the Krebs' cycle, and the role of auxin, gibberellin, and abscisic acid in plant growth and development. The text also mentions the electron transport chain and the Calvin cycle in photosynthesis. [Extracted from the article]

Published

2024

34. NCERT XTRACT: This Section Covers Questions Based on Latest NCERT Textbook of Class XII.

Subjects

OVARIAN follicle, ENDOSPERM, LUTEAL phase, OVUM, ABORTION, EMBRYO implantation, OVULES, ENDOMETRIUM

Abstract

The article examines various aspects of human reproduction and reproductive health, including the processes necessary for the development of male gametophytes, the role of the scrotum, contraceptive methods, and embryonic development in humans. It also discusses various types of pollination, the functions of reproductive organs, and different reproductive technologies and methods for avoiding sexually transmitted diseases.

Published

2024

35. Unlocking fertility in the female gametophyte: a DEAD-box RNA helicase is essential for embryo sac development and seed setting.

Author

Ali, Asif, Riaz, Asad, and Wu, Xianjun

Subjects

*PHYSIOLOGY, *LIFE cycles (Biology), *OVUM, *GENITALIA, *CHROMOSOME abnormalities, *OVULES, *MALE sterility in plants

Abstract

This article, published in the Journal of Experimental Botany, explores the role of a DEAD-box RNA helicase called OsRH52A in the development of the female gametophyte and seed setting in rice. The study found that loss of OsRH52A led to abnormal development of the embryo sac, resulting in low seed setting. The article also discusses the importance of normal development of male and female gametophytes for successful fertilization and seed production, as well as the various factors that can cause degeneration or defects in these gametophytes. The study highlights the molecular pathway of embryo sac development and suggests potential interactions with other proteins involved in reproductive development. Additionally, the article discusses the impact of OsRH52A on the expression of downstream genes involved in megaspore development. Overall, this research provides insights into the mechanisms underlying fertility in plants and has implications for hybrid rice development. [Extracted from the article]

Published

2024

36. Pollination efficiency and the pollen–ovule ratio.

Author

Bochynek, Thomas and Burd, Martin

Subjects

*SEX allocation, *POLLEN, *POLLINATION, *RESOURCE allocation, *PATERNITY, *OVULES

Abstract

Summary: Pollination presents a risky journey for pollen grains. Pollen loss is sometimes thought to favour greater pollen investment to compensate for the inefficiency of transport. Sex allocation theory, to the contrary, has consistently concluded that postdispersal loss should have no selective effect on investment in either sex function. But the intuitively appealing compensation idea continues to be raised despite the lack of theoretical endorsement.We address the theoretical issue with a model that directly represents pollen loss (and ovule loss through floral demise or loss of receptivity) as rate‐dependent dynamical processes. These loss rates can be varied to examine the effect of pollination efficiency on optimal sex allocation. Pollen–ovule ratios follow from the sex allocation based on the resource costs of pollen and ovule production.This model confirms conventional findings that pollen loss should have essentially no effect on sexual resource allocation in large, panmictic populations. Pollen limitation of seed set does not alter this conclusion.These results force us to rethink the empirical association of pollination efficiency with low pollen–ovule ratios. This pattern could arise if efficient pollen transport commonly results in stigmatic deposition of cohorts of related pollen. Empirical evidence of correlated paternity supports this explanation. [ABSTRACT FROM AUTHOR]

Published

2024

37. 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

38. Hybrid capture resolves the phylogeny of Tetradium (Rutaceae) and supports the inclusion of a species from Sulawesi.

Author

Ang, Lee‐Ping, Brambach, Fabian, Tomasello, Salvatore, Wen, Jun, and Appelhans, Marc S.

