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Journal articles on the topic 'Biotization'

Author: Grafiati
Published: 18 April 2022
Last updated: 30 July 2025

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1

Yablonskaya, M. I., M. S. Gins, and M. A. Molchanova. "In vitro biotization." RUDN Journal of Agronomy and Animal Industries, no. 1 (2016): 15–20. http://dx.doi.org/10.22363/2312-797x-2016-1-15-20.

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2

Rafferty, S. M., J. G. Murphy, and A. C. Cassells. "BIOFUNCTIONAL COMPOSTS AND BIOTIZATION." Acta Horticulturae, no. 631 (March 2004): 243–51. http://dx.doi.org/10.17660/actahortic.2004.631.31.

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3

Castro Molina, Yulimar, Joyce Dória, Ana Milena Gómez Sepúlveda, Luna Queiroz Carvalho, Moacir Pasqual, and Ederson da Conceição Jesus. "Biotization with Plant Growth-Promoting Bacteria Benefits the Survival and Production of Potato (Solanum tuberosum L.) In Vitro and In Vivo." Horticulturae 11, no. 4 (2025): 393. https://doi.org/10.3390/horticulturae11040393.

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Bacterial inoculation stimulates growth and adaptation in micropropagated plants. This study evaluated the effects of biotization on in vitro seedling production and in vivo adaptation in two potato cultivars, Agatha and Duvira. Nine bacterial strains were tested for hormone production and ACC deaminase activity and then inoculated in vitro and re-inoculated in vivo. Growth, adaptation, and tuber production were assessed. Biotization significantly enhanced seedling growth, survival, and tuber yield. Biotized seedlings had a 1.3-fold higher survival rate than the controls. Azospirillum brasilen
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4

Gianinazzi, S., L. Oubaha, M. Chahbandar, B. Blal, and M. C. Lemoine. "BIOTIZATION OF MICROPLANTS FOR IMPROVED PERFORMANCE." Acta Horticulturae, no. 625 (September 2003): 165–72. http://dx.doi.org/10.17660/actahortic.2003.625.17.

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5

Ragonezi, Carla, Ana Teresa Caldeira, Rosário Martíns, et al. "Biotization of the mediterranean stone pine (Pinus pinea L.)." Current Opinion in Biotechnology 22 (September 2011): S46. http://dx.doi.org/10.1016/j.copbio.2011.05.118.

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6

Maria A. Germanà, Maurizio Micheli, Benedetta Chiancone, Carmen Bianco, Fabrizio G. Casales, and Roberto Defez. "BIOTIZATION OF ENCAPSULATED IN VITRO DERIVED PROPAGULES OF CARRIZO CITRANGE." Acta Horticulturae, no. 1065 (January 2015): 663–69. http://dx.doi.org/10.17660/actahortic.2015.1065.83.

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7

Espinoza-Mellado, María del Rosario, Marcial García-Pineda, and Angélica Rodríguez-Dorantes. "Biotization of Fouquieria splendens callus as protective strategy against cadmium damage." International Journal of Current Research in Biosciences and Plant Biology 7, no. 6 (2020): 1–12. http://dx.doi.org/10.20546/ijcrbp.2020.706.001.

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8

Indravathi, G., and P. Suresh Babu. "Enhancing acclimatization of tissue cultured plants of Albizia amara by Biotization." International Journal of Scientific Research in Biological Sciences 6, no. 4 (2019): 43–50. http://dx.doi.org/10.26438/ijsrbs/v6i4.4350.

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9

Nowak, Jerzy. "Benefits ofin vitro “biotization” of plant tissue cultures with microbial inoculants." In Vitro Cellular & Developmental Biology - Plant 34, no. 2 (1998): 122–30. http://dx.doi.org/10.1007/bf02822776.

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10

Castro, Mário Rui da Costa Basílio e., Carla Ragonezi, Paulo Guilherme Leandro de Oliveira, and Maria Amely Zavattieri. "A Novelty System for Biotization of Plant Microshoots and Collection of Natural Compounds." Methods and Protocols 2, no. 1 (2019): 5. http://dx.doi.org/10.3390/mps2010005.

