Your search keyword '"shoot"' showing total 80,306 results

1. Post-anthesis Roots Metabolic Activities Relate Low Phosphorus (P)-Tolerance in Rice (Oryza sativa L.).

Author

Kaur, Amanpreet, Zhawar, Vikramjit Kaur, and Dhillon, Buta Singh

Subjects

RIBONUCLEASES, PHOSPHATASES, PLANT cells & tissues, CARBOHYDRATES, GRAIN yields, RICE

Abstract

Post-anthesis effect of phosphorus (P)-deficit is less studied in plants. P-deficit analysis is rarely performed in different tissues of the plant together. The present study analyzed total-P, inorganic-P, acid phosphatases, ribonucleases, carbohydrates, and antioxidants in the roots, lower leaves, flag leaves, and spikelets at 0, 10, 20, and 30 days after anthesis and recorded yield components at harvest in rice cultivars CSR10 (low-P tolerant) and Pusa44 (low-P susceptible) under P-deprivation (P0) compared to P-application at 30 kg ha−1 (P30). Total-P was deficient in the roots and leaves of Pusa44 compared to CSR10 under P0. Acid phosphatases and ribonucleases were enhanced by roots under P0, and the increase was exceptionally high in CSR10. Hexoses, sucrose, and starch levels remained low in the vegetative tissues of Pusa44 compared to CSR10 under P0. Starch and sucrose were mobilized from vegetative tissues especially from the roots of CSR10 compared to Pusa44 under P0. Sucrose and starch levels were high in the spikelets of CSR10 compared to Pusa44 under P0. Antioxidants were high in the vegetative tissues especially in the roots of CSR10 compared to Pusa44 under P0. At harvest, unfilled grains per panicle increased and grain yield reduced in Pusa44 under P0. Results concluded that post-anthesis roots metabolic activities, in the form of acid phosphatases/ribonucleases for P-acquisition and antioxidants to counteract stress and starch/sucrose mobilization toward spikelets, may play an important role toward low-P tolerance in rice. [ABSTRACT FROM AUTHOR]

Published

2024

2. EFFECT OF SEWAGE WATER (SLUDGE) ON PLANT MORPHOLOGY OF ZEA MAIZE.

Author

Rao, Sonali, Kaushik, Vedansh, Mittal, Aayushi, Walia, Shivani, Kashyap, Nutan, and Rana, Anirudh

Subjects

PLANT morphology, SEWAGE, FOOD of animal origin, LEAF area, FOOD crops, CORN, FOLIAGE plants

Abstract

In the present study, impact of domestic waste water (Sewage sludge) on the morphological characters which are shows on maize seed, shoot, root and leaf per areas. Sewage water is also used for crop irrigation. Crops are consumed by animals and humans as the food diet. The polluted substances are accumulated in plants during the growing process. On the polluted irrigated plants different analysis of variance showed that the effect of difference rate of seed germination, shoot, root, area of leaf per plant. The sewage is the proper dilution can be used as a potential use of water for morphological growth in maize. [ABSTRACT FROM AUTHOR]

Published

2024

3. Shoot complexes on the apical part of the crown of generative Fraxinus excelsior L. trees

Author

I. S. Antonova and M. S. Televinova

Subjects

crown structure, crown shape, shoot system, shoot, branch, temperature, fraxinus excelsior l., Biotechnology, TP248.13-248.65, Botany, QK1-989

Abstract

Background. Fraxinus excelsior L. is a common forest species in the Central Russian Upland, used to produce valuable lumber and for landscaping. Mass mortality of this species due to fungi and insects determines the relevance of its detailed research. Tree crown development features play an important role in the tree’s life in both dense communities and open spaces. Materials and methods. Shoots and large branches were collected from the apical part of the crown for ten years in Belgorod and Leningrad Provinces. The lengths of internodes and shoots, the numbers of leaves and branchings, and shoot development patterns were analyzed. An unmanned aerial vehicle was employed to examine the treetops. The complexes of large branches on the crown periphery in different age states (g1, g2, and g3) were studied both by direct measurement and using photographs. The effect of temperatures on the length and number of leaves was assessed with a two-way analysis of variance (ANOVA). Results. Shoots of F. excelsior are significantly shorter at high mean temperatures in the second ten-day period of June. The number of leaves on them is significantly greater at high temperatures in the second ten-day period of May. Six-to-eight-leafed shoots make up the ascending part on the curve of the sequence of internode lengths for the most developed shoots. In ontogenetic states g1 and g2, the crown surface is represented by sections of large branches. In the g3 state, they break up into complexes of small weakly branching spherical structures. The apical branches of the umbrella-shaped crown of generative ash trees are inverted cone-shaped shoot complexes with a similar development pattern. Conclusion. The structure and development of F. excelsior branches characterizes the ecological features of the species, manifested through the absence of obvious branching orders and combined with the inverted conical shape of large branches.

Published

2024

4. Antimicrobial, Antifungal, Antioxidant Activity and Phytochemical Investigation of Phenolcarboxylic Acids by GC–MS of Raspberry (Rubus idaeus L.) Shoot Lipophilic Extract

Author

Maslov O., Komisarenko M., Ponomarenko S., Kolisnyk S., Osolodchenko T., and Golik M.

Subjects

raspberry, phenolcarboxylic acids, shoot, lipophilic extract, antimicrobial activity, antioxidant activity, Therapeutics. Pharmacology, RM1-950

Abstract

To determine the content of phenolcarboxylic acids using gas chromatography–mass spectrometer (GC–MS) in the obtained extract, conduct a study of the antimicrobial, antifungal, and antioxidant activities of Rubus idaeus shoot lipophilic extract.

Published

2024

5. GREEN SYNTHESIS OF FeS NANOPARTICLES FROM Hordeum vulgareLEAF EXTRACT AND EVALUATION OF ITS IMPACT ON SEED PRIMING AND GERMINATION.

Author

Elizabeth, M. Kezia, Devi, Randhi Uma, Parameshwar, Makam, and Ratnamala, A.

Subjects

*BARLEY, *MUSTARD, *AGRICULTURE, *BAND gaps, *GERMINATION

Abstract

In this study, we used Hordeum vulgare leaf extract as a sustainable environmental approach for producing FeS nanoparticles (FeS NPs). The synthesized FeS NPs were examined using the SEM, UV-Vis, and XRD powder diffraction techniques. XRD tests validated the structure of FeS nanoparticles. These nanoparticles had an average 14 nm crystal size and possessed a 2.0 eV band gap with an even distribution. A further study was conducted to investigate Hordeum vulgare capped FeS nanoparticle's impact on seed priming and germination characteristics. The seed priming effect on the germination of Trigonella foenum-graecumand Brassica nigra seedswas examined using various concentrations of phyto-capped FeS NPs. The Germination rate occurs optimally at doses of 15mg and 20mg, but the germination rate is retarded at 30mg of FeS NPs in both the seed types. FeS NPs are tiny and highly reactive, allowing them to improve seed water uptake and nutrient management. As a result, this enhances germination and plant growth by shortening the average germination period. Therefore, FeS NPs developed using the green method if used in optimal concentration exhibit significant promise for the advancement of agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

6. Developing micropropagation protocol for black mulberry (Morus nigra L.).

Author

ÖZKUL, Merve, SEVGİN, Nevzat, ÖZKUL, Mehmet, NEGI, Neelam Prabha, EYDURAN, Sadiye Peral, YILMAZ, Birsen, and AKIN, Melekşen

Subjects

*PLANT regulators, *THIDIAZURON, *BENZYLAMINOPURINE, *CALLUS (Botany), *MULTIPLICATION

Abstract

This study aimed to develop a suitable micropropagation protocol for black mulberry (Morus nigra L.), which cannot be easily clonally propagated like the other mulberry species. Clonal propagation of this species is gaining importance due to its health benefits and utilization in pharmacology. The effects of the culture media and cytokinin concentrations on the micropropagation of black mulberry were investigated. Single-axillary bud explants grown on Murashige and Skoog medium, Driver and Kuniyuki walnut medium, and Nas and Read medium (NRM) containing 0.25 mg L-1 of benzyladenine (BA) plus 0.01 mg L-1 of indole-3-butyric acid (IBA) were compared to cultures grown on NRM with thidiazuron (TDZ), meta-Topolin (mT), or BA at concentrations of 1.25, 2.5, 5.0, or 7.5 mg L-1 plus 0.01 mg L-1 of IBA. The culture medium had a significant effect on the shoot length, which was greater on the NRM (3.3 shoots per explant) compared to the other media. Shoot multiplication was similar on all of the tested media. TDZ negatively affected shoot formation and triggered rosette shoots and/or large callus formation. BA and mT promoted both shoot proliferation and elongation. Around 84% of the micro shoots rooted and the rooted shoots were successfully acclimatized to ex vitro conditions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effect of Activated Charcoal on in Vitro Propagation of Lythrum salicaria L. (Lythraceae).