Subjects

*BOTANICAL specimens, *GYNOECIUM, *RUTACEAE, *PHYLOGENY, *OVULES

Abstract

Tetradium, a genus within Rutaceae, comprises nine species found in Eastern and Southeastern Asia, distinguished by their opposite pinnate leaves and apocarpous or subapocarpous gynoecium with follicular fruits. While Hartley's 1981 monograph provided foundational insights, a comprehensive phylogenetic analysis of the genus is lacking. Using next‐generation sequencing (NGS), this study aims to (i) establish an NGS molecular data set for Tetradium, (ii) elucidate interspecific relationships via the hybrid capture method and (iii) investigate the taxonomic status of Euodia meliifolia var. celebica. Our data set comprised 28 samples across nine species, sequenced using Illumina Miseq and Hiseq 4000 platforms, with downstream analyses conducted using the HybPhyloMaker pipeline and ASTRAL. Our findings revealed five main groups supported by both molecular and morphological data, highlighting changes in ovule number and seed functionality. Notably, the hybrid capture method proved invaluable for studying old herbarium specimens. Finally, taxonomic revisions were proposed, including the reclassification of E. meliifolia var. celebica as Tetradium celebicum, the fossil Euodia costata as Tetradium costatum, and the fossil Euodia lignata as Tetradium lignatum. An updated description for T. celebicum, supplemented by a specific identification key, is provided. [ABSTRACT FROM AUTHOR]

Published

2024

39. GoPGS regulates cotton pigment gland size and contributes to biotic stress tolerance through jasmonic acid pathways.

Author

Sun, Yue, Han, Yifei, Liu, Bin, Jiang, Meng, Sheng, Kuang, Li, Huazu, Yang, Ping, Zhu, Qian‐Hao, Sun, Jie, Chen, Jinhong, Zhu, Shuijin, and Zhao, Tianlun

Subjects

*JASMONIC acid, *GLANDS, *PIGMENTS, *OVULES, *MOLECULAR biology, *COTTON, *COTYLEDONS

Abstract

The article examines the GoPGS gene's role in regulating pigment gland size in cotton plants and its connection to biotic stress tolerance. Researchers discovered that suppressing the GoPGS gene resulted in larger pigment glands and increased resistance to pests and pathogens. They also found that the GoPGS gene is controlled by the GoPGF gene and is involved in the jasmonic acid pathway. These findings offer insights into the development of cotton pigment glands and their role in defending against biotic stress. Manipulating the GoPGS gene's activity may be a potential method for enhancing cotton plants' resistance to biotic stresses. [Extracted from the article]

Published

2024

40. Quantitative Trait Loci Mapping and Candidate Gene Analysis for Fiber Quality Traits in Upland Cotton.

Author

Jia, Xiaoyun, Zhao, Hongxia, Zhu, Jijie, Wang, Shijie, Li, Miao, and Wang, Guoyin

Subjects

*LOCUS (Genetics), *SINGLE nucleotide polymorphisms, *COTTON fibers, *GENE mapping, *PROTEIN binding, *OVULES

Abstract

Superior fiber quality is one of the most important objectives in cotton breeding. To detect the genetic basis underlying fiber quality, an F2 population containing 413 plants was constructed by crossing Jifeng 914 and Jifeng 173, both of which have superior fiber quality, with Jifeng 173 being better. Five fiber quality traits were investigated in the F2, F2:3, F2:4, and F2:5 populations. Quantitative trait loci (QTL) mapping was conducted based on a high-density genetic map containing 11,488 single nucleotide polymorphisms (SNPs) and spanning 4202.12 cM in length. Transgressive segregation patterns and complex correlations in the five tested traits were observed. A total of 108 QTLs were found, including 13 major effect QTLs that contributed more than 10% toward phenotypic variation (PV) and 9 stable QTLs that could be repeatedly mapped in different generations. Chromosome A7 contained 12 QTL, ranking the first. No QTL was found on chromosomes D1 and D11. Two QTLs could be repeatedly detected in three populations, including qFL-D3-2 in F2, F2:4, and F2:5 with 9.18–21.45% of PV and qFS-A11-1 in F2:3, F2:4, and F2:5 with 6.05–10.41% of PV. Another seven stable QTLs could be detected in two populations, including four major effect QTLs: qFL-A12-3, qFS-D10-2, qMC-D6-2, and qMC-D8-1. Fourteen QTL-overlapping regions were found, which might explain the complex correlations among the five phenotypic traits. Four regions on chromosome A11, D3, D6, and D10 covered by both stable and major effect QTLs are promising for further fine mapping. The genomic regions of the two QTLs detected in three populations and the four major effect QTLs contain 810 genes. Gene functional analysis revealed that the annotated genes are mainly involved in protein binding and metabolic pathways. Fifteen candidate genes in the qFL-D3-2 region are highly expressed in fiber or ovules during fiber initiation, elongation, secondary cell wall thickening, or maturation stages. qRT-PCR revealed that Ghir_D03G005440.1 and Ghir_D03G011310.1 may play a role in promoting fiber initiation, while Ghir_D03G006470.1 may be beneficial for promoting fiber elongation. This study provides more information for revealing the molecular genetic basis underlying cotton fiber quality. [ABSTRACT FROM AUTHOR]