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An in vitro plant microshoot culture system composed of two phases; a liquid phase overlaid by a floating solid phase, which is described in detail herein. This system is designed to enable the extraction of natural compounds released/disseminated into the liquid phase during root growth, thus facilitating their processing and biochemical characterization. The solid phase holds the plant afloat and enables the simultaneous culture of a microorganism, yet avoiding its penetration into the liquid phase, where the roots are submerged. Both phases can be independently formulated as required for gr
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11

Singh, Bharat, and Ram Avtar Sharma. "Yield enhancement of phytochemicals by Azotobacter chroococcum biotization in hairy roots of Arnebia hispidissima." Industrial Crops and Products 81 (March 2016): 169–75. http://dx.doi.org/10.1016/j.indcrop.2015.11.068.

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12

Panigrahi, Sunitha, Dr K. Aruna Lakshmi, Prof Y. Venkateshwarulu Prof. Y.Venkateshwarulu, and Md Wajid Ali Khan Md Wajid Ali Khan. "Biotization and Enhanced Growth of Tissue Cultured Plants by Inducing Dual Combination of Soil Bacteria." Indian Journal of Applied Research 3, no. 9 (2011): 497–99. http://dx.doi.org/10.15373/2249555x/sept2013/149.

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13

Zhilyaeva, Natalia, Lyudmila Tokhtar, Denis Biryukov, and Mikhail Tretyakov. "The influence of biotization on the morphophysiological parameters of regenerants of Vaccinium uliginosum l. at the stage of adaptation to ex vitro conditions." BIO Web of Conferences 181 (2025): 02015. https://doi.org/10.1051/bioconf/202518102015.

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The study assessed the biotization of regenerated Vaccinium uliginosum plants (Patriot cultivar) during adaptation to ex vitro conditions. The morphophysiological state of the plants was assessed non-invasively using a 3D multispectral scanner Phenospex PlantEye F500, which made it possible to obtain objective data on changes in digital biomass, green leaf index, height, maximum height, leaf shade, leaf inclination angle, leaf area, leaf area index, projected leaf area, leaf inclination, light penetration depth, NDVI (normalized differential vegetation index), NPCI (normalized chlorophyll inde
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14

Singh, Bharat, Pooran M. Sahu, Mukesh Aloria, Samar S. Reddy, Jagdish Prasad, and Ram A. Sharma. "Azotobacter chroococcum and Pseudomonas putida enhance pyrroloquinazoline alkaloids accumulation in Adhatoda vasica hairy roots by biotization." Journal of Biotechnology 353 (July 2022): 51–60. http://dx.doi.org/10.1016/j.jbiotec.2022.05.011.

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15

Arslan, Ebru, and Özlem Akkaya. "Biotization of Arabidopsis thaliana with Pseudomonas putida and assessment of its positive effect on in vitro growth." In Vitro Cellular & Developmental Biology - Plant 56, no. 2 (2020): 184–92. http://dx.doi.org/10.1007/s11627-019-10045-z.

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16

Castro-Restrepo, Dagoberto, Maria Isabel Dominguez, Bertha Gaviria-Gutiérrez, Edison Osorio, and Karina Sierra. "Biotization of Endophytes Trichoderma asperellum and Bacillus subtilis in Mentha spicata Microplants to Promote Growth, Pathogen Tolerance and Specialized Plant Metabolites." Plants 11, no. 11 (2022): 1474. http://dx.doi.org/10.3390/plants11111474.

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In the present study, the effect of biotization of Mentha spicata microplants with Trichoderma asperellum and Bacillus subtilis on growth, Rhizoctonia sp., incidence, and specialized metabolites content was evaluated. Analyses of root tissues of the microplants showed 100% endophytism with both microorganisms. During the acclimatization phase, plants with the endophytes T. asperellum and B. subtilis had a survival rate of 95% and 93%, respectively, compared to 75% for control plants. Then, under greenhouse conditions, a trial was carried out with biotized plants with or without Rhizoctonia sp.
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17

Parkash, Vipin, and Ankur Jyoti Saikia. "Production and Multiplication of Native Compost Fungal Activator by Using Different Substrates and Its Influence on Growth and Development of Capsicum chinensis Jacq. “Bhut Jolokia”." Biotechnology Research International 2015 (January 6, 2015): 1–7. http://dx.doi.org/10.1155/2015/481363.

