Relevant bibliographies by topics / Bananas Somatic embryogenesis

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  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'Bananas Somatic embryogenesis'

Author: Grafiati
Published: 11 December 2022
Last updated: 31 July 2025

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Journal articles on the topic "Bananas Somatic embryogenesis"

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Adero, Mark, Jaindra Nath Tripathi, and Leena Tripathi. "Advances in Somatic Embryogenesis of Banana." International Journal of Molecular Sciences 24, no. 13 (2023): 10999. http://dx.doi.org/10.3390/ijms241310999.

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The cultivation of bananas and plantains (Musa spp.) holds significant global economic importance, but faces numerous challenges, which may include diverse abiotic and biotic factors such as drought and various diseases caused by fungi, viruses, and bacteria. The genetic and asexual nature of cultivated banana cultivars makes them unattractive for improvement via traditional breeding. To overcome these constraints, modern biotechnological approaches like genetic modification and genome editing have become essential for banana improvement. However, these techniques rely on somatic embryogenesis
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Handayani, Tri, Apriliana Dyah Prawestri, Diyah Martanti, et al. "An Efficient Somatic Embryogenesis and Plant Regeneration from Immature Embryo of Wild Banana Musa acuminata ssp. malaccensis." Journal of Tropical Crop Science 12, no. 01 (2025): 172–84. https://doi.org/10.29244/jtcs.12.01.172-184.

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Wild banana Musa acuminata ssp. malaccensis, an ancestor of cultivated bananas, possesses valuable genetic diversity, including resistance genes to fusarium wilt, and demonstrates high environmental adaptability. These traits are important for pre-breeding programs, whether by conventional breeding, which is a lengthy process, or by taking advantage of somatic cell manipulation techniques such as somatic hybridization, which requires an efficient plant regeneration system like somatic embryogenesis. We have established an efficient and comprehensive protocol for somatic embryogenesis of this w
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Dhiya Nabilla Ardhani, Awang Maharijaya, and Megayani Sri Rahayu. "Callus formation response from immature male flower explant of plantain banana (Musa acuminata x Musa balbisiana cv. Kepok) treated by 2,4-D and BAP." Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy) 52, no. 1 (2024): 101–9. http://dx.doi.org/10.24831/jai.v52i1.49008.

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Callus induction is an important step in indirect somatic embryogenesis. The aim of this study was to obtain an optimal medium for the callus formation of plantain bananas (cv. Kepok). The research was conducted from May to August 2022 at the Tissue Culture Laboratory of PT. ITCI Kartika Utama, Penajam Paser Utara District, East Kalimantan. The explant used an immature male flower of plantain banana (cv. Kepok). The experiment used a completely randomized design with two factors concentration of 2,4-D (1,2 and 4 ppm) and BAP (5, 10, and 15 ppm). The appearance of callus was monitored daily unt
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Natarajan, Nandhakumar, Sathish Sundararajan, Sathishkumar Ramalingam, and Perinba Suresh Chellakan. "Efficient and rapid in-vitro plantlet regeneration via somatic embryogenesis in ornamental bananas (Musa spp.)." Biologia 75, no. 2 (2019): 317–26. http://dx.doi.org/10.2478/s11756-019-00358-0.

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Zhao, Xiaobing, Yiting Zhuang, Wangyang Xie, et al. "Allelic Expression Dynamics of Regulatory Factors During Embryogenic Callus Induction in ABB Banana (Musa spp. cv. Bengal, ABB Group)." Plants 14, no. 5 (2025): 761. https://doi.org/10.3390/plants14050761.

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The regulatory mechanisms underlying embryogenic callus (EC) formation in polyploid bananas remain unexplored, posing challenges for genetic transformation and biotechnological applications. Here, we conducted transcriptome sequencing on cultured explants, non-embryogenic callus, EC, and browning callus in the ABB cultivar ‘MJ’ (Musa spp. cv. Bengal). Our analysis of differentially expressed genes (DEGs) revealed significant enrichment in plant hormones, MAPK, and zeatin biosynthesis pathways. Notably, most genes in the MJ variety exhibited balanced expression of the A and B alleles, but A-spe
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Novak, F. J., R. Afza, M. Van Duren, M. Perea-Dallos, B. V. Conger, and Tang Xiaolang. "Somatic Embryogenesis and Plant Regeneration in Suspension Cultures of Dessert (AA and AAA) and Cooking (ABB) Bananas (Musa spp.)." Nature Biotechnology 7, no. 2 (1989): 154–59. http://dx.doi.org/10.1038/nbt0289-154.