Published

2024

41. PERKEMBANGAN ANATOMIS DAN KAJIAN HISTOKIMIA OVULUM STERIL MELINJO (Gnetum gnemon L.).

Author

Pamungkas, Wanda Aulia and Susanti, Siti

Subjects

*METABOLITES, *MICROSCOPES, *OVULES, *VALUE (Economics), *TERPENES

Abstract

In this section, the abstract must be written in English. Melinjo (Gnetum gnemon L.) is a plant that grows and spreads throughout Indonesia. This plant is widely cultivated because of its economic value. The purpose of this study was to determine the anatomical development of sterile melinjo ovule at the tip, middle and base of the female strobili and to determine the content of secondary metabolites in melinjo sterile ovule. The material used is sterile ovulum melinjo at the tip, middle and base of the female strobilus. In observing the anatomical development of sterile melinjo ovule, preparations were made using the paraffin method, single staining, and observed under a microscope. The anatomical data of the sterile ovule were analyzed descriptively. Observation of secondary metabolite content was carried out through histochemical tests, then observed with a light microscope and the results of the observations were documented using OptiLab. The results of observing anatomical development show that at different ages of melinjo sterile ovule there are structural differences in the constituent tissues. The results of observations on anatomical development show that at different ages the melinjo sterile ovule has structural differences in its constituent tissue, the more mature the melinjo sterile ovule, the constituent tissue is increasingly degraded. Histochemical test results showed that the sterile melinjo ovule contained secondary metabolites of phenols, flavonoids, terpenoids, tannins, and alkaloids. [ABSTRACT FROM AUTHOR]

Published

2024

42. Ovule abortion -- a rivalry action or dispersal strategy?

Author

Devi, Jayoti, Sharma, Priya, Magotra, Pratibha, and Sharma, Namrata

Subjects

HYPTIS suaveolens, OVULES, SEED dispersal, DEHISCENCE (Botany), ANTHER, POLLEN, PISTIL

Abstract

The article explores the process of ovule abortion and its implications for the invasiveness and seed dispersal of Hyptis suaveolens Lamiaceae Poit species. The study examines the anthesis and dehiscence of anthers, stigma receptivity, path of pollen tubes under fluorescence microscope, pollen-ovule ratio, and time and duration of visits of insects on the flower. It evaluates the total number of pistils with ovule abortion and floral morphology.

Published

2024

43. Assessment of Cassava Pollen Viability and Ovule Fertilizability under Red-Light, 6-Benzyl Adenine, and Silver Thiosulphate Treatments.

Author

Baguma, Julius K., Mukasa, Settumba B., Ochwo-Ssemakula, Mildred, Nuwamanya, Ephraim, Iragaba, Paula, Wembabazi, Enoch, Kanaabi, Michael, Hyde, Peter T., Setter, Tim L., Alicai, Titus, Yada, Benard, Esuma, Williams, Baguma, Yona, and Kawuki, Robert S.