Author

Ebrahimi, Tahereh, Piri, Khosro, Abdoli, Asghar, and Tohidfar, Masoud

Subjects

ACTIVATED carbon, PURPLE loosestrife, PLANT shoots, PLANT micropropagation

Abstract

Lythrum salicaria L., commonly referred to as Purple Loosestrife, is a medicinal plant that has been valued for its therapeutic properties for centuries. The aim of this study is to determine the effect of using activated charcoal on establishing the in vitro propagation of L. Salicaria L. In this study, shoot explants (1.5 cm) were excised from buds that were 30 days old with a sterile scalpel blade and then cultured on full-strength MS medium supplemented with different concentrations of activated charcoal to multiply and increase the length of shoots. Additionally, to investigate the in vitro rooting response, shoot tip explants were cut from elongated shoots and cultured on an MS medium containing different concentrations of NAA with or without activated charcoal with three replicates in each experiment. MS medium with 0.5 g/L activated charcoal had the highest mean shoot length (7.1 cm ± 0.15) and mean number of shoots per explant (2.4±0.11). The results show that 0.5 mg/L NAA and 0.2 g/L activated charcoal provide the best response for rooting. The improved protocol can be utilized to grow roots in micro shoots of L. salicaria, which is an important stage in the micro propagation of L. salicaria. [ABSTRACT FROM AUTHOR]

Published

2024

8. Crop Phenomics and High-Throughput Phenotyping

Author

Kumari, Priya, Gangwar, Himanshi, Kumar, Vishal, Jaiswal, Vandana, Gahlaut, Vijay, Priyadarshan, P. M., editor, Jain, Shri Mohan, editor, Penna, Suprasanna, editor, and Al-Khayri, Jameel M., editor

Published

2024

9. Weighted gene co-expression network analysis reveals hub genes regulating response to salt stress in peanut

Author

Feifei Wang, Huarong Miao, Shengzhong Zhang, Xiaohui Hu, Ye Chu, Weiqiang Yang, Heng Wang, Jingshan Wang, Shihua Shan, and Jing Chen

Subjects

Peanut, Salt tolerance, Root, Shoot, WGCNA, Hub genes, Botany, QK1-989

Abstract

Abstract Peanut (Arachis hypogaea L.) is an important oilseed crop worldwide. However, soil salinization becomes one of the main limiting factors of peanut production. Therefore, developing salt-tolerant varieties and understanding the molecular mechanisms of salt tolerance is important to protect peanut yield in saline areas. In this study, we selected four peanut varieties with contrasting response to salt challenges with T1 and T2 being tolerance and S1 and S2 being susceptible. High-throughput RNA sequencing resulted in more than 314.63 Gb of clean data from 48 samples. We identified 12,057 new genes, 7,971of which have functional annotations. KEGG pathway enrichment analysis of uniquely expressed genes in salt-tolerant peanut revealed that upregulated genes in the root are involved in the MAPK signaling pathway, fatty acid degradation, glycolysis/gluconeogenesis, and upregulated genes in the shoot were involved in plant hormone signal transduction and the MAPK signaling pathway. Na+ content, K+ content, K+/ Na+, and dry mass were measured in root and shoot tissues, and two gene co-expression networks were constructed based on weighted gene co-expression network analysis (WGCNA) in root and shoot. In this study, four key modules that are highly related to peanut salt tolerance in root and shoot were identified, plant hormone signal transduction, phenylpropanoid biosynthesis, starch and sucrose metabolism, flavonoid biosynthesis, carbon metabolism were identified as the key biological processes and metabolic pathways for improving peanut salt tolerance. The hub genes include genes encoding ion transport (such as HAK8, CNGCs, NHX, NCL1) protein, aquaporin protein, CIPK11 (CBL-interacting serine/threonine-protein kinase 11), LEA5 (late embryogenesis abundant protein), POD3 (peroxidase 3), transcription factor, and MAPKKK3. There were some new salt-tolerant genes identified in peanut, including cytochrome P450, vinorine synthase, sugar transport protein 13, NPF 4.5, IAA14, zinc finger CCCH domain-containing protein 62, beta-amylase, fatty acyl-CoA reductase 3, MLO-like protein 6, G-type lectin S-receptor-like serine/threonine-protein kinase, and kinesin-like protein KIN-7B. The identification of key modules, biological pathways, and hub genes in this study enhances our understanding of the molecular mechanisms underlying salt tolerance in peanuts. This knowledge lays a theoretical foundation for improving and innovating salt-tolerant peanut germplasm.

Published

2024

10. THE INFLUENCE OF PRUNUS NECROTIC VIRUS AND PLUM DWARF VIRUS ON FROST RESISTANCE OF SOUR CHERRY [VLIV INFEKCE PNRSV A PDV NA MRAZUODOLNOST VIŠNÍ]

Author

Liliia Pavliuk, Iryna Riaba, Viktoriia Kryvoshapko, Mykola Bublyk, and Kateryna Udovychenko

Subjects

prunus cerasus, pnrsv, pdv, bud, shoot, bark, cambium, xylem, pith, Plant culture, SB1-1110, Botany, QK1-989

Abstract

This article presents the results of testing the effect of virus infection on the frost resistance of sour cherry varieties of Ukrainian breeding. ‘Ksenia’ and ‘Boguslavka’ varieties were used. Damage to the tissues of buds and shoots at temperatures of 4 °C, –25 °С, –30 °С was compared on plants infected with viruses (PNRSV in the variety ‘Ksenia’, PDV in the variety ‘Boguslavka’) and healthy plants. The degree of frost damage was classified on a scale from zero (no damage) to five (100% tissue damage). In each variant, 10–34 buds and 3–14 shoots were tested. It was found that the PDV and PNRSV viruses have a negative effect on the frost resistance of bud tissues. At –25°С, the average degree of bud tissue damage reached 3.2 points in the variety ‘Ksenia’ (PNRSV) and 4.1 points in the variety ‘Boguslavka’ (PDV). At –30 °C, the degree of damage to the buds of both varieties was 4.2 points. The same temperatures had a less impact on the tissues of the shoots. The highest damage was recorded in cambium tissues of the infected ‘Boguslavka’ variety at –30 °С, and the lowest was in bark samples of the infected ‘Ksenia’ variety (0.8 points at –25 °С).

Published

2024

11. Progress on the Signal Transduction and Crosstalk Mechanism of Humic Substances in Promoting Plant Root and Shoot Growth

Author

Ge SONG, Zhiqiang XU, Jingsi SUN, and Xuening ZHAO

Subjects

humic substances, root, shoot, (pm)h+-atpase, iaa, no, aba, ros, Agriculture

Abstract

Humic substances (HS), a natural polymer isomeric mixture, is an important component of terrestrial ecosystem. Its promotion effect on plant growth has been widely studied in recent years. Multiple signaling pathways play an important role in the process of HS promoting plant growth and development. The article summarizes the signaling pathway transduction and crosstalk mechanisms of HS in promoting the growth and development of plant roots and shoots. During the promotion of root growth, HS mainly involves the transduction of Indole-3-acetic acid (IAA), nitric oxide (NO), abscisic acid (ABA), reactive oxygen species (ROS) and Ca2+ signal, and the complex crosstalk between them; During the promotion of shoot growth, HS mainly involves the transmission of cytokinin (CTK) and ABA signaling pathways, and the complex crosstalk occurs between nitrate and CTK signaling pathways. HS regulates plant physiological metabolism through a complex metabolic network, involving multiple complicated signaling pathways and crosstalk processes. Among them, (PM) H+- ATPase is the key node of HS promoting root and shoot growth, and multiple signaling pathways mediate the signal transduction of cascade amplification via (PM) H+- ATPase. NO signal has a complex crosstalk process with multiple signaling pathways that regulate root and shoot growth, and is an important crosstalk signaling molecule involved in the promotion of plant growth by HS. There are other signaling pathways involved in the growth and development of roots and shoots triggered by HS, among which the defense signaling pathways salicylicacid (SA) and jasmonic acid (JA) are regulated by signaling pathways IAA, NO, ABA and CTK. Due to the dispersion, heterogeneity and complexity of biochemical research of HS, the relevant mechanism of the short-term promoting effect of HS on plant growth and the overall action mechanism on plant growth and development during the whole growth stage have not yet been clarified. Therefore, further in-depth analysis is needed to reveal the signal transduction, crossover, crosstalk and integration pathways involved in the growth promotion process, and the complex nutritional and metabolic pathways. The result of our research could provide theoretical basis for studying the action mechanism of HS physiological activity and its application in agricultural production.

Published

2024

12. Transcriptome and metabolome profiling reveal the effects of hormones on current-year shoot growth in Chinese ‘Cuiguan’ pear grafted onto vigorous rootstock ‘Duli’ and dwarf rootstock ‘Quince A’

Author

Zhenxu Liang, Qinghua Wang, Mingde Sun, Ruirui Du, Wanmei Jin, and Songzhong Liu

Subjects

Pear, Scion-rootstock, Shoot, Transcriptome, Phytohormones, Botany, QK1-989

Abstract

Abstract Background Dwarf rootstocks have important practical significance for high-density planting in pear orchards. The shoots of ‘Cuiguan’ grafted onto the dwarf rootstock were shorter than those grafted onto the vigorous rootstock. However, the mechanism of shorter shoot formation is not clear. Results In this study, the current-year shoot transcriptomes and phytohormone contents of ‘CG‒QA’ (‘Cuiguan’ was grafted onto ‘Quince A’, and ‘Hardy’ was used as interstock) and ‘CG‒DL’ (‘Cuiguan’ was grafted onto ‘Duli’, and ‘Hardy’ was used as interstock) were compared. The transcriptome results showed that a total of 452 differentially expressed genes (DEGs) were identified, including 248 downregulated genes and 204 upregulated genes; the plant hormone signal transduction and zeatin biosynthesis pathways were significantly enriched in the top 20 KEGG enrichment terms. Abscisic acid (ABA) was the most abundant hormone in ‘CG‒QA’ and ‘CG‒DL’; auxin and cytokinin (CTK) were the most diverse hormones; additionally, the contents of ABA, auxin, and CTK in ‘CG‒DL’ were higher than those in ‘CG‒QA’, while the fresh shoot of ‘CG‒QA’ accumulated more gibberellin (GA) and salicylic acid (SA). Metabolome and transcriptome co-analysis identified three key hormone-related DEGs, of which two (Aldehyde dehydrogenase gene ALDH3F1 and YUCCA2) were upregulated and one (Cytokinin oxidase/dehydrogenase gene CKX3) was downregulated. Conclusions Based on the results of transcriptomic and metabolomic analysis, we found that auxin and CTK mainly regulated the shoot differences of ‘CG–QA’ and ‘CG–DL’, and other hormones such as ABA, GA, and SA synergistically regulated this process. Three hormone-related genes ALDH3F1, YUCCA2, and CKX3 were the key genes contributing to the difference in shoot growth between ‘CG–QA’ and ‘CG–DL’ pear. This research provides new insight into the molecular mechanism underlying shoot shortening after grafted onto dwarf rootstocks.