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Khaskheli, Allah Jurio, Muharam Ali, Shahla Baloch, et al. "Regulation of Callus Induction Efficiency in Banana Using Dichlorophenoxyacetic Acid in combination with Benzylaminopurine." Journal of Horticulture and Agricultural Sciences 1, no. 01 (2024): 28–38. https://doi.org/10.63459/jhas.2024.1.04.

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The regulation of callus induction in banana (Musa spp.) was investigated using plant growth regulators, specifically 2,4 dichlorophenoxyacetic acid (2,4 D) combined with other growth regulators to enhance callus formation efficiency. Different concentrations of 2,4 D, indole 3 acetic acid (IAA), and benzylaminopurine (BAP) were added to Murashige and Skoog (MS) basal medium to evaluate their effects on callus induction frequency, initiation time, proliferation efficiency and the number of regenerated calli. Results demonstrated that callus induction was significantly modulated by hormone conc
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Grapin, A., J. Schwendiman, and C. Teisson. "Somatic embryogenesis in plantain banana." In Vitro Cellular & Developmental Biology - Plant 32, no. 2 (1996): 66–71. http://dx.doi.org/10.1007/bf02823133.

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Handayani, Tri, Diyah Martanti, Apriliana Dyah Prawestri, et al. "Histological Analysis of Somatic Embryogenesis from Immature Zygotic Embryo of Wild Banana Musa acuminata ssp. malaccensis." Journal of Tropical Crop Science 11, no. 03 (2024): 307–19. http://dx.doi.org/10.29244/jtcs.11.03.307-319.

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Somatic embryogenesis, a crucial plant regeneration method, has become indispensable for crop improvement, particularly for species reliant on somatic cell manipulation techniques. Optimization of this process necessitates an understanding of the developmental stages involved. This study investigates the histological aspects of somatic embryogenesis in Musa acuminata ssp. malaccensis derived from immature zygotic embryos. Through detailed histological analysis, we aimed to elucidate the morphological changes and cellular organization occurring during the various stages of somatic embryogenesis
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P D, Smitha, Binoy K R, and Ashalatha S Nair. "Identification of Serk Gene from Bract Derived Embryogenic and Non - Embryogenic Calli of Four Diploid Banana Cultivars from South India." Journal of Agricultural Studies 5, no. 4 (2017): 161. http://dx.doi.org/10.5296/jas.v5i4.12213.

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Somatic embryogenesis receptor kinase (SERK) gene is known to be a marker of somatic embryogenesis in several plant species. The present study reported the presence of SERK gene from bract derived embryogenic calli bearing somatic embryos. The analysis of the expression pattern of the SERK gene during embryogenic cell formation and somatic embryogenesis revealed that SERK expression continued during pro embryogenic mass formation. In the present study the amplified product of cDNA from the somatic embryos has molecular size 1459 bp. The non- embryogenic callus also showed the presence of faint
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Dissertations / Theses on the topic "Bananas Somatic embryogenesis"

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Becker, Douglas Kenneth. "The transformation of banana with potential virus resistance genes." Thesis, Queensland University of Technology, 1999. https://eprints.qut.edu.au/37023/6/37023_Digitised_Thesis.pdf.

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One approach to reducing the yield losses caused by banana viral diseases is the use of genetic engineering and pathogen-derived resistance strategies to generate resistant cultivars. The development of transgenic virus resistance requires an efficient banana transformation method, particularly for commercially important 'Cavendish' type cultivars such as 'Grand Nain'. Prior to this study, only two examples of the stable transformation of banana had been reported, both of which demonstrated the principle of transformation but did not characterise transgenic plants in terms of the efficiency at
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Kuo, Chun-Wei, and 郭俊緯. "The Somatic Embryo-Derived Cell Suspension Culture, Polar Induction and Somatic Embryogenesis of Triploid Bananas." Thesis, 2003. http://ndltd.ncl.edu.tw/handle/21603413220540926646.

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碩士<br>國立臺灣大學<br>園藝學研究所<br>91<br>Embryogenic cell suspensions of Musa AAB cv. Raja were obtained by releasing embryogenic cells from somatic embryos in liquid MS medium with various nitrate/ammonium ratios, 4 mg/L 2, 4-D and 1 mg/L 2, 4-D. Embryogenic cells could not obtain successfully in MS media with full nitrate and ammonium. Nitrate and ammonium must supply simultaneously despite the nitrate/ ammonium ratios and all obtained embryogenic cells in 9 weeks faster about 2 to 4 months than embryogenic cell suspensions derived from male flowers. Somatic embryogenesis was induced at high 2, 4-D b
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HE, JIA-XING, and 何佳幸. "The changes in protein composition accompany somatic embryogenesis of banana (Musa AAB)." Thesis, 1989. http://ndltd.ncl.edu.tw/handle/57613399368159753101.

