Regeneration and Agrobacterium-mediated genetic transformation in Dianthus chinensis | Semantic Scholar (2024)

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@article{Zhang2021RegenerationAA, title={Regeneration and Agrobacterium-mediated genetic transformation in Dianthus chinensis}, author={Xiaoni Zhang and Quanshu Wu and Shengnan Lin and Zhen Zhang and Zehao Wang and Qijian Wang and Xiuli Yan and Mohammed Bendahmane and Manzhu Bao and Xiaopeng Fu}, journal={Scientia Horticulturae}, year={2021}, volume={287}, pages={110279}, url={https://api.semanticscholar.org/CorpusID:236303196}}
  • Xiaoni Zhang, Quanshu Wu, Xiaopeng Fu
  • Published 20 September 2021
  • Agricultural and Food Sciences
  • Scientia Horticulturae

4 Citations

4 Citations

Efficient plant regeneration and genetic transformation system of the precious fast-growing tree Toona ciliata
    Wenmai MaoHuiyun Song Pei Li

    Environmental Science, Biology

    Industrial Crops and Products

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Melatonin strongly enhances the Agrobacterium- mediated transformation of carnation in nitrogen-depleted media
    Omid AalamiP. Azadi Leila Samiei

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    BMC Plant Biology

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A novel and efficient Agrobacterium-mediated transformation system using callus as the target explant for four commercial carnation cultivars is established, andMelatonin and lipoic acid can considerably promote the shoot regeneration from transformed callus.

  • 1
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A Stable and Efficient Genetic Transformation Method for Embryogenic Callus of Fraxinus mandshurica
    Y. AnHao DongWenna ZhaoHai-long ShenLing YangShujuan Li

    Environmental Science, Biology

    Forests

  • 2023

A novel genetic transformation method for efficient transformation of the embryonic callus of Fraxinusmandshurica was investigated and the method was optimized in terms of factors such as antibiotics, infection solution concentrations, co-culture time, and somatic embryo maturation.

  • PDF
Phenylmethylsulfonyl fluoride pulse and cold storage independently or synergistically alleviate postharvest losses in Dianthus chinensis L.
    S. ParveenFoziya AltafS. FarooqAnwaar Ul HaqI. Tahir

    Agricultural and Food Sciences

    Scientia Horticulturae

  • 2022
  • 2

45 References

Reliable and Efficient Agrobacterium tumefaciens-Mediated Genetic Transformation of Dianthus spiculifolius
    Jingang WangS. Liu Aimin Zhou

    Agricultural and Food Sciences

  • 2020
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Regeneration and Agrobacterium -mediated transformation studies in carnation ( Dianthus caryophyllus L. cv. Turbo)
    S. AriciN. K. Koç

    Agricultural and Food Sciences

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An appropriate regeneration system for later studies on carnation and an efficient technique for the transformation of important genes that can resist diseases, using A. tumefaciens were developed.

Transgenic carnations obtained byAgrobacterium tumefciens-mediated transformation of leaf explants
    A. V. AltvorstTjitske RiksenH. KoehorstH. Dons

    Biology, Environmental Science

    Transgenic Research

  • 2005

For the development of anAgrobacterium-mediated transformation procedure of carnation (Dianthus caryophyllus L.), an intron-containing β-glucuronidase (gus) gene was used to monitor the frequency of

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Genetic Transformation of Carnation (Dianthus Caryophyllus L.)
    A. YantchevaM. VlahovaE. TodorovskaA. Atanassov

    Agricultural and Food Sciences, Biology

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Transgenic plants of carnation (Dianthus caryophyllus) were obtained by Agrobacterium mediated transformation and presence of the npt II gene in plants was confirmed by PCR and Southern blot analysis.

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Recovery of Transgenic Plants by Agrobacterium-mediated Genetic Transformation in Dianthus caryophyllus L. (carnation)
    J. K. KanwarSurinder Kumar

    Agricultural and Food Sciences, Biology

  • 2011

The selected transformants showed normal phenotypes under in vitro and in vivo conditions and the efficiency of two regeneration systems with insect resistance (cry 1AB) gene was compared.

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Effect of ‘Chloroxynil’ on Agrobacterium-mediated transformation efficiency of Lilium cv ‘Manissa’
    H. AbbasiR. NaderiM. KafiP. AzadiMorteza Shakh-AsadiKeichii Okazaki

    Agricultural and Food Sciences

  • 2020
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Comparison of Agrobacterium-mediated transformation of four barley cultivars using the GFP and GUS reporter genes
    F. MurrayRichard BrettellP. MatthewsD. BishopJohn V. Jacobsen

    Agricultural and Food Sciences

    Plant Cell Reports

  • 2003

This study has demonstrated for the first time that Agrobacterium-mediated transformation can be used to transform the Australian cultivars Sloop and Chebec and proved GFP proved to be an excellent reporter of early transformation events.

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A non-antibiotic selection strategy uses the phosphomannose-isomerase (PMI) gene and green fluorescent protein (GFP) gene for Agrobacterium-mediated transformation of Prunus domestica L. leaf explants
    T. SidorovaR. MikhailovA. PushinD. MiroshnichenkoS. Dolgov

    Agricultural and Food Sciences

    Plant Cell, Tissue and Organ Culture (PCTOC)

  • 2016

The described transformation protocol using a positive PMI/mannose system is an alternative selection system for production of transgenic plum plants without genes of antibiotic and herbicide resistance, and the use of leaf explants enables retention of cultivar traits of plum plants.

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Somatic embryogenesis and transformation of the diploid Rosa chinensis cv Old Blush
    P. VergneM. MaeneGuillaume GabantAurélie ChauvetT. DebenerM. Bendahmane

    Biology, Agricultural and Food Sciences

    Plant Cell, Tissue and Organ Culture (PCTOC)

  • 2009

Improved refinements of the callus maintenance medium generated a more typical rose embryogenic callus displaying high levels of secondary embryogenesis and embryos with limited cotyledon expansion that will be useful for gene functional studies.

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Improvement of a Genetic Transformation System and Preliminary Study on the Function of LpABCB21 and LpPILS7 Based on Somatic Embryogenesis in Lilium pumilum DC. Fisch
    Shengli SongRui YanChunxia WangJinxia WangHongmei Sun

    Biology, Agricultural and Food Sciences

    International journal of molecular sciences

  • 2020

The genetic transformation technology previously developed by the team based on the L. pumilum system was improved, and the genetic transformation efficiency increased by 5.7–13.0%, laying the foundation for subsequent studies of the molecular mechanism of Lilium SE.

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