Published

2024

13. Weighted gene co-expression network analysis reveals hub genes regulating response to salt stress in peanut.

Author

Wang, Feifei, Miao, Huarong, Zhang, Shengzhong, Hu, Xiaohui, Chu, Ye, Yang, Weiqiang, Wang, Heng, Wang, Jingshan, Shan, Shihua, and Chen, Jing

Subjects

*GENE regulatory networks, *AQUAPORINS, *PEANUTS, *ION transport (Biology), *CARRIER proteins, *STARCH metabolism, *ZINC-finger proteins, *MOLECULAR motor proteins

Abstract

Peanut (Arachis hypogaea L.) is an important oilseed crop worldwide. However, soil salinization becomes one of the main limiting factors of peanut production. Therefore, developing salt-tolerant varieties and understanding the molecular mechanisms of salt tolerance is important to protect peanut yield in saline areas. In this study, we selected four peanut varieties with contrasting response to salt challenges with T1 and T2 being tolerance and S1 and S2 being susceptible. High-throughput RNA sequencing resulted in more than 314.63 Gb of clean data from 48 samples. We identified 12,057 new genes, 7,971of which have functional annotations. KEGG pathway enrichment analysis of uniquely expressed genes in salt-tolerant peanut revealed that upregulated genes in the root are involved in the MAPK signaling pathway, fatty acid degradation, glycolysis/gluconeogenesis, and upregulated genes in the shoot were involved in plant hormone signal transduction and the MAPK signaling pathway. Na+ content, K+ content, K+/ Na+, and dry mass were measured in root and shoot tissues, and two gene co-expression networks were constructed based on weighted gene co-expression network analysis (WGCNA) in root and shoot. In this study, four key modules that are highly related to peanut salt tolerance in root and shoot were identified, plant hormone signal transduction, phenylpropanoid biosynthesis, starch and sucrose metabolism, flavonoid biosynthesis, carbon metabolism were identified as the key biological processes and metabolic pathways for improving peanut salt tolerance. The hub genes include genes encoding ion transport (such as HAK8, CNGCs, NHX, NCL1) protein, aquaporin protein, CIPK11 (CBL-interacting serine/threonine-protein kinase 11), LEA5 (late embryogenesis abundant protein), POD3 (peroxidase 3), transcription factor, and MAPKKK3. There were some new salt-tolerant genes identified in peanut, including cytochrome P450, vinorine synthase, sugar transport protein 13, NPF 4.5, IAA14, zinc finger CCCH domain-containing protein 62, beta-amylase, fatty acyl-CoA reductase 3, MLO-like protein 6, G-type lectin S-receptor-like serine/threonine-protein kinase, and kinesin-like protein KIN-7B. The identification of key modules, biological pathways, and hub genes in this study enhances our understanding of the molecular mechanisms underlying salt tolerance in peanuts. This knowledge lays a theoretical foundation for improving and innovating salt-tolerant peanut germplasm. [ABSTRACT FROM AUTHOR]

Published

2024

14. Effect of foliar chelated forms spraying on grape yield and mineral status of shoots.

Author

Poposka, Hristina and Mukaetov, Dusko

Subjects

GRAPE yields, IRON fertilizers, MINERALS, TISSUE analysis, FIELD research, GRAPES, FERTILIZERS, MAGNESIUM, BERRIES

Abstract

The aim of this study was to evaluate the foliar chelated forms of Mg and Fe, on grape yield and mineral status of the shoots of vine cultivar Cardinal. Field trials were organized using a random block system with three variants, including a control (Variant I), each replicated three times. Foliar fertilizers were applied at a concentration of 0.5% on four occasions throughout the vegetation period: before and after blooming, during buckshot berry stage, and at the verasion stage. Over the ivestigation of three years, the application of foliar Mg and Fe fertilizers significantly influenced grape yield. The variant treated with Fe (VFe) demonstrated a higher average yield of 14.87 t/ha. Furthermore, a noticeable impact of foliar fertilizers on the concentration of analyzed elements in grapevine shoots was observed. Over the three-year period, the average content of macro elements, including nitrogen, phosphorus, calcium, magnesium, and iron, was higher in the treated variants compared to the control. Additionally, results from shoot tissue analysis confirmed the existence of an antagonistic relationship between magnesium and potassium. [ABSTRACT FROM AUTHOR]

Published

2024

15. Efficacy of Different Concentrations of IBA and NAA on Growth of Hardwood Cuttings of Fig (Ficus carica L.) cv Dinkar.

Author

Kumar, Ajay, Thakur, Nidhika, Ingole, Aditya, Shah, Imamuddin, and Srivastava, A. K.

Abstract

An investigation was conducted to know the influence of growth hormones on shoot growth in hardwood cuttings of fig (Ficus carica L.). The experiment was set up in RBD having thirty cuttings with three replications treated with different concentrations of growth hormones viz., T1 (IBA 1000 ppm), T2 (IBA 2000 ppm), T3 (NAA 1000 ppm), T4 (NAA 2000 ppm), T5 (IBA 1000 ppm + NAA 1000 ppm), T6 (IBA 2000 ppm + NAA 2000 ppm) along with control. Present study revealed earliest sprouting, maximum shoot diameter, shoot length and number of leaves, fresh and dry weights shoot with T6 (IBA 2000 ppm + NAA 2000 ppm). On the basis of findings of this study fig hardwood cuttings treated with IBA 2000 ppm + NAA 2000 ppm under the shade house conditions can be recommended to nursery growers and researchers to obtain desirable shoot growth under Bundelkhand region of Uttar Pradesh. [ABSTRACT FROM AUTHOR]

Published

2024

16. Performance of seedlings and yield of soybean genotypes under soil compaction.

Author

Capobiango, Nayara Pereira, Bessa, Giulia Badotti, Peris, Gabriel Cordeiro de Oliveira, da Silva, Felipe Lopes, Dias, Denise Cunha Fernandes dos Santos, Fernandes, Raphael Bragança Alves, da Silva, Martha Freire, and da Silva, Laércio Junio

Subjects

*SOIL compaction, *GENOTYPES, *MECHANICAL impedance, *SOYBEAN sowing, *SEED yield, *SOYBEAN, *SOYBEAN cyst nematode

Abstract

The identification of soybean genotypes tolerant to soil compaction makes it possible to reduce productivity loss under stress conditions. Added to this, the prior selection of these genotypes will result in greater assertiveness in the positioning of cultivars in the field. Thus, the objective was to evaluate the susceptibility of soybean genotypes to compaction in greenhouse and field conditions; verify which characteristics of seedlings under high resistance to root penetration are correlated with crop production in compacted soil; and to validate the substrate mechanical impedance method for evaluating the susceptibility of plant genotypes to soil compaction. Seeds of 20 genotypes were sown in a substrate mechanical impedance system under controlled conditions. The characteristics evaluated were total root length, total root surface area, mean root diameter, total root volume, taproot length, shoot length, root dry matter and seedling shoot dry matter. In the field experiment, half of the planting area was compacted, constituting two treatments, soil with and without compaction. The percentage of seedling emergence, initial plant height, stem diameter, number of nodes, internode length, number of lateral branches, shoot dry matter, final plant height, absolute and relative growth rate, number of pods, weight of 100 seeds and grain yield. In addition, the number of days between soybean sowing until plant flowering and grain harvest was recorded according to genotype and soil compaction level. In a controlled environment, genotypes tolerant to soil compaction show greater plasticity of root characteristics and smaller alterations in the shoot of seedlings. In the field, these genotypes show smaller reductions in growth rate, height, number of pods and grain yield. The shoot dry matter and the root dry matter of soybean seedlings in a mechanical impedance system present a positive and negative correlation, respectively, with soybean yield in compacted soil, indicating that the genetically determined susceptibility to soil compaction stress was similar throughout ontogenesis. The substrate mechanical impedance system used to evaluate the performance of soybean seedlings under stress, facilitates the decision‐making in breeding programs focused on identifying genotypes expressing soil compaction tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

17. 腐殖质促进植物根和地上部生长的信号传导 和串扰机制研究进展.

Author

宋 鸽, 胥智强, 孙静思, and 赵雪宁

Abstract

Humic substances (HS), a natural polymer isomeric mixture, is an important component of terrestrial ecosystem. Its promotion effect on plant growth has been widely studied in recent years. Multiple signaling pathways play an important role in the process of HS promoting plant growth and development. The article summarizes the signaling pathway transduction and crosstalk mechanisms of HS in promoting the growth and development of plant roots and shoots. During the promotion of root growth, HS mainly involves the transduction of Indole-3-acetic acid (IAA), nitric oxide (NO), abscisic acid (ABA), reactive oxygen species (ROS) and Ca2+ signal, and the complex crosstalk between them; During the promotion of shoot growth, HS mainly involves the transmission of cytokinin (CTK) and ABA signaling pathways, and the complex crosstalk occurs between nitrate and CTK signaling pathways. HS regulates plant physiological metabolism through a complex metabolic network, involving multiple complicated signaling pathways and crosstalk processes. Among them, (PM) H+- ATPase is the key node of HS promoting root and shoot growth, and multiple signaling pathways mediate the signal transduction of cascade amplification via (PM) H+- ATPase. NO signal has a complex crosstalk process with multiple signaling pathways that regulate root and shoot growth, and is an important crosstalk signaling molecule involved in the promotion of plant growth by HS. There are other signaling pathways involved in the growth and development of roots and shoots triggered by HS, among which the defense signaling pathways salicylicacid (SA) and jasmonic acid (JA) are regulated by signaling pathways IAA, NO, ABA and CTK. Due to the dispersion, heterogeneity and complexity of biochemical research of HS, the relevant mechanism of the short-term promoting effect of HS on plant growth and the overall action mechanism on plant growth and development during the whole growth stage have not yet been clarified. Therefore, further in-depth analysis is needed to reveal the signal transduction, crossover, crosstalk and integration pathways involved in the growth promotion process, and the complex nutritional and metabolic pathways. The result of our research could provide theoretical basis for studying the action mechanism of HS physiological activity and its application in agricultural production. [ABSTRACT FROM AUTHOR]