Subjects

POLLEN viability, PLANT regulators, FRUIT seeds, POLLEN, OVULES

Abstract

Understanding pollen and ovule fertility as factors influencing fruit and seed set is important in cassava breeding. Extended daylength with red light (RL) and plant growth regulators (PGRs) have been used to induce flowering and fruit set in cassava without any reference to effects on pollen viability or ovule fertilizability. This study investigated the effects of field-applied RL and PGR on pollen viability and ovule fertilizability. Panels of cassava genotypes with early or moderate flowering responses were used. RL was administered from dusk to dawn. Two PGRs, 6-benzyl adenine (BA), a cytokinin and silver thiosulphate (STS), an anti-ethylene, were applied. Pollen viability was assessed based on pollen grain diameter, in vitro stainability, in vivo germinability, ovule fertilizability, and ploidy level. Treating flowers with RL increased the pollen diameter from 145.6 in control to 148.5 µm in RL, 78.5 to 93.0% in stainability, and 52.0 to 56.9% in ovule fertilizability in treated female flowers. The fruit set also increased from 51.5 in control to 71.8% in RL-treated female flowers. The seed set followed a similar trend. The ploidy level of pollen from RL-treated flowers increased slightly and was positively correlated with pollen diameter (R2 = 0.09 *), ovule fertilization (R2 = 0.20 *), fruit set (R2 = 0.59 *), and seed set (R2 = 0.60 *). Treating flowers with PGR did not affect pollen diameter but increased stainability from 78.5% in control to 82.1%, ovule fertilizability from 42.9 to 64.9%, and fruit set from 23.2 to 51.9% in PGR-treated female flowers. Combined BA + STS application caused the highest ovule fertilizability, fruit, and seed set efficiency. These results show that RL and PGR treatments increase pollen viability and ovule fertilizability. This is important for planning pollination strategies in cassava breeding programmes. [ABSTRACT FROM AUTHOR]

Published

2024

44. Germline β−1,3-glucan deposits are required for female gametogenesis in Arabidopsis thaliana.

Author

Pinto, Sara C., Leong, Weng Herng, Tan, Hweiting, McKee, Lauren, Prevost, Amelie, Ma, Chao, Shirley, Neil. J., Petrella, Rosanna, Yang, Xiujuan, Koltunow, Anna M., Bulone, Vincent, Kanaoka, Masahiro M., Higashyiama, Tetsuya, Coimbra, Sílvia, and Tucker, Matthew R.

Subjects

GAMETOGENESIS, ARABIDOPSIS thaliana, GERM cells, FUNGAL cell walls, STEM cells, OVULES, SOMATIC cells

Abstract

Correct regulation of intercellular communication is a fundamental requirement for cell differentiation. In Arabidopsis thaliana, the female germline differentiates from a single somatic ovule cell that becomes encased in β−1,3-glucan, a water insoluble polysaccharide implicated in limiting pathogen invasion, regulating intercellular trafficking in roots, and promoting pollen development. Whether β−1,3-glucan facilitates germline isolation and development has remained contentious, since limited evidence is available to support a functional role. Here, transcriptional profiling of adjoining germline and somatic cells revealed differences in gene expression related to β−1,3-glucan metabolism and signalling through intercellular channels (plasmodesmata). Dominant expression of a β−1,3-glucanase in the female germline transiently perturbed β−1,3-glucan deposits, allowed intercellular movement of tracer molecules, and led to changes in germline gene expression and histone marks, eventually leading to termination of germline development. Our findings indicate that germline β−1,3-glucan fulfils a functional role in the ovule by insulating the primary germline cell, and thereby determines the success of downstream female gametogenesis. During female gametogenesis in plants, the Megaspore Mother Cell (MMC) accumulates β−1,3-glucan. Here Pinto et al. show that increased β−1,3-glucanase in the MMC delays β−1,3-glucan deposition, disrupts cell identity, and halts gametogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

45. 多次超数排卵对小鼠和人卵母细胞发育潜能的影响.