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In vitro experiment was carried out to see the effect of saw dusts of Pinus kesiya, Shorea robusta, and Callicarpa arborea on Trichoderma harzianum, isolate TH-13 mass production, along with its biotization effect on Capsicum chinensis Jacq. “Bhut Jolokia.” Early mycelium initiation (2 days) occurred in S. robusta followed by P. kesiya and C. arborea (3.5 days). The sporulation was observed earlier in S. robusta (100% after 6 days) than P. kesiya (33.4% after 8 days) and C. arborea (16.7% after 9 days) but no sporulation was observed in control. The complete sporulation was also earlier in S.
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18

Lim, Shey-Li, Sreeramanan Subramaniam, Ishak Zamzuri, and Hamzah Ghazali Amir. "Biotization of in vitro calli and embryogenic calli of oil palm (Elaeis guineensis Jacq.) with diazotrophic bacteria Herbaspirillum seropedicae (Z78)." Plant Cell, Tissue and Organ Culture (PCTOC) 127, no. 1 (2016): 251–62. http://dx.doi.org/10.1007/s11240-016-1048-8.

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19

Pushpakanth, P., R. Krishnamoorthy, R. Anandham, and M. Senthilkumar. "Biotization of tissue culture banana plantlets with Methylobacterium salsuginis to enhance the survival and growth under greenhouse and open environment condition." Journal of Environmental Biology 42, no. 6 (2021): 1452–60. http://dx.doi.org/10.22438/jeb/42/6/mrn-1707.

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Aim: This study aimed to investigate the impact of M. salsuginis TNMB03 biotization on tissue culture banana cv. Grande Naine plantlets growth and survival under greenhouse and open environmental condition (exposed to direct sunlight). Methodology: Banana plantlets were transferred from culture flasks to protray and maintained under the greenhouse and open environmental condition for 30 days with or without M. salsuginis TNMB03 treatment. After 30 days, plant growth parameters like pseudostem height, girth, number of leaves, leaf area, fresh and dry biomass, root parameters, plantlet survival,
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20

Parkash, Vipin, Ranjna Kaundal, Supriti Paul, and Meghna Thapa. "Quality Stock Production of Aquilaria malaccensis Lamk. Using Arbuscular Mycorrhizal Inoculation: Restoration of Agarwood Source." Asian Journal of Research in Agriculture and Forestry 10, no. 1 (2024): 106–16. http://dx.doi.org/10.9734/ajraf/2024/v10i1274.

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Aquilaria malaccensis Lamk. is a critically endangered and economically important forest tree species of North-east India. In the current study, a biotization experiment was performed to show the effect of arbuscular mycorrhizae on obtaining high-quality agarwood-producing plants. One-month-old seedlings were inoculated in a designed experiment with single and combined endomycorrhizal treatments. All inoculated seedlings showed significant biomass production than control seedlings. The Biovolume index (Bi) was higher in all inoculated plant seedlings than in non-inoculated control seedlings bu
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21

Martinez-Rodriguez, America, Celia Beltran-Garcia, Benjamin Valdez-Salas, Fernando Santacruz-Ruvalcaba, Paolo Di Mascio, and Miguel J. Beltran-Garcia. "Micropropagation of Seed-Derived Clonal Lines of the Endangered Agave marmorata Roezl and Their Compatibility with Endophytes." Biology 11, no. 10 (2022): 1423. http://dx.doi.org/10.3390/biology11101423.

