Enhanced Carbonylation of Photosynthetic and Glycolytic Proteins in Antibiotic Timentin-Treated Tobacco In Vitro Shoot Culture

Andriūnaitė, Elena; Rugienius, R.; Tamošiūnė, Inga; Haimi, Perttu; Vinskienė, Jurgita; Baniulis, Danas

doi:10.3390/plants11121572

Cited by 3 publications

(1 citation statement)

References 110 publications

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“…The lyophilized samples were weighted and submerged with HClO 4 (0.2 M) solution and centrifuged, and the supernatant absorption was sampled at a 450 nm wavelength. The calculations were made according to Andri ūnait ė et al [16].…”

Section: Rosmentioning

confidence: 99%

Ploidy’s Role in Daylily Plant Resilience to Drought Stress Challenges

Misiukevičius,

Mažeikienė,

Stanys

2024

Biology

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This study aimed to understand the differences in the performance of diploid and tetraploid daylily cultivars under water deficit conditions, which are essential indicators of drought tolerance. This research revealed that tetraploid daylilies performed better than diploid varieties in arid conditions due to their enhanced adaptability and resilience to water deficit conditions. The analysis of the results highlighted the need to clarify the specific physiological and molecular mechanisms underlying the enhanced drought tolerance observed in tetraploid plants compared to diploids. This research offers valuable knowledge for improving crop resilience and sustainable floricultural practices in changing environmental conditions. The morphological and physiological parameters were analyzed in 19 diploid and 21 tetraploid daylily cultivars under controlled water deficit conditions, and three drought resistance groups were formed based on the clustering of these parameters. In a high drought resistance cluster, 93.3% tetraploid cultivars were exhibited. This study demonstrates the significance of ploidy in shaping plant responses to drought stress. It emphasizes the importance of studying plant responses to water deficit in landscape horticulture to develop drought-tolerant plants and ensure aspects of climate change.

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Section: Rosmentioning

confidence: 99%

Ploidy’s Role in Daylily Plant Resilience to Drought Stress Challenges

Misiukevičius,

Mažeikienė,

Stanys

2024

Biology

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Reasons and riddance of Agrobacterium tumefaciens overgrowth in plant transformation

Sutradhar

Mandal

2023

Transgenic Res

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Endophytic bacterial community dynamics in sweet cherry in vitro shoot culture and their role in shoot adaptation after cryopreservation

Vinskienė,

Tamošiūnė,

Rugienius

et al. 2024

BMC Plant Biol

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Background In vitro cultivation and cryopreservation techniques are essential tools for genetic diversity conservation and pathogen-free plant propagation of horticultural crops. The optimisation of cryopreservation protocols typically focuses on minimising the negative effects of pretreatment with cryoprotectors (CPs), cryogenic freezing (CF) treatment, and recovery procedures on explants. However, the impact of in vitro and CF techniques on plant-associated microbiota remains poorly understood, and their potential to improve plant adaptation after cryopreservation is underexplored. The aim of the present study was to investigate in vitro shoot culture and cryopreservation-induced changes in the endophytic bacterial diversity of two sweet cherry cultivars and to assess the potential of an inoculum of bacterial isolates to improve the growth of shoot culture after CF. Results Cultivars ‘Sunburst’ and ‘Mindaugė’ showed different responses to cold hardening preconditioning as well as different survival and regrowth rates after cryopreservation. Metataxonomic analysis revealed variation in the abundance and taxonomic composition of bacteria assigned to 35 families in samples of field-grown tree leaves, dormant buds, and in vitro shoot culture before and after CF treatment. Bacillaceae and Enterobacteriaceae bacteria were predominant in the leaf samples of both cultivars. For ‘Sunburst’, Pseudomonadaceae and Sphingomonadaceae bacteria were dominant in dormant buds and in vitro shoots, respectively, while Burkholderiaceae was largely predominant in the shoots following CF treatment. Conversely, ‘Mindaugė’ tissues exhibited more consistent colonisation by Bacillaceae and Enterobacteriaceae across the experimental groups, except for in vitro shoots where Mycobacteriaceae prevailed. A pure bacterial isolate inoculum was applied to the ‘Mindaugė’ shoot culture to counter the CF treatment-induced suppression of shoot growth (~ 40%). Cocultivation with Brevibacterium sp. S1-2, Bacillus cereus S1-3, or B. toyonensis Nt18 increased the shoot leaf area from 48 to 75%. Conclusions This study revealed that endophytic bacterial diversity is significantly reduced under in vitro conditions, often leading to a genotype-specific increase in the abundance and dominance of bacteria attributed to a single bacterial family. Moreover, shoot cocultivation with endophytic bacterial isolates has potential for improving the recovery of in vitro shoots after cryopreservation.

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Enhanced Carbonylation of Photosynthetic and Glycolytic Proteins in Antibiotic Timentin-Treated Tobacco In Vitro Shoot Culture

Cited by 3 publications

References 110 publications

Ploidy’s Role in Daylily Plant Resilience to Drought Stress Challenges

Ploidy’s Role in Daylily Plant Resilience to Drought Stress Challenges

Reasons and riddance of Agrobacterium tumefaciens overgrowth in plant transformation

Endophytic bacterial community dynamics in sweet cherry in vitro shoot culture and their role in shoot adaptation after cryopreservation

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