Published

2024

18. Impact of ultraviolet-B radiation on early-season morphophysiological traits of indica and japonica rice genotypes.

Author

Mathur, Sonal, Bheemanahalli, Raju, Jumaa, Salah Hameed, Kakar, Naqeebullah, Reddy, Vangimalla R., Wei Gao, and Reddy, Kambham Raja

Subjects

GENOTYPES, HYBRID rice, RICE, NOXIOUS weeds, RADIATION, LEAF area, PLANT growth

Abstract

Ultraviolet (UV)-B radiation is considered one of the major detrimental rays coming from the Sun. UV-B radiation has a harmful impact on plant growth and development. The effect of UV-B radiation was studied on 64 rice (Oryza sativa L.) genotypes during the vegetative season. An equal number of genotypes from the japonica (50%) and indica (50%) subspecies were phenotyped using the Soil-Plant-Atmosphere-Research (SPAR) units. The 10 kJ UV-B was imposed 12 days after planting (DAP) and continued for three weeks (21 d). Based on the combined ultraviolet-B radiation response index (CUVBRI) for each genotype, the 64 rice genotypes were classified into sensitive, moderately sensitive, moderately tolerant, and tolerant. Various shoot traits, such as plant height, tiller, and leaf numbers, were measured. We also studied critical root phenological traits like root volume, diameter, tips, and forks. Out of all the studied shoot traits, leaf area showed maximum reduction for both indica (54%) and japonica (48%). Among the root traits, root length decreased by negligible (1%) for indica as compared to japonica (5%), while root crossing and forks showed a maximum decline for japonica (37 and 42%), respectively. This study is timely, meaningful, and required because it will help breeders select a tolerant or sensitive rice line for better yield and production under abiotic stresses. [ABSTRACT FROM AUTHOR]

Published

2024

19. Transcriptome and metabolome profiling reveal the effects of hormones on current-year shoot growth in Chinese 'Cuiguan' pear grafted onto vigorous rootstock 'Duli' and dwarf rootstock 'Quince A'.

Author

Liang, Zhenxu, Wang, Qinghua, Sun, Mingde, Du, Ruirui, Jin, Wanmei, and Liu, Songzhong

Subjects

*ROOTSTOCKS, *QUINCE, *PEARS, *PLANT hormones, *TRANSCRIPTOMES, *PLANT genes

Abstract

Background: Dwarf rootstocks have important practical significance for high-density planting in pear orchards. The shoots of 'Cuiguan' grafted onto the dwarf rootstock were shorter than those grafted onto the vigorous rootstock. However, the mechanism of shorter shoot formation is not clear. Results: In this study, the current-year shoot transcriptomes and phytohormone contents of 'CG‒QA' ('Cuiguan' was grafted onto 'Quince A', and 'Hardy' was used as interstock) and 'CG‒DL' ('Cuiguan' was grafted onto 'Duli', and 'Hardy' was used as interstock) were compared. The transcriptome results showed that a total of 452 differentially expressed genes (DEGs) were identified, including 248 downregulated genes and 204 upregulated genes; the plant hormone signal transduction and zeatin biosynthesis pathways were significantly enriched in the top 20 KEGG enrichment terms. Abscisic acid (ABA) was the most abundant hormone in 'CG‒QA' and 'CG‒DL'; auxin and cytokinin (CTK) were the most diverse hormones; additionally, the contents of ABA, auxin, and CTK in 'CG‒DL' were higher than those in 'CG‒QA', while the fresh shoot of 'CG‒QA' accumulated more gibberellin (GA) and salicylic acid (SA). Metabolome and transcriptome co-analysis identified three key hormone-related DEGs, of which two (Aldehyde dehydrogenase gene ALDH3F1 and YUCCA2) were upregulated and one (Cytokinin oxidase/dehydrogenase gene CKX3) was downregulated. Conclusions: Based on the results of transcriptomic and metabolomic analysis, we found that auxin and CTK mainly regulated the shoot differences of 'CG–QA' and 'CG–DL', and other hormones such as ABA, GA, and SA synergistically regulated this process. Three hormone-related genes ALDH3F1, YUCCA2, and CKX3 were the key genes contributing to the difference in shoot growth between 'CG–QA' and 'CG–DL' pear. This research provides new insight into the molecular mechanism underlying shoot shortening after grafted onto dwarf rootstocks. [ABSTRACT FROM AUTHOR]

Published

2024

20. Allelopathic Effect of Lathyrus sativus L. on Seed Germination and Seedling Growth of Lens culinaris L.

Author

Akmal, Mohammad, Gupta, A K, Shukla, D N, and Shareef, M

Published

2023

21. In Vitro Regeneration of Ragleaf (Crassocephalum crepidioides (Benth.) S.Moore) Using Kinetin

Author

Abdulsalam Mosobalaje Murtadha and Olanike Omobolanle Oladejo

Subjects

kinetin, micro-propagation, node, root, shoot, Agriculture (General), S1-972, Plant culture, SB1-1110

Abstract

Micropropagation is a valuable means for large-scale production and preservation of invasive alien species such as ragleaf. To determine the concentration of kinetin adequate for in vitro growth of the ragleaf flower, seeds of the plant were propagated in vitro using Murashige and Skoog medium supplemented with basal 0.5 mg L-1 Naphthalene Acetic Acid and incubated for four weeks. The growing shoots were cut into pieces and inoculated into MS media with five kinetin concentrations: 0.0, 1.0, 1.5, 2.0, and 2.5 mg L-1. The tubes were kept in an incubation room for seven weeks. The experiment was arranged in a completely randomized design with ten replications. Shoot length (cm) and the number of leaves, nodes, and roots were measured. The control medium recorded less growth performance across all the variables, indicating the important role of the exogenous kinetin. The plants in 2.50 mg L-1 kinetin were the tallest (7.23±0.87 cm) with the highest number of leaves (28.17±2.57), nodes (10.50±1.02) and shoots (3.83±0.17). The media containing 2.50 mg L-1 kinetin also produced the highest number of roots (9.00), which is necessary for the survival of the seedlings. The results indicate that 2.5 mg L-1 is adequate for cultured C. crepidioides.

Published

2024

22. The structure of variability in shoot and fruit traits of subalpine populations of Fagus orientalis Lipsky in the Western and Eastern Caucasus

Author

Kh. U. Aliev

Subjects

western and eastern caucasus, population, fagus orientalis, shoot, fruit, structure of variability, character, Ecology, QH540-549.5

Abstract

Aim. Comparative study and analysis of the variability of characters of the shoots and fruit of Fagus orientalis Lipsky from subalpine populations of the Western and Eastern Caucasus. Material and Methods. For the analysis randomly collected annual shoots with fruit from 47 Fagus orientalis trees from 6 populations of the Western and Eastern Caucasus were used. Measurement data from 12 traits were used to identify variability. The total repetition of measurements for each trait for 6 populations was 1318. Results. A comparative study of the variability of traits in the shoot and fruit of Fagus orientalis from 6 populations of the Eastern and Western Caucasus showed a predominance of size traits in individuals from the Eastern Caucasus. The trait “length of annual shoot” had the highest level of variability – 70.6 %. Low and medium levels were detected in fruit traits, leaf blade length and width, and plus length. The results of Student's t‐tests showed the greatest significance of differences in the “length of annual bud” trait – 28.98. Correlation analysis revealed positive, reliable relationships for most pairs of characteristics. The closest of them are noted in all fruit characters and in the character of length and width of the leaf blade. Conclusions. The predominance of size values of traits in individuals from populations of the Eastern Caucasus is associated with climatic conditions – the growing season in the Western Caucasus being shorter by almost a month. The low level of variability of fetal traits confirms their high genetic determination. The “apical bud length” trait can be used as an indicator, reflecting the degree of influence of environmental factors on populations. The closest correlations are manifested by the characteristics of the fruit and a pair of characteristics ‐ the length and width of the leaf blade.

Published

2024

23. EFFECTS OF CHROMIUM STRESS ON SEED GERMINATION AND EARLY SEEDLING GROWTH PERFORMANCES OF PEARL MILLET PENNISETUM GLAUCUM (L.) R. BR. (POACEAE)

Author

Muhammad Zafar IQBAL, Sana MURTAZA, and Muhammad SHAFIQ

Subjects

heavy metal, pearl millet, root, shoot, toxicity., Plant culture, SB1-1110, Botany, QK1-989

Abstract

Heavy metals are widely available in the environment due to the natural processes, industrial, anthropogenic activities and ultimately in the results contaminate the immediate environment. The presence of the heavy metals such as Pb, Cd, Cr, Ni, Fe and Cu in environment disturb the quality of ecosystems, soils, water, air and vegetation. The chromium metal at higher level in ecosystem is an alarming signal for both developed and developing countries. Pennisetum glaucum is an annual grass which is widely cultivated in drought, rain fed and high temperature areas. The limited amount of literature available on the impact of chromium stress on P. glaucum. This study was conducted to investigate the beneficial or harmful effect of chromium stress on seed germination and seedling growth performances of P. glaucum in in vitro conditions. The different concentration of chromium 0, 25, 50, 75 and 100 ppm was applied. In present study, the overall results suggests the variable response on the rate of seed germination percentage and plant growth of P. glaucum to chromium stress was recorded. Results showed that the chromium treatment at 25 ppm significantly (p

Published

2023

24. THE EFFECTS OF ACID MIST ENVIRONMENT ON PLANT GROWTH: A REVIEW

Author

Muhammad SHAFIQ, Muhammad Zafar IQBAL, and Mohammad ATHAR

Subjects

fossil fuel, leaf damage, mineral nutrition, root, seed germination, shoot, water potential, yield., Plant culture, SB1-1110, Botany, QK1-989

Abstract

The wet (rain, snow, fog, sleet, dew) and dry (transport of aerosol, particles and gases) deposition of acidic substance in environment results due to human, automobile, fossil fuel burning and industrial activities. Acid deposition is worldwide environmental degradation problems and in recent years these acidic materials are increasing at alarming scale in the environment both in developed and developing countries, including Pakistan. Some scientific literature survey reports suggest that plant growth and agriculture yield decrease due to consequence of acid rain. In addition, acid rain is found responsible for producing toxic effects on the morphological parameters of agricultural crop. The evidence collected from last more than fifty years showed the common significant effects of acid rain on seed germination percentage, seedling height, root hair and structure, alteration in leaf anatomy, size and area, stomatal structure, size, pollen germination, photosynthetic pigments and physiological changes in herbs, shrubs and trees. Still, little is known on the impact of acid rain on plant growth. This study was aimed to review the effects of acid mist on growth performances of some selected plant species. This review is contributed with the help of literature survey, research work published on the impact of acid rain on the plant growth.