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A. marmorata is the raw material used for tepextate mescal production but is classified as an endangered species. In the present study, we obtain and multiply clonal lines of Agave marmorata Roezl by selecting seedlings derived from seeds. Ten seedlings from two lots of 400 germinated seeds were selected for axillary bud proliferation induced by BAP 5 mg/L in vitamin-free Murashige and Skoog’s medium. Differences in shoot numbers, heights and senescent tissue formation were observed. Notably, the AM32 line formed 84 shoots and presented low senescent tissue after 60 d of culture. We also selec
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22

Lim, Shey-Li, Sreeramanan Subramaniam, Md Abdul Baset Mia, Abdul Rahman Siti Rahmah, and Amir Hamzah Ahmad Ghazali. "Biotization of in vitro oil palm (Elaeis guineensis Jacq.) and its plant-microbe interactions." Frontiers in Plant Science 14 (April 18, 2023). http://dx.doi.org/10.3389/fpls.2023.1150309.

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Continuous discovery of novel in vitro plant culture practices is always essential to promote better plant growth in the shortest possible cultivation period. An alternative approach to conventional micropropagation practice could be achieved through biotization by inoculating selected Plant Growth Promoting Rhizobacteria (PGPR) into the plant tissue culture materials (e.g., callus, embryogenic callus, and plantlets). Such biotization process often allows the selected PGPR to form a sustaining population with various stages of in vitro plant tissues. During the biotization process, plant tissu
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23

Ważny, Rafał, Roman J. Jędrzejczyk, Piotr Rozpądek, et al. "Bacteria Associated with Spores of Arbuscular Mycorrhizal Fungi Improve the Effectiveness of Fungal Inocula for Red Raspberry Biotization." Microbial Ecology 87, no. 1 (2024). http://dx.doi.org/10.1007/s00248-024-02364-5.

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AbstractIntensive crop production leads to the disruption of the symbiosis between plants and their associated microorganisms, resulting in suboptimal plant productivity and lower yield quality. Therefore, it is necessary to improve existing methods and explore modern, environmentally friendly approaches to crop production. One of these methods is biotization, which involves the inoculation of plants with appropriately selected symbiotic microorganisms which play a beneficial role in plant adaptation to the environment. In this study, we tested the possibility of using a multi-microorganismal
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24

Salotti, Ariel Horacio, Mauro Enrique Yarte, and Ezequiel Enrique Larraburu. "Biotization with plant growth promoting bacteria in micropropagation of Jacaranda mimosifolia." Trees, October 25, 2023. http://dx.doi.org/10.1007/s00468-023-02457-7.

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25

Susek, A., J. P. Guillemin, M. C. Lemoine, et al. "Effect of rhizosphere bacteria and endomycorrhizal fungi on the growth of Christmas rose ( Helleborus niger L.)." European Journal of Horticultural Science, January 2010, 85–88. https://doi.org/10.1079/ejhs.2010/1430857.

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Summary Micropropagated and vegetative (by rhizome cuttings) propagated plants of Christmas rose ( Helleborus niger L.) were tested for their responses to the inoculation with microorganisms in order to optimize root growth and development. In our experiment, plants were inoculated with arbuscular endomycorrhizal fungi or/and Agrobacterium radiobacter . The investigation indicated that inoculation with A. radiobacter had significantly positive effect on growth and development of plants multiplicated by in vitro techniques as compared to the dual inoculation. This study indicates that, biotizat
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26

Sharma, Nishesh, Nishant Kumar, Jerin James, Sonika Kalia, and Shiwani Joshi. "Strategies for Successful Acclimatization and Hardening of In Vitro Regenerated Plants: Challenges and Innovations in Micropropagation Techniques." Plant Science Today, September 2, 2023. http://dx.doi.org/10.14719/pst.2376.

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The micropropagation technique serves as an effective approach for conserving and propagating numerous plant species. Challenges to its success encompass explant selection, media composition, hormone concentration, microbial contamination, incubation conditions, and photoperiod. Beyond these factors, the veracity of tissue culture hinges on successful acclimatization of in vitro regenerated plants to their natural surroundings. Tissue culture-derived plants exhibit characteristic variations like altered nutrition, reduced cuticular wax, non-functional stomata, etc. During transition to natural
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27

Ważny, Rafał, Roman J. Jędrzejczyk, Piotr Rozpądek, Agnieszka Domka, and Katarzyna Turnau. "Biotization of highbush blueberry with ericoid mycorrhizal and endophytic fungi improves plant growth and vitality." Applied Microbiology and Biotechnology, June 22, 2022. http://dx.doi.org/10.1007/s00253-022-12019-5.

