Research Topic: tissue culture

Effect of Suberoylanilide Hydroxamic Acid and Phytosulfokine-Alpha on Successful Plant Regeneration from Embryogenic Callus-Derived Protoplasts of Garlic (Allium sativum L.)

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Scientists developed a new method to grow garlic plants from isolated plant cells (protoplasts), overcoming previous challenges in this difficult technique. They used special chemicals called SAHA and phytosulfokine to help cells divide and develop into complete plants. The new protocol successfully regenerated over 1,100 garlic plants with a 70% success rate for surviving outside the laboratory, offering new possibilities for garlic breeding and genetic improvement.

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In Vitro Mycorrhization for Plant Propagation and Enhanced Resilience to Environmental Stress: A Review

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This review examines how beneficial fungi called arbuscular mycorrhizal fungi (AMF) can be grown alongside plants in laboratory conditions to improve plant growth and stress tolerance. These fungi form partnerships with plant roots, helping them absorb more nutrients and water while protecting them from diseases and environmental stress. By combining this mycorrhizal inoculation with plant tissue culture techniques, scientists can produce large numbers of healthier, more resilient plants for agriculture.

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In Vitro Mycorrhization for Plant Propagation and Enhanced Resilience to Environmental Stress: A Review

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Mycorrhizal fungi form beneficial partnerships with plant roots, significantly improving plant health and resilience to environmental stresses like drought and disease. Scientists can now grow these fungi in laboratory conditions alongside plant tissues to create enhanced plants that are stronger and more productive. This in vitro mycorrhization approach offers a sustainable alternative to chemical fertilizers and pesticides, potentially revolutionizing agriculture to better withstand climate change challenges while maintaining food security.

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Morphological and molecular identification of endophytic fungi from roots of epiphyte orchid Aerides odorata Lour in Sabah

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Scientists studied fungi living inside the roots of a rare fragrant orchid called Aerides odorata. Using advanced microscopy and DNA analysis, they identified seven different types of fungi that help the orchid absorb nutrients and grow. These fungi form special structures called pelotons inside the plant’s root cells. This research helps scientists understand how to better grow and protect endangered orchids.

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