Published

2023

25. Strigolactone insensitivity affects differential shoot and root transcriptome in barley

Author

Korek, Magdalena, Uhrig, R. Glen, and Marzec, Marek

Published

2024

26. Nutrient supply systems and their effect on the performance of the Nile Tilapia (Oreochromis niloticus) and Lettuce (Lactuca sativa) plant integration system.

Author

Khater, El-Sayed, Bahnasawy, Adel, Mosa, Heba, Abbas, Wael, and Morsy, Osama

Subjects

*PLANT nutrients, *NILE tilapia, *HYDROPONICS, *LETTUCE, *LETTUCE growing, *FISH growth, *WEIGHT gain, *AQUAPONICS

Abstract

The main aim of this work is to study the effect of different nutrient supply systems and their effect on the performance of the Nile Tilapia (Oreochromis niloticus) and Lettuce (Lactuca sativa var. crispa) plant integration system. To achieve that, five treatments having different culture systems (T1: Aquaculture (control), T2: Hydroponics (standard requirement: N = 210, P = 31, K = 234, Mg = 48, Ca = 200, S = 64, Fe = 14, Mn = 0.5, Zn = 0.05, B = 0.5, Cu = 0.02 and Mo = 0.01 ppm), T3: Aquaponics without nutrients addition, T4: Aquaponics with supplementary nutrients (KNO3, 101 g L−1, KH2PO4, 136 g L−1, Ca(NO3)2, 236 g L−1, MgSO4, 246 g L−1, K2SO4, 115 g L−1 and chelates for trace elements) in water (EC is 800 ppm) and T5: Aquaponics with supplementary nutrients spray on plants) were carried out. The previous systems were operated at three flow rates, namely, 1.0, 1.5 and 2.0 L h−1 plant−1. The various water quality parameters, plant growth and fish growth were studied. The result indicated that the highest values of N, P, k, Ca and Mg consumption rate were found with T2 and 1.5 L h−1 plant−1 of flow rate. The root length, fresh and dry of shoot and root for lettuce plants grown in T2 system was better than those grown in different culture system (T3, T4 and T5). Different culture systems showed significant effect on fish growth in terms of weight gain, specific growth rate and feed efficiency ratio. Higher growth rate was observed in treatment T3 as compared to other treatments. The production costs ranged from 2820.5 to 4885.4 LE ($ = 30.92 LE) for all culture systems. [ABSTRACT FROM AUTHOR]

Published

2024

27. An analytical complete model of root pressure generation: Theoretical bases for studying hydraulics of bamboo.

Author

Yang, Dongmei, Zhou, Wei, Wang, Xiaolin, Zhao, Mei, Zhang, Yong‐Jiang, Tyree, Melvin T., and Peng, Guoquan

Subjects

*HYDRAULICS, *GRAVITATIONAL potential, *WATER distribution, *PLANT-water relationships, *SOIL moisture, *BAMBOO

Abstract

To better understand the dynamics and functional roles of root pressure, we represent a novel and the first complete analytical model for root pressure, which can be applied to complex roots/shoots. The osmotic volume of a single root is equal to that of the vessel lumen in fine roots and adjacent apoplastic spaces. Water uptake occurs via passive osmosis and active solute uptake (Js*, osmol s−1), resulting in the osmolyte concentration Cr (mol·kg−1 of water) at a fixed osmotic volume. Solute loss occurs via two passive processes: radial diffusion of solute Km (Cr− Csoil) from fine roots to soil, where Km is the diffusional constant and Csoil is the soil–solute concentration, and the mass flow of solute and water into the plant from the fine roots. The proposed model predicts the quadratic function of root pressure (Pr), Pr2+bPr+c=0, where b and c are the functions of plant hydraulic resistance, soil water potential, solute flux and gravitational potential. The model demonstrates the root pressure‐mediated distribution of water through the hydraulic architecture of a 6.8‐m‐tall bamboo shoot. This model provides a theoretical basis to test the functional roles of root pressure in shaping the hydraulic architecture and refilling potential xylem embolisms. Summary statement: An analytical solution for root pressure is derived and illustrated by applying it to the measured hydraulic architecture of a 7‐m bamboo shoot. [ABSTRACT FROM AUTHOR]

Published

2024

28. Biofortification of bok choy with selenium nanoparticles and its inhibitory effects on cadmium accumulation.

Author

Di, Xuerong, Jing, Rui, Xie, Sha, Sun, Yuebing, and Huang, Qingqing

Subjects

*BOK choy, *FOURIER transform infrared spectroscopy, *BIOFORTIFICATION, *SELENIUM, *CADMIUM, *METABOLIC detoxification

Abstract

Background and aims: Cadmium (Cd) contamination poses a potential threat to plant growth and human health. In this study, we aimed to determine the effect of selenium nanoparticles (SeNPs) on Cd and selenium (Se) uptake and accumulation in bok choy, and investigate the detoxification mechanism of SeNPs on bok choy under Cd stress. Methods: A pot culture was performed in Cd–contaminated soil with soil applied and foliar–sprayed SeNPs, including SLow, SHigh, FLow, FHigh, and corresponding control treatment. The soil available Cd content, Cd and Se fractions in soil, elements accumulation, subcellular Cd/Se distribution, MDA content, SOD activity, and Fourier transformed infrared spectroscopy (FTIR) were evaluated. Results: Soil applied SeNPs significantly reduced Cd concentration by 25.9–42.4%, and Cd uptake rate by 33.4–37.8%. Further, soil applied SeNPs had no significant effect on available Cd but did affect Se fractions in soil. Additionally, soil applied SeNPs increased Se concentration by 3.1 − 6.3 times in bok choy and caused a higher Se concentration in root than in shoot, with the residual and organic matter–bound Se mainly affecting Se accumulation in shoot. However, foliar–sprayed SeNPs had no significant effect on Cd uptake but increased Se accumulation by 2.4 − 33.0 times in bok choy. Soil applied and foliar–sprayed SeNPs prompted the distribution of Cd in cell wall and in soluble component in shoot, respectively, which reduced the damage of Cd on organelle. Conclusion: Soil applied SeNPs was an effective method for reducing Cd accumulation and improving Se biofortification and mineral elements accumulation in bok choy. [ABSTRACT FROM AUTHOR]

Published

2024

29. Impact of ultraviolet-B radiation on early-season morpho-physiological traits of indica and japonica rice genotypes

Author

Sonal Mathur, Raju Bheemanahalli, Salah Hameed Jumaa, Naqeebullah Kakar, Vangimalla R. Reddy, Wei Gao, and Kambham Raja Reddy

Subjects

combined UV response index, genetic variability, individual UV response index, root, shoot, Plant culture, SB1-1110

Abstract

Ultraviolet (UV)-B radiation is considered one of the major detrimental rays coming from the Sun. UV-B radiation has a harmful impact on plant growth and development. The effect of UV-B radiation was studied on 64 rice (Oryza sativa L.) genotypes during the vegetative season. An equal number of genotypes from the japonica (50%) and indica (50%) subspecies were phenotyped using the Soil-Plant-Atmosphere-Research (SPAR) units. The 10 kJ UV-B was imposed 12 days after planting (DAP) and continued for three weeks (21 d). Based on the combined ultraviolet-B radiation response index (CUVBRI) for each genotype, the 64 rice genotypes were classified into sensitive, moderately sensitive, moderately tolerant, and tolerant. Various shoot traits, such as plant height, tiller, and leaf numbers, were measured. We also studied critical root phenological traits like root volume, diameter, tips, and forks. Out of all the studied shoot traits, leaf area showed maximum reduction for both indica (54%) and japonica (48%). Among the root traits, root length decreased by negligible (1%) for indica as compared to japonica (5%), while root crossing and forks showed a maximum decline for japonica (37 and 42%), respectively. This study is timely, meaningful, and required because it will help breeders select a tolerant or sensitive rice line for better yield and production under abiotic stresses.

Published

2024

30. Effect of drought stress on growth of soybean under seedling stage

Author

Mishra, Sheshnath and Patidar, Durgesh

Published

2023

31. Phenotyping for Assessing Genotypic Variation in Phosphorus Use Efficiency

Author

Farooq, Amjad, Chattha, Waqas Shafqat, Azhar, Muhammad Tehseen, Khan, Azeem Iqbal, Shakeel, Amir, Lichtfouse, Eric, Series Editor, Ranjan, Shivendu, Advisory Editor, Dasgupta, Nandita, Advisory Editor, Iqbal, Asif, editor, Iqbal, Mazhar, editor, Alamzeb, Madeeha, editor, Meizhen, Song, editor, Xiling, Zhang, editor, Arif, Muhammad, editor, and Du, Xiongming, editor

Published

2023

32. Assessing Drought Tolerance in a Large Number of Upland Cotton Plants (Gossypium hirsutum L.) under Different Irrigation Regimes at the Seedling Stage.