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Liu, Chiou Fang, and 劉秋芳. "Studies on caulogenesis and somatic embryogenesis in endosperm tissue culture of diploid banana.(Musa spp.)." Thesis, 1999. http://ndltd.ncl.edu.tw/handle/13750164329781641377.

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碩士<br>國立臺灣大學<br>園藝學研究所<br>87<br>The purpose of this research is intending to study the morphogenic competence including organogenesis and somatic embryogenesis in the endosperm tissue of diploid bananas. (1) Endosperm development and induced morphogenic competence: The development of endosperm tissue could be classified into five stage, as nuclear、cellular、glutinous、solid and mature stage. The developmental time table requires 85-145 days and vary with flowering season. Endosperm culture of nuclear , celluar and mature stage showed none morphogenic potential. The glutinous stage is
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Huang, I.-Ching, and 黃怡菁. "Studies on somatic embryogenesis of cell suspension culture and protoplast culture in triploid banana (Musa AAA and AAB)." Thesis, 1994. http://ndltd.ncl.edu.tw/handle/22550086694527347339.

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Book chapters on the topic "Bananas Somatic embryogenesis"

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Krikorian, A. D., and M. E. Scott. "Somatic Embryogenesis in Bananas and Plantains (Musa Clones and Species)." In Somatic Embryogenesis and Synthetic Seed II. Springer Berlin Heidelberg, 1995. http://dx.doi.org/10.1007/978-3-642-78643-3_16.

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Escobedo-GraciaMedrano, Rosa María, Adrián José Enríquez-Valencia, Muhammad Youssef, Pablo López-Gómez, Carlos Iván Cruz-Cárdenas, and José Roberto Ku-Cauich. "Somatic Embryogenesis in Banana, Musa ssp." In Somatic Embryogenesis: Fundamental Aspects and Applications. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-33705-0_21.

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López, Jorge, Aymé Rayas, Víctor Medero, Arletys Santos, Milagros Basail, and Yoel Beovides. "Somatic Embryogenesis in Banana (Musa spp.)." In Methods in Molecular Biology. Springer US, 2022. http://dx.doi.org/10.1007/978-1-0716-2485-2_8.

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Hu, Chunhua, Yuanli Wu, and Ganjun Yi. "Gamma Irradiation of Embryogenic Cell Suspension Cultures from Cavendish Banana (Musa spp. AAA Group) and In Vitro Selection for Resistance to Fusarium Wilt." In Efficient Screening Techniques to Identify Mutants with TR4 Resistance in Banana. Springer Berlin Heidelberg, 2022. http://dx.doi.org/10.1007/978-3-662-64915-2_2.

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AbstractIn this chapter, the establishment of embryogenic cell suspension (ECS) cultures using immature male flowers of triploid banana (Musa AAA Cavendish subgroup cv. ‘Brazil’), followed by somatic embryogenesis and plantlet regeneration is described. Mutation induction is achieved by exposing the ECS to gamma irradiation with the dose of 80 Gy. The mutagenized cell population is transferred to solid long-term suspension culture medium for 96 h to recover from mutagen treatment shock, followed by somatic embryo induction and development medium containing 20% crude culture filtrates from Fusa
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Sowmya, H. D., T. R. Usharani, and Sukhada Mohandas. "Somatic Embryogenesis as a Tool in Genetic Transformation." In Banana: Genomics and Transgenic Approaches for Genetic Improvement. Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-1585-4_10.

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Kumari, Shivani, Archana Yadav, Akhilesh Kushwaha, and Atul Kumar Singh. "ROLE OF BIOTECHNOLOGY IN PAPAYA (CARICA PAPAYA)." In Futuristic Trends in Biotechnology Volume 3 Book 22. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bkbt22p3ch3.

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Papaya (Carica papaya L.) holds significant importance as a fruit crop in tropical and sub-tropical regions. In India, it gives earnings rivaling (higher yield per hectare) next to banana It is a fast growing herbaceous plant and also used as a filler plant in orchards.. And within this chapter, our focus will be directed towards an exploration of diverse methodologies of unconventional and biotechnological approaches in papaya which include micropropagation, organogenesis, embryo rescue, anther culture, somatic embryogenesis, protoplast culture for improvement of papaya. Most important topic
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