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28

Podwyszyńska, Małgorzata, Teresa Orlikowska, Anna Trojak-Goluch, and Agnieszka Wojtania. "Application and Improvement of In Vitro Culture Systems for Commercial Production of Ornamental, Fruit, and Industrial Plants in Poland." Acta Societatis Botanicorum Poloniae 91 (July 14, 2022). http://dx.doi.org/10.5586/asbp.914.

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Abstract This work focuses on the achievements of Polish researchers in the field of vegetative reproduction of plants under in vitro conditions. For more than 50 years, micropropagation methods have been used in Poland whenever vegetative reproduction is necessary. Most perennial horticultural crops, such as fruit plants, the majority of ornamental geophytes, and some vegetables (e.g., rhubarb and horseradish), require clonal reproduction owing to their high heterozygosity, i.e., their offsprings when reproduced from seeds, do not repeat the parental characteristics. Various goals have been p
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29

Brito, Liliane Martins de, Flávio Zanette, Luiz Antonio Biasi, Murilo Dalla Costa, and João Frederico Mangrich dos Passos. "Morphological identification of Ilyonectria liriodendri and its interaction with plant growth-promoting bacteria in grapevine rootstocks." Revista Brasileira de Fruticultura 41, no. 4 (2019). http://dx.doi.org/10.1590/0100-29452019140.

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Abstract In order to analyze the pathogenicity and antagonism between grapevine rootstocks and soil microorganisms, plant growth-promoting bacteria with antibiotic effect were selected from the phytopathogen Ilyonectria liriodendri, 2T-VSC-101 isolated monosporic, in in vitro antibiosis tests. The bacterial access that produced the largest zone of inhibition was used in the seedling biotization of the grapevine rootstocks P1103, IBBT481 and VR039-16. From the interaction between isolates of plant growth-promoting bacteria and Ilyonectria liriodendri isolate resulted in three bacterial isolates
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30

Mirjani, Leila, Leila Mirjani, Azam Salimi, Mohammad Matinizadeh, Khadijeh Razavi, and Maryam Shahbazi. "Biotization with Glomus fasciculatum to enhance the acclimatization and absorption of nutrients by micropropagated savory (Satureja khuzistanica Jamzad) plantlets." Journal of Elementology, no. 2/2019 (February 6, 2019). http://dx.doi.org/10.5601/jelem.2018.23.4.1681.

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31

Selvaraj, Anandakumar, and Kalaiselvi Thangavel. "Effect of Glomus intraradices spore abundance of the inoculum on percent mycorrhizal colonization and growth of Vigna mungo (L.) Hepper." Plant Science Today, July 15, 2022. http://dx.doi.org/10.14719/pst.1653.

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Arbuscular mycorrhizal (AM) fungi are well known symbiotic microorganism found to improve the growth of host plant by mobilizing immobile nutrients, mainly phosphorus, from the soil. However, the effect of AM fungi on host plant growth depends on the percentage mycorrhizal colonization, whereas it is not clear that the percent mycorrhization impacts by AM fungal spore abundance of the inoculum. Therefore, the current investigation was conducted to know the effect of percent mycorrhization of Glomus intraradices on the growth of blackgram inoculated with varied numbers of AM fungal spores via s
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32

Mortier, Emma, Olivier Lamotte, Fabrice Martin-Laurent, and Ghislaine Recorbet. "Forty years of study on interactions between walnut tree and arbuscular mycorrhizal fungi. A review." Agronomy for Sustainable Development 40, no. 6 (2020). http://dx.doi.org/10.1007/s13593-020-00647-y.

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AbstractWalnut trees are among the most important hardwood species in the northern hemisphere, ecologically and economically. They are mainly cultivated for timber and nut production but are also attractive ornamental trees in parks. Establishing walnut orchards is difficult because seedlings have a coarse root architecture and few of them survive to transplanting. Planting success is mainly determined by the root system morphology and the nutrient status of the seedlings, so that rhizosphere conditions are critical for plant performance. Walnut trees can associate with soil-borne arbuscular m
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