Author

Çelik, Sadettin

Subjects

*DROUGHT tolerance, *IRRIGATION, *PLANT breeding, *GENETIC variation, *COTTON, *SEEDLINGS

Abstract

The cotton plant is important since it provides raw materials for various industry branches. Even though cotton is generally drought-tolerant, it is affected negatively by long-term drought stress. The trial was conducted according to the applied experimental design as a completely randomized design (CRD) with three replications to determine a panel of 93 cotton genotypes' genotypic responses against drought under controlled conditions in 2022. All genotypes were watered with 80 mL−1 of water (100% irrigation, field capacity) until three true leaves appeared, and then water stress was applied at a limited irrigation of 75% (60 mL−1), 50% (40 mL−1), and 25% (20 mL−1) of the field capacity. After the trial terminated at 52 days, the cv. G56, G44, G5, and G86 in RL; G1, G56, G44, G86, G51, and G88 in RFW; advanced line G5, followed by the cv. G56, advanced line G44, G75, and the cv. G90 in RDW; G44, followed by G86, the cv. G56, and elite lines G13 and G5 in NLRs were observed as drought-tolerant genotypes, respectively, while G35, G15, G26, G67, and G56 in SL; G15, G52, G60, G31, and G68 in SFW; G35, G52, G57, G41, and G60 in SDW show the highest drought tolerance means, respectively. In conclusion, the commercial varieties with high means in roots, namely G86, G56, G88, and G90, and the genotypes G67, G20, G60, and G57 showing tolerance in shoots, are suggested to be potential parent plants for developing cotton varieties resistant to drought. Using the cultivars found tolerant in the current study as parents in a drought-tolerant variety development marker-assisted selection (MAS) plant breeding program will increase the chance of success in reaching the target after genetic diversity analyses are performed. On the other hand, it is highly recommended to continue the plant breeding program with the G44, G30, G19, G1, G5, G75, G35, G15, G52, G29, and G76 genotypes, which show high tolerance in both root and shoot systems. [ABSTRACT FROM AUTHOR]

Published

2023

33. Effect of Soil and Foliar Application of Zinc on Nutritional Composition and Uptake by Knol Khol (Brassica caulorapa var. gongylodes L.).

Author

PAVITHRA, R. and SUBBARAYAPPA, C. T.

Subjects

ZINC, ZINC sulfate, BRASSICA, POTASSIUM, FIELD research, SOILS

Abstract

A field experiment was conducted in the farmer's field at Vijaypura, Bengaluru Rural District during kharif 2017, to study the effect of soil and foliar application of zinc on nutritional composition and uptake by knol khol. The experiment was laid out in a randomized complete block design with 10 treatments replicated thrice. The experimental results indicated that significantly higher nitrogen (2.36%), phosphorus (0.37%), potassium (1.60%), sulphur (0.65%) and zinc content (36.48 mg kg-1) was recorded in knol khol shoot by application of RDF and FYM along with 4 kg of zinc through ZnSO4 as soil application and 0.14 per cent zinc through zinc sulphate as foliar spray (T9). Significantly higher nitrogen (2.48%), phosphorus (0.39%), potassium (2.24%), sulphur (0.82%) and zinc content (38.67 mg kg-1) was recorded in knol khol knob with the combined soil and foliar application of zinc @ 4 kg and 0.14 per cent through zinc sulphate respectively, along with RDF and FYM (T9). Uptake of nitrogen (100.05 kg ha-1), phosphorous (15.70 kg ha-1), potassium (72.74 kg ha-1), sulphur (28.76 kg ha-1) and zinc (154.96 g ha-1) by knol khol crop was recorded significantly higher in T9 (4 kg of zinc through zinc sulphate as soil application + 0.14 per cent zinc through zinc sulphate as foliar spray along with RDF and FYM). [ABSTRACT FROM AUTHOR]

Published

2023

34. CHICORY PRODUCTION UNDER DIFFERENT HYDROPONIC SYSTEMS USING MAGNETIZED WATER AT DIFFERENT IRRIGATION RATES.

Author

Abd-Elfatah, Maha K., Khater, El-Sayed G., Awad, Montaser A., and El-Ghobashy, Hossam M.

Subjects

CHICORY, WATER use, WATER quality, LEAF area, IRRIGATION

Abstract

Copyright of Misr Journal of Agricultural Engineering is the property of Egyptian National Agricultural Library (ENAL) 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

2023

35. Phytochemicals Screening and Anti-proliferative Activities of Anacardium occidentale Shoot Extract in Breast Cancer Cells.

Author

Chan, Pui Kee, Shafie, Nurul Husna, Meli, Mohd Amir Ashraf, and Loh, Su Peng

Subjects

*CASHEW tree, *LIQUID chromatography-mass spectrometry, *CANCER cells, *MEDICAL screening, *BREAST cancer

Abstract

Introduction: Anacardium occidentale or cashew are popular traditional food and have raised research interest for complementary cancer treatment. Cancer has become leading cause of death and treatment involved severe side effects. In present study, we aim to study the anti-proliferative effects of cashew shoots in breast cancer (MDAMB-231), colorectal cancer (HT-29) and liver cancer (HepG2) cell lines. Methods: Cell lines were treated with 70% ethanolic cashew extract for cytotoxicity test with MTT assay. AO/PI dual fluorescent assay and RNase/PI staining were used to determine apoptosis induction effects. Phytochemicals screening was carried out by using gas chromatography mass spectrometry (GCMS) and liquid chromatography mass spectrometry (LCMS). Results: The cytotoxicity assay of cashew shoot extract demonstrated IC50 of 81.1 ± 0.11 µg/ml for MDA-MB-231, 307.5 ± 2.31 µg/ml for HT-29 and 272.6 ± 1.91 µg/ml for HepG2 cell lines. The apoptotic bodies include chromatin condensation, cell blebbing and nuclear fragmentation and apoptosis induction were shown by AO/PI staining. There was significant increase of cell count in sub-G0 phase in MDA-MB-231 cell lines treated with cashew shoot extract. It was demonstrated that cashew shoot extract contained 38 compounds from GCMS such as sitosterol, tannin, pyrogallol, phenol and 20 compounds from LCMS such as citric acid, gallic acid, myricetin and hinokiflavone that may give rise to its anti-cancer effect. Conclusion: Cashew shoot extract demonstrated potential anti-cancer properties thus further study is required to investigate its mechanism as anti-cancer agent. [ABSTRACT FROM AUTHOR]

Published

2023

36. Evaluation of Beta-Lactam Antibiotics on the Regeneration of Peanut Plants and Their Inhibitory Effect on Agrobacterium Growth.

Author

Lamboro, Abraham, Songnan Yang, Xueying Li, Dan Yao, and Jun Zhang

Subjects

PEANUTS, ANTIBIOTICS, AGROBACTERIUM, CEFOTAXIME, CULTURE media (Biology)

Abstract

The effect of beta-lactam antibiotics on shoot induction and plantlet regeneration from cotyledonary nodes was tested using two peanut cultivars. The culture media contained 4 mg/L 6-benzylaminopurine (BAP) as the main growth regulator. Various concentrations (100-600 mg/L) of cefotaxime, carbenicillin, and timentin were applied in the culture media. In all the tested media, there were no significant differences in the shoot induction as compared to the control. However, little phytotoxic effect was observed at higher concentrations of these antibiotics in the shoot elongation media. Under shoot elongation medium, shoots turned brownish and partly died at higher concentrations where shooting rates were not affected by the treatments. In cefotaxime, timentin, and carbenicillin-containing media, levels of antibiotics greater than 400, 300, and 200 mg/L, respectively resulted in the brown coloration of plantlets. Moreover, the mean shoot number and shoot weight significantly decreased as their dosage increased. The results indicate that maximum levels of antibiotics have an adverse effect on the growth and development of peanuts. Also, cefotaxime (100-300 mg/L) and timentin (100-300 mg/L) will be sufficient in controlling Agrobacterium growth in the culture media with the least phytotoxic effect on the peanut plants. [ABSTRACT FROM AUTHOR]

Published

2023

37. Involvement of Plant Growth Regulators and Varieties in the Multiplication of Cassava Planting Materials: A Case Study of Rwanda

Author

Uwimana, Josette, Sakha, Michael, Danga, Benjamin, Gitari, Harun, and Gweyi-Onyango, Joseph P

Published

2022

38. Pruning terms and techniques affect vigour and flower formation of Ukrainian sweet cherry cultivars

Author

Pavlo Bondarenko, Olha Alekseeva, Volodymyr Senin, and Petro Kondratenko

Subjects

Canopy, flower, heading cut, pruning severity, shoot, stub, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Excessive tree vigour and late entrance into full production, inherent to sweet cherry trees, are major challenges in the intensive cultivation of this crop. Possible ways to reduce the vigour and stimulate flower induction include shifting the term of pruning and reducing its severity. However, the reaction of the trees may differ depending on specific cultivar, soil and climatic conditions. Therefore, the aim of the study was to determine the effect of various techniques and terms of pruning on young sweet cherry trees in order to adapt the intensive cultivation technology to the arid conditions of southern Ukraine. The results showed a strong cultivar-specific reaction to various pruning treatments. Pruning young sweet cherry trees in late summer contributed to a reduction of trunk and canopy indices by 11-22% on one of the cultivars and an increase in the number of flowers per tree by 1.4-1.7 times on both cultivars, compared to dormant pruning. Low severity pruning reduced 1-year-old shoot length by 9-25% and increased the number of flowers by 1.5-2.5 times compared to more aggressive pruning. The effect of pruning treatments on tree vigour was more pronounced during the first and second year of their application.