Author

李 崇, 沈小力, 杨静薇, 郭 晶, 谢 娟, 黄国宁, and 李竞宇

Subjects

*EMBRYOLOGY, *FERTILIZATION in vitro, *REPRODUCTIVE technology, *PATIENT experience, *ANIMAL experimentation, *OVULES

Abstract

BACKGROUND: Superovulation is a common therapy in assisted reproductive technology. In clinical practice, some patients experience repeated superovulation to get pregnant. OBJECTIVE: To explore the effect of repeated superovulation on the developmental potential of oocytes in mice and humans. METHODS: Both animal experiments and retrospective clinical research were conducted. The animal study involved 90 SPF grade ICR 8-week-old female mice, who were randomly divided into three groups for 1, 3, and 5 superovulations, respectively. The clinical study involved 306 patients who had undergone three consecutive in vitro fertilization cycles. The number of ovules obtained and embryonic development in different cycles were compared. RESULTS AND CONCLUSION: (1) The animal study indicated that repeated superovulation did not affect the embryonic development or developmental speed of mouse embryos. Similarly, there was no significant difference in the mouse blastocyst apoptosis, DNA damage, or the formation of inner cell mass and trophectoderm (P > 0.05). (2) The clinical study also revealed no significant differences in the number of retrieved oocytes (8.60±5.04, 8.58±4.87, and 8.38±4.63, P=0.81) and transferable embryos (2.42±1.99, 2.40±1.92, and 2.64±2.00, P=0.26) over the three cycles. (3) In both the young group (< 35 years) and the old group (≥ 35 years), the embryo quality was not affected by repeated superovulation (P > 0.05). (4) These findings show that repeated superovulation does not affect the developmental potential of oocytes in mice and humans. [ABSTRACT FROM AUTHOR]

Published

2024

46. Genome-wide identification and expression analysis of calmodulin and calmodulin-like genes in passion fruit (Passiflora edulis) and their involvement in flower and fruit development.

Author

Zhang, Dan, Du, Lumiao, Lin, Jinting, Wang, Lulu, Zheng, Ping, Deng, Biao, Zhang, Wenbin, Su, Weiqiang, Liu, Yanhui, Lu, Yuming, Qin, Yuan, and Wang, Xiaomei

Subjects

*PASSION fruit, *OVULES, *FLOWER development, *FRUIT development, *CALMODULIN, *PASSIFLORA, *GENE families

Abstract

Background: The calmodulin (CaM) and calmodulin-like (CML) proteins play regulatory roles in plant growth and development, responses to biotic and abiotic stresses, and other biological processes. As a popular fruit and ornamental crop, it is important to explore the regulatory mechanism of flower and fruit development of passion fruit. Results: In this study, 32 PeCaM/PeCML genes were identified from passion fruit genome and were divided into 9 groups based on phylogenetic analysis. The structural analysis, including conserved motifs, gene structure and homologous modeling, illustrates that the PeCaM/PeCML in the same subgroup have relative conserved structural features. Collinearity analysis suggested that the expansion of the CaM/CML gene family likely took place mainly by segmental duplication, and the whole genome replication events were closely related with the rapid expansion of the gene group. PeCaM/PeCMLs were potentially required for different floral tissues development. Significantly, PeCML26 had extremely high expression levels during ovule and fruit development compared with other PeCML genes, suggesting that PeCML26 had potential functions involved in the development of passion fruit flowers and fruits. The co-presence of various cis-elements associated with growth and development, hormone responsiveness, and stress responsiveness in the promoter regions of these PeCaM/PeCMLs might contribute to their diverse regulatory roles. Furthermore, PeCaM/PeCMLs were also induced by various abiotic stresses. This work provides a comprehensive understanding of the CaM/CML gene family and valuable clues for future studies on the function and evolution of CaM/CML genes in passion fruit. Conclusion: A total of 32 PeCaM/PeCML genes were divided into 9 groups. The PeCaM/PeCML genes showed differential expression patterns in floral tissues at different development stages. It is worth noting that PeCML26, which is highly homologous to AtCaM2, not only interacts with multiple BBR-BPC TFs, but also has high expression levels during ovule and fruit development, suggesting that PeCML26 had potential functions involved in the development of passion fruit flowers and fruits. This research lays the foundation for future investigations and validation of the potential function of PeCaM/PeCML genes in the growth and development of passion fruit. [ABSTRACT FROM AUTHOR]

Published

2024

47. SlCRCa is a key D‐class gene controlling ovule fate determination in tomato.

Author

Wu, Junqing, Li, Pengxue, Zhu, Danyang, Ma, Haochuan, Li, Meng, Lai, Yixuan, Peng, Yuxin, Li, Haixiao, Li, Shuang, Wei, Jinbo, Bian, Xinxin, Rahman, Abidur, and Wu, Shuang

Subjects

*OVULES, *CELL determination, *TOMATOES, *CARPEL, *SEED yield, *HETERODIMERS

Abstract

Summary: Cell fate determination and primordium initiation on the placental surface are two key events for ovule formation in seed plants, which directly affect ovule density and seed yield. Despite ovules form in the marginal meristematic tissues of the carpels, angiosperm carpels evolved after the ovules. It is not clear how the development of the ovules and carpels is coordinated in angiosperms. In this study, we identify the S. lycopersicum CRABS CLAW (CRC) homologue SlCRCa as an essential determinant of ovule fate. We find that SlCRCa is not only expressed in the placental surface and ovule primordia but also functions as a D‐class gene to block carpel fate and promote ovule fate in the placental surface. Loss of function of SlCRCa causes homeotic transformation of the ovules to carpels. In addition, we find low levels of the S. lycopersicum AINTEGUMENTA (ANT) homologue (SlANT2) favour the ovule initiation, whereas high levels of SlANT2 promote placental carpelization. SlCRCa forms heterodimer with tomato INNER NO OUTER (INO) and AGAMOUS (AG) orthologues, SlINO and TOMATO AGAMOUS1 (TAG1), to repress SlANT2 expression during the ovule initiation. Our study confirms that angiosperm basal ovule cells indeed retain certain carpel properties and provides mechanistic insights into the ovule initiation. [ABSTRACT FROM AUTHOR]

Published

2024

48. Megasporogenesis and megagametogenesis in Hydrocleys nymphoides, Alisma plantago-aquatica, and Sagittaria montevidensis (Alismataceae).

Author

Nicolau, Magali, Reposi, Sofía, Gotelli, Marina, Zarlavsky, Gabriela, and Galati, Beatriz

Subjects

*OVULES, *CELL nuclei, *POLYGONUM, *MORPHOLOGY

Abstract

Ovule morphology, megasporogenesis, and megagametogenesis processes were examined in Hydrocleys nymphoides, Alisma plantago-aquatica, and Sagittaria montevidensis. Each of these species belongs to a different clade within the Alismataceae family. It is worth mentioning that the genus Hydrocleys previously belonged to the Limnocharitaceae family but is now classified within the Alismataceae. Flowers in different developmental stages were processed following classical histological methods for their observation with bright-field microscope. The three species present an anatropous and bitegmic mature ovule. This is tenuinucellate in A. plantago-aquatica and S. montevidensis and pseudo-crassinucellate in H. nymphoides. Although all three species have the same type of megasporogenesis, they differ in the megagametogenesis and in the total number of nuclei and cells that form the mature gametophyte. H. nymphoides has a female gametophyte composed of four cells and four nuclei, while A. plantago-aquatica and S. montevidensis have a female gametophyte of five cells and six nuclei. The results are discussed according to the phylogenetic position of each of the species. Moreover, new types of megagametophyte development are described: Hydrocleys and Sagittaria types. The reduction of the female gametophyte with respect to the Polygonum type is found in families belonging to the ANA grade and in other aquatic families within the order Alismatales. We infer that the reduction in the number of cells and nuclei in the female gametophyte is characteristic of species that inhabit aquatic environments. Future studies in aquatic species belonging to other families would be necessary to confirm this hypothesis. [ABSTRACT FROM AUTHOR]

Published

2024

49. Effects of Ovule Position on Seed Maturation, Seed Mass, and Seedling Size in Eastern Redbud (Cercis canadensis).

Author

Susko, David J. and Jamil, Asma N.