Published

2023

39. Pruning terms and techniques affect vigour and flower formation of Ukrainian sweet cherry cultivars.

Author

Bondarenko, P., Alekseeva, O., Senin, V., and Kondratenko, P.

Abstract

Excessive tree vigour and late entrance into full production, inherent to sweet cherry trees, are major challenges in the intensive cultivation of this crop. Possible ways to reduce the vigour and stimulate flower induction include shifting the term of pruning and reducing its severity. However, the reaction of the trees may differ depending on specific cultivar, soil and climatic conditions. Therefore, the aim of the study was to determine the effect of various techniques and terms of pruning on young sweet cherry trees in order to adapt the intensive cultivation technology to the arid conditions of southern Ukraine. The results showed a strong cultivarspecific reaction to various pruning treatments. Pruning young sweet cherry trees in late summer contributed to a reduction of trunk and canopy indices by 11-22% on one of the cultivars and an increase in the number of flowers per tree by 1.4-1.7 times on both cultivars, compared to dormant pruning. Low severity pruning reduced 1-yearold shoot length by 9-25% and increased the number of flowers by 1.5-2.5 times compared to more aggressive pruning. The effect of pruning treatments on tree vigour was more pronounced during the first and second year of their application. [ABSTRACT FROM AUTHOR]

Published

2023

40. Comparison of the Effect of Flurochloridone and Fluoranthene on the Root and Shoot Anatomy and Morphology of Pea Plants (Pisum sativum).

Author

Lónová, Kamila, Kalousek, Petr, and Klemš, Marek

Subjects

PLANT morphology, FLUORANTHENE, POLYCYCLIC aromatic hydrocarbons, ANATOMY, BIOMASS production, HERBICIDES

Abstract

Despite current efforts to minimize the impact of industry on ecosystems, the environment is polluted by a range of foreign substances, that can have a negative impact on the living organisms. Examples of widely studied substances are polycyclic aromatic hydrocarbons (PAHs) and recently, substances commonly used in conventional agriculture. In our study we focused on the morphology and anatomy of the vegetative organs of pea plants treated with the active substance of herbicides, flurochloridone (FLC), in concentration representing the residual amount in the soil (5 µM), and PAH fluoranthene (FLT) in concentration representing the middle to high environmental load (5 µM). During the long-term cultivation in nutrient solutions modified by the mentioned pollutants, the growth parameters of roots and shoots were observed in the three growth phases (4 and 8 fully developed leaves and the flowering phase). The growth parameters and observation of the morphology were supplemented with root and stem anatomical analysis using the transverse cross-sections. Both xenobiotics caused the decrease in the biomass production, while the more significant inhibition of growth, compared with control plants, was detected in FLC-treated plants, where the root system was reduced up to 75% and growth parameters of the shoots were reduced about more than 50%. The decrease in root biomass production was accompanied by changes in root branching. FLT treatment caused milder growth inhibition, it was observed about 50% reduction of the root system induced by the shortening of the main and lateral roots. Less pronounced, was also the decrease in stem length caused by FLT. Similar information was obtained about the different degrees of effect of FLC and FLT using anatomical analysis. Both studied substances increased the main root diameter accompanied with increase of the average number of the primary cortex layers. Their influence also caused the more intensive formation of exodermis. Changes in anatomical architecture were also observed in stem, where the FLC treatment changed the arrangement of the vascular bundles and decreased their average number. Our elementary morpho-anatomical study suggests that FLC despite its trace concentration could be more detrimental to plants than FLT, known for its harmful effect on living organisms, in relatively higher concentration. [ABSTRACT FROM AUTHOR]

Published

2023

41. CHANGES OF MORPHOGENETIC PATTERNS OF PLANTS CULTIVATED IN VITRO UNDER THE INFLUENCE OF SALICYLIC ACID EMPLOYED AS A TRIGGER OF ANTIOXIDANT DEFENCE MECANISMS IN CABBAGE PLANTS.

Author

CRISTEA, Tina Oana, IOSOB, Gabriel-Alin, and BUTE, Alexandru

Subjects

SALICYLIC acid, CULTIVATED plants, PLANT development, ROOT development, GERMINATION, CABBAGE, COLE crops

Abstract

Salicylic acid is a stress-signal molecule that is involved in the modulation of growth and development of plants. There is evidence that this stress-signal molecule has a positive impact on the antioxidant defence system, but few studies have been done on determining the most effective concentration and its impact on the growth and development of cabbage plants cultivated in vitro. In the present experiment, we assessed the impact of three different concentrations of salicylic acid (1 mM, 0.5 mM and 0.1 mM) on seed germination indexes, shoot initiation and proliferation, root development, as well as physiologic traits (phenolic and chlorophyll content). It has been found that a concentration of 1mM SA inhibited both seed germination and shoot development, which is probably related with suppression of GA-mediated pathway. Instead, the addition of 0.1 mM SA stimulated shoot proliferation rate, shortened the time for shoot initiation and increased shoot and root elongation. Our results provide the foundation for further studies related to the plant's agronomic performances when cultivated in the field. [ABSTRACT FROM AUTHOR]

Published

2023

42. Germinating seedlings and mature shoots of Cuscuta campestris respond differently to light stimuli during parasitism but not during circumnutation.

Author

Yokoyama, Toshiya, Watanabe, Akira, Asaoka, Mariko, and Nishitani, Kazuhiko

Subjects

*PARASITISM, *DODDER, *PARASITIC plants, *BLUE light, *HOST plants

Abstract

Seedlings of the parasitic plant genus Cuscuta (dodder) locate hosts by circumnutation, coil around the host near soil level and form a haustorium, establishing a primary parasitism beneath the canopy. Mature shoots elongating from the parasitic region parasitize other hosts on the upper surfaces of their canopy. Although parasitism by dodder is stimulated by blue and far‐red light, and inhibited by red light, the responses to light signals during the developmental stages are not comprehensively understood. Therefore, we compared the effects of different types of light on both circumnutation and parasitism by germinating seedlings and mature shoots of Cuscuta campestris. Seedlings established parasitism under blue and far‐red light, but not under red light, as has been reported repeatedly. By contrast, mature shoots exhibited coiling around the host and haustoria formation even under a red light as well as under blue and far‐red light. These findings indicate that C. campestris modified its response to red light during the transition from young seedlings to mature shoots, facilitating parasitism. Light quality did not affect the circumnutation of either seedlings or mature shoots, indicating that circumnutation and the coiling movement that leads to parasitism were regulated by different environmental signals. Summary statement: Mature shoots of dodder, unlike seedlings, can parasitize host plants under red light. This difference between developmental stages appears to be an adaptation to different light environments and indicates that the coiling movements required for parasitism are not an extension of circumnutation. [ABSTRACT FROM AUTHOR]

Published

2023

43. Microbiome-mediated signal transduction within the plant holobiont.

Author

Li, Jian-Hong, Muhammad Aslam, Mehtab, Gao, Yang-Yang, Dai, Lei, Hao, Ge-Fei, Wei, Zhong, Chen, Mo-Xian, and Dini-Andreote, Francisco

Subjects

*CELLULAR signal transduction, *PLANT physiology, *PLANT-microbe relationships, *PLANT shoots, *PLANT roots, *PLANT growth, *MICROBIAL metabolism

Abstract

Advancing our understanding of the mechanisms associated with microbial-mediated signal transduction in plants can enhance our ability to precisely manipulate plant physiology to improve tolerance against biotic and abiotic stresses. Long-distance signal transduction in plants can be initiated by the metabolism of specific microbial taxa in association with plants in the rhizosphere and/or phyllosphere. The transduction of specific long-distance signals in plants can be mediated by mobile peptides, RNA, metabolites, and phytohormones, all of which can be translocated via the vascular system. Embracing the complexity of plant physiological responses and regulation in a holobiont context will advance our knowledge of plant–microbe interactions and foster the development of new chemicals to manipulate plant physiological responses. Microorganisms colonizing the plant rhizosphere and phyllosphere play crucial roles in plant growth and health. Recent studies provide new insights into long-distance communication from plant roots to shoots in association with their commensal microbiome. In brief, these recent advances suggest that specific plant-associated microbial taxa can contribute to systemic plant responses associated with the enhancement of plant health and performance in face of a variety of biotic and abiotic stresses. However, most of the mechanisms associated with microbiome-mediated signal transduction in plants remain poorly understood. In this review, we provide an overview of long-distance signaling mechanisms within plants mediated by the commensal plant-associated microbiomes. We advocate the view of plants and microbes as a holobiont and explore key molecules and mechanisms associated with plant–microbe interactions and changes in plant physiology activated by signal transduction. [ABSTRACT FROM AUTHOR]

Published

2023

44. Transcriptome analysis identifies novel gene(s) and pathways for salt stress responses in Dandi cultivar.

Author

Vala, Ashish Kumar G., Bano, Nasreen, Deshmukh, Yogita, Tomar, Rukam Singh, Joshi, C.G., and Subhash, N.