Subjects

*OVULES, *SEED size, *SEEDS, *LEAF area, *SEED development, *SEEDLINGS

Abstract

Premise of research. Seed ontogeny between fertilization and seed maturity is a neglected life history stage in demographic studies, yet this period may have profound consequences for seed set and seedling vigor. For plant species with multiovulate linear fruits, it is possible to record the relative position of each ovule, thereby allowing investigators to assess whether ovule development occurs at random or whether it exhibits unique discernible patterns within fruits. We studied effects of ovule position on patterns of ovule development, seed mass, and seedling size within linear pods of Cercis canadensis. Methodology. Fruits were collected from multiple trees at each of three sites in southeastern Michigan. Intraovary ovule position and developmental fate (i.e., undeveloped ovule, aborted ovule, insect-damaged seed, and mature seed) and seed mass were determined. Seedling performance from three seed size classes was also monitored. Seedling traits included days to emergence, height, leaf area, and seedling biomass. Pivotal results. Three-fourths or more of all ovules within fruits across the populations reached seed maturity. Patterns of seed maturation and abortion were nonrandom and significantly depended on populations, individuals, and ovule positions within fruits. Probability of seed maturation within individual fruits was lowest at the basal end and highest at either the center or the distal end, suggesting the existence of a fertilization gradient. Conversely, frequencies of undeveloped ovules and aborted seeds were highest at the bases of fruits. Insect-damaged seeds accounted for 1%–3% of all ovules and occurred randomly. Seeds located in basal sections of fruits were also smaller than seeds located in central and distal sections. Seed mass was positively correlated with all measures of seedling performance. Conclusions. Patterns of ovule development and seed maturation were determined to be nonrandom within fruits of C. canadensis. Ovule position influences abortion and maturation of seeds, seed mass, and early seedling vigor and has the potential to affect overall plant fitness. [ABSTRACT FROM AUTHOR]

Published

2024

50. THREE NEW SPECIES OF NOTHOSCORDUM (AMARYLLIDACEAE) FROM THE CAMPOS ECO-REGION OF THE GRASSLAND ECOSYSTEMS OF RÍO DE LA PLATA, SOUTHEAST SOUTH AMERICA.

Author

Paz Deble, Leonardo, Pinheiro Moreira, Bárbara, and Keller, Héctor A.

Subjects

*OVARIES, *OVULES, *INFLORESCENCES, *SPECIES, *FLOWERS, *AMARYLLIDACEAE

Abstract

Three new Amaryllidaceae species are described: Nothoscordum elongatum Deble & B. P. Moreira, N. parvum Deble & B. P. Moreira and N. urutauense Deble & H. A. Keller. Nothoscordum elongatum and N. parvum grow in central-eastern Rio Grande do Sul state, while N. urutauense is narrowly endemic to southern Misiones Province, northeast Argentina. The three new taxa are characterized by a strong alliaceous odor, pilose leaves and scapes, and 1 or 2-flowered inflorescence. Nothoscordum elongatum is segregated from N. marchesii by its densely pilose leaves and scapes (vs. glabrous leaves and scapes), flowers with longer pedicels and ovaries with fewer ovules per locule. Nothoscordum parvum is similar to N. modestum and N. urutauense; however, it can be readily separated from both species by the presence of bulbils surrounding the main bulb, the flowers that are narrowly infundibuliform, fused towards the base for 1.8-2.2 mm, and the scapes that are erect at fruit maturity. Nothoscordum urutauense differs from N. inundatum by its broader leaves, flowers with tepals fused at the base for 0.5-1 mm, and free filaments at base. These three species of Nothoscordum are described, illustrated, compared with morphologically similar taxa, and featured with their geographic distribution. In addition, a key to distinguish the 1- or 2-flowered species of Nothoscordum is proposed. [ABSTRACT FROM AUTHOR]

Published

2024