Subjects

RICE, TRANSCRIPTOMES, FOOD crops, SECONDARY metabolism, ABIOTIC stress, CELLULAR signal transduction

Abstract

Salinity tolerance has been documented as one of the main abiotic stresses, disapprovingly impeding the growth and fertility of core food crops including rice in the ecosphere. We have evaluated 24 varieties exposed to salt stress (150–300 mM NaCl; for 48–72 h) at the vegetative stage. The cellular-level physiological response was observed by assessing the morphophysiological parameters and significant differences were observed in the rice varieties of the Gujarat region of the Indian continent. Additionally, we have performed a comparative transcriptome analysis of the shoots and roots of rice varieties at the vegetative stage (Dandi, salinity-tolerant; and GR-11, Salinity-sensitive) in response to salinity. Based on transcriptome analysis, the genes specifically activated and differentially over-expressed during salinity stress belong to different functional categories mostly located on chromosomes 1, 2, 3, 4, 8, and 11 in both cultivars. A total of 617 and 676 significant DEGs with log2-fold change in the range of ≥ + 2.0 to ≤ − 2.0 were identified from the comparative analysis of the two data sets DS (Dandi Shoot) and GS (GR-11Shoot) (Dandi vs. Control, GR-11 vs. Control) in the shoot sample. Similarly, a total of 510 and 508 significant DEGs DR (Dandi Root) and GR (GR-11 Root) (Dandi vs. Control, GR-11 vs. Control) in the root samples. The DEGs were examined against the KEGG database to explore the biological pathways of Dandi (226) and GR-11 (397) in the shoot as well as root (218,285) samples. Further PageMan analysis showed that there was a significantly higher number of DEGs (p < 0.05, ≥ ± 2.0-fold) involved in signalling pathways including secondary metabolism, hormone metabolism, abiotic stresses, and development which have significant regulatory functions in shoot and root of Dandi and GR-11 variety of rice. [ABSTRACT FROM AUTHOR]

Published

2023

45. Efficacy of insecticides against shoot & fruit borer, Earias vitella fab. on okra, Abelmoschus esculentus L. (moench)

Author

Anjana, Gopilal, Pachori, R., and Gupta, Pramod Kumar

Published

2022

46. FORMATION AND MORPHOLOGY OF Rhus typhina L. INFLORESCENCE IN CONDITIONS OF THE RIGHT BANK FOREST STEPPE OF UKRAINE

Author

Tatiana Kovalchuk, Svitlana Klymenko, Halyna Ishchuk, Liubov Ishchuk, and Inna Didenko

Subjects

growth, development, mixed bud, shoot, panicle, rhus typhina l., Science (General), Q1-390

Abstract

Peculiarities of growth and development of shoots of Rhus typhina L. in the conditions of the Right-bank forest-steppe of Ukraine are characterized. The morphological description of inflorescences and flowers of the species is carried out. The description took into account the stages of formation of the vegetative component of the inflorescence, the most significant features of its structure, the number of flowers in the inflorescence, and flowering dates. Pistillate and staminate flowers are collected in complex, botric, botanical, bractose, pyramidal inflorescences - panicles. The studied plants are characterized by acropetal type of inflorescence flowering. Abundance and level of flowering are estimated. In the research conditions generative individuals of R. typhina bloom annually. We estimated the abundance of R. typhina flowering in 4 points that corresponds to a high level.

Published

2022

47. Polar Metabolites Profiling of Wheat Shoots (Triticum aestivum L.) under Repeated Short-Term Soil Drought and Rewatering.

Author

Szablińska-Piernik, Joanna and Lahuta, Lesław Bernard

Subjects

*WHEAT, *DROUGHTS, *METABOLITES, *CARBOHYDRATE metabolism, *PLANT metabolites, *MALIC acid, *ORGANIC acids

Abstract

The response of wheat (Triticum aestivum L.) plants to the soil drought at the metabolome level is still not fully explained. In addition, research focuses mainly on single periods of drought, and there is still a lack of data on the response of plants to short-term cyclical periods of drought. The key to this research was to find out whether wheat shoots are able to resume metabolism after the stress subsides and if the reaction to subsequent stress is the same. Gas chromatography coupled with mass spectrometry (GC-MS) is one of the most valuable and fast methods to discover changes in the primary metabolism of plants. The targeted GC-MS analyses of whole shoots of wheat plants exposed (at the juvenile stage of development) to short-term (five days) mild soil drought/rewatering cycles (until the start of shoot wilting) enabled us to identify 32 polar metabolites. The obtained results revealed an accumulation of sugars (sucrose, fructose, glucose, and 1-kestose), proline, and malic acid. During five days of recovery, shoots regained full turgor and continued to grow, and the levels of accumulated metabolites decreased. Similar changes in metabolic profiles were found during the second drought/rewatering cycle. However, the concentrations of glucose, proline, and malic acid were higher after the second drought than after the first one. Additionally, the concentration of total polar metabolites after each plant rewatering was elevated compared to control samples. Although our results confirm the participation of proline in wheat responses to drought, they also highlight the responsiveness of soluble carbohydrate metabolism to stress/recovery. [ABSTRACT FROM AUTHOR]

Published

2023

48. Effects of High Voltage Electrical Discharge (HVED) on Endogenous Hormone and Polyphenol Profile in Wheat.

Author

Marček, Tihana, Hamow, Kamirán Áron, Janda, Tibor, and Darko, Eva

Subjects

HIGH voltages, WHEAT, CAFFEIC acid, GIBBERELLIC acid, FERULIC acid, GERMINATION

Abstract

High voltage electrical discharge (HVED) is an eco-friendly low-cost method based on the creation of plasma-activated water (PAW) through the release of electrical discharge in water which results in the formation of reactive particles. Recent studies have reported that such novel plasma technologies promote germination and growth but their hormonal and metabolic background is still not known. In the present work, the HVED-induced hormonal and metabolic changes were studied during the germination of wheat seedlings. Hormonal changes including abscisic acid (ABA), gibberellic acids (GAs), indol acetic acid (IAA) and jasmonic acid (JA) and the polyphenol responses were detected in the early (2nd day) and late (5th day) germination phases of wheat as well as their redistribution in shoot and root. HVED treatment significantly stimulated germination and growth both in the shoot and root. The root early response to HVED involved the upregulation of ABA and increased phaseic and ferulic acid content, while the active form of gibberellic acid (GA1) was downregulated. In the later phase (5th day of germination), HVED had a stimulatory effect on the production of benzoic and salicylic acid. The shoot showed a different response: HVED induced the synthesis of JA_Le_Ile, an active form of JA, and provoked the biosynthesis of cinnamic, p-coumaric and caffeic acid in both phases of germination. Surprisingly, in 2-day-old shoots, HVED decreased the GA20 levels, being intermediate in the synthesis of bioactive gibberellins. These HVED-provoked metabolic changes indicated a stress-related response that could contribute to germination in wheat. [ABSTRACT FROM AUTHOR]

Published

2023

49. Grape cytochrome P450 CYP90D1 regulates brassinosteroid biosynthesis and increases vegetative growth.

Author

Enoki, Shinichi, Tanaka, Keisuke, Moriyama, Ayane, Hanya, Norimichi, Mikami, Norika, and Suzuki, Shunji

Subjects

*VITIS vinifera, *CYTOCHROME P-450, *AMINO acid sequence, *BIOSYNTHESIS, *CLIMBING plants, *GRAPES, *GENE expression

Abstract

Vine vigor or vegetative growth is an important factor related to berry quality and vinicultural training management, but brassinosteroid (BR)-induced molecular mechanisms underlying vine growth remain unclear. In this study, the hypothesis that the Vitis vinifera CYP90D1 gene VvCYP90D1 , one of the genes for BR biosynthesis, plays a critical role in shoot elongation was tested. RNA sequencing analysis of shoots collected from the vigorous cultivar Koshu (KO) and the reference cultivar Pinot Noir (PN) 7 days after bud break showed higher expression levels of various genes in the BR biosynthesis pathway in KO than in PN. The VvCYP90D1 expression level in KO was highest in meristems, followed by internodes and leaves. Cluster analysis of amino acid sequences including those in other plant species showed that the isolated gene belonged to the CYP90D1 group. The vegetative growth and the endogenous BR (brassinolide; BL) content were significantly higher in VvCYP90D1-overexpressing Arabidopsis than in wild type. VvCYP90D1-overexpressing Arabidopsis treated with brassinazole (Brz), a BR biosynthesis inhibitor, showed recovery of vegetative growth. These results indicate that VvCYP90D1 in grapevine has a vegetative growth promoting effect via BR biosynthesis. Our findings on the mechanism of BR-induced grape shoot growth will contribute to the development of new shoot control techniques for grapevine. • BR biosynthesis pathway genes were highly expressed in vigorous Koshu grapevine. • Overexpression of grape cytochrome P450 CYP90D1 increased endogenous BR content in Arabidopsis thaliana. • VvCYP90D1 increased vegetative growth in Arabidopsis thaliana. [ABSTRACT FROM AUTHOR]

Published

2023

50. Fulvic Acid, Brassinolide, and Uniconazole Mediated Regulation of Morphological and Physiological Traits in Maize Seedlings Under Water Stress.

Author

Wang, Ye, Liu, Ziqi, Xiemuxiding, Anarguli, Zhang, Xiaofeng, Duan, Liusheng, and Li, Runzhi

Subjects

FULVIC acids, WATER efficiency, PLANT regulators, SUSTAINABILITY, LEAF physiology, CORN

Abstract

Water stress is one of the most important factors limiting sustainable crop production. Therefore, the effects of the plant growth regulators (PGRs) fulvic acid (FA), brassinolide (BR), and uniconazole (Uni) on seedling growth and physiology of two maize (Zea mays L.) varieties were evaluated under − 0.7 MPa water stress induced by polyethylene glycol-6000. Under drought stress, the PGRs promoted seedling growth, altered the root-to-shoot ratio, and significantly increased root biomass, length, surface area, diameter, and volume. In addition, depending on the PGR, net photosynthesis rate, SPAD value (indicating chlorophyll content), and water use efficiency increased significantly, under drought stress, whereas transpiration rate decreased. The PGRs also significantly increased antioxidant enzyme activities and significantly decreased malondialdehyde accumulation in leaves and roots under drought stress. Zhengdan958 showed greater variation in physiological responses and stronger drought resistance than Xundan20. In alleviating drought stress in maize seedlings, FA had the greatest effects on shoot growth and leaf physiology; Uni exerted its effects by regulating root structure, and BR effects were intermediate. Under drought stress, the three PGRs increased maize seedling growth, which reduced drought stress-induced damage and improved plant ability to resist the adversity. Based on a comprehensive analysis of physiological indices of drought resistance, Uni is recommended as the best PGR to improve maize seedlings resistance to drought. [ABSTRACT FROM AUTHOR]

Published

2023